{"metadata":{"id":"003de6b7c7c8ac0bc359321c931a99f2","source":"gardian_index","url":"https://www.alphavisa.com/agroforestry/2019/documents/Agroforestry2019-Book-of-Abstract-v1.pdf"},"pageCount":933,"title":"Under the High Patronage of Mr Emmanuel MACRON President of the French Republic","keywords":["Plenary Session 3 -Agroforestry, Food security and Nutrition Honduran farmers' perception of cacao agroforestry systems L1.2 -Mitigating climate change with agroforestry agroforestry, carbon sequestration, soil organic carbon, ecosystem services, Random Forest C sequestration, integrated crop-livestock systems, ecosystem biogeochemistry, biodiversity, SOC fractionation soil, Carbon storage, Agroforestry, Diachronic analysis, Madagascar Biomass crops, Marginal land, Climate change mitigation, Soil organic carbon Soil organic carbon, Soil bulk density, Agroforestry systems, Colombian Amazon, Forest-to-pasture conversion Ecology, SLU, Uppsala, Sweden silvopastoralism, soil carbon, tree growth, low carbon farming, eddy covariance Agroforestry, Soil quality, Spatial gradient, Microbial activities, Organic matter L1.2 Mitigating CC agroforestry management, carbon sequestration, ecosystem services, home- Agroforestry 2019 -Regular Talk L1.2 Mitigating CC L01.2_O.02 Brazilian Amazonia, Elaeis guineensis Agroforestry 2019 -Regular Talk L1.2 Mitigating CC Agroforestry 2019 -Regular Talk L1.2 Mitigating CC Gleysol, shrub legume, soil respiration, tropical grasses Agroforestry 2019 -Regular Talk L1.2 Mitigating CC carbon storage, soil respiration, carbon budget, grazed, hedgerows Agroforestry 2019 -Regular Talk L1.2 Mitigating CC Carbone sequestration, emission factor, climate change mitigation, land use change Agroforestry 2019 -Regular Talk L1.2 Mitigating CC deep roots, deep SOC, SOC modeling, priming effect, C sequestration Agroforestry 2019 -Regular Talk L1.2 Mitigating CC Carbon balance, CO2 flux, Sustainable intensification, Mitigation potential, Climate change adaptation Agroforestry 2019 -Regular Talk L1.2 Mitigating CC Agroforestry, Climate Change, Tree Management, Livestock, Soil Organic Matter Agroforestry 2019 -Regular Talk L1.2 Mitigating CC Congo bassin, soil-atmosphere, CO2 fluxes, Cocoa agroforest, mixed crop field Multistrata system, cover crop, amazon, degradation Abundance, Mitigation, Non-linear, Timber volume Biomass, Fixation, Necromass, Roots, Soil organic carbon Microbial activity, Farms renovated, CO2 emissions land degradation, drylands, climate change, mitigation, restoration sahel, Soil Carbon, soil nitrogen, tree alley cropping, silvoarable system, deep SOC, potential mineralization, metabolic quotient silvoarable system, alley cropping, earthworm abundance, earthworm diversity, carbon sequestration Mitigation, Aboveground biomass, Amazon, Bolivia, Variance partition riparian buffer, windbreak, carbon sequestration, Quebec sequestration, Grassland, cropping system, agroforestry, carbon stocks carbon sequestration, REDD+, agroforestry systems, climate change, mitigation Agroforestry, Litter decomposition, Enzymatic activities, Spatial gradient Agroforestry, Phytoremediation, Carbon Sequestration, Bioremediation, Poverty reduction Carbon mitigation, Greenhouse gas, Arable farmland, European grassland C fractioning, macroagregates, microagregates. L1 Mitigating CC CENTURY Model, Soil Carbon Dynamics, Agro-forestry, Tectona grandis, Western Ghats GHG emissions, Carbon stock, Robusta coffee, Input intensification carbon footprint, carbon, forest, soil, biomass Accumulation rate, farmer, fertilization, soil types, system Eddy Covariance, Faidherbia albida, Millet, GHG balance, SOM. L1 Mitigating CC Carbon sequestration, CENTURY model, Soil carbon, Tree species, Climate change. L1 Mitigating CC carbon balance, carbon sequestration, olive biomass, Traditional olive grove, Intensive and Superintensive olive grove. L1 Mitigating CC soil organic carbon, humus, shelterbelt, carbon sequestration, POXC soil organic carbon, infiltration, root penetration resistance, aboveground biomass growth dynamic agroforestry, biochar, terra preta, chipped wood, mitigation of climate change. L1 Mitigating CC climate change, mitigation, GHGs Juglans nigra, agroforestry, carbon, sequestration Cloud Tropical Mountains forests, Coffee management systems, Mixed forest system, Agroforestry systems Agroforestry, climate change mitigation, soil organic carbon, dry combustion Piliostigma reticulatum, allometric relations, biomass, Burkina faso Coffea arabica, Theobroma cacao, Resilience, El Nino, Yield Variability species distribution modelling, priority tree species, restoration, habitat change, AFRICLIM grapevine, microclimate, yield, grape juice quality Gender, Asset, Climate Change, Adaptation strategies Agroforestry systems, climate change, traditional ecological knowledge, ecosystem services, food security Smallholder farmers' perceptions, Highland agroforestry systems, Climate change vulnerability, Socioeconomic and environmental sustainability, Indigenous people and traditional knowledge competition, functional traits, phenotypic plasticity, roots, Theobroma cacao CORDEX, HADCM3 model, process-based model, system resilience, Albizia gummifera Climate scenario, Tree growth, Woody biomass, Short rotation coppice, Modelling L2.2 Adaptation to CC climate change, adaptation, mitigation, resiliency Agroforestry 2019 -Regular Talk L2.2 Adaptation to CC L02.2_O.02 National Adaptation Plan, adaptation, agroforestry, climate change, policies. L2.2 Adaptation to CC Agroforestry, Coffee, Resilience, Nicaragua, Climate change Agroforestry 2019 -Regular Talk L2.2 Adaptation to CC Stress, Modeling, Growth, Optimal temperature, Agroforestry climate change, PAR reduction, daily temperature cycle, water availability Agroforestry 2019 -Regular Talk L2.2 Adaptation to CC Cocoa Agroforestry Systems, remnant primary forest, total carbon stocks, soil macroporosity, water availability Agroforestry 2019 -Regular Talk L2.2 Adaptation to CC Faidherbia effect, LER_M, Drone, yield, pests Agroforestry 2019 -Regular Talk L2.2 Adaptation to CC resilient communities, agroforestry systems, climate change adaptation, super zone development program, water and land management Agroforestry 2019 -Regular Talk L2.2 Adaptation to CC Agroforestry, Sustainability, Climate Change, Combined food and energy, Public Goods Vegetation, Agroforestry, Ecosystem, Climate Cocoa, Shaded cocoa, climate change adaptation, Crown architecture, Ghana Rainout shelter, Drought experiment, Alley cropping. L2 Adaptation to CC Native shrubs, Rainfall variability, Fertilization, Climate information, FMNR Ants, Biodiversity, Carbon footprint. L2 Adaptation to CC Sicily, sustainability, value of products, reforestation, desertification Agroforestry, soybean, soil, water, yield Tylosis, resilence to drought, disease, Cocoa, climate change biochar, climate change, gas emission Wood, Medicinal plants, Cultivation, Biodiversity conservation, Agroforestry reforestation, forestry, alley cropping, microclimate, soil Shade trees, cocoa agroforestry, soil moisture, cocoa yields, dry season Bayesian networks, adaptation, cooling effect, agroforestry, temperature suitability Agroforestry, Basin planting, CSA, Planting windows, Soil moisture climate change adaptation, Intergovernmental Panel on Climate Change, IPCC assessment report, IPCC, crop stability Climate Change, Climate-Smart Practices, Agriculture, Agroforestry climate change, climate sensitivity, WaNuLCAS, West Africa Farmers, Climate Change, Adaptation, Livelihood, Networks dry tropics, Ruminants, silvopastoral systems, tropical trees, forage tree. L2 Adaptation to CC agrofprestry, climate change, food security, Bangladesh Traditional Agroforestry, Eastern Himalayas, Cultivated Systems, Climate Change, Resilience Agroforestry, Innovation, Interdisciplinary, Stakeholders, Sustainability temperate agroforestry, carbon sequestration, Canada Risk, Attitude, Dryland areas, Agroforestry, Utility theory agroforest, cocoa-trees, productivity, food security, Cameroon Tree species, Hydrology, Natural flood risk management, Fraxinus, Tree roots agroforestry, landscape, soil, climate, biodiversity robusta coffee, lengthening, dry, season, agroforestry legume slash and burn, cassava, agroforestry elastic model, amazon, climate change tropical peatlands, landscape restoration, agroforestry tree density, vegetation structure, regeneration, Macrotermes natalensis, Malawi Farmers, Fodder, Drylands, Growth, Trees Amazon, AFS, restoration pearl millet, groundnut, native woody shrubs, Sahel L3 Land Degradation Soil carbon, Soil health, Infrared spectroscopy, soil monitoring, drylands agroforestry systems, forest shelterbelts, climate changes, protection Peanut shell, Nacl, Restoration, S.senegal, P.juliflora Agroforestry 2019 -Regular Talk L3 Land Degradation afforestation, carbon stock, coal bio-briquette, salt-affected soil, soil amelioration. L3 Land Degradation A. senegal, Regeneration, Carbon stock, Biomass, Disturbance Sahel, Agroforestry systems, Acacia albida, Degradation, Restoration browsing, forest, Tierra del Fuego, Plant association, shrubs Ramial chipped wood, agroforestry species, Organosolv lignin, Soil quality, Tomato yields Agroforestry 2019 -Poster L3 Land Degradation Fodder, Fruit, Household, Land holding, Livelihood strategy Optimized Shrub Intercropping, remediating degraded soils, Sahel, millet, groundnut bocage, Sahel, Hedged farmland, Land restoration, Greening the Desert L3 Land Degradation Litterfall, Soil fertility, Parkland, Agroforestry species, Agroforestry landscape Agroforestry systems, pruning, natural abundance, nutrient cycling, fodder Agroforestry species, Yield, P availability, Microbial biomass P Agroforestry, Soil fertility, Melia, Casuarina, nutrient African blackwood, germination, seedling growth, natural regeneration, dry lands Improved fallow, Acacia senegal, Cameroon, Soil fertility, Restoration soil water content, Compacted soils, Infiltration trench, Subsoiling, trees Agaveforestry, México, land remedation, small farmer Adaptive Multi Paddock, Silvopastoral systems, Grassland production, Grazing management, Pasture quality Moisture, nutrient status, poplar, spacing Ecosystem services, soil ecology, biodiversity, aboveground-belowground Forest specialist, monophagous, indicator species, indigenous farming systems, spatial turnover semi-natural habitats, agricultural landscape, biodiversity conservation, weeds, community ecology Biodiversity production, pollinators, stakeholders perception, diachronic approach, ecosystem degradation silvoarable systems, forest shelterbelts, herbaceous plants, soil mesofauna, soil biological quality Contamination, Insect diversity, Nettle, Phytomanagement, Poplar landscape ecology, pollinators, farm forest, agricultural intensification, connectivity insect species richness, species abundance, ants, borer beetle, parasitoid Conservation status, Climatic zones, Agroforestry, Floristic inventory, West Africa Pollen-based land-cover, past landscape burning, impacts of changing monsoon, biodiversity changes in its tropical hotspot, Anthropocene Biodiversity, Swidden, Agroforestry, Oil palm, RSPO Agroforestry 2019 -Regular Talk L4.2 Biodiversity 4 th World Congress on Agroforestry Strengthening links between science, society and policy dynamic agroforestry, biodiversity, orange and cocoa, system comparison, birds Agroforestry 2019 -Regular Talk L4.2 Biodiversity 4 th World Congress on Agroforestry Strengthening links between science, society and policy H. albipuntella, Tree species, natural regulation, Biodiversity conservation, Senegal restoration, motivations, biodiversity, family farmers, social drivers Agroforestry 2019 -Regular Talk L4.2 Biodiversity L04.2_O.10 Carbon stocks, Biodiversity, Agroforestry Agroforestry systems, aboveground plant biomass, high conservation value of biodiversity, Côte d'Ivoire Wild edible mushrooms, Manipur, Biodiversity, Domestication, Employment opportunities for rural tribes Forest and Landscape Restoration, Coffee arabica L., Ecological indicators, Tropical forest restoration, Coffee agroforestry. L4 Biodiversity pollinators, agroforestry, pollination services, bees, insects Biodiversity, Conservation values, Agroforestry systems, cultural practices, Côte d'Ivoire. L4 Biodiversity soil engineers, Agroforestry, Oil palm, Diversity bioindicators, desertification, land use change, shrublands, woodlands Traditional, Northeast India, multipurpose, diversity. L4 Biodiversity Agroforestry systems, ethnobotanical knowledge, tree resources conservation, Bouba Ndjidda National Park, woody plant diversity Agroforestry, Biodiversity, Plant For the Planet, Hedges, 100 millions silvopastoral system, biodiversity, livestock, Ilex paraguariensis St. Hil., forest regeneration. L4 Biodiversity plant diversity, soil carbon, tree canopy, chronosequence, legume-rich pastures Agroforestry, Exotic tree species, Fruit trees, Ornamental trees Agroforestry, Biodiversity, Carbon stock, Dry zone homegarden, Sri Lanka conservation priorities, Traditional agroforestry systems, local knowledge, useful plants, Ouémé catchment Livestock, biodiversity, Mexico, agroforestry, connectivity agroforestry systems, belts of forest and agricultural vegetation, game species, wild species, growth and development Carbon project, Agroforestry, Senegal, ARLOMOM, Patako diversity, agroforestry, Thailand medicinal, aromatic, ethnobotany, traditional uses, plant conservation agroforestry, native species, Guáimaro, recovery of biodiversity Cloud forest regeneration, Maize monoculture, Milpa shifting cultivation, Narrowrange species Agroforestry System, Ananas comosus, pre-Hispanic, Biodiversity, Agroecosystems Eastern Himalayas, Traditional Agroforestry, Indigenous Farming Systems, Species Diversity, Biodiversity silvopastoralism, agroforestry practice in herbs cultivation, a network of forest stands and windbreaks. L4 Biodiversity hedges, soil biodiversity, soil biological activity, beneficial effect, soil food web Shifting cultivation, Biodiversity conservation, Soil fertility, Microbial diversity, sustainability macronutrient leaching, fertilized agroforestry system, hybrid aspen, perennial grasses Agroforestry 2019 -Regular Talk L5 Water Greenhouse gas, Riparian buffer, Carbon dioxide, Nitrous oxide, Methane Denitrification, Illumina sequencing, Land-use type, Nitrification, Nitrous oxide agroforestry, vegetation cover, water management, soil degradation, grassroots innovation Agroforestry, Riparian Zones, Water, GHG emissions Fulvic acid, water quality, chestnut forest, ecosystem service, mineral water riparian, agroforest, functional trait, functional diversity, greenhouse gases village forest, social forestry, environmental services, conservation behavior, community-based forest management hydrologic and hydrodynamic, climate regulation, free Eco-Systemic Services, agroforestry parkland, Sahel wadi, agroforestry, tribal, migration, livelihoods agroforestry parklands, Landscape restoration, Intra-household dynamics, Tree resources, Resilience Gender, Cocoa agroforestry, Vulnerability, climate change, adaptation Shea tree, women, climate change, flowering, fruting Gender issue, Fuel wood, Cow dung cake, socio-economic Agroforestry, Climat Change, Mexico, Impact Assessment, Mitigation Wild Perennial Crops, Value Chains, Sahel, Lost Crops, Food Processing Nepal, community forestry, livelihoods, under-utilised land, food security PPP, dairy, carbon, cooperatives, restoration Sustainable cocoa, inclusive business, responsible finance, smallholders, multistakeholder approaches economic diversification, Zambia, land restoration, Pongamia pinnata, mine site reclamation. Traditional production Carapa procera oil in Burkina Faso Native trees, Oil production, Africa, Local knowledge, Underutilized species slash and burn agriculture, protected areas, \"roça caiçara\" Populus deltoides, Poplar Clones, Plantations, socio-economic status, carbon-sequestration local economy, short food circuit, retraining, practical training, jobs Agroforestry systems, practices, research, Eritrea Landscape, Social innovation, Stakeholders, Policies, Concertation Alley cropping, active mushroom cultivation, sheep grazing, innovative practices, farmer network Research and Development, practitioner needs, outstanding questions, literature review, knowledge gaps Landscape, Complexity, Bioviversity, Diversity of products, online survey agroforestry, agricultural extension, learning, West and Central Africa, resilience agroecology, food security, homestead, on farm niche, priority species Traditional agroforestry in Iran, Modern Agroforestry in India, restoration of degraded lands, Agro-ecological zones Agro-ecology, Farmer managed natural regeneration, Lowland, Midland Smallholders, Trees on farms, Plantation forestry, Incentives Land Use Land Cover Change, Informed Policy-and Decision-Makings, Productivity, Resilience, RRCs Shea, Parkland, Natural regeneration, socialwelbeing, livelihood improvement extension, farmer2farmer, mentoring Agroforestery, Riparian areas, Wildlife, Tree crops, Oil palm large-scale agroforestry, regenerative-agroforestry, service-species, syntropicagroforestry, biomass Commercialization, food security, markets, productivity, value chains zambia, REDD+, Agroforestry systems, value chains drying, processing, fruits, nuts regenerative agriculture, certification standard, ecosystem services, measurable criteria Agroforestry, Business models, Entrepreneur, Value chain, Transition Waste Products, Economic Opportunities, Agroforestry certification, value chain, livelihood agroforestry, value chain, environmental services, smallholder, network Coffee & cocoa, Agroforestry, Vertical coordination, Risk aversion, Contract farming bioplastics, bio-fibres, sustainability, innovations Agroforestry,, biodiversity, indigenous knowledge, Gedeo alley cropping, financial balance, poplar clones, tree-crops interactions, stable isotopes Underutilized Trees, New product development, Community-based processing, Food security Agricultural productivity, Soil fertility, Runoff, Soil erosion, Trade-offs Hedgerow intercropping, Poplar, production, spacing Rubber, Analog agroforestry, Hainan agroforestry poultry system, climate change Agroforestry, Sustainability, Marketing, NGOs/ INGOs, Policy/ Act Innovative model of herbs production, cultivation of wild plants, sustainable environment of agroforestry system, food products with a health-enhancing effect, farm and production management decision-support, tool, design, guidelines, agroforestry Forage bank, farm autonomy, Concentrate substitution, on-farm biomass production, Intake and performance agroforestry, peatland, indonesia, revegetation, revitalization Knowledge Data Bank, Enrichment, Fulltext index, search Engine, Education Cropping systems, undergrowth, Guadeloupe, farms viability, added value planting, UK, practical, experience, hotel intercropping, yield, soil moisture, weeds, hardwood Syntropic agroforestry, PDCA agroforestry, Biomass production, Apical pruning, Alnus acuminata, green manure, Tree pruning Bateke plateau, Agroforestry, Charcoal production, Shifting cultivation, N2 fixation timber production, seasonal growth, adult trees National Park of Togodo-South, YOTO/LOME, retrocession/valorization, deforestation, Togolese Traditional Chiefdom Agroforestry, Emergy, Integrated food and non food Agroforestry, Demographic pressure, Land saturation, Sahel, Sustainability Land tenure, Financial capital, Partnerships, Landowners, Case studies multistrata, biodiversity, carbon, sequestration, drawdown Parklands, Senegalese Peanut Basin, crop productivity, remote sensing, landscape Rubber, Agroforestry, Hainan, China Agroforestry Systems, Cacao, Irrigation, Returns, Water scarcity Pruning, Sap flow, Maize grain yield, Grevillea robusta Pruning, Sap flow, Grevillea robusta, Maize grain yield Food Forest, Forest Garden, Sustainable Agriculture, Italy, Resilience Faidherbia albida, Safeguard, Phytochemical screening, Biodiversity, Togo, Benin, Niger Shea tree, ANR, plantation, transplantation, seedling Fruit-trees, Market gardening, Management practices, Intercropping, Horticulture entomophagy, Parkia biglobosa, Cirina forda, agroforestry parklands, Cirina butyrospermi dryland agroforestry, socio-ecological resilience, political ecology, participatory restoration, human-nature systems. Co-learning framework for scaling up agroforestry Tree selection, Local knowledge, Farming, Sub-Saharan Africa, Ecosystem services education, experiential learning, soil quality, wood amendment, hedgerow Rotational intensive grazing, Agroforestry Decentralise, Diversity, Food, Energy, Commons Agroforestry Systems, Indigenous Species, Latin America, Investment, Public/ Private Agroecology transition, Institutional markets, Biodiverse agroecosystems Policies, Adoption, Agroforestry systems Adoption, Constraints, Tree cover, Timber transit, Agroforestry models Watershed, biodiversity, Tropical trees sustainable development, Guadeloupe, territory, forest, game of actors Forest and Landscape Restoration, Restoration Opportunities Assessment Methodology, Bonn Challenge, Climate Change Adaptation FARM LIFE, Climate adaptation, agricultural transition CAP, adoption, subsidy, paiment, regulation Santiago-Freijanes1, A. Pisanelli2, M. Rois-Díaz3. Aldrey-Vázquez A4, Rigueiro-Rodríguez A1, Pantera A5, Lojka B6, Ferreiro-Domínguez N1, POLICY, CAP, Measures policy, silvopasture, homegardens, silvoarable, forest farming National policy, Agro-ecology Agroforestry, Agroecology, Agricultural policies, Ecological redesign, Greening Rapid Appraisal, system, urban, scale, local food silvopasture, land allocation, robust optimisation, Panama, farmer interviews agroforestry, Landscape, diversification, farming practices, resilience ecosystem services, family income, coffee agroforestry system, sylvo-pastoralism, home garden Forest regeneration and establishment, LSFRI Silava, Salaspis, Latvia buffer zones, agroforestry buffer zones, willow buffer zones, poplar buffer zones., SRC buffer zones financial assessment, successional system, annual species, technical coefficients Agroforestry 2019 -Regular Talk L12.2 Economics of AF 4 th World Congress on Agroforestry Strengthening links between science, society and policy Customary Land use Systems, Traditional Agroforestry Practices, Protected and Conserved Areas, Bio-cultural diversity Conservation Agroforestry, Climate Change, Coffee and Dairy, Sectoral System of Innovation, Social Innovation, multifunctional forests, sustainability transition, Horizon 2020, European Innovation Partnership Agroforestry 2019 -Regular Talk L12.2 Economics of AF L12.2_O.10 agricultural profitability, forestry potential, agricultural economics Acrocomia, mathematical programming, agroforestry, smallholder, Paraguay Green growth, Landscape management, Agroforestry, Green economy innovation, agroforestry, adoption, rejection, socioeconomic factors Agroforestery, Adoption, Social Fields, Habitus, Dispositif small farm, climate adaptation, land rights, Theobroma cacao, Spondias mombin Value-adding, smallholders, processing, nuts, market Smallholder, agriculture, community forestry, microcredit, agroforestry Agroforestry 2019 -Regular Talk L13.2 Adoption 4 th World Congress on Agroforestry Strengthening links between science, society and policy local agroecological knowledge, agroforestry, adoption, climate adaptation, Morocco Agroforestry, Adoption, Conceptual framework, Case studies Climate smart agriculture, Agroforestry parkland, Factor and regression analysis, Rural households, Farmers' perception Pacific Islands, Challenges Firewood, Parklands, Sustainable consumption, Energy Miombo, Deforestation, Agroforestry, Acacia auriculiformis, Kipushi Adoption, Improved fallow, traditional fallow, advantages, constraints Farmers, Timber Based Mixed Farming Benefits, Potential Classified Agroforestry Systems, Limpopo Province, South Africa Alnus acuminata, Agroforestry, fertilizer trees, socio-economic determinant, adoption species conservation, agroforestry, forest reserve, firewood, west Cameroon Bricolage, Customary land rights, Oil palm agroforestry, Political ecology, soil fertility negotiations, NET-Map, actor, intersectoral, land-use ecosystem services, external costs, biomass production, carbon storage, nutrient loss Forest Transition, Ecological Restoration, Agro-sucessional Restoration, Forest Landscape Restoration, Farmer-Managed Natural Regeneration Operationalisation landscape approach, Grand-strategy, Policy Framework, Integrated agroforestry management. Mutual information between LU_t1 and influence factors Modelling, Agroforestry, Land-use, Bayesian networks, Drivers Quercus suber L., Quercus ilex L., Time series, Contextual Mann-Kendall, Normalized Difference Vegetation Index agroforestry, fire risk, mosaic landscape, vulnerability, resilience Agroforestry system, Sustainable management, criteria, indicators Cork oaks, Mediterranean areas, Forest fires, Fire management, Land management agroforestry, beekeeping, reforestation, agroforestry and tree value chains, livelihoods matrix, oil palm, resilience, restoration, mosaic Landscape, Performance, Monitoring, Evaluation, Integrated Landscape Management agroforestry, visualisation, landscape, city-region food system Food security, agrobiodiversity, homegardens, child nutrition, Dietary Diversity Tree foods, nutrition, diets, local food systems, East Africa urban Agroforestry, urban area, tress, soil fertility, agriculture Urban homegardens, Preference ranking, Urban greening, Tree choice, Urban food security unmanned aerial vehicle, yield estimation, landscape mapping, GEOBIA Populus deltoides, Remote sensing, Carbon stock, Mapping, Object based classification Climate Change, IPCC, Carbon dioxide, Geoprocessing, MODIS dehesa, canopy cover percentage, spectral vegetation index, Landsat, pasture yield LULC classification, silvopastoral system, geoprocessing NDVI, Sentinel-2, Tree Hedgerow, TOF Inventory, Ecological Connectivity Hedgerows, Mapping, Monitoring, Bocages TLS, Lidar, Tree structure, wood-leaves segmentation, tree volume UAV, Digital Surface Model, Digital terrain Model, supervised classification, top canopy height Cocoa-based agroforestry systems, Planting density, Spatial distribution, Age, Productivity Deforestation, Mapping methods, Landscape analysis, Multiple scales, Amazonia cocoa, climate smart agriculture, carbon, REDD+, policy Companion modelling, shade-grown coffee, tree rights, games Alternative floral resources, Apis dorsata, Coffea canephora, Fruit-set, Pollination nutrient transfer, facilitation, litter decomposition, nitrogen budget Ecosystem services, Soil fertility, Cocoa sustainability, Land restoration agroecology, agroforestry, fruit growing, alley cropping oil palm, Indonesia, biodiversity, experiment, tree planting temperate agroforestry, fruit, co-design process, ecosystem service, pest suppression Farmer's perception, Cocoa and coffee agroforests, Preserved trees, Togo Agroecology, Action research, Land-use change, Nicaragua, Coffea Arabica sustainable organic cocoa production systems, Climate-smart practices/buffering of climate extremes, soil fertility, carbon sequestration, reforestation/timber production coffee agroforestry systems, ecosystem services, herbaceous communities, functional traits, biodiversity agroforestry design, large-scale agroforestry planning, yerba mate, olive, pecan walnut Cacao, Intraspecific diversity, On-farm conservation, Peru, Management practices smallholder, shade tree, Ghana, cocoa, pollinator Functional traits, specific leaf area, productivity, cacao, agroforestry systems Theobroma cacao, Côte d'Ivoire, agroforestry, ecological intensification, environmental services temperate agroforestry, fruit, ecosystem service, co-design, research project Carbon sequestration, Ghana, Image Segmentation, Rubber, Remote Sensing cocoa, diversification, management, income, environment Alley cropping, Poplar, Yield, Soil characteristics, Biodiversity Agroforestry, shade, Mediterranean, barley, wheat durum wheat, number of grains per spike, genetic variability Vegetation proximity, shade avoidance, shade tolerance, Arabidopsis thaliana, Cardamine hirsuta Agroforestry, Eucalyptus dunnii, Nitrogen fertilization, Subtropics Experimental site, Agroforestry, nitrogen-fixing trees, Soil erosion, Biodiversity Limiting factor, groundwater, Infiltration, Sapflow, tree density Senegal, Anacardium occidentale L., Arachis hypogaea L, length of the crown, yields herbaceous vegetation, macrofauna, microorganims, soil fertility, sylvoarable herbaceous vegetation, pruning, macrofauna, microorganisms, soil carbon Biomass, Carbon, Maize, Soil, Yield Alley cropping, productivity, profitability, fruit quality, Bangladesh alley cropping, black locust, triticale, yield, tree spacing Alley cropping, Green mulch, Low input, Nitrogen transfer, Weathered soil Agroforestry, Colocasia esculenta, Poplar, Soil, Yield Alley cropping, Short-rotation coppice, Poplar, crop yields, Piché evaporation corn, Eucalyptus dunnii, litter bag, no tillage, subtropic Agroforestry, Poplar, Productivity, Windbreak, Wheat shade, cattle, heat stress, climate change, rangelands Forage technology, Woody forage banks, Ruminant feeding, Dairy production, West Africa legumes, silvopasture, shading, adaptation Small ruminants, Colombian hair sheep, Tropical dry forest, Silvopastoral systems Leaves, Digestibility, Protein, Macro elements, Micro elements silvopasture, thermal-humidity index, forage, light environment, temperature degradability, fodder tree, leave, pollard, high stem fodder tree, alternate bearing, Gleditsia triacanthos, pod silvopastoralism, forage autonomy, codesign. TA: Thermorregulatory Action","IB: Ingestion of Branches","GB: Grazing Behavior","FB: Feeding Behavior. (a, b, c) Averages with same colors and different superscripts differ buffaloes, silvopastoral systems, animal welfare, behavior, thermorregulatory behavior silvopastoral system, caívas, pasture, Ilex paraguariensis, Araucarian Forest nutritive value, fodder trees, botanical families, biodiversity nutritive value, fodder trees, pollard trees, agroforestry, ruminants Gliricidia sepium, branches biomass, leaf biomass, Brachiaria decumbens, Mimosa caesalpiniifolia Silvo-pastoral systems, Native species restoration, Spacing, Thinning guidelines, Colombia silvopastoral, ruminants, innovations tree fodder","cattle","collaborative design","silvopastoral system","multipurpose trees agroforestry, Quercus ithaburensis subsp. macrolepis, ecosystem services, management, forest Agroforestry, Reforestation, Desertification, Biodiversity, Arid regions Meriagos, Wooded grassland, Agro-silvo-pastoral system, Scattered trees, Biodiversity agroforestry, understory legumes, %N derived from atmosphere, partial shade, full sunlight understory, bioactive compounds, HPLC, sunlight, partial shade economic efficiency, nutritional quality, silvopastoral systems, social impact alternative forage, family farming, native trees, leaves, legume Copper, Sylvopastoralism, sheep, vineyard, organic agroecology, agroforestry, co-creation, biodiversity, ecosystem services nutrients, feedstocks, environmental-friendly, crop yield, farm materials complex agroforestry systems, ecosystem services, diversification, resilience, agroecology Sapflow, Cordia africana, Albizia coriaria, pruning Agroecology, Decomposition, Intraspecific trait variation, Tree-based intercropping, Willow (Salix dasyclados) Net CO2 balance, allometric models, Integrated pest management, Soil conservation technics, Product differentiation Agroecology, Agroecosystem management, Biophysical interactions, Coffee, Functional traits Litter biomass, Fallow phase burning effect on soil nutrient, Potential Mineralizable Nitrogen, Microbial Biomass Carbon, Soil Enzyme Agroforestry, agroecology, functional pattern, system design, ecosystem services Agroforestry area, N cycling, Nitrogen fixing trees, Chemical N Fertilizers, Tree-crop combinations Microorganisms, Dispersion, Hedgerows, Agricultural management, Adventices cocoa, shade type, plant traits, soil fertility, agrosystem functions ramial, woodchip, hedgerow, agroforestry Dioscorea hirtiflora subsp. pedicellata Milne-Redh, tubers, wild edible plants, Zambia, semi-natural forests Genetic resources, Germplasm, Association mapping, Crop improvement strategy. Agroforestry 2019 -Regular Talk species distribution models, potential natural vegetation, seed zonation, species selection, synecological maps. Agroforestry 2019 -Regular Talk Shade adaptation, Coffea arabica, Biochemical, Transcriptomic, AFS markers Characterisation, Conservation, Fruit pulp, Grafting, Nutrition Tree domestication, Impact evaluation, Systems, Participation cutting, domestication, growth, IBA, seed Senegal, Casamance, improvement strategy, Anacardium occidentale L, agroforestry system Heterozygosity, Genetic divesity, Single Nucleotide polymorphism, Genotyping by sequencing, Threatened species Fodder Trees, Agroforestry, Silvipasture, Genetic improvement Conservation genetics, Microsatellite, Afzelia africana, Benin top 100, forest landscape restoration, useful tree species, databases, invasiveness Dodonea viscosa, Threatment, Save biodiversity, Togo agroforestry, tree domestication, indigenous fruit tree species, diversity, West Africa domestication syndrome, Dacryodes edulis, wild populations, cultivated populations, Tropical Africa macropropagation, micropropagation, rare tree, 6-benzylaminopurine, indole-3-butryric acid Breeding, Crude protein, Desert date, Iodine, Tree selection Agroforestry, progeny trial, border effect, peasants, tree elimination Garcinia kola, conservation, microsatellite markers, Central Africa, NTFP biological control, biodiversity, birds, bats, Africa SIR model, Colletotrichum kahawae, Bayesian inference, Mechanistic-statistical approach, Agroecological crop protection Mixed fruit tree-vegetable plots, Alley cropping, Brassica, Conservation biological control, Malus Hemileia vastatrix, Shade Dispersal, Inoculum stock, Througfall kinetic energy, Raindrop interception, Spore washoff. Left: High leaf retention under CLR infected shaded coffee Right: High leaf senescence under CLR infected unshaded coffee agroecological zones, Diseases, Leaf span, Severity Integrated pest management, Shade trees, Spatial structure, Cameroon Faidherbia albida, disease attack, phenotypes, Sahel, Niger Coffee agroforestry, Coffe Berry Disease, Coffee Leaf Rust, Spatial structure, Kenya Coffea arabica, coffee leaf rust, Hemileia vastatrix, throughfall kinetic energy, fungal plant disease Hypothenemus hampei, shade, natural control, structural equation modeling Hemileia vastatrix, Outbreak, Chemical control, Fertilizer Guiera senegalensis, Piliostigma reticulatum, Pennisetum glaucum, Sorghum bicolor metabarcoding, phenology, root length density, root distribution, under-tree herbaceous vegetation root competition, cover crop, organic, water, yield Forage biomass, Harvesting frequency, Plant spacing, Soil carbon, Aggregate distribution Biomass, Productivity, Nutrient, fine roots, coarse roots arbuscular mycorrhiza, dry deciduous woodland, water deficit, soil fertility, C. myrrh AMF, Plant Community, Carbon Stock, Root colonization, Spore density Auto Root Draw, Machine learning, Rhizotron, Roots Images, Data extraction Olive tree, AMF, root colonization, soil fertility peatland restoration, aerenchyma root, plant trait, Indonesia Photosynthetically active radiation, Modelling, Variable light process-based, Coffea arabica, Erythrina, NPP, growth Vitis vinifera, agroforestry vineyards, radiative budget, DART, 3D modeling Policy Impact, Impact Assessment, Integrated Agricultural Production Systems, Agent-based model, Participatory modeling agroforestry, soil carbon, dynamic vegetation model, carbon dioxide, silvoarable Stable isotopes ratios, Isoscapes, Ecophysiology, Spatial Analysis, Geostatistics Multi-agent platform, Integrated assessment and modelling, Biophysical processes, Landscape-scale, Temperate systems. Decision analysis for agroforestry intervention in Northwest Vietnam decision analysis, holistic model, risks and uncertainties, agroforestry Competition","Facilitation","Roots","light","water","nitrogen System dynamics, decision support tool, waste to resources, biofuel, WISDOM Agroforestry, Apple tree, Competition, Neighbourhood competition index, Mediterranean climate Model, organic matter, long-term, Ethiopia, microsites competition, water, nitrogen, alley cropping, intercropping alley cropping, silvoarable, model, genetic algorithm, optimization conservation agriculture, sensitivity analysis, climate, DSSAT, West Africa mixed systems, solar panels, joint production, Land Equivalent Ratio agroforestry, restoration, phytoremediation, multispecies, microclimate ex ante assessment, sustainability, agroforestry system, prototype, co-design scientometrics, topic modeling, agroforestry research customary forest, Kampung Naga, Mollo People, Suf, Hutan larangan Knicks, traditional agroforestry, ecosystem services, temperate agroforestry Trees outside ofrest, Caterpillars trees, Regeneration, Yangambi Biosphere Reserve, Democratic Republic of the Congo mapping, windbreaks, solitary trees, small-scale forests, short rotation coppice plantations of poplars Carbonate accumulations, oxalate, Tamarindus indica, Agroforestry, Madagascar tree avenues, hedgerows, green infrastructure, climate change adaptation annatto, Brazilian crops, Brazilian red pepper, red pepper oil"],"chapters":[{"head":"L10.1 -Agroforestry in practice","index":1,"paragraphs":[{"index":1,"size":8,"text":"Chairs: Hesti Tata & Raju Soolanayakanahally Regular talks"},{"index":2,"size":81,"text":"• PRAMESWARI Diana -Bogor, Indonesia: Sustaining economic and ecological contribution to local community through participatory agroforestry practice • IVEZI Vladimir -Osijek, Croatia: Walnut and crop yields in walnut orchards intercropped with wheat • DO Hung -Hanoi, Vietnam agroforestry practice in Northwest Vietnam • DURAND Lucie -Paris, France: Activity analysis of coffee growers in complex agroforestry systems, understanding the farmers' practices • DUGUMA Lalisa -Nairobi, Kenya: Changing the discourse from 'tree planting' to 'tree growing ' to achieve restoration targets through agroforestry"},{"index":3,"size":94,"text":"• ARI Susanti -Yogyakarta, Indonesia: Smallholders' oil palm agroforestry adoption: an opportunity to improve productivity and sustainability? • GUILLET Philippe -Le Mans, France: 30 years of agroforestry poultry system against climate change in Sarthe (West of   • THIAW Ibrahima -Dakar, Senegal: Tree species effect on natural control of H. albipunctella de Joannis in a millet agroforestry system in Senegal • VILLANUEVA LÓPEZ Gilberto -Villahermosa, Mexico: The richness of tree in agroforestry systems favors the diversity of soil macroarthropods in the humid tropics of Mexico • WURZ Annemarie -Goettingen, Germany: Vanilla boom in North-Eastern Madagascar:"},{"index":4,"size":76,"text":"A chance for a sustainable land-use transformation? • SUÁREZ SALAZAR Juan Carlos -Caqueta, Colombia: First typology of cacao agroforests in the Colombian Amazon, based on composition, structure and light availabililty • COUDEL Emilie -Brazilia, Brazil: Agroforestry as a restoration strategy: Motivations of farmers to plant more biodiverse systems in the Eastern Amazon • SARI Rika Ratna -Malang, Indonesia: Carbon stocks in agroforestry systems correlate with tree diversity 4:30 PM to Room Barthez (level 2) 6:00 PM"}]},{"head":"L17.1 -Challenges, opportunities and trade-offs of agroforestry with perennial crops","index":2,"paragraphs":[]},{"head":"Chairs: Philippe Vaast & Eduardo Somarriba","index":3,"paragraphs":[]},{"head":"Regular talks","index":4,"paragraphs":[{"index":1,"size":28,"text":"• BIRKENBERG Athena -Stuttgart, Germany: Accounting for biogenic carbon sequestration in product carbon footprints: analysing trade-offs in a coffee agroforestry • VAN DEN MEERSCHE Karel -Montpellier, France -…/…"}]},{"head":"Agroforestry and world challenges","index":5,"paragraphs":[{"index":1,"size":6,"text":"Agroforestry: riding to the world's rescue"}]},{"head":"-L1 -Mitigating climate change with agroforestry","index":6,"paragraphs":[{"index":1,"size":161,"text":"Grab it back, jack: capture carbon with agroforestry and grasslands Agroforestry systems are known to sequester large amounts of carbon in the tree biomass. Several publications have also shown a positive impact of agrofo restry systems on soil organic carbon (SOC) stocks, especially after a conversion from croplands. These systems are also promoted to adapt agriculture to climate change and to diversify food production systems, and are therefore good candidates to reach the objectives of the 4 per Thousand Initiative.This session welcomes studies exploring changes in SOC stocks and accumulation rates in agroforestry systems compared to other land uses. A special attention will be given to studies looking at deep SOC stocks, and mapping the spatial heterogeneity of SOC within agroforestry systems. This session also encourages studies assessing the drivers and processes of SOC storage and dynamics in agroforestry systems. This includes a full carbon, C stabilization mechanisms (aggregate stability, priming effect…), but also long-term assessment of SOC storage through modeling."},{"index":2,"size":224,"text":"Bioenergy crop production (BCP) systems are considered as promising carbon-mitigation options because of their soil organic carbon (SOC) storage potential (Ashiq et al. 2018). However, there is a research gap in relation to long-term C sequestration comparison between herbaceous and woody biomass cropping systems. This study therefore is aimed at, (a) to quantify above and belowground carbon stocks within an 8-year-old BCP system, and (b) to quantify long term system level carbon sequestration (SLCS) potentials as influenced by woody and herbaceous species. We assessed C sequestration in poplar (Populus spp.), willow (Salix spp.), and switchgrass (Panicum virgatum) cropping systems by destructive sampling technique (Marsal et al. 2016). SOC stock obtained from this study was compared with existing 2009 baseline values. SLCS was determined based on the above and belowground carbon sequestered by the tested bioenergy crops. Results showed that SOC ranged non-significantly from 78.8 Mg ha -1 for switchgrass to 85.8 Mg ha -1 for willow. However, all bioenergy systems were able to increase SOC significantly in the long-term . Findings of this study suggest significant differences in biomass carbon production in woody and herbaceous bioenergy crops and in its components. Overall, considering SLCS, bioenergy production systems can be ranked as willow (96.3 Mg ha -1 ) > switchgrass (93.5 Mg ha -1 ) > poplar system (85.9 Mg ha -1 ) (Figure 1)."},{"index":3,"size":70,"text":"Figure 1. System level carbon (C) gain and its components, belowground biomass carbon (BGC) and soil organic carbon (SOC) in bioenergy production systems, southern Ontario, Canada. Superscripts (x-y) indicate significant differences in system level C gain between bioenergy cropping systems as cate significant differences between SOC in 2017 and the baseline measurements in 2009 for each 2009 baseline for herbaceous and the dotted line indicates baseline for woody cropping system."},{"index":4,"size":220,"text":"The agriculture, forestry and other land use (AFOLU) sector is the main source of anthropogenic greenhouse gas (GHG) emissions in Colombia, generating 62% of the total GHG emissions in the country. Within AFOLU, forest-to-pastor conversion and pasture degradation during the establishment of traditional cattle ranching activities in the Colombian Amazon contribute to reduce the soil organic carbon (SOC) stock by more than 20% and to increase soil compaction (Navarrete et al., 2016; see figure). The Agroforestry for Conservation (A4C) project, an initiative proposed by The Nature Conservancy and the Amazon Conservation Team under the International Climate Initiative, aims to restore natural and productive degraded ecosystems and to reduce deforestation in the Colombian Amazon by promoting the implementation of agroforestry practices. By assessing the growing of agroforestry systems and the secondary forest, the A4C project will monitor its contribution to increase SOC and reduce soil compaction in restored areas of the Colombian Amazon. Some partial results indicate that the establishment of agroforestry systems in degraded pasture areas contributes to increase SOC by 0.3 Mg C ha-1 yr-1 and to reduce soil bulk density by 0.02 g cm-3 yr-1 (see figure). These results emphasize the importance of agroforestry systems in restoring SOC stocks and soil physical properties, highlighting their contribution with the 4 per 1000 Soil for Food Security and Climate Initiative."},{"index":5,"size":624,"text":"Soil organic carbon and soil bulk density dynamics during forest-to-pasture conversion and pasture degradation, and agroforestry establishment Elemental Analyzer. The percentage of carbon was used to calculate the carbon storage per hectare (Mg C ha-1) in the soil fractions. The obtained results showed that the land use modified the carbon storage in the soil fractions, mainly due to the different inputs of organic matter to the soil and the management activities associated with each land use such as the soil tillage or the livestock grazing. In this study, the trees established in the plots increased the carbon storage per hectare in the macroaggregates and in microaggregates probably due to the high inputs of organic matter to the soil coming from the tree leaves and roots. Therefore, in semi-arid areas such as those in this study it could be recommended the implementation of agroforestry systems such as the montado as a land use to mitigate the effect of the climate change, allowing agricultural production. Silvoarable systems are recognized to be able to stock higher amount of carbon (C) respect to conventional arable systems, both accumulating C in total biomass of trees and enhancing the soil organic carbon (SOC) sequestration potential (1). Several methods are available to assess agroecosystem C balance. Since changes in SOC become apparent in decades, soil sampling techniques do not allow to measure differences in short term. The flux approach is considered a good method for the full carbon balance accounting at annual scale. Indeed, it is an indirect method to estimate all carbon fluxes (2), suitable to quantify the net biome production (NBP), namely the net carbon gains/losses, calculated with the following equation ( 3): NBP=CAGB+CBGB-CRh-Ch The C inputs in the NBP calculation are the C in the aboveground biomass (CAGB) and in the belowground biomass of trees and crop (CBGB), while the C outputs are the C lost with the heterotrophic respiration (CRh) and with the harvested biomass (Ch). The aim of this work was to assess the potential agroecosystem carbon storage through the NBP of three systems: open field (OF), agroforestry (AF) and poplar short rotation forestry (SRF). The experimental field, which includes the three systems, was located in Pisa (Italy) at 3 m a.s.l. in a loam to clay loam soil. Rows of short rotation coppice (2 years cut cycle) poplar are spaced 13.5 m. Poplar (Populus spp. clone AF2 and Monviso) was planted in 2009, sorghum (Sorghum bicolor L.) was sown in open field plots and in poplar alleys in June 2018. In AF, the distance from trees was considered as a factor, sampling all the NBP components along a transect in the alley with 3 positions (AFW, westward; AFC, center; AFE, eastward). The experimental design included 4 replicates for each system and position. In each system, initial soil characterization was carried out and microclimate conditions were monitored in continuum by meteorological stations recording air temperature, wind speed, soil temperature and soil water content (SWC). The CAGB, CBGB and Ch were calculated multiplying the biomass dry weight per the biomass C concentration. The aboveground biomass was measured at harvest weighting all the crop aerial parts, weeds and litter. The belowground biomass was measured with soil coring at harvest. The harvested biomass was measured weighting sorghum grain and poplar biomass. The CRh was measured with the chamber method (portable CO2 analyser) in a soil CO2 flux partitioning experiment with the root exclusion method (trenching) (4), with weekly measurements. The method adopted in this study will allow to quantify the overall C sequestration potential of agroforestry in Mediterranean conditions considering the carbon accumulation at agroecosystem scale in short time in arable lands and to assess the effect of position along the transect on NBP due to different microclimate conditions."},{"index":6,"size":282,"text":"In Brazil, silvopastoral systems (SPS) are practiced in about 2 million hectares with Eucalyptus hybrids as the main tree species, and the area is increasing because of governmental incentives. To understand the influence of such systems on soil organic carbon (SOC) storage, we studied C content in three aggregate size classes in four land-use systems (LUS) on Oxisols in Prudente de Morais, Minas Gerais, Brazil. The LUS were 8-year-old SPS, planted forest (Eucalyptus hybrid), native (Cerrado) secondary forest, and managed pasture. The SPS had three tree-planting configurations: i) trees 3 m apart in double rows, 20 m between rows (SPS 20); ii) trees 2 m apart in double rows, 9 m spacing (SPS 9D); and iii) trees 2 m apart in single rows, 9 m spacing (SPS 9). The grass in SPS and pasture treatments was Urochloa decumbens. Cattle had been introduced 3 years after planting trees. The native forest was semi-deciduous degraded forest, with > 10 tree species, ~ 10 m height. From each treatment, composite soil samples were collected from each of the depth-classes (0-10, 10-30, 30-60, and 60-100 cm), three replications, and from two sites each in SPS: NT (near trees, 1.5 m from trees) and MR (middle of two rows). In the laboratory, each soil sample was manually fractionated (wet size class were determined and reported as stock (Mg ha per cm) in various soil layers, and compared using R and ANOVA in a completely randomized design and Tukey's studentized range test (significant at p whole soil and MA fraction. The MI fraction had higher SOC under pasture than forest and SPS 20 (NT and AT). For the SC size fraction, no difference was found between the treatments."},{"index":7,"size":188,"text":"Comparing the depths, SOC in MA was higher in the top soil layers. For the MI and SC size fractions, the SOC decreased with depths and were similar at the depths of 30 -60 and 60 -100 cm. Down to 1 m, total SOC stock ranged from 260 Mg ha under pasture to 167 Mg ha under native secondary forest; 174 Mg ha for Eucalyptus plantation; and the three SPS had values in the 190 to 200 Mg ha range. The SPS had higher C stock than the native forest and Eucalyptus plantation, and the highest stock was under pasture. The lowest amount of SOC under forest was a reflection of the poor state of the degraded secondary forest. It will be worthwhile to study if incorporating the native nitrogen-fixing trees (NFT), several of which are available, in SPS would lead to better C storage in soils comparable to or exceeding that under pasture. The relative distribution of C in different soil fraction sizes under SPS with native NFTs is another important line of future investigation, especially considering the status of the Cerrado biome as a biodiversity hotspot."},{"index":8,"size":454,"text":"Production systems with woody perennial plants, ideally timber trees, are technologies accepted in carbon projects to mitigate climate change through carbon sequestration. This research estimated C storage and fixation in coffee production systems in Cundinamarca, Colombia. Carbon in biomass, necromass and soil were estimated in systems with three different shade levels (low, medium and high) in three municipalities (Pacho, San Juan de Rioseco and Tibacuy) using IPCC´s recommendations (2006). Biomass was estimated with allometric equations, being some of them specific. Belowground biomass was estimated with a general model recommended by IPCC. Soil organic carbon was estimated at a 0-30 cm depth, considering the gross fragments. Variance analyses were carried out using the completely randomized design with three treatments (shade levels) and five repetitions per municipality. Soil stored 75% of the total C (93.9-137.7 Mg C ha-1), followed by trees (19%). Carbon increases with a rise in shade (55.8 vs42.0 vs23.0 Mg C ha-1for high, medium and low shade, respectively) (Figure 1a). Coffee bushes contributed just with 6% of total C in biomass and necromass; whereas necromass was the less important component (1-6%). These coffee plantations fixed a mean of 2.3 Mg C ha-1year-1, with a maximum value of ~7.1 Mg CO2 ha-1year-1 under a shade of 30-40% (Figure 1b). Coffee plantations, especially with high shade, have a high potential of C fixation and mitigate climate change. The aims of this study were: (i) assess soil organic carbon (SOC) mineralisation potential as a function of soil depth in an agroforestry (AF) plot compared to an agricultural plot (ii) estimate the contribution of soil inorganic carbon (SIC) to CO2 emissions at different depths. Soils were collected in an 18-year-old AF (tree rows and alleys) and in an adjacent agricultural plot. The incubation comprised four soil replicates per location (control, tree row, alley) and per depth (0-10, 10-30, 70-100 and 160-180 cm). Soil samples were moistened to reach field capacity, of the CO2 were measured after 1,3,7,14,21,28,35 and 44 days. The microbial biomass was measured at the end of the incubation. Decomposition rates were calculated, as well as the metabolic quotient. The cumulated total CO2, SIC-derived CO2 and SOC-derived CO2 emissions were only significantly higher in tree row than in the alley or in the control plot at 0-10 cm. SOC decomposition rates decreased with increasing depth. Contributions of SIC to total CO2 emissions according were comprised between 0.15 and 0.30 in topsoil layers and between 0.50 and 0.70 in subsoil layers. The higher emission in the tree row at 0-10 cm was related to a large amount of labile particulate organic matter. SOC did not seem to be more stabilized in AF compared to the control. SIC-derived CO2 must be taken into account on calcareous soils."},{"index":9,"size":50,"text":"Landscapes with a high share of agroforestry provide more regulating ecosystem services than landscapes dominated by conventional agriculture (Kay et al. 2018). Yet, which type of agroforestry to recommend depends on local and regional conditions and there may be regions where there is a higher need for agroforestry than others."},{"index":10,"size":94,"text":"We identified European farmlands where several ecosystem service (ES) deficits occur at the same time (soil erosion, low soil organic carbon and biodiversity, nitrate surplus, irrigation, low pest control and pollination potential). Almost ten percent of arable and grassland had more than five and four stacked deficits, respectively (Figure 1). In those areas, the introduction of agroforestry can help to reduce ES deficits. We propose 64 candidate agroforestry systems, which are locally adapted and attractive for farmers. They range from lines of trees around arable plots to relatively densely planted silvo-arable and silvo-pastoral systems."},{"index":11,"size":377,"text":"As an example for the reduction of ES deficits, we modelled the potential carbon sequestration of each candidate agroforestry system. The conversion of the 140,000 sqkm of priority farmland to agroforestry would sequester -depending mainly on the tree species and density -between 2 and 64 10 6 t of carbon per year in above and below ground biomass. This would correspond to up to 43 percent of the European greenhouse gas emissions attributed to the agricultural sector. Agroforestry play an important role in climate mitigation trough atmospheric carbon removal by trees photosynthesis activities but the carbon sequestration potential of smallholders agroforestry parkland are not well documented in Burkina Faso. Therefore, agroforestry parkland of smallholders' farmers in three climatic zones of Burkina Faso was studied. Thirty (30) household farmlands in each climatic zone representing about 35 ha were selected on which systematic woody species inventory and dendrometry data collections were undertaken. Non-destructive method using fitted allomectrics equations were used to compute carbon stock and to estimate equivalent dioxide carbon. Sustainability analysis of carbon sequestration potential was done using [0-10], ] 10-40] and ]40-110 cm] diameter classes respectively as long term , medium term and short term capability of agroforestry parklands to sequester the carbon. The balance between marketable carbon value and the trade-off resulting from tree conservation and major crop (millet, red sorghum and white sorghum) value was also analysed. The results revealed 24.71± 5.84 tCO2ha-1, 28.35± 5.84 tCO2ha-1 and 33.86±5.84 tCO2ha-1 respectively in Ouahigouya, Sapouy and Bouroum-Bouroum. Ouahigouya earned the first place for long term carbon sequestration potential with 1.82% of total amount of carbon. The medium term analysis give the first place to Sapouy with 71.71% of total amount of carbon and the short term analysis give the first place to Ouahigouya with 68.03%. The marketable carbon value was less than the trade-off value resulting from trees keeping and crop production value. The balance analysis revealed that carbon payment system promoted by REDD+ initiative will be profitable and compensable to smallholder farmers effort to keep tree when the tCO2 /ha price will be around 4 US$. By taking into account farmers, interests, profitability on carbon market will be the most relevant incentive method to enhance carbon stock in agroforestry parkland in order to meet Paris agreement."},{"index":12,"size":8,"text":"Keywords: trade-offs, corbon dioxide, smallholders, Agroforestry parland, REDD+."}]},{"head":"Introduction","index":7,"paragraphs":[{"index":1,"size":25,"text":"The objective of this study was to compare the carbon trade-offs of different coffee systems via quantification of carbon stock and greenhouse gas (GHG) emissions."}]},{"head":"Materials and methods","index":8,"paragraphs":[{"index":1,"size":97,"text":"Six coffee systems of shaded and unshaded (highly intensive, in terms of input use), shaded with exotic and native native trees (moderately intensive), and low and high shade tree density (least intensive) from Vietnam, Uganda and India, respectively, were compared. Carbon (C) stock was calculated from tree height, diameter, and wood density extracted from ICRAF database (http://db.worldagroforestry.org/wd) using allometric equations partly developed by Chave et al. (2014). GHG emissions were calculated from data on soils, fertilizer use, crop residues, energy use, and transportation of inputs and outputs using CoolFarmTool, an online GHG calculator (Hillier et al., 2011)."}]},{"head":"Results and discussion","index":9,"paragraphs":[{"index":1,"size":127,"text":"The study showed that, higher carbon stock systems , did not significantly reduce Robusta coffee green bean yield (2.4 vs 2.6 tons ha -1 in shaded and unshaded coffee systems, Vietnam; 1.06 vs 1.04 tons ha -1 in shaded systems with exotic and native shade trees, India) while helped increase significantly carbon stock compared to unshaded systems (e.g., 15.2 tons carbon ha -1 , Vietnam). The additional carbon was achieved by growing primarily with fruit trees in Vietnam (85 trees ha -1 , contributing 15.2 tons C) and in India by maintenance of an agroforestry system with native shade trees (up to 245 trees ha -1 , contributing 77.6 tons C) or exotic (Grevillea robusta) shade tree species (397 trees ha -1 , contributing 47.5 tons C)."},{"index":2,"size":187,"text":"The study also revealed that the GHG emission per unit product of systems in Vietnam (3.46 -3.98 kg CO 2 e kg -1 ) are not significantly higher than those in India (3.09 -3.13 kg CO 2 e kg -1 ), despite a much higher GHG emission per ha (7.5 vs 2.4 tons CO 2 e ha -1 , respectively) resulted from a significantly (3-fold) higher application of inorganic fertilizers, the main GHG contributor, in the former systems than the latter ones (around 2 tons ha -1 vs 0.7 tons ha -1 ,  respectively). This results from the higher yield of coffee systems in Vietnam, which compensates for the effect of GHG emission when measured per unit product. That coffee systems of Uganda had low GHG emissions (0.72 kg CO 2 e kg -1 ) in spite of negligible inorganic fertilizer use (on average 5kg ha -1 ) is explained by extremely low yields (0.86 tons ha -1 ). This may imply a trade-off effect in that a higher application of inorganic fertilizers increases coffee yield but simultaneously creates a negative environmental effect via higher GHG emissions."}]},{"head":"Conclusion","index":10,"paragraphs":[{"index":1,"size":46,"text":"The introduction of shade trees to coffee systems of different input intensification helps provide significant carbon sequestration service while not significantly reducing coffee bean yield. Application of more inorganic fertilizers help increase coffee yield but must be optimized against the trade-off of causing higher GHG emissions."},{"index":2,"size":247,"text":"Agroforestry is known to be an opportunity to sequester carbon in soil and biomass leading to climate change mitigation. It provides also multiple benefits for farmers (additional incomes and sustainable land management). However, agroforestry impacts on soil organic carbon (SOC) sequestration rate are rarely documented in tropical regions due to the lack of longterm field experiments. This study aimed to quantify (i) SOC storage in agroforestry systems (AF, fruit trees inside staple crop plot) compared to traditional farming practices (TFP, staple crop only) and fallow land (FL, grass land) for synchronic approach (year 2018), and (ii) SOC accumulation rate under AF over 4 years (2014 to 2018) for diachronic approach. Soil sampling was conducted over 36 farmers' plot, at 3 soil depth (0-10, 10-20 and 20-30 cm) and over the 2 dominant soil types, ferralsols and andosols. Results showed that SOC stocks in AF was significantly higher (109 MgC.ha -1 ) than TFP (61 %) and FL (61%). The diachronic method showed an effective SOC accumulation rate up to 3 MgC.ha -1 .yr -1 for AF, with a slightly less accumulation rate in andosols, reflecting SOC saturation effect. High value of SOC sequestration on AF was due to an important organic fertilization supply (12 tons.ha -1 .yr -1 of manure) and trees density (500 feet.ha -1 ) feeding the soil biomass. This study confirmed the important role of AF to sequester carbon in the soil at farmer scale meeting widely the objectives of the 4 ‰ Initiative."},{"index":3,"size":193,"text":"Agroforestry-the integration of trees with crops and livestock-is not mentioned explicitly in the UNFCCC's Koronivia Joint Work on Agriculture. However, agroforestry generates many benefits directly relevant to the topics addressed, including: (i) building resilience, (ii) increasing soil carbon and improving soil health, (iii) providing fodder and shade for sustainable livestock production and (iv) diversifying human diets and economic opportunities. Despite its significance, agroforestry may not be included in measurement, reporting and verification (MRV) systems under the UNFCCC. Here we report on a first appraisal of how agroforestry is treated in national MRV systems under the UNFCCC. We examined national communications (NCs) and Nationally Determined Contributions (NDCs) of 147 countries, 73 countries' REDD+ strategies and plans, and 283 Nationally Appropriate Mitigation Actions (NAMAs) and conducted interviews with representative of 17 countries in Africa, Asia and Latin America. Our assessment found that there is a significant gap between national ambition and national ability to measure and report on agroforestry. Forty percent of the countries assessed explicitly propose agroforestry as a solution in their NDCs, with agroforestry being embraced most widely in Africa (71%) and less broadly in the Americas (34%), Asia (21%) and Oceania (7%)."},{"index":4,"size":148,"text":"Seven countries have proposed 10 agroforestry-based NAMAs. Of 73 developing countries that have REDD+ strategies, about 50% identify agroforestry as a way to combat drivers of forest decline. Despite intentions, however, agroforestry is still not visible in many MRV systems. For example, though 66% of the countries reported non-forest trees in national inventory, only 11% gave a quantitative estimate of number of trees or areal extent. Interviews revealed a suite of definitional, institutional, technical and financial challenges preventing more comprehensive and transparent inclusion of agroforestry in MRV system. This absence has serious implications. If such trees are not counted in inventories or climate change programs, then in many ways they don't count. Only if agroforestry resources are measured, reported and verified will they gain access to finance and other support. The paper will discuss finding of the assessment, successes and specific Investments needed to help ability match ambition."},{"index":5,"size":5,"text":"Keywords: agroforestry, MRV, mitigation, adapation."},{"index":6,"size":297,"text":"Agroforestry systems in the humid tropics have the potential for high rates of production and large accumulations of carbon (C) in plant biomass and soils, and thus may play an important role in the global carbon cycle. Many factors, including crop species composition, management, and climate change could influence the extent to which agroforestry systems sequester C, but the relationships among the factors are complex. The objective of this study was to evaluate the relative effects of individual factors on C stocks in soil and plant mass in agroforestry systems in Kerala, India. We used CENTURY, a general model of plant-soil nutrient cycling, parameterizing the model for this region. We then conducted simulations to investigate the effects on C stocks in aboveground biomass and soil under four experimental scenarios: 1) Change in crop system; 2) Differences in soil types; 3) Increase in temperature above 20-yr means; and 4) Change in tree species. All of the factors influenced the simulated soil C stocks, whereas C in aboveground biomass was relatively little influenced by increasing temperatures and soil type under these scenarios. The significance of these findings is that if carbon trading schemes were to be initiated in Kerala, it is apparent that a variety of factors can potentially influence the actual amount of C sequestered in Kerala agroecosystems. 2) Under the 'Difference in Soil Type' scenario, the sand fraction was varied from 0.1 to 0.7 in the 'Mixed, ++' system. 3) Under 'Increase in Temperature', minimum and maximum temperatures were increased above the current 20-y means, as indicated, also in the 'Mixed ++' system. 4) The effect of 'Change in Species' of trees was simulated by increasing the production capacity and tissue lignin contents in the 'Trees 00' system. Species 'C' is the default tree (LUQD) in CENTURY."},{"index":7,"size":28,"text":"The study of shelterbelts in agroforestry landscapes includes a range of issues and tasks, solutions of which are aimed at a deeper knowledge of patterns for environmental changes."},{"index":8,"size":426,"text":"Changes in soil properties as a result of planting and long-term functioning of artificial forest plantations are of great interest. One of the most important aspects of this research is the assessment of shelterbelt contributions to carbon sequestration by soils. Our studies on the Great Plains (USA) and Central Russian Upland of Russia (6 key sites were studied) show the high probability of the accumulation of soil organic matter or humus in the surface meter of soil under the shelterbelts, which ranged from 21 to 70 years old (Chendev et al., 2015). However, we have reason to believe that this process has a stage character, i.e. accumulation of humus in soils under shelterbelts does not occur indefinitely. Sauer et al. (2012) observed an increase in soil organic carbon (SOC) accumulation in the surface 30 cm of soil at 4 locations in Iowa under artificial forest plantations up to tree age of 30 years. At tree age of 50 years the rate of SOC accumulation decreased to a lower rate similar to the early years of tree growth. Study of young shelterbelts aged 20-30 years at the Kamennaya Steppe in Russia in the 1920s confirmed the accumulation of organic matter in soils under the shelterbelts (Tumin, 1930). However, research in the same areas conducted in the 1990s -2010s showed no differences in organic matter stocks in the soils of old-growth (~100 years) shelterbelts and in the adjacent background steppe areas (Kaganov, 2012;Prikhod'ko et al., 2013). Researchers noted that as a result of the Late Holocene forest expansion on grasslands in Europe (due to natural changes of climate), fertile Chernozem soils (in the US -Mollisols) transformed into less fertile Luvisols (according to the American Soil Classification -Alfisols) (Chendev et al., 2018). Thus, the accumulation of humus in soils under shelterbelts can occur during the first decades after planting and then may be followed by a change in soil evolution including potential degradation. Our working hypothesis requires further research that can solve an important fundamental soil-geographic problem, which consists in developing the concept of \"soil formation factors -soil formation processes -soil properties\". Additional SOC characterization including permanganate oxidizable carbon (POXC) was used to further interpret SOC distribution. Soil cover type had an insignificant effect on POXC at two sites in Russia but at a third (Yamskaya) it had a very significant effect. Depth had a significant effect on POXC at all system of \"shelterbelt-soil\" can act as a controlled model of interaction of soils and factors of their formation, the parameters of which are specified in a space-time dimension."},{"index":9,"size":237,"text":"Targeting marginal lands for woody bioenergy production avoids some of the competition for food production and may improve soil health, the local microclimate and provide other ecosystem services. The objective of this study was to evaluate the effect of eastern red cedar (Juniperus virginiana L.) windbreaks on soil quality in the U.S. Great Plains. Eastern red cedar has great potential for bioenergy production due to its adaptability to a wide range of soil and climate conditions and the physical and chemical characteristics of its biomass. Nine sites were selected from latitudes 41-47 deg N and longitudes 94-103 deg W with MAP from 425 to 970 mm and MAT from 4.9 to 9.9 deg C. Tree age varied from 22 to 59 years. Ponded infiltration (twin ring technique) and penetration resistance at 2.5 cm increments to 30 cm (digital static cone penetrometer) were measured at 9 locations under the trees and in adjacent fields (crop, pasture, or hay). Soil samples were collected for carbon, bulk density, pH, and nutrient analyses. Infiltration rate was greater and penetration resistance lower under tree cover at most sites. Soil organic carbon (SOC) to 30 cm depth averaged 0.92 kg m -2 (16.8%) greater under trees as compared to adjacent land use. Improvements in soil quality following tree planting for bioenergy feedstock production may allow some marginal lands to be converted back to crop or forage production at a higher level of productivity."},{"index":10,"size":18,"text":"The loss of soil fertility at the global scale is alarming, as are the impacts of climate change."},{"index":11,"size":234,"text":"Conventional agriculture practices are reducing the organic matter content of soil as well as the soil´s capacity to regenerate nutrients to a minimum. In order to ensure food security in the future, sustainable agriculture techniques have to be promoted. These techniques should not only be productive, but also build soil fertility in the long term. At Mollesnejta-Centro de Agroforestería Andina, we apply dynamic agroforestry measures in combination with two agroecological techniques, with the goal of improving soil quality: (a) Activated Biochar and (b) Ramial Chipped Wood (RCW). Pruning material sourced from pruning in agroforestry systems was used as a soil amendment through both techniques. The presentation will describe the benefits of Activated Biochar and RCW and discusses their preparation and application to the soil, where both act as long-term carbon sink. Also, are provided the results of the experiences obtained at Mollesnejta-Centro de Agroforestería Andina after using these techniques. Both techniques proved to be effective at improving soil fertility and the capacity of rainwater storage. In combination with their impact as carbon sink it would be reasonable to intensify the practice of dynamic agroforestry Organic material of pruning is transferred to biochar, which activated with manure and urine of compost/dry-toilets becomes TerraPreta; this is applied into the soil to increase the fertility and the capacity to store the rainwater and at the same time act like a carbon sink during several hundreds of years."},{"index":12,"size":93,"text":"on soil organic carbon (SOC) sequestration. In all treatment combinations, soil from 0-30 cm depth were collected from eight RBS sites [Mature deciduous clay (MDC), Mature coniferous clay (MCC), Mature deciduous loam (MDL), Mature coniferous loam (MCL), Young deciduous clay (YDC), Young coniferous clay (YCC), Young deciduous loam (YDL) and Young coniferous loam (YCL). Soil samples were also collected from adjacent agricultural fields (control). SOC were determined using the dry combustion procedure as outlined in the Leco CR-412 manual (Wang and Anderson 1998). Results indicate that RBS with mature trees, irrespective of -1"},{"index":13,"size":68,"text":") compared to adjacent agricultural fields whereas, RBS with young trees did not show significant difference (Figure 1). Overall, MDC had more positive impact on SOC sequestration whereas YCL had least impact among the RBS. However, all RBS showed numerically higher mean SOC content compared to its adjacent agricultural fields. With in a site, means followed by the same letter are not significantly different according to a Tukey's"}]},{"head":"Agroforestry and world challenges","index":11,"paragraphs":[{"index":1,"size":6,"text":"Agroforestry: riding to the world's rescue"}]},{"head":"-L2 -Agroforestry and adaptation to climate change","index":12,"paragraphs":[{"index":1,"size":186,"text":"Singing in the rain: adapting to the erratic new normal Shade trees are often used to protect crops from excess heat and light in the tropics, where agroforestry (AF) is clearly seen as a way to adapt to climate change (CC). It could be interesting to grow crops under shade trees in temperate climates also, to adapt agriculture to CC by buffering temperature both at the annual scale and at the daily scale, thus reducing yield loss due to extreme temperatures (frost, heat wave), by reducing soil evaporation through a reduction in radiation, wind speed, temperature and for water between trees and crops might be exacerbated in the context of CC due to reduced rainfall and increased risk of drought. Tree productivity in AF conditions could thus be reduced, although the deeper rooting pattern in AF compared to forest conditions, might give the trees access to more water resources. This session welcomes modelling and experimental studies relevant to the assessment of the resilience of AF systems to CC as well as to the design of AF systems more adapted to CC and their adoption by stakeholders."},{"index":2,"size":71,"text":"This framework was developed by monitoring two contrasting agroforestry systems over three years, before, during and following the 2015/16 El Niño. We hypothesize that during a climate shock there will be factors outside of a farmer's control (e.g. farm 's location in the landscape) and management options within the control of the farmer that may either positively or negatively interact (e.g. be complementary or trade-off) with climatic conditions to impact yields."},{"index":3,"size":145,"text":"To explore this, we present the results of ecological and socio-economic data from 56 lowinput (Coffea arabica in Ethiopia) and 36 medium-input (Theobroma cacao in Ghana) farms, along landscape and management gradients. Both systems were severely impacted by the El Niño shock; however, monitored coffee shrubs showed a dramatic collapse in yields while the most stressed cocoa trees showed increased pod production. In Ethiopia, we found location in the landscape (e.g. elevation and forest patch size) and diversity of shade trees had tradeoff effects and the presence of leguminous shade trees had complementary effects on yield variability. Whereas in Ghana, both shade management and distance from forest had trade-off effects, while only soil nutrient management was complementary throughout the study period. We discuss the implications of monitored yield variability on household resilience and poverty outcomes using insights gleaned from household surveys and community focus groups."},{"index":4,"size":57,"text":"Figure 1 Depiction of proposed framework describing the prevailing attributes of a farm beyond the control of the farmer (e.g. its location in the landscape) and the management decisions available to the farmer. Resilience, in this model, is described by the interaction of farm attributes and farm management with a climate shock to influence inter-annual yield variability."},{"index":5,"size":163,"text":"The World Agroforestry Centre, in collaboration with Bioversity International, CATIE and Hivos, recently published habitat suitability maps for 54 tree species that are widely used in Central America for shade in coffee or cocoa agroforestry systems 1 (www.worldagroforestry.org/ atlas-central-america). Using similar methods of species distribution modelling, including ensemble methods whereby consensus habitat suitabilities are weighted average probabilities from different algorithms 2 and a likelihood scale recommended by the IPCC 3 , habit change maps were prepared for 150 tree species native to Africa. The Central American atlas calibration methods were augmented using filtering approaches of species occurrence datasets in geographical and environmental space and spatial blocking techniques to reduce spatial correlation during model evaluations 4 . These methods were also integrated in the newer versions of the BiodiversityR package. Models were calibrated with a subset of bioclimatic and topographic variables obtained from AFRICLIM 5 and ENVIREM. To reduce potential overestimation of the effects of climate change, species distribution data were obtained across Africa."},{"index":6,"size":43,"text":"Selected species were priorities in different projects and countries, including for a large forest landscape restoration project in Ethiopia, the African Orphan Crops Consortium, an ecosystem-based adaptation project for Gambia and cover priority food tree species identified in Burkina Faso, Ethiopia and Kenya."},{"index":7,"size":95,"text":"Most of sub-Saharan Africa is expected to experience drier climates by the middle of the 21st century. Shown here are the number of 18 downscaled General Circulation Models that project increases in the moisture index (P/PET) compared to the 20th century baseline (hyperarid areas were masked from the baseline; future grid layers from AFRICLIM for RCP 4.5). The major changes in the colour schemes correspond to the likelihood scale recommended for the fifth Assessment Report of the IPCC (red -orange : likely decreases in moisture index; light blue -dark blue: likely increases in moisture index)."},{"index":8,"size":350,"text":"Agroforestry systems are conventionally treated as a mitigation tool to reduce the impact of climate change. However, climate change is threatening the very existence of every ecosystem, and there is no reason to believe that agroforestry systems will be spared. Hence we have addressed whether climate change has an impact on agri and agroforestry systems of Western Ghats biodiversity hotspot.The objective of the study was to identify and measure the impact of climate change on patterns, productions and processes in agroforestry systems of Western Ghats region of Kerala, India in particular Wayanad.The shift in area and production of major crops were analyzed using the data available from Agricultural Statistics records of the Government of Kerala. The daily temperature and rainfall data were collected from different agencies and ordinary least square regression equations were fitted in order to analyze the changes in trends. A house-hold survey was conducted to understand how agricultural practices have changed over the period, and what drove the changes in practices. Factor analysis based on principal components was conducted to identify the most important factors that drove the shift in agroforestry practices.The result showed that Wayanad has undergone major changes in agroforestry practices over the last couple of decades. The area and production of crops such as arecanut, coconut, rubber and banana increased considerably whereas that of rice, ginger and pepper has declined. Climate variables showed that monsoon rainfall is found to be decreasing over the years, while there is an increase in temperature during the same period. Also, there is a delay in the onset of monsoon and an advance in the offset of monsoon. Factor analysis indicated that 71% of the changes in cropping pattern of the area is driven by four principal components which were found to be, market driven shift in agricultural practices (25%), adaptive agriculture management strategy adopted by the stakeholders (18%), impact of climate change (15%) and booming expansion of tourism industry (13%). The study concludes that there are changes in pattern, production and processes of agroforestry systems in Wayanad, and climate change contributes 15% of the shift in agricultural practices."},{"index":9,"size":62,"text":"The present study contributes to our existing knowledge on the effect of climate change on crop production and agricultural dynamics, and sheds light into the programs related to the agroforestry based climate change mitigation where climate variability and other factors need to be accounted before making policy decisions that aimed to mitigate the impact of climate change by means of agroforestry systems."},{"index":10,"size":8,"text":"Keywords: Agroforestry systems, Climate change, Wayanad, Kerala, India."},{"index":11,"size":68,"text":"Shade trees have a complex role in adapting agroecosystems to a changing climate. Disentangling these complexities is central for climate change adaptation strategies for cocoa production in West Africa. In this study, we adopted a trait-based approach to investigate the effects of a common shade tree species (Terminalia ivorensis) on the resource acquisition strategies of cocoa (Fig. 1), as characterized by variation and covariation in fine root traits."},{"index":12,"size":126,"text":"We assessed these shade tree effects across optimal and suboptimal precipitation regimes, and in contrasting edaphic conditions (sandy vs. loam) in Ghana. We found that absorptive fine roots of cocoa are more acquisitive in drier sites, expressing trait values associated with higher acquisition but lower lifespan, suggesting roots are more responsive to soil moisture. Shade trees play a key role in controlling resource strategies of cocoa, and dictate the position of individual cocoa trees along on a singular axis of trait covariation, or the 'root economics spectrum', although this effect is specific to climate and edaphic conditions (Fig. 1). Shade tree management that accounts for soil physical properties may be critical in suboptimal climatic conditions, conditions which are expected to become more prevalent in West Africa."},{"index":13,"size":475,"text":"Context-specific agroforestry arrangements designed in ways that optimize resource acquisition strategies of cocoa represent a viable means to sustain productivity in the coming decades. Ethiopian economy strongly depends on coffee production. Coffee is sensitive to climate change and recent studies have suggested that future changes in climate will have a negative impact on its yield. One of the strategies that ensuring coffee production under future climate change is agroforestry-based production, as combination of trees in the system buffers extreme conditions. The objective of this study was to assess coffee production under: 1) monoculture and 2) coffee grown under trees using: a) current climate and b) two climate change scenarios. The study focused on two coffee growing regions of Ethiopia. A process-based growth model (Yield-SAFE) was used to simulate coffee production for a time horizon of 40 years. Climate change scenarios considered were: Representative Concentration Pathways (RCP) 4.5 and 8.5. Results suggest that in monoculture systems, the current coffee yields are between 1200-1250 kg ha -1 yr -1 , with expected decrease of between 4-38% and 20-60% in scenarios RCP 4.5 and 8.5, respectively. However, in agroforestry systems, the current yields are between 1600-2200 kg ha -1 yr -1 , the decrease was lower, ranging between 4-13% and 16-25% in RCP 4.5 and 8.5 scenarios, respectively (Figure 1). These results evidenced that agroforestry systems for coffee production have a higher level of resilience when facing future climate change and reinforce the idea of using this type of management to mitigate negative impacts of climate change on coffee production. In Brandenburg, eastern Germany, prospective climate changes imply extreme weather events 1 , increasing annual temperature, and decreasing summer precipitation 2 . Since alley-cropping systems (ACS) have a broad planning horizon, appraising their sustainability and efficiency under changing climate conditions is crucial for forthcoming risk assessments and adaptation scenarios. Consequently, this combined experimental and simulation study investigated the growth vulnerability of poplar clone \"Max I\" (Populus nigra L. x P. maximowiczii Henry) and black locust (Robinia pseudoacacia L.) short rotation coppices in an ACS established in Brandenburg to a considerable spectrum of weather conditions and long-term climate change, from 2015 to the end of 2054 3 . The investigation employed (i) Yield-SAFE 4 , a biophysical, process-based model to simulate the above-ground tree woody biomass and (ii) 100 realisations of the statistical regional climate model STAR 2K 5 . In the most optimistic sequence of events pertaining to air temperature, precipitation, and global radiation, 35% more woody biomass would be achieved by poplar and 43% by black locust in the last period compared to the base period (Fig. 1). Alternatively, in the most pessimistic circumstances, 54% less woody biomass would be rendered by poplar and 47% by black locust (Fig. 1). Our findings corroborated the tree growth vulnerability to prospective climatic changes, particularly to changes in water availability."},{"index":14,"size":60,"text":"A bandwidth of potential woody biomass accumulated in a 4-year rotation cycle from 2015 to the end of 2054 shown by maximum (blue) and minimum (red) values for (a) poplar and (b) black locust (after Seserman et al., 2018). The dash-dotted lines describe trend lines for the woody biomass. The dashed lines represent the woody biomass, as per reference period."},{"index":15,"size":162,"text":"Climate Change (CC) is expected to lead to both improvements and worsening of the crop growing conditions, depending on site-specific conditions. Agroforestry (AF) systems have significant effects on the climate experienced by the understory crop. The complex crop-tree-soil-microclimate dynamics make it challenging to predict crop yields in AF systems with too simple/empirical models. We explore the use of a process-based bio-physical AF model (Hi-sAFe) for the prediction of the drivers of crop growth and yields in AF under CC. Hi-sAFe is a 3D model representing tree-crop interactions for the capture of light, water and nitrogen, as well as the effect of tree shading on crop temperature and crop water use efficiency. The model was used to compare a monocrop of winter wheat and an alley cropping plot combining wheat and hybrid walnut tree lines. Each plot was simulated over cycles of forty years, in a location in southern France, as driven by climatic projections from IPCC, representing Past, Present, and Future climates."},{"index":16,"size":54,"text":"Trends in intercepted PAR radiation by the crop and thermal comfort indices were interpreted for the different agricultural systems and climate scenarios, taking into account the effect of the tree size in agroforestry. By this approach the positive and negative impacts of trees on crop growth temperatures for the different climate scenarios were discriminated."},{"index":17,"size":134,"text":"Thermal stresses on photosynthesis due to sub-optimal high (above) and low (below) temperatures across climatic scenarios (solid yellow line: Past; dashed orange line: Present; red dotted line: Future). Stress values are calculated as the product of the number of days of stress annually experienced, multiplied by one minus the mean annual value of the stress index. Stresses are represented after the application of a moving average with a window of eleven years. Vertical lines represent confidence intervals. The horizontal dashed lines correspond to relative stresses equal to one. The Mediterranean region has been identified as one of the most prominent Hot-Spot in climate change projections. We investigated an olive tree -durum wheat AF system and we wondered what is the potential role of these trees on the vulnerability of d. wheat to shifting environments."},{"index":18,"size":45,"text":"The experiments were conducted at INRA Mauguio (South of France) for 3 years. D. wheat was sown each year just after olive harvesting in 3 experimental conditions: AF: yearly pruned olive orchard, AF+: never pruned olive orchard (both 6 m between rows), C: open field."},{"index":19,"size":47,"text":"A national weather station and temporary sensors placed in the treatments provided air temperature and humidity, global radiation, PAR, wind velocity and water in the soil (Figure 1). PAR reaching d. wheat was reduced by averagely 30% in AF and 55 % in AF+, compared to C."},{"index":20,"size":515,"text":"A \"buffer effect\" was clearly noticed: air temperature in AF was lower (-4 °C) from 5am to 3pm and higher (+2°C) from 3pm to 12pm. Daily average wind velocity was significantly reduced by AF treatments: 2.0 (C), 0.25 (AF) and 0.01 m.s-1 (AF+). These effects allowed a reduction of water evaporation and an increasing of soil moisture conservation in AF treatments, with the greatest difference, compared to C, recorded from 30 to 60 cm depth in the soil, all years. The presence of evergreen tree species, with the PAR reduction observed, might be responsible for the decresed wheat yield in agroforestry (-43% in AF; -83% in AF+), while olive yield even slightly increased. Several studies have been conducted on shaded cocoa systems, very few of these have examined species-specific crown architecture and its influence on shade provision in cocoa agroforestry systems. In view of the fact that cocoa agroforestry is the recommended practice to drive cocoa production onto a climate-smart pathway, and given the role of upper canopy trees in the moderation of shade and light to the cocoa system, there is the need to understand the characteristics of crown parameters of upper canopy trees and the associated implication for shade provision for the cocoa system. This will provide useful guide to the selection of upper canopy tree species for the provision of shade to cocoa systems. The aim of the research was to investigate the crown architecture and dendrometric parameters of upper canopy trees and their implications for shade provision in two age classes of cocoa agroforestry systems. Employing a replicated transect method, quantitative data on upper canopy trees in cocoa agroforestry systems were collected from twelve ( 12) 1 ha plots established on a 5 km long transects at the Bonsu Nkwanta cocoa growing district in the Western region of Ghana. Information on the following crown parameters were generated, crown height, crown area, crown volume, uncompacted live crown ratio, and crown spread index. Given that there was no existing information on various crown forms of upper canopy trees in cocoa systems in Ghana, the crown forms generated by Frank (2010) was adopted for this study. These were \"spreading to cylindrical\", \"elongate to rounded to oval\", \"upswept and vase shaped\", \"conical to pyramidal\" and \"spade shaped\" crown forms. Results from the study showed that one hundred and sixty (160) upper canopy trees belonging to 44 species, distributed in 21 families were recorded in the cocoa agroforestry systems surveyed in the study area. Newbouldia laeviswas the most abundant species recorded and constituted (11.88%) of all the trees. The study showed that crown and dendrometric characteristics of the upper canopy trees did not differ in cocoa agroforestry systems of different ages. Also, the highest values of crown volume, crown area and shade area were recorded for the \"spreading to cylindrical\" crown forms followed by the \"elongate\" crown form. Furthermore, results from the study showed that crown area, crown volume, crown diameter, tree DBH and crown height were the parameters that strongly affected the ability of a particular crown form of a tree to provide higher shade."},{"index":21,"size":64,"text":"Based on the results, we conclude that in selecting upper canopy trees for the provision of shade to cocoa systems, \"spreading to cylindrical\" and \"elongate\" crown forms are the most suitable crown forms to incorporate in the cocoa agroforestry system. The results of this study hold implications for promotion of climate -smart and sustainable cocoa agroforestry in Ghana and the West African cocoa belt."},{"index":22,"size":344,"text":"In the Sahel, declining crop yields are a major obstacle to food security. This is mainly due to climate variability and land degradation due to unsustainable management practices. This is the case of the agro-ecological zone of the groundnut basin in Senegal where most of the soils are degraded by the effects of continuous cultivation with a peanut-millet rotation. In this area, farmers resort to clearing and/or uprooting of shrubs to extend cropland. For nonuprooted shrubs, their management includes annual spring coppicing and burning of residues before cultivation of row crops. This mismanagement of cultivable land correlated with the low valuation of crop residues and animal excrement as well as climatic disturbances has had adverse consequences on the environment. This study aims to evaluate the effect of a Climat Resilient Agroforestry Technological Package (CRATP) on millet yield in a context of rainfall variability. The CRATP includes native shrubs conservation in the fields through Farmer Managed Natural Regeneration (FMNR), the use of seed varieties chosen according to climate forecasts, climatic information throughout the season, organic and mineral fertilization by micro-dose and minimum tillage. Agroforestry trials were carried out over four successives years in 1250 m2 plots of 20 producers applying the CRATP pathway compared to 20 other producers applying their usual practice (UP). The results show that the CRATP has achieved ± 102.1 kg.ha-1 and 1579.5 ± 129.7 kg.ha-1 versus 632. 1 ± 69.3 kg.ha-1 and 970.7 ± 160.3 CRATP also allowed a yield of 1370.3 ± 164.1 kg.ha-1 and 904.1 ± 60.9 kg.ha-1 against 804.8 ± 101.9 kg.ha-1 and 461.8 ± 50.5 kg.ha-1 for farmer practice. Overall the yield increased by 60% and 63% compared to the farmer usual practice in defict rainfall years (2014 and 2017) and by 96% and 70% in excess rainfall years (2015 and 2016) with a decrease of 33% in the amount of mineral fertilizer and 71% of the amount of Urea used. This agroforestry technological package helps to reduce the negative impacts of climate variability and thus improve the food security and the resilience of small Sahelian farmers."}]},{"head":"L02.P.05","index":13,"paragraphs":[{"index":1,"size":17,"text":"Potential use of coffee agroforestry systems to adaptation-mitigation synergies for climate change Canal D. (dscanal@ut.edu.co), Andrade H."},{"index":2,"size":10,"text":"Grupo de Investigación PROECUT, Universidad del Tolima, Ibagué, Tolima, Colombia"},{"index":3,"size":439,"text":"Mitigation and adaptation have been proposed by the international community as the main strategies to face the climate change, but its integration is taking more relevance. This study estimated the mitigation-adaptation synergy (MAS) in the three most dominant coffee production systems in Líbano, Tolima -Colombia: agroforestry system (AFS) with Cordia alliodora (AFS-C), AFS with plantain (AFS-P) and monoculture (M). Carbon footprint and diversity of ants were estimated as mitigation and adaptation indicators, respectively. The inclusion of trees in coffee production systems changed from negative to positive the carbon footprint: 12.8 vs -3.0 vs -6.4 Mg CO2e/ha/year for AFS-C, AFS-P and M, respectively) (Figure 1). In the same way, AFS-C had the highest richness of ants according to Margalef index (1.3) than AFS-P and M (0.6); in contrast, no differences between systems were detected in Shannon-Wiener and Simpson Index (Figure 1). The genera Cephalotes, Dorymyrmex, Hypoponera, Pachycondyla, Octostrumaand Proceratium were exclusively found in AFS-C due to their requirement of high biomass and necromass. The AFS that includes native trees, can be an acceptable strategy for mitigation-adaptation to climate change, due to its advantages in improving carbon footprint and hosting a high diversity of ants. The AFS-C have characteristics more similar to natural forests which allow to generate more services as carbon sequestration and those derived from biodiversity conservation. Increasing scientific evidences indicate that agroforestry is a land use that can support economic, social and environmental sustainability, thus promoting resistance and resilience towards ongoing climate changes. The implementation and management of agroforestry systems still face social, economic and political barriers. Mediterranean agroecosystems suffer from increasingly negative climate change effects and urgent measures are needed to improve their rural economy while protecting soils and the environment. In this context, the LIFE Project Desert-Adapt: \"Preparing desertification areas for increased climate change\" (http://www. desert-adapt.it), aims to demonstrate the feasibility of innovative climate adaptation strategies and measures, based on the agroforestry concept, over 1000 hectares at risk of desertification in Italy, Spain and Portugal. The core of the project is the Desert Adaptation Model (DAM), an integrative development model fitted to the specific requirements of each farm which guide the implementation of sustainable agroforestry systems (e.g. montado, dehesa). The results will be evaluated through an array of multidisciplinary social, economic and environmental indicators. The project will deal with the most common conceptual, technical, and legal constraints encountered along the implementation and management of agroforestry systems in marginal lands and its results will fill the gap between farmers' needs and policy makers at local and global level. Soybean yield responses to rainfall reduction and tree root pruning in a Gagné G. (gagg21@uqo.ca), Lorenzetti F., Rivest D."},{"index":4,"size":337,"text":"Sciences naturelles, Université du Québec en Outaouais, Ripon, Qc, Canada Agroforestry is increasingly viewed as an effective means to buffer crop yield against the impacts of climate change, especially decreases in the availability of soil water. The effects of belowground competition at the tree-crop interface on crop yield under rainfall reduction have not been assessed in well-documented manner in temperate tree-based intercropping (TBI) systems. The objective of this study was to determine the effect of rainfall reduction and tree root pruning on soybean yield in a 7-year-old TBI system. We hypothesized that soybean yield tolerance to rainfall reduction will be higher in TBI system as compared to soybean monoculture. We also hypothesized that tree root pruning will increase soybean yield and tolerance to rainfall reduction at the tree crop interface as compared to unpruned TBI system. Hybrid poplars and high-value hardwood species were planted alternately every 5 m along each tree row that were spaced 40 m apart, resulting in a stand density of 50 stems ha-1. The experimental design was a split-plot design with three systems, soybean monoculture, TBI with tree root pruning (2.5 m from the tree row, within the top 60 cm of the soil profile, both sides) and TBI without root pruning, as the main whole plot effect, replicated in four blocks. Split-plot effects consisted of two randomly assigned treatments of full rainfall or partial rainfall exclusion. In each TBI plot, split-plot effects were observed at three distances from the tree row (4,12 and 20 m) on both sides. The rainfall reduction treatment consisted in suspending PVC gutters at a height of 2-10 cm above the soil (covering 50% of the soil surface), and the excavation of a deep ditch at the lower part of the plots to intercept water from gutters. Variability of soybean yield and yield components among treatments will be discussed in relation to soil water and light transmittance availability. These results will enhance our understanding of the crop performance under different soil water stress conditions in temperate TBI systems. "}]},{"head":"Impacts of climate change on Cocoa trees species at various temporal scales in West Africa","index":14,"paragraphs":[{"index":1,"size":341,"text":"Gebrekirstos A. 1 (agebrekirstos@yahoo.com), Alban M. Cocoa (Theobroma cacao) is an important agroforestry tree species that has been providing socio-economic and ecological benefits for centuries. Cote d'Ivoire is the world's largest cacao producing country, followed by Ghana and Indonesia (Franzen et al., 2007). In this region, cacao trees play a significant role in farmers' livelihood and the national economy. For example, cacao production in Côte d'Ivoire contributes 7.5% of the national GDP. A recent study indicated that drought has caused widespread mortality of cocoa seedlings (Siebert, 2002) suggesting that cacao tree growth and productivity is susceptible to climate change, such as rising of temperature and reduction of rainfall amount. Hence, any impact of climate change on the suitability to grow cocoa in West Africa will not only affect farmers' livelihoods and incomes, but the national economies as well. It is becoming increasingly evident that patterns of growth, water use efficiency, and survivorship of tree species are sensitive to climate variations and stress induced mortality is prevalent (Gebrekirstos et al., 2014). However, previous studies did not investigate cacao tree response to changing climate. There is a substantial gap in fundamental knowledge concerning how cacao trees grow in response to climate variability, and therefore how they might react to future climatic change. Our approach considers different temporal scales (e.g., inter-annual and intra-annual wood anatomical variations). Stem disk samples were collected from seven sites across climate gradients in Côte d'Ivoire. Thin sections were cut with a sledge microtome and stained with solutions of astra enhance the contrast for successive image analysis. We observed peculiar anatomical features in macro section and micro cross sections in most of the stem disks collected although the extent appears to vary among sites and or varieties. Often, those structures did not appear along the whole circumference of the stem. We are in the process of further anatomical study to describe the anatomy of this particular features which seem to be unknown and to suggest possible drivers of their formation, whether it is due to climate or attack by pathogens."},{"index":2,"size":72,"text":"Examining the stem cross section and further wood anatomical analysis at different temporal scales clearly showed that the cacao trees have gone through multiple attacks by various pathogens. Trees invest metabolites for different purposes (defense growth, yield etc.), depending on the prevalent conditions. Considering the multiple compartmentalization, chemical defenses and thyloses observed, cacao in Côte d'Ivoire seems to invest a lot in defense and this might have affected cacao yield as well."},{"index":3,"size":27,"text":"We will present methods and tools to assess impacts of climate change on cacao resilience to climate variability, preliminary results and their implications for improved management practices."}]},{"head":"Background","index":15,"paragraphs":[{"index":1,"size":29,"text":"Following the previous World Agroforestry Congresses (2009 and 2014), the NGO \"GASD/ SADDA-Togo'' in collaboration with the research centre \"CERFOLAM/Univ. Lomé-Togo'' launched an initiative to develop Agroforestry in Togo."}]},{"head":"Aims","index":16,"paragraphs":[{"index":1,"size":15,"text":"Initially, the plantation of teak was chosen to promote the reforestation and to fight poverty."}]},{"head":"Materials & Methods","index":17,"paragraphs":[{"index":1,"size":67,"text":"From 2007-2016, plantation of teak was undertook. In parallel, ethnobotanical surveys were performed to identify antimalarial and analgesic medicinal plants endangered by habitat destruction and overexploitation [1,2] . A new initiative named 3U/O-3P (Une personne, Une plante, Une Planète/One person, One plant, One Planet) launched on 30/11/2018 to maintain this important biodiversity was created. Agroforestry was chosen as a mean to expand the cultivation of endangered plants."}]},{"head":"Results","index":18,"paragraphs":[{"index":1,"size":73,"text":"It was recorded 16 endangered plant species (9 tree, 2 shrub, 3 liana, 2 herb) used mainly in antimalarial and analgesic preparations [3] . 65 ha of agricultural land were planted with 162500 trees of teak. Three species (Alstonia boonei, Griffonia simplicifolia, Lannea kerstingii) having also international markets, were selected for cultivation, thus reaching 2 objectives at the same time: Conservation of medicinal plants by indigenous users and the increase of farmer's incomes."}]},{"head":"Conclusion","index":19,"paragraphs":[{"index":1,"size":24,"text":"Further studies will be needed to identify the best practices for production of both wood for international markets and medicinal products for local markets."},{"index":2,"size":185,"text":"In Africa and South America rainforests forestry intercropping is a used practice to improve tree survival rates and the nutrition supply, while protecting the soil from erosion. Due to the adverse effects of climate change on forest areas and the success of reforestations, the traditional practice of growing crops in an afforested areas might be worthwhile to revive in Europe with the main purpose of protecting the seedlings in the first years and thus ensure the success of reforestation. Researchers examined the effect of soil cover and the shading of herbaceous plants on saplings in a Hungarian experiment. Measurements were made in oak (Q. robur) stand mixed with corn and in pure oak stand under the same circumstances as control. Values of soil conductivity, soil temperature and tree growth parameters (DBH and height) were measured during the summer in two consecutive years. Significant difference was found between the data of the two afforested parcels in terms of soil microclimate, the growth of trees and drought damage. The results confirm that the use of intercropping in reforestations can significantly reduce the climate sensitivity of the system."},{"index":3,"size":183,"text":"The biophysical and social sciences strongly point to agroforestry management as a key pillar in agricultural adaptation to climate change, with decades of research indicating agroforestry management promotes food security and crop yield stability under varying climatic conditions (1). However, it remains unclear if agroforestry has been integrated into global assessments of agricultural adaptation to climate change. Here, we critically evaluate how agroforestry science has been integrated into analyses and adaptation strategies published by the Intergovernmental Panel on Climate Change (IPCC). While climate change impacts on agriculture factor prominently into all five IPCC reports published since 1992, agroforestry science per se remains near-completely absent from these reports. Qualitatively, the term \"agroforestry\" is afforded a brief discussion within the theme of forest management in the first IPCC assessment report (2). Similarly, the term \"agroforest*\" appears only twice in the extensive 49-page chapter on \"Food Security and Food Production Systems\" published as part of the fifth IPCC assessment report (3). There is also little evidence that agroforestry has been integrated into quantitative analyses of food security under climate change within any IPCC report (Figure 1)."},{"index":4,"size":25,"text":"Our review here indicates that stronger integration of agroforestry into global climate change assessments represents a potential avenue for elevating agroforestry onto agricultural policy agendas."},{"index":5,"size":114,"text":"Figure 1. There is a complete absence of \"agroforestry\" as an agricultural adaptation strategy cited/ assessed by the IPCC (2014) when evaluating crop yield responses to climate change. Presented here is a summary of the agricultural adaptation strategies cited by the Intergovernmental Panel on Climate Change in their empirical assessments of crop yield responses to climate change (namely, increasing global temperature). Names of all of the adaptation methodologies here are consistent with the results published in the 2014 report entitled \"Food Security and Food Production Systems\" (namely, Table 7-2 in 3), with the numbers above the bars corresponding to the number of studies cited by the IPCC that employ a particular agricultural adaptation strategy."},{"index":6,"size":380,"text":"The early growth is the most critical stage of tree development. Climate control of the early tree growth as well as best metrics of climate sensitivity of tropical species remain, however, poorly understood and can hardly be used in assessing risks and adaptation strategies of young forests to climate change. Using a combination of field experiments and modelling, we assessed the climate sensitivity of two promising afforestation species (Jatropha curcas L. and Moringa oleifera Lam.) by (i) analyzing their predicted climate-growth relationships in the first two years after planting on a degraded cropland in semi-arid zone of Benin, West Africa and (ii) identifying the climate metrics with the greatest predictive power for the juvenile tree growth. The Water, Nutrient, and Light Capture in Agroforestry Systems (WaNuLCAS) model was calibrated and validated with field data on survival, growth traits, soil properties and weather from afforestation experiments conducted over 2014 and 2015, and used to simulate aboveground biomass (AGB) growth under past climate conditions . Linear mixed models related the annual AGB growth to climate metrics, while climate sensitivity indices quantified the strength of climate-growth relationships. Both species successfully established on the degraded cropland as evidenced by their high survival rates (94-100%) assessed 15 months after planting. The seasonal dynamics of stem diameter, height, and AGB were reasonably well reproduced by the model during both calibration (R²> 0.9; RMSE ca 3-26 %) and validation (R²> 0.8; RMSE ca 6-34 %) for either species. Drought was the dominant constraint to sapling growth as shown by negative and strong climate-growth relationships with annual water deficit (AWD), length of dry season (LDS), and length of dry spells (LDSP). In the first year, LDSP had the strongest effect on tree growth whereas in the second year, AWD and LDS became the strongest predictors. Simulated rooting depths greater than those in the experiments (75 cm) enhanced biomass growth under extreme dry conditions and reduced sapling sensitivity to drought. Projected increases in aridity and the number of days between rainfall implied significant growth reduction, but tree adaptations via deeper root systems would reduce sensitivity to climate variability in young plantations. Our results highlight that modelling combined with field experiments can be a valid approach to assess climate change risks for planted forests and help identify effective adaptation strategies."}]},{"head":"Agroforestry and drought stress","index":20,"paragraphs":[{"index":1,"size":178,"text":"Mean global temperatures have increased the risk of climate extremes such as drought, affecting smallholder farmers' livelihoods in developing countries like Uganda (IPCC, 2014). Teso sub-region being one of the most affected Fig. 1. This trend presents a strong need for the smallholder farmers to equip themselves with adaptation strategies for resilience if they are to survive. Although many adaptation strategies to drought are available for smallholder farmers in Teso sub region, most of them are not sustainable compared to agroforestry Fig. 2. The global climate change is intensifying the frequency and severity of drought conditions; which has made drought a major driving environmental factor to limit plant productivity through drought stress that increase water loss from the plant thus interfering with normal plant processes fig. 3. Smallholder farmers need to identify in their areas and institute appropriate coping and adaptation strategies such as Agroforestry. This can protect agricultural crops because of the deep roots of tree component able to tap water from underground to promote their normal growth by shading crops and animals from the sun heat."}]},{"head":"Applied adaptation mechanisms","index":21,"paragraphs":[{"index":1,"size":166,"text":"Farmers in Teso sub region apply several adaptation measures to cope with drought (table 1), some farmers apply multiple strategies Table 1. Women headed households are more involved in offering labor on other peoples' farms in exchange for food or to earn income for other household needs (Nabikolo, 2014). Raring domestic animals for sale offers a major adaptation by men to maintain their families. Farmers also intercrop a variety of crops with trees such as sorghum, rice, millet, maize, beans, groundnuts, green grams, peas, soya beans, tomatoes, cabbages, potatoes and cassava for adaptation to drought. The root tubers are sun dried for future use. No single adaptation mechanisms to drought is applied in Teso sub-region, Table 2. Agroforestry, household age, area of land owned and family size indicated a weak positive offered labor in exchange for food during period of drought. Family size, farm size, farming experience and access to credit were also reported elsewhere as being key adaptation measures to drought (Wannasai et al, 2013)"}]},{"head":"Conclusion","index":22,"paragraphs":[{"index":1,"size":34,"text":"Local adaptation strategies such as intercropping, adjustments in planting, agroforestry, mulching among others are practiced. Although more effort is needed in promoting the improved adaptation strategies like drought resistant varieties, irrigation systems, better infrastructures."},{"index":2,"size":30,"text":"Both local and external mechanisms should be applied concurrently. Other approaches like early warning mechanisms, encouraging group formation, easing liquidity constraints are strategies that promote adaptation (Kelvin et al, 2017)."},{"index":3,"size":8,"text":"Keywords: Agroforestry, Drought stress, Climate change, Productivity, resilience."},{"index":4,"size":1,"text":"References:"},{"index":5,"size":74,"text":"1. IPCC, (2014). Climate change 2014: Contribution of working group II to the IPCC Fifth Assessment Rep 2. Nabikolo Diane, (2014). Household headship and climate change adaptation among smallholder farmers i 3. Kelvin M, Shikukaa,d, Peter Laderach b, (2017). Smallholder farmers' attitudes and determinants of a 4. Lasco R, Pulhin F, (2009). Agroforestry for climate change Adaptation and Mitigation. An academic pr 5. Wannasai. N, Sasiprapa W, Suddhiyam P, Kashawatana, C.Prasertsak, P. Kumsuebe, B."},{"index":6,"size":1,"text":"Pratcharoenwanich,"},{"index":7,"size":262,"text":"Rural farmers in the developing countries are highly vulnerable to climate change due to their exposure and poor adaptive capacity. However, farmers' social networks play an important role in their access to knowledge on climate risk and risk response strategy. This paper examines the pathways of climate knowledge generation and dissemination among actors in the climate change and agriculture sector in Ghana, focusing on the cross-scale processes to tailor knowledge to better fit rural farmers' context. It employs social network analysis of both the organisations in the agriculture and climate change sectors and rural farmers in the Lawra district of Ghana. We explored two networks of configurations: i) relations of collaboration in knowledge production and ii) relations of collaboration in knowledge dissemination. We used three measures of network cohesion; density, core-periphery, and degree centrality to analyse the network structure and influence on knowledge flow and adoption. It finds that the network (both the production and dissemination) consists of socially integrated centralized government and civic organisations that have developed over time. Our analysis reveals that overlaps between these organisations produce more usable knowledge for rural farmers as NGOs collaborates with governmental organisations at mostly community level to produce locally relevant knowledge for rural farmers. However, the challenges associated with cross organisational collaborations and the sustainability challenge of local NGOs threatens this existing network and knowledge communication to local farmers. Based on these findings, we recommend that effort aimed at tailoring climate knowledge to rural farmers' context in Ghana be supported by actions targeted at enhancing cross-organisational cooperation and the sustainability of local NGOs."},{"index":8,"size":219,"text":"Coffee cultivation has a high sensitivity to climate changes, because of its narrow climate range (Camargo, 2010). Many coffee areas in Mesoamerica are traditionally managed under a range of agroforestry systems. There is a trend to decrease tree cover in order to plant more-productive coffee varieties which are tolerant to fungal diseases (coffee leaf rust). Tree cover degradation, in addition to the growing patterns of climate change, provoke unpredictable conditions for growing coffee (Bunn et al., 2015). On a traditionally recognized coffee region of Mexico, we evaluated the trends of weather extremes based on daily rainfall, after that, we assessed the function of shade trees facing the changes in weather patterns. Daily data precipitation, maximum temperature and minimum temperature series were obtained from three weather stations in Veracruz, Mexico (Period 1961(Period -2016)). These stations (Coatepec, Briones and Xalapa) surround a coffee region. Data was provided by the national climatological base (from the Mexican National Meteorological Service). The data were subjected to analytical quality assurance, as well as a test of homogeneity. Subsequently, a set of 27 climate change indices proposed by the Expert Team on Climate Change Detection Monitoring and Indexes (Peterson, 2005) and its trends for the Xalapa-Coatepec zone were determined. Correlation and linear regression analyzes were performed, as well as the Mann-Kendall test to identify significant trends."},{"index":9,"size":228,"text":"During the period of time analyzed, there have been significant increments of total annual precipitation (PRCPTOT), (78.83 mm/decade), and seasonally precipitation in the months of March-April-May (MAM) and September-October-November (SON). Simple daily intensity index (SDII), number of heavy precipitation days >10 (R10), >20 (R20) and >25 millimeters (R25), very wet days (R95p) and extremely wet days (R99p) were also increased. This shows a tendency of an increament in quantity and intensity of precipitation within the study area. The current rainfall patterns would affect coffee crop, mainly for a lack of water during the stage of fruits development. On the other hand, the increase in quantity would affect the flowering stage (incomplete flowering and scattered blooms); decelerate the growth and filling of the grain and slowing coffee fruits maturation (Camargo, 2010). Moreover, the increase in the intensity of the rain combined with a low presence of shade trees would increase surface runoff and soil erosion. In addition, in the seasons of MAM and SON, rain events would cause the fall of coffee flowers and fruits (Läderach et al., 2010). Considering the current conditions, the maintenance and promotion of shade trees is a recommended strategy in climate smart agriculture. Additionally, shade trees within coffee plantations are a carbon stock that mitigates climate change at a local scale, diminishing the impacts of rainfall intensity and extreme temperatures (Beer et al., 1997)."}]},{"head":"L02.P.21","index":23,"paragraphs":[{"index":1,"size":57,"text":"Effect of forage-tree species supplementation from the tropical dry forest on weight gain in zebu steers Pérez Almario N. 1 (nperez@agrosavia.co), Orjuela Franco O. E. 1 , Carvajal Bazurto C. T. 1 , Moreno Turriago J. M. 1 , Castañeda Serrano R. D. 2 1 Agrosavia, El Espinal, Tolima, Colombia; 2 Universidad del Tolima, Ibagué, Tolima, Colombia"},{"index":2,"size":193,"text":"Colombian dry tropical region presents dry spells of up to six months, quantity and yields of foraging species depend upon this phenomenon which can cause a considerable decrease of the productivity of pastures and subsequently causing degradation of the soils being subjet to animal husbandry. In order to mitigate this problematic it has been proposed to include dry-tolerant forage-tree species with animal husbandry occuring in dry-tropical ecosystems (Bs-T). The aim of this study was to evaluate the weight gain of steers being fed with foraging fodder managed ex situ. This study was carried in the Agrosavia Research Centre of Nataima, municipality of Espinal in Tolima, Colombia; mean temperature of 28°C, at 410 m.a.s.l. and 1200 mm of rain per year. 12 zebu (Bos indicus) steers were used in the study, they weighed on average 321 kg, being distributed into three diferent groups. Each groups was managed under rotational grazing with Tanzania grass (Megathyrsus maximus) in 16 plots of 1260 m2 each. The steers of each group receives a balanced diet adjusted to the dry matter (MS) of the fodder and the weight of the animals so: 1,5 to 2,4kg/MS/animal/day of sorghum silage var."},{"index":3,"size":189,"text":"made up from all forage trees (manages as bushes) and mineral salt 7% of P. A latin square 4x4 array was applied. It was developed in three independent experimental cycles of 40 days each, where 4 species were assesed in periods of 10 days each. These periods were divided into 4 days of adjustment to the new diet and 6 days of assesments with initial/final weighing to determine the weight gain of the steers with the new diets. Experimental cycle 1 used the following species: Clitoria fairchildiana, Cordia alba, Gliricidia sepium y Leucaena leucocephala. Experimental cycle 2: Moringa oleífera, Guazuma ulmifolia, Albizia guachapele y Tithonia diversifolia. Experimental cycle 3: Spondias mombin, Bauhinia variegata, Albizia saman y Albizia niopoides). On the experiment 1 it was observed a major increase of the daily weight by the diet including C. alba (1.466,7g-1/animal/day), followed by C. fairchildiana (1.216,7g-1/ A. guachapele presented weight A. niopoides inclusion of C. alba and A. guachepele managed as bushes could be a good alternative for the nutrition of animals at silvopastoral husbandry systems in dry-tropical regions, achieving a quicker weight gain and a reduction of the fattening time."},{"index":4,"size":75,"text":"New and innovative land use solutions are needed to adapt to a rapidly changing climate and to mitigate the predicted impacts on rural livelihoods. Projected changes to current climate patterns are suggested to severely impact southern Africa in the near future. This may be realised as an increase in drought and flooding events and shifts in rainfall patterns causing a loss of productive cropland, thus, negatively affecting economic, ecological and social aspects of sustainable development."},{"index":5,"size":86,"text":"Agroforestry systems (AFS) present the potential to improve the bio-economy in rural areas, to provide an adaptation strategy for human needs, and to preserve natural resources and biodiversity against climate change influences. Targeting the application of AFS as a suitable response to the impacts of climate change, the research project 'Agroforestry in southern Africa -new pathways of innovative land use systems under a changing climate (ASAP)' with a project period of 2018 to 2021 incorporates research partners from Namibia, Mozambique, Malawi, Zambia, South Africa and Germany."},{"index":6,"size":120,"text":"In a transdisciplinary approach the ASAP project aims to both develop and cement knowledge concerning AFS in southern Africa, utilising simple easily replicable methodology across the entire study region. The project will utilise traditional knowledge and combine it with innovative technical solutions, learning from existing systems and technology. ASAP targets an understanding of the social demands and impacts that AFS can bring to the study region. This is undertaken by attaining an understanding of the needs of stakeholders, land managers and subsistence farmers, as well acknowledging the potential pressures such actors will face due to a changing climate. Results of the project will aid regional policy makers in evaluating future support for such innovative land-use systems in a science-policy exchange."},{"index":7,"size":133,"text":"The project consortium will perform an examination of the effects of the utilisation of trees within a farmed landscape in terms of soil processes, hydrological fluxes and flows, shading and nutrient export as well as assessment of woody biomass production, to allow researchers and land managers to target future research where it is needed. Project output will be designed to promote AFS as a viable approach to land use, agriculture and food production and as a modified alternative to conventional or traditional agricultural practices. The project stands as an interdisciplinary platform for transnational research, capacity building, information exchange, contributing knowledge and solutions for sustainable AFS management, while meeting stakeholder's needs at a grassroots level and promoting the implementation of AFS as an innovative, flexible and sustainable land use system under a changing climate."},{"index":8,"size":27,"text":"The ASAP project is funded by the BMBF (German Federal Ministry of Education and Research) under grant number 01LL1803, as part of the SPACES II funding program."},{"index":9,"size":406,"text":"Environmental and climatic risks are a major obstacles to sustainable agricultural productivity in most dryland areas of Sub Saharan Africa (Coulibaly et al., 2015). As a way to deal with this problem, gliricidia agroforestry technologies were developed to address the stated risks in dryland areas of Dodoma region, Tanzania. However, the major question is to what extent have farmers used these trees to reduce risks and improve farm level productivity and profitability? Employing utility theory, this study was conducted to assess the roles of gliricidia intercropping in reducing risks and increase farm level profitability and to determine farmer's perception of risks. Moreover, monoculture and pigeon pea intercropping systems were assessed for comparisons. The study adopted a cross-sectional research design whereby data was collected from 83 smallholder agroforestry households in dryland areas of Kongwa and Chamwino districts using a pre-structured questionnaire: households involved were those that had maintained agroforestry plots for at least two years. A linear regression model was used to analyses farmers' attitude towards climatic risk and their perception towards agroforestry as a coping strategy towards these risks. In addition, the maximum likelihood technique was used to estimate probability distribution functions. Most farmers (96%) considered agro-forestry and intercropping (80%) systems to be less risky compared to monoculture systems. Probably, this is because these systems can provide a diversified production with a large variety of agricultural and forest products (Stainback et al., 2012). Farmers practicing agroforestry are not likely to be affected by climatic change risks (i.e. drought, heavy rainfall and floods) compared to monoculture practitioners. This can be associated with their ability to act as buffer against increased climatic variability (Shibu, 2009). Findings further show that adoption of agroforestry technologies reduced the impact of climatic risks on crop productivity by 75%. Hence most (84.4%) of the agroforestry project beneficiaries intercrop Gliricidia Sepium with other crops for risk minimization and profit maximization. Study findings also show variation in farmers' attitude towards risk coping measures based on age and levels of individual household income. Age of individual farmer negatively influence farmers attitude towards risks attitude towards risks coping measures than older farmers. It is concluded that gliricidia intercropping has a great potential in addressing environmental and climatic risks thus, enabling farmers to cope with the associated risks. Therefore, it is recommended that there is need to promote agroforestry among other farmers as a farm risk management strategy against climatic and environmental risks and for enhanced crop productivity."},{"index":10,"size":204,"text":"Czech cultural landscape and its components have changed significantly over the past decades as a result of climate change, but especially of new trends in farming. Among the main trends in \"post-communist\" period, one can cite intensification of agro-technologies and creation of very large fields and farms (average farm over 200 ha, by far the largest in EU) with the aim to be competitive within European and world agricultural markets. Unwanted result comprise a growing evidence of biodiversity loss (genetic, species and ecosystem/landscape), soil degradation, decrease of soil and ground water and more frequent disasters of cultural and semi-natural systems due to extreme climatic events or outbreaks of harmful organisms/ agents in Czechia and also other European states. According to the results of the research in foreign countries, agroforest systems (AFS) in the area of temperate zones can significantly contribute to the prevention and solution of these risks and to increase the resilience of the landscape to the changing climate 1,2 . The results of the project will contribute to the extension of the knowledge about the possibilities of AFS in the Czech Republic and will provide the basis for selected adaptation measures of the Czech National Action Plan for Adaptation to Climate Change."},{"index":11,"size":116,"text":"The main objective of this new project (2019-2022) is research and quantification of expected non-production (ecological, environmental) functions and benefits of traditional and modern agro-forestry systems for landscape, especially on soil protection, temperature and water regime at level of selected stands and landscapes, as well as a possible increase of biodiversity. An important goal is to obtain information on planting, growth and appropriate management of tree crops on farmland and their impact on agricultural production (growth, yield, livestock welfare). The aim is also to identify appropriate support of agro-forestry systems development in natural and property-economic conditions of the Czech Republic for protection and restoration of landscape functions endangered by impacts of climate change and human activities"},{"index":12,"size":56,"text":"The coffee-tree is a tropical plant culivatedin areas where the dry season doesn't exceed three months. While these last decades are markedin Togoby a clear climatic change.Thus this reduces the amount of market coffee and the export earnings of producing countries. This situation imposes search for measures aimed at reducing the effects of this climatic phenomenon."},{"index":13,"size":205,"text":"It is in this context that from 1995 to 2018, an association of four agroforestry legumes trial with robusta coffee cultivation was implemented in station. They are:Albizzia adianthifolia, Samanea saman, Erythrophleumguineensis and Albizzia lebbeck. The first results were published in 2001. The observations are from 2003 to 2018 in station on the diameter of the agroforestry speciesand the yield in commercial coffee. Albizzia adianthifoliaand Erythrophleumguineensisare associated with two densities, 118 plants / ha and 59 plants / ha, in robusta coffee in a trial in 2000.The observations concerned the yield of commercial coffee. In resort in Tové, Albizziaadianthifolia has a recovery of 86 m2 at 5 years, 217, m2 at 10 years,226 m2 at 15 years, and 235m2 at 20 years.Erythrophleum guineensis in the following way: the speed of recovery on the ground is 44m2at 5 years, at 132 m2 at 9 years, at 175 m2 at 15 years and 216m2 at 20 years. Samanea saman slowly grows the first year, after itgrows quickly the following three years. In Togo the horizontal development of this species expressed by the ground covers is 126 m2 at 5 years, 254 m2 at 9 years, it reaches 290 m2 at 15 years and 327 m2 at 20 years."},{"index":14,"size":73,"text":"Albizzia lebbeck covers the ground on 139 m2 at the age of 5, at 9 years it reaches 197 m². Marketable coffee yields under forest legumes are: Albizzia adianthifolia 851 kg/ha,Samanea saman 1024 kg/ha,Erythropheum guineensis 1068 kg/ha,Albizzia lebbeck 1492kg/ha, NPK 1336 kg/ha, Control 986 kg/ha. In the peasant environment, underAlbizzia adianthifoliashadow,the coffee-tree produces 563 kg/ha and under Erythrophleum guineensisshadow, the coffee-tree produces 527 kg/ha, NPK produces 281 kg/ha and Control produces 195 kg/ha."},{"index":15,"size":210,"text":"Juruti (HDI 1 0.592) relies on agro-extractivism and cassava slash-and-burn for subsistence. It's mandatory creating new agriculture regenerative models to thrive in climate change conditions. The study aimed to develop participative agroforestry designs; prototyping and implementing modular replicable units in a successional decision-making logic as an alternative for slash and burn. During 2 months (Jul-Sep, 2018) RRA 2 , freelisting, participatory mapping, semi-structured interviews and pairwise sessions were conducted in 25 communities (157 farmers). Data were analyzed using selected principles, criteria and indicators. Adjustments were made merging local ecological knowledge, empirical information and scientific data. As a result it was co-created an elastic regenerative design, maximizing biomass production and inserting high-value fruit and NTFP 3 indigenous trees. Final model with explained arrangements; acronyms and units are shown in table 1. Based on literature and previous experiences within the zone the annual hectare expected production is: cassava 12 ton, fruits 24.4 ton, and dry biomass 3.53 ton. Based on farmers' preferences, at the 4 th year system can migrate to (1) agrosilvipasture, ( 2) perennial fruit orchard or (3) biodiverse NTFP forest. Creating an elastic and highly acceptable agroforestry model for amazon cassava-based agriculture, will drastically improve food resilience and cash flow while building a new productive paradigm, sustainable and resilient."},{"index":16,"size":51,"text":"Table 1. Close-up (1/10 of a hectare) of the vertical and orthogonal view of the proposed elastic and bottom-top based agroforestry design with timber/NTPF trees and fruit trees arrangement on top of a cassava field including biomass production stripe and plants per hectare and list of acronyms used in the text."}]},{"head":"-L3 -Agroforestry for combating land degradation and desertification in dry areas","index":24,"paragraphs":[{"index":1,"size":220,"text":"It's all about the 'how': regreen the drylands with agroforestry and grazing management This session will focus on the role that agroforestry plays in enhancing soil regions of the world. Arid and semi-arid zones are characterized by low and erratic rainfall that does not exceed 700mm per year, and periodic droughts. Human-induced factors, especially overgrazing and other forms of inappropriate land use such as overexploitation of vegetation, excessive tillage and tivity due to human-caused processes. Land degradation usually involves soil degradation, which refers to negative changes in the physical, chemical, and biological properties of the soil, as well as vegetation degradation. Land degradation also embraces negative changes in the capacity of ecosystems to provide social and environmental goods and services. At the landscape level, such a degradation can lead to negative microclimatic changes, thus faciliconsequences for the livelihoods of rural communities by decreasing water supply and reducing food security, while increasing their vulnerability to biological and environmental hazards and to the effects of climate change. Many agroforestry technologies may help to restore land productivity. For example, trees can stabilize the soil, especially when they are used in terracing and contour cultivation to combat soil erosion. They can also protect soils against wind erosion. Their branches can be pruned and applied as mulch regions, including social aspects and scaling-up, are welcomed."},{"index":2,"size":129,"text":"Tropical peatlands are being eroded on a large scale. Indonesia, which contains over 45% of the world's tropical peatland, large areas of peatland have been deforested and drained, contributing directly to peatland and peat fires, which in 2015 burnt 2.6 m ha and caused USD 16 bn in damage.Restoration of tropical peatlands based on full protection or cultivation has generally failed to address environmental requirements and local community needs. However, agroforestry provides an investment model for the integrated approach to peatland restoration that can secure conservation of deep peat areas while enabling the shallow peat to be used for limited economic activities. There is much literature on species suitable for agroforestry; but much less on financially viable business models for agroforestry systems for livelihood and sociocultural aspects of smallholders."},{"index":3,"size":70,"text":"A set of agroforestry systems for Indonesia to attract investment by local communities and the private sector were assessed. Options were designed to balance short term cash flows with longer term profitability and economic benefit (Figure 1). Estimates of revenues for these systems cover a broad range, from below USD 500/ha/year low input systems (e.g. sago) to over USD 5,000/ha/year for small-scale models producing high value timber and oil products."},{"index":4,"size":23,"text":"Returns vary across countries and sites, but this study highlights the potential for mixed agroforestry systems on peatlands to support local community livelihoods."},{"index":5,"size":15,"text":"Figure 1 Comparative assessment of agroforestry models based on timeframe for profitability and associated benefits"},{"index":6,"size":204,"text":"Different land uses and/or agricultural interventions result in different vegetation structure and formation and macro-fauna distribution in a landscape. Information on land use condition is paramount for development of strategies that enhance biodiversity conservation and sustainable resource use. A study was conducted to characterise the vegetation and termite distribution in the three land use types: protected area (PA), harvested woodland (HW) and traditional agriculture (TA) in Salima District, Malawi. Data were collected from 42 plots on tree species, diameter at breast height, tree regeneration (measured as density ha-1), and termite species diversity and stem density in the HW and TA than in the PA, supposedly, due to tree harvesting effect on tree regeneration in the HW and TA. The HW and TA showed stable tree population while PA was characterised with an ageing tree population. Tree regeneration den-Macrotermes natalensis termite species dominated in all land uses with highest density and abundance in TA while Psammotermes allocerus were only found in the HW. We conclude that strict preservation of forest reserves may not achieve tree diversity; and recommend a 'suite' of management measures to balance conservation and promotion of tree diversity. Integrated pest management approach is proposed to prevent field crop losses due to termites."},{"index":7,"size":239,"text":"Intercropping with the native woody shrub Guiera senegalensis J.F. Gmel, can improve soilplant-water relations, nutrient availability, and crop yields. However its effect on crop development throughout the course of the growing season in the Sahel has not been demonstrated. This study conducted from 2013 to 2016, focuses on phenology and growth of crops in the presence or absence of shrubs under varying rates of fertilizer. Appearance of the major developmental phases was determined and the number of leaves and height of the main stem of peanut and millet were measured weekly. The experimental design was in a split-plot factorial design. The presence or absence of G. senegalensis was the main plot and fertilizer rate (0, 0.5, 1 or 1.5 times the recommended N-P-K rate) was the subplot factor. The flowering period of crops in presence of shrubs is 7 to 18 days earlier than no shrub plots for all years, regardless of rainfall distribution, which varied significantly including, periods of drought stress during critical developmental phases. Crop growth was also improved by shrubs. The number of crop leaves (26 to 45%), stems (42-81%) and plant height (2-4 times more) in shrub plots were significantly higher than no shrub plots. This shows that the presence of shrubs allows associated crops to grow larger and mature faster, which can allow crops to persist through early as well as late-season periods of moisture shortage in the uncertain rainfall regime of the Sahel."}]},{"head":"Introduction","index":25,"paragraphs":[{"index":1,"size":52,"text":"Romania has no legislation that specifically refers to agroforestry systems but indirectly supports the realization of forest shelterbelts, through Submeasure 8.1 of the National Rural Development Program. Thus, the Forest Research Institute realised projects of forest shelterbelts for the southern area of the country which are the most affected by climate changes."}]},{"head":"Material and methods","index":26,"paragraphs":[{"index":1,"size":41,"text":"The design of shelterbelts was done using GIS techniques, current rectified aerial images and detailed pedological maps. Over the successive layers of diverse information (geographical, hydrographical, pedological, administrative etc.) the network of shelterbelts was placed. The GIS database has been completed."}]},{"head":"Results and discussion","index":27,"paragraphs":[{"index":1,"size":75,"text":"The network of forest shelterbelts was designed for each commune in the 12 counties from the southern area of the country (Figure 1). The main goals are to mitigate climate imbalances, avoid agricultural production losses and increase the area occupied with forest vegetation that is below 8%. We have selected a wide range of species like oak species (mainly pubescent oak), elm, ash, maple, wild pear and shrubs. The number of seedlings was also established."}]},{"head":"Conclusion","index":28,"paragraphs":[{"index":1,"size":237,"text":"The percentage of occupation of the agricultural land with shelterbelts is 2 % which could improve the microclimatic conditions and the crop production. The variation of ecological site factors in each county means different afforestation compositions, thus shelterbelts increase biodiversity. The decrease in agricultural production due to excessive salts is a very serious problem in China. Salt-affected soil is mainly distributed in the northeast and northern parts of China, and the alkalization of soils has progressed rapidly in many areas. In addition, because SO2 emissions have increased remarkably during the last decade following the dramatic growth of the economy and energy use, the desulfurization equipment has been installed in large plants such as coal-fired power plants. However, the indoor pollution due to the combustion of the low-rank coal containing high percentages of sulfur and ash in rural area is crucial problem, and there are many instances about health damages. In addition, China faces the strong pressure to decrease CO2 emission by reducing fossil fuel consumption and examine the renewable energy sources such as biomass energy. So we have examined the amelioration of salt-affected soil with desulfurization by-products since 1996, and revealed the benefits of soil amelioration and afforestation in China. In this paper, we report the changes in agricultural production, soil chemical properties and soil carbon in coal bio-briquette ash (BBA) application. After that, we estimate the changes in carbon stock due to afforestation in Liaoning province."},{"index":2,"size":259,"text":"Salt-affected soil amelioration tests with coal BBAs were performed in 2008 at Kangping in Liaoning province. Two types of bio-briquette were made from low-quality coal (sulfur content BBAs were added to four experimental plots of salt-affected soil at the application rate of 0wt%, 0.5wt%, 1.0wt%, 2.0wt% and 3.0wt% (6.96 kg/m2) in three replications. Their soil amendments were incorporated into the plow layer of the soil by mixing with a scoop, and were added to all plots at the same time as the seeding in the first year. Moreover, an ammoniacal fertilizer was added to all plots and a pig manure as the organic fertilizer was added to two experimental plots at the application rate of 3.0 kg/m2. In addition, BBA was used as soil amendment for tree (Populus canadensis cv. Zhelin) planting in the northern part of Liaoning and simulated the effect of carbon sequestration due to the utilization of BBA for tree planting. Consequently, the corn production increased with the increase of the application rate at all test plots. BBA containing higher sulfur indicated better effect on corn production. And the pH, ESP, Na, CO3 and HCO3 concentration of soil solution decreased with the increase in BBA. Moreover, the increase in soil carbon at the application rate of 3.0wt% could be confirmed. Lastly, the increase in the carbon stock in tree biomass and soil in Liaoning and Tianjin due to afforestation with BBA could be calculated. Therefore, the increase in carbon stock due to salt-affected soil amelioration with BBA indicated the possibility as carbon sequestration technology in China."},{"index":3,"size":191,"text":"Land degradation is an important problem in Ethiopia, largely driven by the high removal of vegetative cover through clearing, cutting or overgrazing. Population pressures are increasingly forcing farmers to cultivate more and more marginal lands. This situation is particularly evident in the drylands of northern Ethiopia where the problems are exacerbated by increasingly erratic and decreasing rainfall. Consequently, rural communities can especially experience poverty and malnutrition. Multipurpose trees integrated into the farming system are options for both mitigating land degradation and can significantly contribute to the livelihood of small-scale farmers. Our six years of research support the view that Acacia saligna is a valuable multipurpose tree for the mid-elevation highlands of northern Ethiopia that can support livelihoods of rural communities and address the need to rehabilitate degraded areas. Acacia saligna supports livelihoods through the provision of feed, wood and fodder. Trees can readily integrate into existing systems as farm or plot borders, woodlots or as homestead shrubs. Pruning trees to 1.8-2.3 m height is most suitable when trees are being actively browsed by goats. Trees can be pruned early to mid-dry season (January to May) to address potential ruminant feed gaps."},{"index":4,"size":191,"text":"Seeds may be collected in December and May; seed meal fed as a supplement to laying hens can be used to improve egg production. Test results suggest the wood quality is similar to the standard required for manufacture of medium density particleboard, offering income-generation for smallholders. An alley cropping trial showed that the overall production -wheat yield, fodder, fuelwood -from Acacia saligna hedgerows pruned to 1.8 m height alongside wheat was more productive than wheat alone. Multi-year provenance resource stands have been established to select improved types of Acacia saligna for pole and multi-purpose use so that farmers will have eco-types to suit their requirements for feed, fuel and fodder. Acacia saligna successfully colonizes degraded slopes and gullies, providing shade and protection for native herbs, grasses and shrubs. Pruning of trees in exclosure areas provides farmers with supplementary fuelwood and fodder. There is potential for selective pruning and coppicing of these trees. Ongoing work in Tigray will focus on the development and release of improved germplasm to assist communities wanting to restore degraded land or farmers who can see an opportunity to make use of Acacia saligna to support their livelihoods."},{"index":5,"size":5,"text":"Keywords: Acacia, Multipurpose, Livelihoods, Management."},{"index":6,"size":186,"text":"Many authors have emphasized the importance of Faidherbia albida Parklands (FaP) in Niger, and have described their restoration by Assisted Natural Regeneration (ANR) (Montagne et al, 1996;Larwanou et al, 2010). A study was conducted in 2018 to check the parklands biodiv. status in the Niamey region. In 3 villages, a FaP area of 15,000 ha was mapped and an inventory was carried out on 75 plots of 1 ha. A survey was conducted to assess the importance of wood in household consumption. Results show that: FaP are poor in trees diversity (24 sp.), natural regeneration has even fewer species (21 sp.), tree density is low (5-8 / ha), trees with a diameter greater than 40 cm and less than 20 cm are rare (Fig 1) and many old trees are dead (4-8% of all trees in 2 villages) (Boubacar et al, 2017). In 2 villages, wood has become so scarce that people must use palm leaves or straw for domestic energy. It is therefore estimated that the efforts to restore the FaP by ANR either were not continued over the past 20 years or were ineffective."},{"index":7,"size":223,"text":"Further studies are urgently needed to understand the ecological and socio-economic determinants of the degradation of this AFS that is vital for the populations. A large-scale policy then must be launched to support the restoration of trees in the landscapes, one that probably should include training, the shared and secure management of territories, and subsidies for community forest management and the restoration of parks by ANR and plantations. Clashes between national level priorities for land restoration and those held by local actors may hinder the uptake of restoration actions at local scales. Yet, priority mapping for restoration rarely incorporates the knowledge or perspectives of multiple stakeholders, especially those of local land users, resulting in a lack of information regarding their preferences and priorities. Combining participatory mapping, farmer interviews and a field survey of soil erosion prevalence, we explore local perceptions of land degradation and restoration activities in the Gilgal-Abay watershed located in the Amhara National Regional State of Ethiopia. The watershed has experienced extensive land degradation in the form of soil erosion and soil nutrient depletion, largely attributed to the over-exploitation of communal resources and conversion of marginal land. Over the past decade, local communities have invested heavily in restoration efforts, including the establishment of area exclosures -an agroforestry-based intervention that promotes the regeneration of natural forest vegetation through the exclusion of livestock."},{"index":8,"size":117,"text":"Our study reveals discontinuity between current scientific perspectives and local values regarding when and where to act. While research has frequently shown that the prevention of land degradation is more cost-effective than its reversal, land users prioritised the areas they considered the most degraded for exclosure, despite being aware that once severely degraded land may become increasingly difficult to recover. This was because of the perceived opportunity costs associated with the establishment of exclosures on land that still maintained some productive potential, albeit very low. Perceptions of degradation and priority areas for restoration efforts were also found to vary with gender and that substantial disagreement between farmers existed over the establishment of exclosures on communal grazing lands."},{"index":9,"size":153,"text":"Two key factors were reported to influence farmers acceptability of exclosures: (i) farm size, and (ii) number of livestock. Farmers with many livestock or little or no land relied heavily on communal grazing and were strongly opposed to the establishment of exclosures. In contrast, farmers with sufficient farmland and fewer animals were able to designate an area of land for private grazing. Such findings demonstrate that land users may not share the same priorities, in terms of where, when and how to address degradation, as one another, or with other actors involved in restoration initiatives (e.g. researchers, government staff, and local planners) which implies a need for negotiation, and that the impact of restoration actions such as exclosures are likely to be socially differentiated. This makes it important to understand how livelihoods interact with different restoration interventions and to take measures to ensure that restoration efforts do not disadvantage the most vulnerable people."},{"index":10,"size":7,"text":"Keywords: Land restoration, Priorities, Exclosure, Local perceptions."},{"index":11,"size":400,"text":"The Sahel is an ecologically fragile environment under threat from over population & grazing, & intensification of cropping with continuing soil degradation. Additionally, drought is common, causing chronic low yields, crop failures & food insecurity. The main food is millet or sorghum for the majority Sahelian populations, that is largely outside the market economy. Green Revolution technologies have not been successful & yields of staple cereals are unchanged in five decades. Biologically based systems are desperately needed that utilize local resources. A solution, is intercropping of native shrubs, (Guiera senegalensis or Piliostigma reticulatum) , that coexist with row crops throughout the Sahel. Unfortunately, currently shrubs are coppiced & residue burned prior to cropping depriving soils of needed organic matter. Our >15 years research on the agronomic performance of an optimized, non-thermal shrub intercropping system (1500 shrubs/ha & return of coppiced biomass to soil) (OSS), at 2 long-term experiments (11 years) in Senegal, showed the intriguing ability of G. senegalensis & P. reticulatum to dramatically increase yields of millet & groundnut, while maintaining yields in drought years. Shrub intercropping has more than doubled soil carbon & increased the availability of most macronutrients in soil over non-shrub cropping. Shrubs significantly increase microbial diversity & enrich genera known to have plant growth promoting properties. A key discovery of our team is that these shrubs perform hydraulic lift (HL), which is the movement of water via deep roots from wet subsoil to dry surface soil, at night when photosynthesis stops. The long-term data shows that shrubs reduce drought impacts in crops by significantly increasing rainfall water use efficiency (WUE) (kg ha/mm), maintaining yields even in very dry years. Recently a simulated drought experiment (with total water control in the dry season) showed that stopping irrigation at late millet flowering resulted in a harvestable millet with OSS, whereas nonshrub plots had crop failure. We attribute the improved WUE & ability to buffer drought periods of OSS to improved soil quality & to hydraulic lift. Indeed, during the simulated drought experiment we confirmed that HLed labeled water (deuterium) was taken up directly by adjacent millet plantsmeaning shrubs are \"bioirrigating\" crops. Another valuable observation is that OSS reduces time to harvest by about 15 days -further buffering against erratic rainfall of the Sahel. Optimized shrub-intercropping is advantageous for subsistence farmers, because it is a local resource they are familiar with while remediating degraded soils & resisting drought."},{"index":12,"size":45,"text":"With the sound scientific basis of optimized shrub intercropping established & the fact that these shrubs are found throughout the Sahel -we are poised to pilot test & demonstrate this system throughout the Sahel as a key management tool for beating famine across the region."}]},{"head":"L03.P.10","index":29,"paragraphs":[{"index":1,"size":46,"text":"Long-term Piliostigma reticulatum intercropping in the Sahel: Impact of the density of shrub on sorghum yield Douzet J.-M. 1 (jean-marie.douzet@cirad.fr), Dusserre J. 2 , Lahmar R. 3   1 UPR AIDA, CIRAD, Ouagadougou, Burkina Faso; 2 UPR AIDA, CIRAD, Montpellier, France; 3 UPR AIDA, CIRAD, Tunis, Tunisia"},{"index":2,"size":74,"text":"Continuous cropping of cereals and reduction of fallow periods contribute to soil degradation in Africa drylands, altering the soil functions and the systems' resilience. Alternatively, appropriate intercropping of cereals with native evergreen woody shrubs is proposed as a way to restore degraded lands and, ultimately, positively impact crop yields (Lahmar et al., 2012;Bright et al., 2017). The effect of the density of shrubs (Piliostigma reticulatum) was tested on a continuous sorghum crop (Sorghum bicolor)."},{"index":3,"size":113,"text":"The experimentation is located in the 2iE Campus -Kamboinsé, Burkina Faso (12°28.031'N; 1°32.929 'W) including randomized block design with four replicates. Shrubs were installed in August 2012 with different shrub densities: 0, 488, 976 and 1953 shrub ha-1; Sorghum was cultivated using the Zaï technique (traditional planting pits) since 2013 season. Fertilizers were provided on the sorghum crop only in the first 2 years. Each year, the shrubs were coppiced before the start of the rainy season in June, and during the cropping season (starting from 2016). All the shrub biomass was used as soil cover. After sorghum grain yield was harvested, the remaining sorghum biomass was also left on the soil surface."},{"index":4,"size":65,"text":"Piliostigma aboveground dry matter have increased during the 4 years of monitoring (from 2015 to 2018), reaching in 2018 a production of 6160 kg ha-1 (dry matter) for both the highest shrub densities (976 and 1953 shrub ha-1), and 3890 kg ha-1 for the lowest density (488 shrub ha-1). Sorghum grain yields declined progressively since 2014 when we stopped using fertilizers, and for all treatments."},{"index":5,"size":128,"text":"allows the stabilization of soil carbon content but not of soil nutriment nitrogen and phosphorus (Félix et al., 2018). Further researches combining Piliostigma with other sources of nutrient would need to be tested. For example in 2018 we started to study the effect of adding cowpea (Vigna unguiculata L. Walp, nitrogen-fixing legume) to the intercropping of shrub with sorghum. Another consideration is the time required to achieve measurable benefits. It was observed that it took more than 4 years to obtain consistently increased yields of sorghum when shifting to an optimized Piliostigma system (Bright et al., 2017). This experiment is the support for various studies on hydrology of soil and on nutrient cycling (CGIAR Research Program \"Grain Legumes and Dryland Cereals\", LeapAgri \"Ramses II\" project, MacKnight \"3F\" project)."},{"index":6,"size":10,"text":"L3 Land Degradation Girard H. 1 (eau.terre.verdure@gmail.com), Kabore S. 2"},{"index":7,"size":14,"text":"1 ONG TERRE VERTE, Ouagadougou, Burkina Faso; 2 ONG TERRE VERTE, Guiè, Burkina Faso"},{"index":8,"size":59,"text":"The action of the NGO TERRE VERTE (Green Earth) in Burkina Faso is to create bocage landscapes. Those are called wégoubri in Moore, a local language. This new rural development concept was first and successfully developed in the 90s, at the pilot farm of Guiè, and has since been replicated in the pilot farms of Filly, Goema and Barga."},{"index":9,"size":42,"text":"The degradation of the Sahel environment has dramatically escalated during the last decades, endangering rural populations. In addition, damages caused by the on-going traditional practice of extensive agriculture have worsened the matter. Creating bocage landscapes in rural areas helps solve the problem."},{"index":10,"size":27,"text":"Using a holistic approach that encompasses applied research, training and direct support to the farmers, the pilot farm succeeds in integrating environmental conservation principles in agricultural methods."},{"index":11,"size":61,"text":"The concept is based on the creation of bocage areas in co-ownership, including individual and common plots. Its management is organized through a land beneficiaries' group. The result is a fully restored environment where agriculture is no longer synonymous with erosion, where cattle breeding is no longer synonymous with overgrazing, and where trees and shrubs are harmoniously integrated in the environment."},{"index":12,"size":129,"text":"The increase in agricultural yields obtained after only a few years of soil restoration demonstrates the economic viability of the concept. It is the only solution to restore millions of deteriorated hectares of land across the Sahel. Domestic firewood consumption is one driver of deforestation in Tanzania. A lack of availability of clean cooking energy sources and the use of energy inefficient cooking devices contribute to high firewood demand at household level (~50 kg/week and household). In this study, we tested whether a firewood production and consumption equilibrium including both, on-farm firewood production through agroforestry systems (treatment 1: maize, pigeon pea and Gliricidia sepium (G. sepium); treatment 2: maize and G. sepium) and adoption of locally made artisan mud-based improved cooking stove (ICS) at household level could be reached."},{"index":13,"size":38,"text":"Our hypothesis was that households' firewood demand could be met by on-farm firewood production from Gliricidia sepium coupled with ICS technology leading to firewood autarky of households. The research was conducted in the semi-arid region of Dodoma, Tanzania."},{"index":14,"size":329,"text":"In order to determine the firewood production potential of G. sepium, we used data from a randomized block design with six blocks à 256 m². One-year old G. sepium wood (spacing 4m by 4m) was pruned and measured at the beginning of the planting season. Wood yield was extrapolated to estimate the firewood production potential per hectare (ha). In order to determine firewood consumption, we adopted the Controlled Cooking Test (CCT) and compared the firewood consumption patterns of traditional three-stone-fires (TSF) and ICS using G. sepium and the forest-based firewood species (Mrama). We standardized the cooking task and used the meal \"rice and vegetables\" in order to make firewood consumption patterns comparable. Our analysis showed that less firewood from G. sepium was needed to conduct the cooking task. The firewood consumption per meal of ICS compared to TSF was reduced by 24.3% with Mrama and 28.5 % with G. sepium. With a combined transition from TSF to ICS and from Mrama to G. sepium firewood, a substantial reduction of firewood demand per meal of 42.9 % might be realized. Assuming 2.5 cooking tasks per day, a 5-head household consumes 1,298 kg of G. sepium wood per year under an ICS scenario to meet its cooking energy demand (respectively 1,815 kg per year under a TSF scenario). With treatment 1 G. sepium-maize-pigeon pea intercropping, 2.1 ha of G. sepium firewood are needed to meet the annual firewood demand for cooking using ICS and respectively 2.9 ha using TSF (fuelwood from pigeon pea was neglected). With treatment 2, Gliricidia sepium-maize intercropping, 1.1 ha with ICS and 1.6 ha with TSF are needed to meet the annual firewood demand of a household. As shown, implementing these agroforestry systems would make households' independent from external firewood and present a significant reduction in pressure on forests. This might have knock-on effects like: reduced costs associated with firewood collection and utilization, climate change mitigation as well as reduced environmental degradation in semi-arid areas of Tanzania."},{"index":15,"size":9,"text":"Keywords: intercropping, on-farm firewood, forest degradation, improved cooking stoves."},{"index":16,"size":221,"text":"Poor soil fertility is a problem for agriculture in Burkina Faso. Litterfall is an important way for bioelements to return to the soil (natural ecosystems)1,2. Therefore, dynamics and quantity of litterfall were studied with aim to better manage agroforestry landscape with principle of multifonctionality of trees. Five 0.25 m2 litter traps were placed under 5 trees of 3 species (total 15 trees) that have economic and ecologic purposes in agroforestry parklands. Every 2 weeks, litter was sorted into leaves, twigs, fruits and other non-foliar components, which were oven dried and weighed. We calculated total annual litter production by species and fractions. Vitellaria paradoxa, Lannea microcarpa, and Azadirachta indica litter fall were composted and N, P and K content compared with Sorghum crop residues compost. Mean total litterfall (±SE) was 440±50, 377±110, and 494±130 g dw m-2 yr-1 for L. microcarpa, Parkia biglobosa, and V. paradoxa, respectively (Fig. 1). Leaves fraction varied from 63% to 89% of total litterfall depending on species. Largest litterfall input occurred in dry season, October-April. Litter quantity showed that agroforestry parkland is productive (Fig. 1). Litterfall compost had better chemical quality than conventional crop residue compost, but decomposition rate of V. paradoxa litter was very low (29%) (Table 1). These results suggest that with proper management, litterfall could contribute significantly to enhancing soil fertility in agroforestry landscape. "}]},{"head":"Methods","index":30,"paragraphs":[{"index":1,"size":68,"text":"We used a unique combination of ecological and social data from two sites: Centre-Southern Burkina Faso and Northern Ghana. Using the land degradation surveillance framework (LDSF) we assessed soil health, management and woody communities across 320 randomly selected plots (1000m2). 10 plant functional traits were measured on the 44 most important woody species. Semi-structured interviews were carried out with 76 farmers to understand farm practices and species preferences."}]},{"head":"Results","index":31,"paragraphs":[{"index":1,"size":163,"text":"FMNR was practiced by 65% of the farmers interviewed although the level of intensity differed. Seedling density is about 2500 seedlings per hectare, of which 99% regenerated naturally (from seed and rootstock). 48% of regeneration is considered as beneficial to the farm system, while 49% is considered a weed. Weeds usually regenerated from root stock, are persistent and farmers need to keep cutting them. Farmers promote a small subset of species that provide them with benefits in terms of litter, fodder and income. Regeneration on farmers fields is about 5 times less diverse than regeneration in the nearby protected forest. Taxonomic and functional diversity of seedlings on farmers fields is not different from the adult community although there is a shift in species and functional composition of the seedlings compared to the adults where the seedlings represent a higher abundance of shrub species and increased representation of functional traits that indicate drought tolerance (low adult stature, high wood density, small and thick leaves)."}]},{"head":"Conclusions","index":32,"paragraphs":[{"index":1,"size":66,"text":"Understanding regeneration dynamics, drivers and consequences is vital to restore degraded drylands using FMNR. This research shows that regeneration is successful in the two study sites, though only about half of the seedlings is useful for farmers while the other half needs to be continuously removed. Our results further show that FMNR contributes to drought resilient systems but for biodiversity conservation enrichment planting may be needed."},{"index":2,"size":9,"text":"Keywords: restoration, farmer-managed natural regeneration, drylands, degradation, agroforestry parklands."},{"index":3,"size":387,"text":"Dry lands in Uganda as elsewhere have problems of tree seedlings establishment due to little moisture in the soils as rains received in these areas is not enough. This situation is getting worse with the extreme long periods of drought that are now more prevalent due to climate change and variability. However trees are known to reduce such vulnerability to climate change effects (ICRAF, 2013). As a form of sustainable land management in these dry lands, we established an experiment of juvenile tree seedlings of Cassia siamea, Eucalyptus camaldulensis, (Neem) Azadirachta indica and Melia volkensii in three dry land areas of Butiaba, Ngwedo and Kaiso Tonya within the Lake Albert Crescent Zone (Kibale, Masindi, Hoima, Buliisa, Kiryandongo, and Masindi Districts of Western Uganda). We used varied hydrogel concentrations of 5 grams, 10 grams and 15 grams together with a control of no hydrogels at all for each of the above tree spp for each site. Hydrogels can absorb water 400 times their weight and make it available to plants for uptake and use in the dry season (Agaba et al, 2014). The tree seedlings were planted at a spacing of 3m by 3m following a completely randomized block design using slope as a blocking factor. For each hydrogel treatment and each site 5 tree seedlings for each spp were planted giving a total replication of 15. Data on tree heights attained and Number of branches was taken after 3 months and 6 months and analysed using R 3.4.2 (R-Studio). It was observed that in Butiaba and Kaiso Tonya that all the Eucalyptus seedlings without any hydrogels had dried after 3 months showing that without hydrogel use, there can't be any Eucalyptus tree establishment. It was also observed that the maximum height attained by Azadirachta indica (Neem) of 145.7cm and Eucalyptus trees at 116cm for Kaiso Tonya, it was only Cassia siamea tree seedlings that survived the dry season and were growing maximally at a hydrogel concentration of 10 grams while for Ngwedo which is a little bit wet, the hydrogel concentration that produced maximum growth of the tree seedlings was 5 grams. It was concluded that hydrogel technology enhances tree seedling establishment in dry areas and should be recommended for uptake by farmers as more research on other tree spp e.g. Faidherbia albida and others goes on."},{"index":4,"size":6,"text":"Keywords: Hydrogel, tree seedlings, dry lands."},{"index":5,"size":55,"text":"Over 80% of Kenya's landmass is considered arid or semi-arid; characterized by erratic and inadequate rainfall and poor inherent soil fertility; this is coupled with other factors hampering agriclture development such as high cost of mineral fertilizer that many smallholder farmers cannot afford. Declining soil fertility is a major hindrance to agriculture development in Kenya."},{"index":6,"size":373,"text":"In most parts of the country, soils are deficient in nitrogen, phosphorus and in some cases potassium. Drought tolerant agroforestry trees are an important alternative for enhancing soil fertility to enable farmers meet nutrient demand in agricultural systems. The aim of the study was to determine the potential of Casuarina equisetifolia and Melia volkensii systems in soil fertility improvement in semi-arid coastal Kenya (Kwale and Kilifi Counties) for adoption by smallholder farmers to address soil fertility challenges. Casuarina and Melia are fast growing drought tolerant tree species that have widely been adopted in Coastal Kenya. The experiment was set on-farm in a randomized complete block design with three treatments: Casuarina, Melia and control (pure maize crop stands) each replicated four times. Each plot measured 40m by 100m; with a spacing of 2m by 2m for Casuarina plots (with 1000 trees per plot) and 4m by 4m for Melia plots (with 250 trees per plot). Casuarina and Melia plots were intercropped with maize within the first two years. Soil fertility dynamics were evaluated from Casuarina ,Melia and control plots two years after establishment for three consecutive years. Soil samples were obtained from depths of 0-20cm, 20-40cm and 40-60cm. Data was subjected to Analysis of Variance using GenStat software at 95% confidence level. Results indicate that by the end of the fifth year, total Nitrogen was higher in C. equisetifolia (0.15%) and M. volkensii (0.22%) plots compared to the control treatment (0.1%). There was however low buildup of soil Carbon throughout the sampling period (0.36%, 0.38% and 0.39% for Control, Casuarina and Melia plots respectively); this can be attributed to high decomposition rates resulting from high temperatures in the study areas. Soil Carbon also declined with increased soil depth. Soil Phosphorus was highest in C. equisetifolia and M. volkensii plots (4ppm and 6ppm respectively) compared to the control (2.9ppm). There was a positive correlation between soil pH and soil C. equisetifolia and M. volkensii enhanced soil fertility, which can be attributed to N fixation by Casuarina through Frankia bacteria and nutrient cycling by Melia. The results of this study are essential for advising farmers engaging in C. equisetifolia and M. volkensii farming and for promotion of agroforestry using these tree species in semi-arid coastal Kenya."},{"index":7,"size":390,"text":"Soil fertility decline is a major limiting factor for achieving household food security in sub Saharan Africa and has led to increasing concern on agricultural sustainability. Development of indicators of soil quality to monitor changes resulting from land use and soil management have been proposed to address the issue. To better understand the soil fertility problem in the study area, we hypothesized that local farmers can detect differences in soil quality within their farms by using local soil quality indicators which would in return assist in highlighting changes in soil resulting from agroforestry trees. Forty-seven (47), smallholder farmers were interviewed on local soil classes, biological indicators of soil quality and agroforestry tree attributes influencing soil quality. In addition, they were asked to orally describe the characteristics of the local soil classes that occurred in their farm. This was followed by soil sampling guided by local soil classes and soil qualities recognized for each farm. Twenty-seven ( 27) out of 117 fields were classified as intermediate (transitional) between productive (good) and non-productive (poor) soil. To substantiate farmers' perception of soil quality we carried out common soil chemical analyses on samples collected from local soil classes identified by local farmers. Results shows farmers had detailed knowledge of plant species they use as bio indicators of soil quality and their influence on farming activities. Plant species such as Sesbania spp, Acacia abyssinica, Bidens pilosa, Digitaria scalarum, Tagetes minuta and Galinsoga parviflora were named by different farmers as bio-indicators of productive soil. Farmers associated invading species and grasses with unproductive soils. Most of the farmers in the study area were found to be aware of macrofauna as bio-indicators and their activities whereby earthworms and beetle larvae were indicators of productive soil. In contrast, majority of interviewed farmers attributed ants to destruction of crops and regard them as detrimental in the soil. Lastly, laboratory tests results of soils corroborated respective farmers' perceived soil qualities. The study conclude that farmers hold complex ecological or local knowledge on indicators of soil quality and contribution of agroforestry tree in their farms. They can also recognize the tradeoffs underlying a biodiverse agroforestry system and their creative capability in the utilisation of local knowledge was demonstrated. It is therefore necessary to find a realistic and common ground between scientific and local knowledge in order to implement a sustainable agricultural program. "}]},{"head":"Keywords","index":33,"paragraphs":[]},{"head":"Reproduction abilities of Dalbergia melanoxylon with potentials for dry lands reforestation","index":34,"paragraphs":[{"index":1,"size":378,"text":"Ouédraogo A. 1 (amadeouedraogo@gmail.com), Glèlè Kakaï R.  Dalbergia melanoxylon (African blackwood) is a multipurpose shrub, mainly used for pharmacopoeia, fodder, fuel and woodcarving. It produces one of the finest timber in the world which round logs fetch up to US$ 590 / m3 (Lemens, 2008). The species provides good mulch and may improve the soil by nitrogen fixation. It can be used to avoid soil erosion because of its extensive root system (Lemmens, 2008). Now, the natural populations of D. melanoxylon are exposed to a serious declining risk across its distribution range in West Africa (Ouédraogo, 2006;Lemmens, 2008). However, previous studies provide evidence that the species seedlings are good planting materials with high survival rate (Lemmens, 2008). This study aims at assessing the natural regeneration of D. melanoxylon across its natural distribution range in Burkina Faso and testing the germination capacities of seeds as well as the seedlings early growth. The results are expected to provide better understanding of the species reproduction in order to promote it for the restoration of degraded agricultural soils. Quantitative inventories were used to describe the natural regeneration stands and monitoring was carried out in permanent plots to assess the recruitment dynamics. Seeds from different provenances were used for germination tests and to assess the seedlings growth. The results revealed a scarcity of regeneration individuals that was traduced by comparable (p both Sahel (3 individuals / 25 m2) and sub-Sahel (1.8 individual / 25 m2) stands. Regenerating individuals originated exclusively from root sprouting and exhibited multi-stratum population structures. The spatial distribution pattern of recruitments revealed grouping trends around the mother-trees. The survival rates of recruitments were relatively good but their growth was unpredictable. D. melanoxylon had a relatively high rate of damaged fruits by pests (44-88%), which largely accounts for its poor rate of natural regeneration by seedlings. However, the experiments revealed average to high germination rate (52-77%), according to the duration of seeds conservation. The speed of germination (5.3 -12.8 days) and the longevity of healthy seeds are an advantage for sexual reproduction. Even though seedlings have poor resilience ability in the natural stands, the good capacities of germination as well as the high growth and survival rates in nursery are assets for the sylvicultural promotion of D. melanoxylon among local populations."},{"index":2,"size":135,"text":"Background: In the Sudanian region of North Cameroon, population growth has led to reduced fallow periods, soil fertility and trees (Peltier et al., 1993). Since 1984, CIRAD, Irad and Sodecoton have been testing techniques for planting tree legumes to restore soil fertility (Harmand et al., 2017). Results: Crop production was much higher for all 3 years and soil chemical properties (C, N, pH, CEC) were higher in Pf than in Cc (Table 1). Conclusion: Further studies are needed to determine for how long crop cultivation remains profitable (Dubiez et al. 2018). This will pave the way for farm and landscape management including plots planted with tree legumes, to improve biodiversity, carbon storage, wood energy production, food and cash crops of the territories, while limiting population migration and the destruction of the last Sudanese natural ecosystems."},{"index":3,"size":35,"text":"Table 1: Crop production and soil analysis at a depth of 0-20 cm in two control continuously cultivated plots (Cc) and in two plots after the fallow in 2011 of a 15-year-old A. senegal (Pf)"},{"index":4,"size":226,"text":"Agroforestry activity of central Chile is developed on degraded and compacted soils under mediterranean climate. This study evaluate during 4 years, the effect of 2 soil conservation techniques (subsoiling with contour ridges (SB) and infiltration trench (IT), which were compared to a control treatment without soil management (CO)) on soil water content (SWC) and the survival and growth of two exotic (Chamaecitisys proliferus and Quercus suber) and one native tree (Quillaja saponaria). SWC was determined with a neutron probe in aluminum access tubes of 1,2 m. 4 were installed in each replicate and located at 0,5 and 1 m up and down the system. Soil conservation structures allowed higher SWC especially in the years of higher rainfall (1). At 20-40 and 40-60 cm depth SWC was higher in SB followed by IT and CO, whereas at 60-80 and 80-100 cm depth there was no differences. Conservation techniques had an effect on plant height, crown and trunk diameter in the 3 evaluated species (2). Plant height in C. p. was higher in IT>SB>CO, while in Q. s. it was higher in SB>IT>CO; Q. s. exhibited similar growth in both systems, but it was higher than in CO. The survival rate of Q. s. was lower in the CO system (57%), while C. p. and Q. s. had similar survival rates in the 3 systems (97% and 87%)."},{"index":5,"size":30,"text":"Subsoiling with ridges has a great potential for degraded and compact soils of the Mediterranean region, allowing higher soil water content in the profile and better tree establishment and growth."},{"index":6,"size":81,"text":"The Quercus-based silvopastoral systems of the Mediterranean basin are declining due to both abandonment and intensification trends 1 . Grazing management is a major driver of plant communities dynamics and, therefore, of forage productivity and quality 2 . Adaptive Multi-Paddock (AMP) grazing system 3 , i.e. rotational grazing with high instantaneous stocking ratesand resting periods long enough to allow an optimal plant regrowth, has been recommended as a potential tool to manage rangelands to sustain forage productivity and improve livestock management."},{"index":7,"size":32,"text":"The experimental hypothesis of the study is that AMP grazing can be more effective than current grazing systems in supporting the biodiversity and the provision of ecosystem services in Mediterranean wooded grasslands."},{"index":8,"size":241,"text":"The study site was in a private farm located in the Central-western Sardinia, Italy (40°8'N, 8°35'E), consisting of two distinct areas located at 850 m (A) and 400 m (B) a.s.l., which main activity is the beef cattle and goats breeding. Since August 2018, at the A area, where animals graze during summer and winter season, 8 paddocks (size from 0.6 to 1.2 ha) were identified and electrically fenced, aiming to start the AMP system to be compared to the ordinary one (control). Furthermore, two typologies of soil cover where there identified: the Dehesa Type (DT) and the Permanent Grassland (PG). In each paddock animals graze for few days with high instantaneous stocking (Livestock Units 4 , LSU) rates (up to about 7 LSU ha -1 ) followed by long resting periods, while in the ordinary system grazing will occur according to a continuous scheme with lower stocking rates (up to 2 LSU ha -1 ). Plant biodiversity is assessed at each season in AMP and control areas according to the vertical point method integrated by the floristic relevé in order to record also rare species. Forage production is monitored at the beginning and the end of the grazing period by measuring the sward height (H) with a HFRO sward stick in both AMP and control areas. The sward stick is being seasonally calibrated in order to obtain robust and reliable regression equations between sward height and dry matter (DM) biomass."},{"index":9,"size":102,"text":"The results referring to autumn 2019 are preliminarily shown. Distinct relationships between H and pasture DM biomass of species belonging to Poaceae and Fabaceae families were identified. Significant relationship between sward stick height and DM biomass were observed for both Poaceae Fabaceae the 83% and the 56% of plant cover on DT and PG, respectively. The grass+legumes utilization factor in DT (79%) were higher in AMP paddocks than control areas (43%), while less difference between AMP (40%) and control (32%) were observed in PG, suggesting an higher consumption of less quality forage 5 , which presence is higher in PG than DT. "}]},{"head":"Agroforestry and world challenges","index":35,"paragraphs":[{"index":1,"size":153,"text":"Agroforestry: riding to the world's rescue -L4 -Agroforestry and biodiversity conservation \"Listen, mummy! Birds!\": using agroforestry to restore biodiversity Agroforestry has been demonstrated to be a feasible alternative to less biologically diverse agriculture in balancing biodiversity conservation and production. However, different studies have also demonstrated that the on management decisions. Multiple management decisions might affect the vegetative composition as well as the resource availability for animal species, thereby affecting their overall conservation value. Management decisions are crucial to fostering the desired balance between conservation and productivity, and more information is needed to accurately identify the tradecrucial in the development of biodiversity friendly management practices since these are the best options for preserving ecosystem functions and the services needed to secure sustainable production. This session aims to cover research related to the value of agroforestry systems for biodiversity conservation and the different effects that management might have on the value of particular agroforestry systems."},{"index":2,"size":349,"text":"Cacao is a major commodity crop that is mostly planted in small plots managed by family workforce in agroforestry systems (AFS). AFS are productive systems that combine a diverse canopy and provide opportunities for preserving biodiversity while sustaining rural livelihood. However, the role of the diversity and structure of the associated plant community on cocoa's productivity is still poorly assessed, especially in Colombian AFS. We selected fifteen cacao-based AFS in the upper Magdalena region of Colombia. In each one, we used a 1,000 m2 plot to characterize the diversity, structure and uses of the associated plant community. Additionally, we described the cocoa tree populations by measuring plantation density, age, and size of the cocoa trees. Finally, we characterized management practices by conducting farmers interviews to assess the frequency of pruning, application of fertilizer and manual pest control. AFS were ranked by multivariate analysis according to (i) management intensity, and (ii) plant functional groups based on the uses by humans. Four types of AFS differed on their management intensity and ranged from old plots planted at low density and based on traditional varieties to young plots planted at high densities of improved cacao varieties. Three types of AFS differed for their plant functional groups and included plantations where either fruit, timber or service trees predominated. Cocoa yield was in average low and although it widely varied among farms, differences were not significant among management or plant functional group types. As expected, cacao yield was positively affected by the proportion of improved cacao varieties and negatively affected by the proportion of unproductive cocoa trees. However, cacao yield was not affected by associated plant diversity. When most approaches to increase productivity are focused on replacing unproductive cacao trees with improved cacao varieties, we suggest that associated plant diversity should also be taken into account to diversify products and increase overall productivity, especially when the selected species do not affect cocoa yield. Better planning and management of associated plant species within cocoa-based AFS could provide further benefits to farmers such as provition or regulation ecosystem services. Research funded by UMNG Grant CIAS 2304. "}]},{"head":"Taxonomic and functional diversity of insects within a nettle-poplar plantation on a sediment landfill","index":36,"paragraphs":[{"index":1,"size":221,"text":"Yung L. (loic.yung@edu.univ-fcomte.fr), Chalot M., Chiapusio G., Bertheau C. UMR 6249,Montbéliard,France Phytomanagement, which combines techniques using plants to extract, contain or degrade pollutants, appears as efficient nature-based solutions for the rehabilitation of contaminated soils. The present study aimed at evaluating the entomological diversity and its beneficial aspect at a phytomanagement field trial, consisting of a mixed plantation of poplars and spontaneous stinging nettles (Urtica dioïca). In natural conditions, nettle hosts a large diversity of insects, including some auxiliary species (James et al., 2015), which could be involved in the bio-control of poplar pests. The entomological inventory was performed monthly during 2017 and 2018 using multidirectional window flight traps combined with active catching. In 2017, 1484 insects were collected and grouped on 154 taxa identified up to the genus level for 61%. Nine orders were represented with the coleopteran, hemipteran and dipteran accounting for 95% of the total abundance. The ratio of phytophageous / predatory was 23 ± 6 %. Diversity indexes showed a high taxonomic and functional diversity comparable to those observed in natural patches of nettles (Davis, 1989). We highlighted that nettles growing between poplars offers a natural reservoir of entomological biodiversity that seems beneficial to the whole agro-system. We also confirmed that the nettle-related insects were not directly implicated in the transfer of contaminants at the studied agro-forestry system."},{"index":2,"size":84,"text":"Insect pollinators play a pivotal role in agricultural landscapes, supporting both biodiversity and food production. However, intensification of agricultural practices and the subsequent landscape simplification have threatened pollinator abundance and diversity via important losses and fragmentation of semi-natural habitats. These perennial elements are mainly permanent grasslands and rural forests, i.e. farm forests and trees outside forests like scattered trees or hedgerows, that compose agroforestry landscapes. They provide feeding resources but also overwintering and nesting sites for pollinators such as wild bees, butterflies and hoverflies."},{"index":3,"size":90,"text":"We present here a synthesis of several studies we conducted on the effects of rural forests on pollinator abundance and diversity and how they structure pollinator communities and functional assemblages. We focus on their role on spatial and temporal resource complementation (wild bees and hoverflies) and their role on spatial connectivity (wild bees and butterflies). We also explore how the effect of rural forest on functional assemblage could buffer agricultural intensification. These studies highlight the need for a small-scale mosaic of crops, grasslands and rural forests to sustain pollinator biodiversity."},{"index":4,"size":73,"text":"Temporal habitat complementarity for Episyrphus balteatus, a pollinator and aphid predator. Winter: females hoverwintering in woods feed on late flowering species occuring in south-facing edges. Early spring: females lay up eggs in crops surrounding woods, their aphidophagous larvae cause an early control of aphids. Late spring: flowers are available in semi-natural habitats and in some crops, adults scatter in the landscape and lay up eggs not only in the close proximity of woods."},{"index":5,"size":705,"text":"Summer: flowering resources are scarcer, adult feed on flowers in north-facing edges. The effect of land use types on insect diversity and composition in tropical agroforestry system Rachmawati R. 1 (rina_rachmawati@yahoo.com), Rizali A. Land-use intensification is rapidly increasing in regions that harbor high levels of biodiversity, thus posing a serious threat to the stability and resilience of these ecosystems (Mumme et al, 2015). The expansion of monoculture crops has been directly linked to large-scale losses of biodiversity and ecosystem functioning (Barnes et al., 2014). Agroforestry has been proposed as an alternative to agriculture for smallholder farmers throughout the tropics in order to enhance ecosystem service supply and conserve biodiversity (Kearny et al. 2017). Insects are important bio-indicators of forest health. Each type of insect has an important role in ecosystem; therefore it is very important to maintain the existence of these species. Nevertheless, only a view studies has been reported regarding the response of several species of insects in tropical agroforestry system. In this report we bring together these four important insect taxa, namely ant, borer beetle, parasitoid wasp, and dung beetle to study for their response in terms of species richness, species abundance and their compositions from five land use types in agroforestry system in Indonesia. The method used was a field survey in UB Forest Malang, Indonesia. Types of land use in UB Forest being used as plots were pine intercropping with vegetables, pine intercropping with Coffee, mahogany intercropping with taro, mahogany intercropping with Coffee, and protected areas, with three repetition in each land use. Different types of insect traps were installed in the sub plot, depending on the insect taxa. All ant specimens were identified to the morphospecies level by referring to the book Identification Guide to Insect. The measurement of species diversity was calculated using the Shannon-Wienner diversity index formula (H'). Results between different land use were analyzed using variance analysis (ANOVA). Further tests on the similarity of the composition of the dung beetle community were calculated using Non-Metric Multi-Scaling (NMDS). All data processing was conducted using the vegan package from the R-Statistics software (R Development Core Team 2018). The results showed that all land use types significantly affected only species abundance, with various effect from negative to positive effect, with the exception for Hymenopteran parasitoid that was being affected both for species richness and abundance. Protected areas were the land uses that had highest abundance of woodborer and hymenoptera parasitic. As for the highest number of individuals for ants and dung beetle were found in pine intercropping with coffee. From this study it can be concluded that in general, different land use affected species abundance rather than species richness of the four species. Species compositions of the four insect taxa were significantly affected by land use type. Overall observations showed that protected areas has more species compositions rather than in any other four land use types. Despite growing literature supporting the importance of home gardens (HG) as biodiversity hotspots, knowledge of patterns of their contribution to conservation of threatened species and crop wild relatives (CWR) across climate and culture in Africa is still limited. This investigation was conducted across three climatic zones to assess the floristic diversity of HG and the extent to which they contribute to conservation of threatened species and CWR. Overall, 240 HGs were sampled and their floristic diversity assessed. The ecological importance of recorded species was determined per climatic zone using the importance value index (IVI). A cluster analysis was performed to group the species according to their IVI-values and a principal component analysis helped to identify the most important species. 285 species were inventoried throughout the study area. Home garden species' diversity globally declined from the drier to the wetter zone but was highest in the transition zone. The average number of species found per HG was 10.1 ± 1.4 and varied weakly across zones. The most important HG species differed across zones but has similar uses. They were mainly vegetables and used as food and/or medicinal plant species. Twenty CWR and twelve threatened species were recorded and were also mainly used for food and medicinal purposes. Detailed studies are still needed to understand the HG socio-ecological system, its dynamics and effectiveness in conserving biodiversity."},{"index":6,"size":582,"text":"The effective management of human-dominated tropical forest landscapes is crucial in the wake of global climate change affecting biodiversity, ecosystem functions, and the livelihoods of billions. Among varied land management practices in the tropics, agroforestry remains one of the most promising, promoting deliberate maintenance of forest cover for productive agriculture, facilitating avenues for mitigating climate change and enhancing ecosystem functions. Considering these merits, the Indian Government launched the National Agroforestry Policy (NAP) in 2014, world's first, nationwide policy with a central idea of doubling the agroforestry area concurrent with expansion of national forest cover 1 . As the world's most populous country, yet its fastest growing economy, moving towards \"Green India\" would be a serious game-changer for this tropical country with positive global environmental implications. The effective implementation of this economically valuable policy falls on the shoulders of Indian Forest Departments (IFDs), who uphold a strict policy of preventing fires in and around forests. Fire is an integral part of forest ecosystem functioning and its strict prevention leads to accumulation of biomass load, causing more/severe fires 2 ; this scientific evidence emerged from palaeoecology led other post-colonial countries towards adopting prescribed burning 3,4.  Such evidence is vital to age-old, human-dominated Indian agroforestry landscapes where people have traditionally used fires in shifting cultivation 5 . This disagreement in fire practices often instigate serious conflicts between local communities and IFDs, hampering implementation and the desired impact of the NAP and its associated socio-ecological benefits. In this context, using palaeoecology-driven innovative statistical modelling methods (e.g. pollenbased REVEALS modelling, rarefaction and multivariate ordination), we examine the resilience of Indian agroforestry landscapes in relation to past fire regimes and monsoonal variability, thereby analysing their capacity to sustain biodiversity across the Common Era. To explore its applicability to other parts of the tropics, we use the model system, Western Ghats of India, one of world's biodiversity hotspots supporting the highest population density through agroforestry. Moreover, these age-old agroforestry landscapes often coexist with community-based conservation in the form of sacred groves, thus comparing forest trajectories from these two eco-units provides an ideal opportunity to develop regional resilience scenarios against human and natural regimes at a 20-50 yr resolution. This resolution renders a tangible window for building policy implications for fire management practices in relation to assess sustenance of biodiversity in the light of NAP. Our work is part of project \"EARNEST\" that has received funding from the European Union's Horizon 2020 research and innovation programme under the grant agreement no. 795557. mers' role in conservation of tree species is unclear. We hypothesized that farmers contribute to conservation of tree diversity through protection of trees in their agroforestry landscapes and compared the diversity and structure of the tree vegetation across landscape classes. Inventories were carried out in three villages in the Groundnut Basin in Senegal, assessing tree diversity, density and crown cover. Tree diversity as assessed by species accumulation curves was high in forests, but cultivated landscapes had comparable or almost comparable diversity, especially in the cases where the forest was planted or was affected by charcoal production. However, the occurrence of exotic species was higher in cultivated parts of the landscape, and although many species were in common, ordination plots indicated that forests and cultivated landscapes to some degree had tans (salt marshes) but also across the other landscape classes. In conclusion, agroforestry conserve the tree species. We argue that informing and including farmers in tree management in the region will contribute to overall conservation of tree genetic resources. "}]},{"head":"L4.2 Biodiversity","index":37,"paragraphs":[]},{"head":"Biodiversity conservation value of swidden agroforestry systems vs. RSPO oil palm","index":38,"paragraphs":[{"index":1,"size":865,"text":"Simamora T. I. 1 (trifosaiin@gmail.com), Suriyanto I. 2 , Dewo S. 2 , Laumonier Y. 3   1 Sustainable Landscapes and Food systems, CIFOR, Bogor Barat, Jawa Barat, Indonesia; 2 Forestry  Faculty, Tanjungpura University, Pontianak, Indonesia; 3 UR 105 Forests and Societies, CIRAD,  Montpellier, France   The loss of biodiversity following forest conversion into monoculture plantations is well documented in SE Asia. The effectiveness of land sparing or integrating \"wildlife-friendly\" management into agricultural landscapes to maintain biodiversity is still a matter of debate. This study examines biodiversity conservation value of forest fragments in two types of land management: monoculture oil palm plantation under RSPO scheme, and agroforestry systems within swidden landscapes in the last forest frontier of West Kalimantan province. The area is a mixture of forested and agricultural lands dominated by swidden traditional practices, while oil palm plantations are expanding. We studied three sites representing different intensities of forest fragmentation at various distances from the contiguous forest. We surveyed swidden landscapes featuring natural forest, old and young fallows, smallholder jungle rubber plantations and forest remnants patches (mixed dipterocarp, peat swamp, and Kerangas forests) in oil palm concession. At each site, trees, birds and soil arthropods were sampled. Plots were laid for tree measurements (60 plots; 20 m x 20 m), bird recorded using timed point-counts and mist nets (120 points; 2087 mist-net hour), and litter-soil sample (140 trays) collected for soil arthropods identification. We used ordination, indicator species analysis, and statistical tests to assess the biodiversity conservation value of forest fragments. As expected, trees and birds species diversity were highest in natural and old secondary forest, but swidden agroforestry systems were also considerably biodiversity-rich largely outperforming oil palm forest fragments and rubber monocultures in terms of bird species richness. Natural forest and old fallows sustained a higher number of endangered bird species compared to young fallows and monoculture plantations. The species richness of soil arthropods -as ecosystem engineers-was also significantly highest in natural and old secondary forest, with Acari, Hymenoptera, Collembola, and Coleoptera being the most abundant. Traditional agroforestry systems should be maintained and managed to support forest successional stages and high biodiversity at the landscape level. Agroforestry patches in swidden landscape significantly harbored more diverse species composition than forest fragment remnants in oil palm concession and were even comparable in term of species richness to natural forests. Oil palm concession in our study site still contained high conservation value forest patches, but these particular patches were considerably larger (c. 500-1000 ha) than the one ha blocks preconized by the RSPO scheme. The question remains if these forest patches will remain resilient in the long run since connectivity with the contiguous forest has been lost. species (life span>80 years), to form a composition in which all storey (spatial) and all phases (temporal) are occupied, optimizing density and diversity. Where orange or cocoa is the main crop, a DAF can start with maize and rice in combination with manioc and pigeon pea, followed by banana and papaya, pineapple and Inga sp., providing shade for slowly growing primary forest species. Timber as a long-term investment dominates the system after 10-15 years, with cacao and oranges in full production. A most important experience is the benefit of land preparation without fire. The advantage of DAF can be seen already after a couple of months which helps to encourage farmers to extend the system step by step to the whole plantation. Investigations carried out in an orange plantation converted in a DAF system in Alto Beni, Bolivia indicates less abundance of fruit flies (Anastrepha spp. and Ceratitis captitata) in oranges in dynamic agroforestry with significantly higher yields and the same sugar content, significantly more humus in soils and a deeper Ah-horizon than in comparable monocultures. The plantation includes now more than 60 species of timber and fruit trees in different canopy layers below and above the citrus trees. More than 1.000 trees and palms are present per hectare, and soil fertility has increased in line with the development of the supporting flora within the plantation The birds´ selection among five cocoa production systems and forest fallow, using a cafeteria experiment was carried out in the long-term System Comparison trial in the same region of Alto Beni, Bolivia. In this study, five different cacao production systems were assessed-fullsun monoculture and agroforestry systems under organic and conventional management, dynamic agroforestry system and a natural fallow. The birds were quantified by a modified point count during the dry season. 239 visits of 43 bird species belonging to 18 families were recorded. The number of visits was positively related to the complexity of vegetation structure and tree diversity, decreasing from fallow, dynamic agroforestry systems DAF, simple agroforestry systems and monoculture plantations. In the monocultures, the number of species was reduced to the half of that found in the fallow plots. The bird composition was similar between the DAF and the forest fallow, suggesting that the DAF, having a diverse vegetation structure, providing resources similar to the forest fallow. It is important to encourage complex agroforestry systems for bird conservation in agricultural landscapes. A study on the economic viability of the same trial showed that agroforestry has a higher economic return on labour than mono-cropping."},{"index":2,"size":231,"text":"Association of several tree species in and around a plot can have a positive impact on ecosystem services. Thus, traditional agroforestry systems, characterized by a high plant diversity, constitute an ideal model of study to test if the natural tree vegetation provides both shelter and food resources for insects that could potentially improve biocontrol services. The main objective of this study was to test if tree species presence and diversity could enhance the natural regulation of the millet head miner Heliocheilus albipunctella (MHM) in agroforestry systems of the Senegalese Peanut Basin. To address our objective, we realized an inventory of tree species in a total of 30 millet fields surveyed in Bambey area, during 2013 and 2014 (Fig. 1). These data were used to calculate indices related to the abundance and diversity of tree species. The natural regulation was estimated using the biocontrol service index (BSI) for each millet field. In addition, data on MHM egg and larval predation and parasitism rates were also collected to estimate biocontrol services. Statistical analysis of the effect of tree presence and diversity on natural regulation variables were tested using a linear regression. Surprisingly, we found that BSI decreased with tree diversity and that it increased with the presence of the tree species Faidherbia albida. Morever, the presence of Anogeissus leiocarpus enhanced MHM egg parasitism and the presence of Azadirachta indica favored MHM egg predation."},{"index":3,"size":230,"text":"The change in land use for livestock and agriculture is usually linked to a potentially devastating effect on flora and fauna communities. n the humid tropics of Mexico, Tabasco is one of the States with the highest rate of deforestation and, currently, more than 66% of its territory is destined to livestock. We evaluated the effect of different representative traditional agroforestry systems (AFS) on the diversity of terrestrial arthropods. The collection was carried out in 49 plots of 41 localities categorized by their structure and function in eight SAF. Ten pitfall traps were established in each plot during the dry season (March-May 2009). To compare the diversity of macroarthropods in the soil between the eight AFS, species accumulation curves and diversity indexes were made. A total of 42,270 individuals of arthropods belonging to 16 orders in the eight AFS were collected. The most abundant orders were Hymenoptera and Coleoptera, while the less abundant were Dermaptera and Haplotaxida. The greatest diversity of terrestrial arthropods estimated was recorded in the roza-tomb-burning system and family gardens, and the lowest diversity was for alley cropping and the taungya system. The results showed significant differences in the diversity of terrestrial arthropods in AFS with lower plant diversity compared to systems with greater diversity. The study suggests that AFS with greater botanical diversity are an important strategy to increase the productivity, diversity and conservation of arthropods."},{"index":4,"size":371,"text":"Keywords: Agroforestry, Diversity of arthropods, Dry season, Conservation, Humid tropics. 1 Agroecology, University of Goettingen, Goettingen, Germany; 2 Macroecology and Biogeography, University of Goettingen, Goettingen, Germany; 3 Tropical Silviculture and Forest Ecology, University of Goettingen, Goettingen, Germany; 4  Cash crops farmed in agroforestry systems can be an economically attractive opportunity for farmers while alleviating negative impacts on biodiversity and ecosystem functions. Whether such a win-win situation can be realized is, however, highly context-dependent. Here, we study the impacts of vanilla agroforestry in North-Eastern Madagascar -a biodiversity hotspot which loses forest cover at high rates to agriculture. This forest cover loss is mainly attributed to subsistence rice farming but the current vanilla boom driven by prices of up to 600€ per kilo may also lead to the encroachment of plantations into forests, thus reducing understory complexity and tree cover locally. However, vanilla plantations can also be established on open fallow land already highly disturbed by slash-and-burn practices (\"tavy\") leading to a potentially more sustainable land-use. The interdisciplinary project \"Diversity Turn in Land Use Science\" investigated on 216 vanilla plantation the relationship of crop productivity and biological diversity. We compared tree cover, biodiversity, and vanilla yields (a) of forest conversion plots vs. fallow conversion plots and (b) along a canopy cover gradient to investigate (i) how vanilla farming shapes canopy cover locally, (ii) how vanilla yields vary between plantation types and under different shade regimes, and (iii) how plantation type affects tree cover, biodiversity (avifauna, insects, plants, mammals, amphibians and reptiles) and associated ecosystem functions (i.a. predation, carbon storage, soil quality). We hypothesize that vanilla agroforestry negatively affects biodiversity inside primary forest, but that it may have positive effects if established on open fallow land leading to tree regeneration and thus an increase in tree cover. Yields are expected to peak at mid-canopy cover -potentially incentivizing tree clearance under high canopy cover and tree regeneration under low canopy cover. Thereby we investigate how the cultivation of the same cash crop might have very different outcomes for biodiversity and sustainable land-use depending on initial land-use. This knowledge is aimed to result in management advice or certification schemes that are sensitive to land-use prior to vanilla cultivation. Keywords: biodiversity, canopy cover, Madagascar, vanilla agroforestry, yield."}]},{"head":"Background","index":39,"paragraphs":[{"index":1,"size":78,"text":"The cultivation of cocoa in Colombia are of key social importance. Indeed cacao plays a prime role in post conflict resolution as it is the legal crop to replace illicit crops. In the current context of the need of combating climate change, cacao agroforests are also expected to be a sustainable practice, promoting forest-friendly land use. In that context, it is necessary to describe accurately these systems, and especially accounting for their potential in terms of biodiversity conservation."}]},{"head":"Aim","index":40,"paragraphs":[{"index":1,"size":39,"text":"In this work, we present a first a typology of cacao agroforest systems in Colombian Amazonia, systems that had yet to be described in the literature. This typology is based on tree species richness, canopy structure and light availability."}]},{"head":"Material and Methods","index":41,"paragraphs":[{"index":1,"size":215,"text":"We worked in 50 agroforest plots of 2000m² each, in the Bajo Caguán area of the department of Caquetá, in the Colombian Amazonia. In each plot, we measured variables of composition (diversity of plants associated with cacao trees) and variables of vertical and spatial structure (height layers, Diameter at Breast Height, basal area, shape and area of the crown, (x, y) positions of each individual plant in each plot. We also measured variables of radiation transmitted to cacao trees in the understorey: above the cacao canopy layer, we took hemispherical m-2 s-1) using an AcuPAR LP-80 sensor. We included variables related to light availability to evaluate the amount of transmitted radiation to the cacao trees in each type, and its suitability for cacao ecophysiological development. We also use variables of spatial organization to model the distribution of light in each plot, using two models: Shademotion 4.0 to calculate the fraction of the average of shade hours and shade area in each agroforest plot and the Spatially individual-based Explicit Forest-Simulator to calculate the degree of canopy openness in each agroforest plot. We there used a cluster analysis to build a typology of cacao agroforest, based on 28 variables characterized in each plot, and related to diversity, composition, spatial structure and light availability for the cacao trees."}]},{"head":"Major results and Conclusions","index":42,"paragraphs":[{"index":1,"size":119,"text":"We identified 4 types of cacao agroforests. The typology was based on their differences in tree species diversity and the impact of canopy spatial structure on light availability for the cacao trees in the understorey. We also found 127 tree species in the dataset, with 3 out of the 4 types identified displayed an erosion of tree species diversity. This reduction in shade tree species may be linked to the desire to reduce shade, but we also found that all the types described were compatible with good ecophysiological development of the cacao trees. One challenging prospect will be to monitor and encourage the conservation of tree species diversity in cacao agroforest systems during the development of these cropping systems."},{"index":2,"size":626,"text":"In Brazil, the forest legislation has opened up new options for forest restoration by smallholders, allowing in particular the use of agroforestry in conservation areas. This has triggered a vigorous national debate, involving social movements, scientists and policy makers: while these legislative changes may encourage farmers to engage in restoration, the provision of environmental services greatly varies according to the type of agroforestry system (AFS). However, few studies go beyond the technical aspects of restoration and studies assessing the social drivers are urgently needed. To contribute to this debate, we analyzed restoration experiences of farmers in the Eastern Amazon, where there is a great diversity of AFS. Our objective was to understand why farmers had engaged in forest restoration and how these motivations influenced their management practices. Based on 136 questionnaires with farmers and in-depth analyses of their AFS, we elaborated a typology of different restoration systems based on the practices involved, in particular the number of species (see figure 1). 78% of farmers restore through AFS. Most of those who have pragmatical motivations (water, soil, products) have less diverse AFS. Those with broader environmental motivations (preoccupation with overall degradation and biodiversity loss) have more diverse systems. This points to the importance of building more awareness about the potential role of biodiversity in restoring environmental services. The degree to which maintenance of C stocks and tree diversity in practice can be jointly achieved in production landscapes is debated. Carbon stocks in forests decrease by logging before tree diversity is affected, while monoculture tree planting increases C stocks before diversity. Agroforestry can break this hysteresis pattern, relevant for policies in search of synergy. We compared five land use systems in Konawe District, Southeast Sulawesi, Indonesia: degraded forest (DF), complex cacao/fruit tree agroforests (CAF), simple shade-tree cacao agroforestry (SAF), monoculture cacao (CM), and annual crops (CR). Tree diversity (Shannon Index-H') and carbon stock were measured and estimated using the Rapid Carbon Stock Appraisal (RACSA) protocol. We added 48 data points from other studies which had similar methods of data collection. The data suggested intermediate positions for agroforestry systems, between forest decline and restoration responses (Fig1), with some medium-diverse low C stock, and medium-C stock low tree diversity points. Overall data indicate that maintaining agroforestry systems in the landscape allows the climate change control and biodiversity loss goals to be addressed simultaneously, in sustainable production systems.  Henry et al., 2009;Mandal et al., 2013;Markum et al., 2013;Kendom, 2013;Natalia et al., 2016;Kurniawan, 2018;Prayogo, 2018) In Côte d'Ivoire, as in all West Africa, the cocoa farms from forests conversion results in drastic decline of forest biodiversity (Clough et al., 2011, PNAS 108 : 8311-8316.). Facing this unsustainable situation, agroforestry systems (AF) can offer a promising alternative, such as smallholders' plantations where trees have long been associated for diverse reasons. In a forest-savanna transitional zone, three AF have been defined (Kpangui et al., 2015, IJAAR, 36-47). Beyond the cocoa production of these AF, the peasants benefit from ecosystem services resulting from the species associated with the cocoa orchards. In order to assess these ecosystem services and analyze how the species contribute to biodiversity conservation, we conducted the present. We made botanical inventories to record the species associated with cocoa tree. Whereupon, we evaluated the provision of ecosystem services of the tree species, their biomass, and their contribution to biodiversity conservation (a special focus on the species with high conservation value).The study showed that most of the species are associated with cocoa trees to provide food and medicinal goods to local people. Tree biomass and rates of carbon sequestrated were important. The study has also showed that these three AF housed high conservation value species. The study suggested that agroforestry practices in center Côte d'Ivoire provide important ecosystem services as well as biodiversity conservation."},{"index":3,"size":455,"text":"Figure 1: Aspect of a complex agroforest according to Kpangui et al. (2015) showing diverse trees in the high stratum above the cocoa canopy.  The state of Manipur, India falls under the Indo-Burma global biodiversity hotspot and hosts a variety of species.Wild Edible Mushrooms (WEMs) are one of the key food sources of rural people and have a major dependence both for own consumption and for cash income.WEMs are known for its valuable dietary and medicinal properties worldwide.Some mushrooms are domesticated and grown for commercial use but many edible mushrooms are still wild in the forest. The study was conducted to document WEMs diversity which are consumed and traded by the Kuki and Naga tribes of Kangpokpi and Senapati districts. Seasonal markets survey were carried out during 2016-2018 to record the local names, sources of supplies and quantity traded.The survey recorded 8 edible macrofungi species, belonging to 7 families. Some of the widely traded WEMs are Auricularia delicate(Fr.)P.Henn., Lentinula edodes(Berk.) Pegler and Schizophllum commune Fr. These species were found to be associated with many promising agroforestry tree species such as Alnus, Quercus, Castanopsis hystrix, Parkia roxburghii, and Phoebe hainesiana. Therefore, promising agroforestry models can be developed incorporating these tree species, so that the availability of WEMs may be maintained thereby conserving its biodiversity and help in securing the livelihood of rural tribes by generating employment opportunities. Thus, this finding provides baseline data for future monitoring and establishing suitable agroforestry models in the region.  Agroforestry systems (AFS) are among the most representative systems that integrate productive and ecological restoration goals. However, although AFS have been widely promoted as an eco-friendly land use, little is known about its potential for ecological restoration. Here, we compared the ecological outcomes of 12-15 years old coffee AFS (established with native shade-trees), conventional restoration plantations with similar age, and ecosystem reference (regional old-growth forests) within a forest and landscape restoration project at the Pontal do Paranapanema region, Atlantic Forest, Brazil. We compared the abundance, richness, and regenerating saplings among these forest types, and investigated the drivers of natural regeneration in coffee AFS. Reference forests had a much higher density of trees and saplings, yet at richness levels similar to coffee AFS. Although coffee AFS and plantations did not differ in their density of trees, coffee AFS had a higher density, richness, and proportion of animal-dispersed species of saplings and canopy cover than conventional plantations. However, the abundance of regenerating woody plants declined with coffee density, thus indicating that the restoration value of high coffee abundance AFS can be reduced, and a potential tradeoff between ecological and productive outcomes. Despite that, the coffee AFS had greater ecological performance than the conventional restoration and can thus be an alternative for tropical forest restoration."},{"index":4,"size":57,"text":"Negative binomial generalized linear model between the spontaneous regeneration abundance and the coffee abundance in coffee agroforestry systems at Pontal do Paranapanema landscape, São Paulo, Brazil. Values above the dotted line are considered adequate, and below the continuous line are considered critical according to the legal ecological standards of São Paulo State to attest forest restoration compliance."},{"index":5,"size":202,"text":"In the current context of deforestation, farming practices constitute a loss of forest biodiversity in tropical countries (Jagoret, 2011). In Côte d'Ivoire, in particular, cocoa cultivation has long been considered one of the main causes of forest biodiversity loss. However, several studies have shown that these agroforestry systems contain a greater diversity of species (Kpangui et al., 2015) than monocultures. In order to examine the impact of this cultural practice on biodiversity, we analyzed and compared the ligneous flora of different cocoa based system. During this work, ethnobotanical surveys were conducted among 223 cocoa farmers. The data from these surveys were supplemented by botanical inventories on 115 plots of 625 m² . The analyses show that, at the floristic level, 176 species of plants have been identified in cocoa plantations. The analyses also show that these plantations contain a high proportion of endemic species, rare and endangered species listed on the 2016 IUCN Red List, which gives them exceptional and patrimonial values for biodiversity conservation. Surveys confirmed that beyond the production of cocoa beans, the practices of local populations show that women used these tree species for food and medicinal purposes. All of these contribute to the preservation and conservation of biodiversity."},{"index":6,"size":67,"text":"The edaphic macrofauna gathers invertebrates whose action optimizes nutrients cycling and are sensitive to changes in vegetation cover (Lavelle, 2001). Oligochaeta, Blattodea and Hymenoptera form the group called \"soil engineers\", because they modify it with their mechanical action. In view of the expansion of the oil palm culture in the Amazon, we conducted a study of the macrofauna community to understand how this culture impacts these organisms."},{"index":7,"size":135,"text":"We selected an organic biodiverse Agroforestry System (AGS) with 10 (ten) years old oil palm tree, and a traditional monoculture management in Tomé-Açu, Pará, Brasil. We adapted the method of Anderson et al. (1994) and removed in each system 9 (nine) blocks of soil (25x25x10cm) with the associated litter, divided in three transects of 18m. We used the software PAST (Hammer et al, 2001) for diversity-analysis. The community of AGS macrofauna is more diverse and is well distributed among the taxon ( Figure 1). The high density (1004,4 ind.m-2) in monoculture is the result of Blattodea highest frequency, confirmed by dominance. The frequency of the predator Hymenoptera in the AGS reflects a structured food web. Monoculture presented only 8% of Oligochaeta, this group is directly linked to the maintenance of the soil structure (Marichal, 2017)."},{"index":8,"size":26,"text":"The AGS soil-litter system offered better conditions for the establishment of soil macrofauna. Since the last century agriculture is strongly promoting the simplification of the landscape."},{"index":9,"size":263,"text":"The LIFE Desert Adapt project is been developed across 1000 hectares in Italy, Spain, Portugal and has the objective of implementing integrative agroforestry-based land use planning and management, and one of the indicators to evaluate the project effectiveness is birds richness and abundance. Here we present the results of the first assessment and explore the relationships with the main vegetation cover types. We established 68 sampling points where we recorded bird abundance and richness. In total we registered 57 bird species, sampling points surrounded by woodlands presented 50 species, while shrublands presented 45 and herbaceous cover presented 32 species. The agroforestry practices that will take place inside the LIFE project are expected to increase the vegetation complexity inside the farms and consequently enhance bird diversity and abundance, as well as will provide useful information to compare the influence of different management decisions for bird communities. However, the species of birds threatened at the Mediterranean level are those linked to open agricultural systems (such as the alaudidae) and to areas with sparse tree cover (e.g. laniidae). The project will then evaluate the effects of agroforestry practices on bird communities in qualitative terms to also determine which of these do not have a negative effect on avifaunistic communities. Traditional agroforestry systems in Northeast India Deb S. (sdeb@tripurauniv.in) Overall, the intimate mixture of diversified agricultural crops and multipurpose tree species fulfills most of the basic needs of the local inhabitants while the multistoried configuration and high species diversity of the agroforestry system helps to reduce the environmental hazards that is commonly associated with monoculture production system."}]},{"head":"L4 Biodiversity","index":43,"paragraphs":[{"index":1,"size":428,"text":"Protected areas in the Sudano-Sahelian zones are increasingly subject to threats related to climate change and human activities. To reduce these threats, an often-recommended approach is the intensification of agroforestry systems (AFS) in areas adjacent to protected areas (PA) (McNeely et al, 2006;Dudley, 2008). The present study focused on the characterization of agroforestry systems around the Bouba Ndjidda National Park (BNNP) in terms of woody plant diversity, structure and uses, in order to evaluate their contribution to the conservation of tree diversity. The methodological approach combined the inventory using the quadrats method associated with tree height and diameter measurements, and ethnobotanical surveys to document products, services and usage of trees by local people in the surrounding of the BNNP. Hedgerows (6%), fallows (72%), home gardens (83%) and scattered plantations (98%) were the four types of AFS identified around the BNNP. The overall average woody plant richness was 50 species belonging to 23 families. The most dominant family was Fabaceae with a species richness, family value of importance (FVI) and relative abundance of 12, 148.97%, and 62.38%, respectively. The tree density in AFS ranged from 29 stems / ha to 180 stems / ha for home gardens and hedgerows, respectively. The most predominant species was Acacia polyacantha with the highest value index (IV) (88.65), basal area (7.52 m2 / ha). Farmers use woody plants species of the AFS around BNNP for several reasons (fuelwood, food, fertilizer, fodder, medicine, shading, lumber, fence, and ornament), but mostly for fuelwood (66.49%) and food (63.69). The use of woody plants also vary according to the type of AFS. In fallows and hedgerows, trees are used primarily for fuelwood (78.49%) and (98.33%), respectively, while in scattered plantations and home gardens, shade for both livestock and humans is a priority with 91.94% and 78.26% of respondents, respectively. These use of AFS trees reduced the need of exploiting the woody plants of the Park. The plants of the Fabaceae family were the most cited as being used and contributing mainly for charcoal and fuelwood provision to local population. Vitellaria paradoxa recorded the highest used value (VU) (4.36); Anacardium occidentale and Acacia polyacantha the highest cultural indices (CI) of (1.00) and (0.98), respectively. Two endangered species, listed in the International Union for Nature Conservation's Red List were found in BNNP buffer zone namely Khaya senegalensis and Vitellaria paradoxa. The results of this study highlight the need to strengthen strategies to promote AFS around Sudano-Sahelian protected areas, as they contribute to improving farmers' livelihoods, creating an enabling environment for the conservation of useful and endangered woody plant species."},{"index":2,"size":122,"text":"Cocoa agroforestry system (AFS) is increasingly recognized as a biodiversity repository for many plants and animal species and it ensures a natural biocontrol of pests and diseases. However, In Cameroon, this biodiversity \"hotspot\" is gradually destroyed by ongoing cocoa intensification policies to incraese cocoa yield in the short term. The on-going intensification policies is already having negative impacts on the natural mangement of subeterraneans animal species such as termites generally recognized as bioindicators in cocoa AFS. We sampled termites in 20 cocoa farms in five localities in the Centre region of Cameroon, ranging from rustic to full sun agroforestry systems to assess the impact of shade trees removal and aging of cocoa farms on termite communities' composition and infestation of cocoa trees."},{"index":3,"size":202,"text":"We showed that implementation of on-going cocoa intensification policies toward shade trees removal has reduced the diversity and richness of termite with many of them feeding on newly planted seedlings and mature cocoa trees. We found that termites feeding damages were significantly lower in shaded rustic cocoa systems than full sun. We also observed that under full sun systems some species (Microtermes spp., Ancistrotermes sp., and Pseudacanthotermes militaris) have shifted their behavior from leaf-litter decomposer to above-ground pests building their galleries on cocoa trunk around flowers cushion. These species increase their abundance in cocoa farms in relation to shade trees removal to induce damages to cocoa trees. We also discovered a termite species (Amalotermes phaeocephalus) recognized as soil feeder which attacked cocoa trees by building galleries on the trunk. This emphasizes the impact of cocoa intensification in the drastical change in behavior of some key environmental species towards invasiveness. In addition, most of the control methods applied by farmers is not working against this new emerging pests but farm rehabilitation and renovation seems to affect termites infestation in farm. This study emphasizes the need to wild-friendly and sustainable cocoa cultivation by promoting agroforestry and favoring farm rehabilitation strategies to prevent termites outbreaks."}]},{"head":"Keywords:","index":44,"paragraphs":[{"index":1,"size":258,"text":"Cocoa cultivation, pest outbreaks, termites, shade destruction, farm rehabilitation. The Anthropocene crisis is a reality, it is apparent to anyone. Where we live, we see the transformations of our environment: we note the scarcity of fish, the disappearance of trees and hedges, the scarcity of snow, the shrinkage of glaciers, the appearance of new species sometimes invasive. We have never been so informed by scientific relays and medias about climate change, desertification and biodiversity loss. Our politicians deal with these issues and attempt in their action to influence the way in which our societies are going to organize their «live together». Thus, today, every citizen, as long as he is in the circuits of public information, is sensitized to the questions of the human relation to climate, biodiversity, water, soil, agriculture, to questions related to the Earth. In short, the commons emerge as a source of debate, discussion and collective awareness. At the same time, however, there is a kind of dissociation between this understanding and the reality of our lifestyles. Transdisciplinary researchers like Peter Kahn, Cynthia Fleury and Anne Caroline Prévot are studying this «generational environmental amnesia». They try to better understand what is «the experience of nature», in the sense of : if we multiplied our personal relationship to the natural world and if it is early in our growth, if it is linked to happy moments, we are more able to put coherence between the messages heard about environment and our practices of consumption in order to make them compatible with the preservation of biodiversity."}]},{"head":"L4 Biodiversity","index":45,"paragraphs":[{"index":1,"size":225,"text":"The reconnection of human being to a natural local territory is fundamental to invent new modes of society. To that end, trees can be a mediator. This article claims to identify some levers, from the experience of the Yves Rocher Foundation launching. Created in 1991 the YR Foundation focuses today on actions of preservation of the biodiversity which participate to raise awareness of the public. Since 2007, Yves Rocher Foundation is committed in tree plantation: ninety million trees have already been planted in 35 countries throughout the world. Agroforestry projects are being implemented in Europe: in France with the largest program of plantation of country trees on the territory (3.5 million), in the Netherlands but also in Africa, Latin America and India. These actions show the importance of trees in the essential relation of the human being to their natural environment: the «experience of nature» in the sense of a satisfactory re-anchoring on their territory. The action of planting contributes to the transformation of minds, therefore to the very possibility of changing individual and collective behavior for human societies. It is a tiny instrument, but we want to emphasize its strength. Whether we are in Europe, Asia, Africa or the Americas: Plant for the Planet program is a testament to the universality of trees. It re-anchors us to make us more able to protect biodiversity."},{"index":2,"size":207,"text":"Trees in agroforestry systems contribute to provision of wood and non-wood products, and help in circa-situm conservation of species. Agroforestry homegardens provide opportunities for plant biodiversity conservation. The objective of this study was to assess variation in tree species composition and diversity across urban, peri-urban and rural areas of Harare, Zimbabwe. The urban stratum was subdivided into High, Medium and Low density suburbs. Random sampling was used to select households within each stratum where forty respondents were sampled from each stratum. The Shannon-Weiner Index was used to determine species diversity. A total of 81 tree species were recorded in all homegardens across strata. More than 90% of the tree species found in homegardens were fruit trees while ornamental plants were prominent in medium density, low density and peri-urban areas. The highest species diversity was observed in the low density (3.09) and peri-urban (2.93) areas whilst the least diversity was recorded in high density (2.12) areas. Mangifera indica (83% of all homesteads) and Persea americana (71%) were the most dominant species across all strata. The high tree species compositions and diversities (2.12-3.09) recorded across all strata in Harare shows that urban areas play an important role in species conservation and should not be excluded in agroforestry extension strategies. "}]},{"head":"Methods","index":46,"paragraphs":[{"index":1,"size":94,"text":"An ethnobotanical survey was done with 411 selected households followed by a field survey in 69 plots. Ethnobotanical and ecological parameters were computed and analysed. These parameters were combined to construct a conservation priority index per species adapting the formula of Oliveira et al. (2007). Results 46 species were recorded. Significant differences in plants knowledge between women and men, but also between ethnic groups were found. Six species were classified as having highest priority for conservation in this area.The local conservation strategies most used were: seedlings protection in farms and apiculture practice favouring pollination."}]},{"head":"Conclusion","index":47,"paragraphs":[{"index":1,"size":144,"text":"These six species could be involved in landscape restoration initiatives that are being promoted in Benin. In the north-eastern extremity of the Romanian Plain, near Namoloasa, Galati County within a 6,000-hectare hunting fund, a type of agroforestry system adapted to hunting requirements (to grow, develop and harvest hunting) was realized in autumn 2016. The agroforestry system consists of mixed belts of forest and agricultural vegetation for the growth of game species (pheasants, partridges and rabbits) and protected wild species (bustard). The width of this belt is about 40 m and consists of 5 rows of forest species (black pine, black locust, sweet locust, oleaster, mahaleb cherry, cherry plum), a strip of fodder species (maize, sunflower, clover, alfalfa), species producing seeds (in, mustard, chicory, millet etc.) and again 5 rows of forest species (Figure 1). These belts have been installed on less productive marginal lands."}]},{"head":"L4 Biodiversity","index":48,"paragraphs":[{"index":1,"size":159,"text":"It has been proposed to analyze this type of agroforestry system in terms of influence on wild species, on agricultural production and environmental factors. Because the system is recently created, relevant observations could only be obtained on the influence on wild species. Thus, the number of pheasants harvested in 2017 was 65 % more than in the other hunting funds. This is an idea by which using agricultural and forestry species on less productive agricultural land increase the productivity of the land used. At the same time, a legal and stable framework is created for the protection and development of wild species including the endangered species. The loss of forest and tree cover is weakening biological diversity and contributing to soil degradation. Soil degradation is one of the most serious and pervasive ecological problems in rural West Africa. It is reducing agricultural productivity, increasing the frequency and magnitude of crop failures and undermining food security among already impoverished communities."},{"index":2,"size":189,"text":"There is an urgent need to work with smallholders to develop sustainable land management plans that integrate trees more into agricultural practices and increase their presence in the landscape. Since most of the land in the area is under cultivation, devoting more land to trees would mean that, in the estimation of local communities, the economic and other benefits of trees would need to compete with the value of harvested crops. That's why, there is a pressing need for financial and other resources, technical assistance, capacity strengthening measures, and a supportive institutional framework to enable local inhabitants to plant and maintain trees. Agroforestry carbon project offers the right sort of institutional framework for a properly financed and structured approach to supporting local communities and smallholders to cultivate and manage trees in their landscape. ARLOMOM provides a local frame of reference that is meaningful and inspiring for biodiversity conservation and local communities empowerement. It provides information about the sorts of methods and processes that can succeed, or why they fail. It can be a good reference for agroforestry carbon project in western Africa and can be efficiently replicated and expanded."},{"index":3,"size":575,"text":"The recently reported demise of most of the oldest and largest African baobabs (Adansonia digitata L.) raises concerns about the sustainable management and conservation of the remaining population of this important and iconic tree species in the face of the current climate change. Given the multipurpose nature of the species and the important role of human disturbance and climate in shaping species population, we hypothesized that integrating ecological assessments with modeling tools and socio-economic surveys would improve the understanding of the species ecology and biology, which in turn, can enhance the overall effectiveness of management efforts and community awareness. We established thirty-eight strip transects of 5 ha (i.e., 50 m x 1 km) each, systematically distributed across three landuse types (grazing lands, riverine areas and natural forests) in two districts of Western Tigray to characterize the structure of the species population and identify its future suitable niche using the Maximum Entropy (MAXENT) model. We administered semi-structured questionnaires to 120 households to assess local knowledge on the importance and management of the species. Baobab stands were denser with larger-sized and taller individual trees in riverine areas and natural forests compared to grazing lands, suggesting an adverse effect of human disturbance on its populations. Size-class distributions were positively skewed with negative slopes in all the land-use types, indicating a low recruitment of juvenile trees to adult stage. Climate change would lead to a significant reduction in baobab suitable habitats. Tropical montane cloud forests (TMCF) under natural disturbance events have shown high endemism in early successional vegetation. However, little is known about the relationship between anthropogenic disturbance and plant endemism in TMCF under ancient agricultural management. In this sense, I assessed the number of species, abundance, and frequency of endemic vascular plants in temporary plots of cultivated and young fallow areas from two maize-based systems: milpa shifting cultivation (MS) and semi-permanent cropping (SP) in Oaxaca, México. Overall both agricultural stages and systems harbored endemic species, seven in total, but most of such species were found in the fallow stage than in the cropping stage, and in the MS system than in the SP system. A single Asteraceae herbaceous endemic species (Melampodium mimulifolium) was commonly recorded in cultivated fields, but almost exclusive to the SP cropping system. Seven species were recorded in fallows, where the narrow-range endemic tree species Clethra integerrima (Clethraceae) was the most abundant and frequent, but almost exclusive to the MS cropping system. In more permanent and intensified agricultural systems within biodiversity hotspots, only ruderal endemic herbaceous species can persist. In contrast, in low intensity managed agricultural systems, like ancient agroforestry, not only can endemic tree species prosper, but also restricted endemic trees can be found.   Coffee agroforestry is an important element in the agroecosystems matrix because promote habitat heterogeneity and connection between protected areas. Far from affecting diversity, coffee plantations are critical for management and conservation of the biodiversity in tropical agroecosystems. However, understanding patterns of biodiversity remains unclear so it is necessary to deepen in the knowledge of it to improve the conservation-production strategies. We designed a two-phase research where during the first phase we assess diversity and composition of bats and soil fauna on three different land-use systems (agricultural, natural forest and Coffee agroforestry). The second phase is still ongoing and consists of determining the relationship between diversity and ecosystem functioning as control of pest arthropods by bats and decomposition by soil fauna. Here we present the results of the first phase research."},{"index":4,"size":29,"text":"To assess soil fauna we used the standard tropical soil biology method in dry and wet season and to assess bats richness, abundance and composition we use capture mist-netting."},{"index":5,"size":59,"text":"In general, the abundance of soil fauna had no differences between sites but is significantly higher in the wet season. During dryness, the three main orders of soil fauna were hymenoptera, Oligochaeta and Lepidoptera (larvae) and during wet season were Oligochaeta, Isoptera more abundance of predators. Only agricultural sites are the one with significant differences in diversity between seasons."},{"index":6,"size":96,"text":"Regard bats, we recorded 648 individuals belonging to 20 species and three families. Fru-Desmodus rotundus agriculture (13 spp) and coffee (12 spp). Both in the assessment of bats and soil fauna, the forest is the site with more abundance and more diversity. But the importance of coffee agroforestry and agricultural spaces is because they promote niche heterogeneity and the presence of specific groups that assure the complexity of the community interactions. We conclude that coffee farms have an overall positive, but context dependent effect and are important for the mobility of bats among the agroecosystems landscape."},{"index":7,"size":10,"text":"Keywords: Bats, Coffee plantations, Forest fragmentation, Soil fauna, Wildlife conservation."},{"index":8,"size":205,"text":"Madagascar's unique biodiversity is threatened by anthropogenic forces such as deforestation. However, protected areas are not sufficient to halt biodiversity loss. This suggests that sustainable land use practices are needed to minimize negative impacts on biodiversity. It has been demonstrated that agroforestry and forest fragments can play an important role in nature conservation in the tropics, but the contribution of agricultural landscapes for biodiversity conservation in Madagascar remains poorly studied. Here, we investigate the value of vanilla agroforestry for ant diversity in the Sava Region, Northeastern Madagascar. We compared ant diversity in vanilla plantations to other land use types (primary forest, forest fragments, fallows, rice paddies). In addition, we analyzed (a) how habitat complexity within vanilla plantations affects ant diversity, and (b) how vanilla cultivation management affects ant diversity. We hypothesize that (i) vanilla plantations have greater ant diversity than less shaded land use types, and thus also share more species with forest fragments and primary forest, (ii) increased canopy cover and tree species richness positively affect ant species richness, and (iii) ant diversity is reduced by management intensification. Our research may contribute to establishing win-win situations for both biodiversity conservation and vanilla production, and contribute important knowledge to ant conservation and distribution in Madagascar."},{"index":9,"size":7,"text":"Keywords: agroforestry, ant, conservation, Madagascar, vanilla cultivation."},{"index":10,"size":348,"text":"Shifiting cultivation systems (SAIs in Portuguese) are characterized by the alternance of agricultural plots and forest fragments which are slashed and burned after a fallow period. Due to fire use, there are questions on SAIs capacity to maintain original vegetation and its biodiversity. We aim to characterize the evolution of floristic composition among areas with different stages of fallow compared to a primary forest fragment. We stablished chronosequences in SAIs managed by two families (F1 and F2) on Cananéia municipality, Sourthern Brazil. Once the plots were localized and their respective fallow periods were determined, the floristic survey was carried out and the most abundant tree species were identified by successional groups. We calculated richness (S) and Shannon-Winner (H') diversity indexes to characterize the biodiversity. We also measured diameter at breast high (DBH) to obtain class size distribution and verify the evolution of the regenerated areas. In the F1 areas we found similar richness indexes between the areas with 4 and 10 years of fallow compared to primary forest 1.5910 and 2.4040) due to high variation on edaphic conditions. In the area with 4 years of fallow, there was a predominance of pioneer's trees of smaller DBH classes (91.38% of individuals). The 10 years-fallow area presented a similar distribution to the primary forest on F1, containing 7 DBH classes (5 to 30 cm) and predominance of early secondary species. As for the F2 areas, we found a higher presence of small DBH trees (5 to 9 cm) in all the areas, which is typical of sand coastal plain vegetation. In the 30 years-fallow area we also observed the most homogeneous distribution of DBH classes. We noticed an evolution of vegetation through the different fallow periods, finding predominantly pioneer species in the 15 year-fallow area and early secondary species in the older areas. Considering this, we suppose that there is a maintenance of biodiversity in all the fallow areas, since the diversity indexes and classes of DBH resemble the primary forest in both families. This can only be affirmed with complementary studies on soil conditions, nutrient stocks and forest structure."},{"index":11,"size":253,"text":"Keywords: slash and burn agriculture, Restinga forest, forest regeneration.  Sehgal S. (sehgals1@yahoo.com), Abidi R. A. Agroforestry, SKUAST-Jammu, Jammu, J&K, India Agroforestry plays a vital role in the livelihood of rural community and farmers have a long tradition of raising food crops, trees and animals together. The present study was aimed to have an exploratory view on the farming system in district Samba, situated in the Western has an average elevation of 384 m above mean sea level. The local farming systems rely heavily on forest and trees for their livelihood as trees are the single most important source of fodder, food and fuel wood for the inhabitants. The study was conducted with the objectives to identify the trees planted/retained on the farmland, the purpose of their planting/retaining as well as their spatial arrangement. A household survey was conducted in the study area, for which a total of one hundred eighty respondents were interviewed through a pre-structured interview schedule in person. Results indicate that farmers are retaining/planting trees on their field and have been accruing diversified uses and services from these trees which include both indigenous and exotic tree species. Overall, there were 33 tree species belonging to 16 families present on the farmers' field, out of which more than 50 per cent were fruit trees. The farmers' inclination for fruit trees may be due to their contribution towards nutritional security as well as income generation capability. The results impress upon developing tree based farming systems with preferred tree species as an essential component."}]},{"head":"L4 Biodiversity","index":49,"paragraphs":[]},{"head":"Keywords:","index":50,"paragraphs":[{"index":1,"size":7,"text":"Western Himalayas, Trees on farms, Biodiversity, Agroforestry."},{"index":2,"size":109,"text":"Hedgerows were established in 1998-2001 by Department of Ecological farming and sustainable Production System to utilise beneficial effects of hedges through balanced microclimat to soil strcutural and biological properties. Soil properties especially soil biodiversity (SFW) of different land use system was examined at Experiment Field of Szent István University Soroksár, Ecological Farming Unit. The soil-physical-chemical parameters, the nutrient content, the humus quantity and quality was measured. Enzyme activities and qualitative Soil Food Web assessment (Soil Food Web Inc.) was used. Results of FDA enzyme activities show significantly positive correlation with increasing humus SFW responded differently -e.g. highest number of fungi was found in scattered woody area, and in hedgerow."},{"index":3,"size":535,"text":"Our study shows, that the application of different land use and cultivation practices influences the biological activity of the soil of cultivated plots. We can assume that the soil of hedgerows, and scattered fruit orchards show significantly the highest biological activity, and humus content compared to intensive tillage areas (cereal field) and recultivation areas. Further samples collected from cultivated areas from different distance of the hedgerows are under procession. Tripathi S. K. (sk_tripathi@rediffmail.com) In Mizoram, northeast India majority of the population (~60%) depends on agricultural products from shifting cultivation carried out on steep slopes, and half of the total land area of the state is having 40-100% slopes. During this practice, farmers slashed a piece of forest land and burn the vegetation in situ after drying followed by cropping for one or two years, and then abandoned the land to restore soil fertility and moved to other forest areas for cultivation. Earlier the system was adequately productive, economically feasible and ecologically balanced because of prolonged fallow period (~20-30 years) but in recent years as a result of exponenwhich has led to substantial decrease is soil fertility, crop diversity and productivity (Grogan et al 2012). This has led to widespread concern of Government and Non-government organizations about the sustainability of this system and thus the Government has implemented various policies with aim to improve the livelihood options for the majority of poor people. Shifting cultivation in Mizoram is a unique agro-ecosystem with distinct biodiversity adapted on steep slopes of hilly terrain which includes variety of crops like cereals, vegetables, legumes, oil seeds, culinary spices and herbs, even flowers and medicinal plants within a small piece of land in comparison to other farming system (Tripathi et al 2017). Shifting cultivators generally belongs to a poor background who could not easily meet their daily need from market, and therefore they grow almost all crops that they need in a small land area through the well preserved seeds of the previous year crops using traditional conservation practices. These small farms support 30-60 different species of tree, fruits, vegetables, weeds. Diversity of crops depends on the fallow age, for example, shorter fallow support less diversity than the longer fallow. Diversity and the functioning of microbes in the rhizosphere of early regenerating plants showed a reverse trend that appears to boost up the nutrient cycling and growth of plants more rapidly in the short fallow land. Conversion of shifting cultivation to plantations like Oil palm, Rubber etc lead to decrease the diversity of plants and soil microbes in the system. Earlier Jhumias were using local varieties of the species with wide genetic diversity but nowadays some farmers use high yielding hybrid varieties that accelerates the erosion of endemic biodiversity of the region. Sustainability of shifting cultivation can be achieved by scientific interventions through integrated nutrient management using moderate fallow period and conserving the indigenous diversity of crops and microbes. Higher landscape connectivity should facilitate plant dispersal and increase plant diversity. In agroforestry landscapes, wooded elements but also grasslands and croplands may provide connectivity. Several studies demonstrated that connectivity acts as a filter on dispersal and establishment traits values (response trait). These traits values should, in turn, shape plant diversity (effect trait)."}]},{"head":"L4 Biodiversity","index":51,"paragraphs":[{"index":1,"size":55,"text":"Weeds play a dual role in agroforestry landscape. They support important ecosystem functions (e.g. pollination, limitation of soil erosion) but also represent a major problem for farmers through the competition with the crop. Assessing the effect of landscape connectivity on weed diversity represent a promising avenue toward a better understanding of mechanisms behind weed assembly."},{"index":2,"size":51,"text":"Here, we investigated how connectivity impacts i) five dispersal and establishment trait values and ii) weed diversity as a proxy of their colonization ability. We sampled 27 cereal fields in the LSTER-ZA Armorique. We assessed the connectivity provided by wooded, grassland and cropland using habitat reachability metrics based on circuit theory."},{"index":3,"size":207,"text":"Our preliminary results showed that connectivity provided by both wooded and cultivated elements impacts functional traits and diversity of weeds. This study emphasizes that using the response-effect trait framework provides i) a better understanding of weed assembly rules and ii) a key to combine the maintenance of weeds without jeopardizing crop production.   Mitigation of macronutrient leaching by agroforestry system of hybrid aspen and perennial grasses Bardule A. (arta.bardule@silava.lv), Lazdina D., Bardulis A. Latvian State Forest Research Institute, Salaspils, Latvia Empirical data on leaching of macronutrients from agricultural land in the Baltic Sea region is of particular interest due to two reasons: 1) eutrophication of surface waters resulting in unfavourable ecological status of the Baltic Sea; 2) increasing risk of depleting the soil nutrient stocks by intensified harvest of agricultural yield and biomass. The objective of this study was to evaluate the mitigation effect of fertilized agroforestry system on macronutrient (NO 3 -N, PO 4 -P, K) leaching. The studied agroforestry system consists of juvenile hybrid aspen (Populus tremula L. × P. tremuloides Michx.) plantation and four cultivars of legume and perennial grass (fodder galega (Galega orientalis Lam.), poor-alkoloid lupine (Lupinus polyphyllus L.), reed canary grass (Phalaris arundinacea L.) and festulolium (× Festulolium pabulare)) sown for seed production."},{"index":4,"size":104,"text":"The agroforestry system, size of 16 ha, was established in agricultural land in central part of Latvia in spring 2011. Wastewater sludge (10 t DM ha -1 ), stabilized wood ash (6 t DM ha -1 ) and digestate (30 t ha -1 ) were applied as nutrient compensatory fertilizers to improve soil quality. Above-ground biomass was harvested in November 2015. Results derived from the monitoring of soil solution chemical content generally show a decrease of annual macronutrient leaching over time after the establishment of plantation in agricultural land in response not only to meteorological conditions, but also to the type of fertilizer used.   "}]},{"head":"Land-use comparison of temporal greenhouse gas emissions of riparian","index":52,"paragraphs":[{"index":1,"size":134,"text":"Baskerville M. 1 (mabaskerville@uwaterloo.ca), Oelbermann M. 1 , Thevathasan N.  Forested riparian buffers (RBs) located downslope of agricultural areas have high water tables, increased N due to surface runoff, and high C inputs from vegetation, creating a potential hot spot for soil greenhouse gas (GHG) emissions (Bradley et al., 2011). However, there are few comparative analyses of GHG emissions from different riparian land-use systems in temperate regions. The goal of the study is to determine and compare soil GHG (CO 2 , CH 4 , N 2 O) emissions between a grassed buffer (GRS), an undisturbed natural forest (UNFA), a forested riparian buffer (RH), and an agricultural field (AGR) found along Washington Creek, Ontario. Four permanent GHG sampling chambers were placed in each land-use, and gas samples were collected bi-weekly to quantify GHG emissions. "}]},{"head":"Shifts in N-cycling microbial communities associated with riparian buffers in Southern Ontario agricultural systems","index":53,"paragraphs":[{"index":1,"size":867,"text":"Mafa-Attoye T. 1 (tmafaatt@uoguelph.ca), Thevathasan N. Riparian buffers (RB) intercept soil nitrogen (N) leaching and surface runoff from agricultural lands into aquatic ecosystems and can be hotspots for nitrous oxide (N 2 O) emissions (1). N-cycling microorganisms are crucial for the production and consumption of N 2 O in soils; however, they can be influenced by plant-microbe interactions (2). The goal of our study was to assess land-use changes related to RB on nitrogen-fixing, nitrifying and denitrifying bacterial communities and N 2 O emissions. The Washington Creek long-term experiment was established over 25 years ago and consists of grass buffer (GRB), grassland (GRL), undisturbed natural forest (UNF), rehabilitated site (RH), and agricultural land (AGR) (3). Soil was sampled in the summer of 2017 and 2018, DNA and RNA were extracted and used to target key N-cycling genes for N-fixation (nifH), nitrification (amoA and crenamoA), and denitrification (nirS, nirK, and nosZ) via quantitative PCR (4). High throughput sequencing of 16S via Illumina MiSeq and Non-metric multidimensional scaling (NMDS) indicated statistical differences in bacterial communities between AGR, UNF, and other riparian land-use types (Fig. 1a). The abundance of the nosZ gene was highest in RH and GRB relating to low N 2 O measured at these sites (Fig. 1b). Our results suggest N-cycling microbial community dynamics in RB differ according to land-use, this may be impacting potential N 2 O fluxes in the sites investigated.  Forested riparian buffer strips (FRBS) are common in temperate agroecosystems due to their ability to sequester nutrients from agricultural runoff. The full environmental benefits of FRBS can only be evaluated, however, by accounting for a wide range of criteria that go beyond stream water quality. For example, it is important to determine the net greenhouse gas (GHG) balance of FRBS relative to adjacent agricultural fields. It is also important to identify the factors controlling these GHG emissions in order to propose optimal FRBS designs that maximize their environmental benefits. One such factors is the presence of earthworms (EW), whose burrowing activities may modify soil emission rates of CO 2 , N 2 O and CH 4 . We hypothesised that FRBS are a refuge for EW in agricultural landscapes due to higher moisture and litter inputs, and fewer physical disturbances. A field survey was conducted, in 2017 and 2018, to quantify EW species abundances in FRBS and adjacent agricultural fields in Eastern Canada and Central Europe. At 77 sites, we collected and identified EW, noted the tree species and understory vegetation in the FRBS, type of crop in the adjacent agricultural field, soil drainage class as well as five soil physicochemical variables (texture, pH, total C, total N and % organic matter). EW abundance was significantly higher in FRBS than in adjacent fields. Distance-based redundancy analysis (dbRDA) revealed that EW abundance is positively correlated with soil moisture, organic matter, clay content and deciduous trees, and negatively correlated with coniferous trees and sand content. To test the effects of EW on GHG emissions, microcosm studies were conducted using a replicated factorial design comprising of 3 soil origins (deciduous FRBS, coniferous FRBS, agricultural field) x 2 soil textures (field conditions, high clay) x 3 EW life habits (anecic, endogeic, no EW). Anecic EW had a positive effect on soil CO 2 and N 2 O emissions, which decreased after a few weeks. Increasing soil clay content had a negative effect on the emission of these two GHGs. We are currently using an isotope dilution protocol for testing the effects of soil origin, soil texture and EW life habit on potential gross rates of CH 4 production and oxidation. Collectively, our data will be used to assess environmental trade-offs between stream water quality, soil C sequestration and soil GHG emissions in FRBS of different designs. In Germany the anthropogenic input of nutrients such as N and P into surface waters adjacent to agricultural land is high, which leads to eutrophication of ditches and lakes. In order to examine to what extent a short rotation riparian strip prevents N discharge to water bodies, an experiment was conducted in an agricultural site, located in southern Brandenburg (about 150 km south of Berlin). The groundwater table at this site varies between 1 and 1.5 m over the year. A 24 m wide short rotation woody strip of poplars (Populus spp.) was planted along an existing ditch, while part of the area near the ditch was further managed in arable rotation and used as a reference area. Two years after establishment of the woody plants, measurements of nitrate concentration in groundwater took place by using groundwater wells in the center of the field and near the ditch, both inside the woody strip (about 12 m away from the ditch edge) and in the same distance to the ditch in the reference area. The nitrate concentration in the groundwater varied greatly depending on fertilization and weather conditions (especially precipitation). During the entire measurement period significantly lower nitrate concentrations were determined within the poplar strip as compared to the reference area and the center of the field (Fig. 1). Hence, planting short-rotation woody strips along ditches can contribute effectively to reducing nitrogen discharge to surface water after only a short period of time."},{"index":2,"size":9,"text":"Keywords: riparian buffer, nitrate, groundwater, poplar, short rotation agroforestry. "}]},{"head":"L05_O.07","index":54,"paragraphs":[{"index":1,"size":17,"text":"The Agr'eau initiative -Main results and perspectives after 6 years of implementation Charton A. (aurelie.charton@agroforesterie.fr), Balaguer F."}]},{"head":"French Agroforestry Association, Auch, France","index":55,"paragraphs":[{"index":1,"size":440,"text":"Mechanised, high chemical input intensive agriculture in the Adour-Garonne water catchment as in other parts of Europe has led to important land erosion, soil degradation, desertification, biodiversity loss and water pollution. This has increased floods and droughts, and other constraints on the agricultural production. In this large water catchment of nearly 5 Mha of agricultural area and a wide diversity of pedo-climatic contexts (average rainfall 700 mm), local farmer organizations and other landscape stakeholders have been developing agroforestry systems over the last 20 years to address these challenges. Since 2013, a network of more than 300 farms of all types and sizes across the region, organized in the Agr'eau programme and supported by researchers and local and national organizations, has built on this experience to develop and validate resilient climate-smart agriculture approaches that combine agroforestry with minimum-tillage, cover crop and mulching practices. The aim of the Agr'eau network was to come to collaborative development of farming practices that allow for sustainable soil and water management (landscape approach), intensification and optimization of farming systems, in short producing more with less resources, while protecting the environment. The result today is a multi-level form of agriculture that maximizes plant cover (both spatially and temporally), yields and ecosystem benefits, applicable on all sorts of farms. Riparian areas can be defined as vegetation strips bordering a water body (1). Agricultural intensification in Canada has led to a loss of riparian areas, which has resulted in the degradation of freshwater aquatic ecosystems (2) due to an increasing amount of fertilizer and nutrients runoff from the upland vegetation (1). Nutrient pollution causes eutrophication of water bodies, thereby lowering the water quality ( 1) and the health of the aquatic ecosystems (3). And rehabilitation/restoration of the riparian areas has been shown to minimize these effects (2,4). Additionally, riparian zones have the potential to mitigate climate change through carbon (C) sequestration in vegetation biomass and soil (5). These two services of riparian zones guide my research. While, there is a lot of information regarding the adverse effects of the nutrient runoff on water quality (3), information on greenhouse gas (GHG) emissions from riparian zones is limited. Therefore, the objective of this research project is to study the carbon (C) and nitrogen (N) dynamics in the aquatic component of the Riparian Agroforestry Systems (RAFS). RAFS are formed when the practice of agroforestry, tree plantation in farmland, is implemented to create a riparian area on the edges of a water body. RAFS being monitored include: an undisturbed natural forest riparian area, unaltered for over 150 years; a rehabilitated forest riparian area, restored over 25 years ago; and a grassland riparian area."},{"index":2,"size":218,"text":"The Chesapeake Bay is the largest estuary in the U.  and 3) study tradeoffs between agroforestry farming returns and water quality benefits using a production possibilities frontier. Field-based plantings allow for empirical studies of tree-tube effectiveness, site preparation strategies, plant-water relations on contour, and nitrogen fixer intercropping. Plantings also help document financial costs for economic analysis. A set of hypothetical property-level projects representing agroforestry conversions across a large parcel sample frame are modeled using tools that depict the impacts of BMP adoption at the sub-basin scale. Integration of economic and biophysical models in simulations helps project production frontiers that study tradeoffs between various rates of tree plantings for trading and conventional agricultural production. This presentation covers C-CAP initiatives and early findings. In the Andean region, interest is growing in the use of trees to restore degraded areas through afforestation, reforestation or agroforestry. In addition to the economic benefits that these interventions can generate, particularly in the case of commercial plantations with exotic trees, one of the main arguments used to support these actions has been their purportedly positive effects on the recovery of the water provision and regulation functions of ecosystems. However, the relationship between tree cover and water is complex and may have positive or negative effects on the ecological functions of watersheds, depending on diverse factors."}]},{"head":"Keywords","index":56,"paragraphs":[{"index":1,"size":91,"text":"In this study, we compiled and synthetized the literature on the relationships between woody plants, land use and hydrologic processes in the Andes. The results showed that there is very limited and fragmented knowledge, with significant gaps in specific areas. While most studies focus on native forests and on agricultural land uses, there is very little research on paramos (Andean moorlands) or on agroforestry, the latter limited to coffee agroforestry. Furthermore, the results from different studies are often not comparable and are sometimes contradictory because of varying research design and methods."},{"index":2,"size":210,"text":"Our qualitative review highlighted the importance of montane cloud forests in water provision, in particular through the interception of horizontal precipitation. In addition, native forests play an important role in water regulation in comparison with crop and pasture lands, as they reduce runoff and store more water. Our results also showed that paramos provide higher water regulation than forested areas with exotic species and other land covers by maintaining base flows. Plantations with exotic taxa, such as pines and eucalypts, provide overall lower water provision than other land uses. However, their effect on water regulation defies simple comparisons with other uses: they have lower base flow and higher peak flow than other uses, and lower infiltration and water storage than forests and paramos, but perform better in these respects than natural pastures. The reviewed studies indicated that water provisioning from coffee agroforestry systems is lower than in coffee systems without shade, but that these levels vary according to the tree species. The tree species, and in particular the management practices, influence the water regulatory role of coffee agroforestry systems with shade as compared to systems without shade: while run-off is higher in systems with exotic taxa (e.g. pine, eucalypts), the level of infiltration varies according to management and leaf characteristics."},{"index":3,"size":48,"text":"Even though there remain important knowledge gaps on the role of forests and trees in the hydrology of Andean watersheds, especially regarding the combined impacts of land use and land cover change, our review results can help inform degraded land restoration practices and policies in the Andean region."}]},{"head":"L05.P.01","index":57,"paragraphs":[{"index":1,"size":228,"text":"Effects of conservation management practices on soil quality parameters compared to row crop management Alagele S. 1 (smaz22@mail.missouri.edu), Anderson S. 1 , Udawatta R. 1 , Veum K. 2 , Rankoth L. Restoration of degraded lands for watershed conservation and the adoption of recommended management practices on agricultural landscapes can rehabilitate watersheds and lead to enhance soil and water quality. The objective of this study was to assess the effects of grass buffers (GB), biofuel crops (BC), grass waterways (GWW), agroforestry buffers (AB), distance from trees, and row crop (RC) on soil quality. Soils were sampled by 10 cm depth increments for up to 30 cm with three replications. Samples were also collected from 50-and 150-cm saminidase, Fluorescein diacetate (FDA) hydrolase, dehydrogenase as well as active carbon (AC), water stable aggregates (WSA), soil organic carbon (SOC), and total nitrogen (TN) were measured. Results showed that SEAs, AC, WSA, and TN values were significantly greater had 16%, 23%, 49%, 29%, and 21% higher SOC respectively than RC. The GWW had the highest soil quality values among all treatments. The 50-cm distance of AB treatment had higher values than the 150-cm distance for all measured soil quality parameters. Results of this study show that conservation management practices have enhanced soil quality by improving soil microbial activity and organic matter accumulation, thereby contribute significantly to watershed restoration and enhancing water quality."},{"index":2,"size":72,"text":"Keywords: Watershed restoration, Soil quality, Soil enzyme activities, Soil organic carbon, water stable aggregates.  , 2006): for each ecosystem it is possible to distinguish two components: a) the natural capital, which constitutes the matrix and B) the ecosystem services that represent the flow of benefits that contribute to define the level of human well-being. Natural capital preservation is now an imperative objective to guarantee continuity, quality and quantity of the ecosystem services."},{"index":3,"size":90,"text":"In the 6th Goal of the Sustainable Development Goals 2015-2030 highlighting that water scarcity, poor water quality and inadequate sanitation have negative impact on food security (UN2015).Forests are a key component to ensure the purification and the sustainable supply of water. Fiuggi chestnut forest (Lazio Region, Italy) provides an «unconventional» ecosystem service produced by the complex «water-chestnut forest-litter and soil».Fulvic acids in soil are water soluble in a wide range of pH (3)(4)(5)(6)(7)(8): rain water flows through soil with the effect to move fulvic acid in the ground water (1)."},{"index":4,"size":50,"text":"Previous studies (2-3) highlighted Fiuggi's water therapeutic properties: it prevents the stones formation and/or facilitates their expulsion. The hypothesis is that this mechanism is activated at the renal level: fulvic acid prevents formation and promote the degradation of calcium oxalate and phosphate crystals through the formation of soluble calcium complexes."},{"index":5,"size":83,"text":"The aim of this study is to verify the structural similarity of fulvic acids extracted both from water and chestnut forest soil. To this end has been performed a chemical identification/ characterization. Soil sampling was performed on the basis of a randomized block design, taking 4 soil samples for each site. Soil samples were studied for their content in humic substances and these divided in to the different constituent fractions (FA,HA), according to the standardized method by the International Humic Substances Society (IHSS)."},{"index":6,"size":317,"text":"In order to isolate and purify the fulvic fraction in water, 280 liters of mineral water taken at the Fiuggi settlement, were subjected to: concentration with resin DAX8, acidification with amberlite, freeze-drying. Fulvic fraction, isolated and purified from soil samples,and mineral water (550µgl-1),were subjected to pyrolysis-GC-MS and FT-IR characterization. The fulvic acids from the water and the chestnut soil show spectral similarities and qualitative analogies of pyrolystic profiles. The highlighted similarities allow to affirm that the fulvic acids isolated from the water come from chestnuts'stems and litter. The enrichment that chestnut forest gives to waters' quality, is an important information to define water enhancement strategies, establish soil management and designate sustainable forest management. Conservation of soil and water along with crop productivity improvement is indispensable for sustainable development of rainfed areas. The system of raising multi-height plant species with agricultural crops known as multitier agroforestry system was assessed (2007-10) for resource conservation and production potential in rainfed conditions of Eastern Ghats region in India. Thirty experimental plots, each of 18 m × 12m dimension with 2% slope having different multitier agroforestry treatments were assessed for soil erosion, nutrient loss and crop yield. Results revealed that multitier plantation of drumstick (Moringa oleifera) with Gliricidia sepium hedgerow and ginger (Zingiber officinale)+ pigeonpea (Cajanus cajan) under 8:2 row intercropping enumerated minimum mean runoff (8.26 %) and soil loss . This treatment saved 74 % more soil organic carbon, 64 % more phosphorus and 66 % more potassium, respectively than broadcasted finger millet cultivation (traditional farmers' practice). An increase of 24-27% drumstick fruit yield was observed in Gliricidia hedgerow based agroforestry systems over non-Gliricidia systems. Results from the experiment establish that, scientifically attuned combination of tree, hedgerows with compatible intercrops are effective in decreasing runoff-soil loss, building soil fertility and enhancing yields. The benefits of the system in resource conservation and production makes it a suitable intervention in the fragile ecologies."},{"index":7,"size":291,"text":"Keywords: Multitier, Runoff, Soil loss, Green leaf manuring. have also been taken up. Organic farming was also encouraged. For capacity building, SHGs, User Groups, villagers and members of Watershed committees were imparted training. Health and literacy camp have also been organized. In most of these watershed areas encouraging results have been registered with regard to silvi-pasture practices and production of different agricultural crops. There has been increase in biomass production and improvement in soil and water conservation. These results have positive impact not only on environment and livelihood of the people, but also on their social and cultural domain. The available water content of Sahelian agro-ecosystems controls their development and sustainibility. In fact there is a strong relationship between the availability ofwater and its use by plant associations. The presence of trees is related to the anthropic history of the local environment. Agroforestry parkland trees have two 'natural' habitats: in the lowland hydromorphic area and also in the area associated with farmers' activities developped on accessible groundwater. The expansion of these habitats is increasing. Our study therefore concerns the relationship between climate change, hydric and hydrodynamic properties of the soil under the crown and the effects of the tree-crop association on the regulation of soil water functioning. This regulation is very dependent on the free Eco-Systemic Services essential to human well-being of this zone such as: 1) Supporting services -Sequestration of C and OM accumulation in soils: lower bulk density and higher total porosity due to macropores that facilitate infiltration of water in the top 40 cm of soils; -Soil water availability improved both under and outside the canopy up to 175% of the canopy radius; -N fixation: increased soil covering; -Reduced leaching; -Available water content higher under crown than outside."}]},{"head":"Keywords","index":58,"paragraphs":[{"index":1,"size":72,"text":"2) Regulating services -Limitation of runoff: protection against erosion; -Climate regulation: i.e. higher relative humidity and lower air and ground temperature; decrease in direct evaporation and greatest efficiency of water use; -Increased water quantity at the beginning and end of the crop cycle ; little competition for water between trees and crown plants thanks to pivoting roots that plunge into the water table; -Intercropping under the crown decreases the ETR by 20%."}]},{"head":"Conclusion","index":59,"paragraphs":[{"index":1,"size":266,"text":"The Sahelian agroforestry parkland is a agro-ecosystem that provides a number of free Eco-Systemic Services that create specific local physical, hydric and climatic conditions favorable to a particular ecological entity. Each tree is a «green oasis» that resists climate change with a local agro-climatic effect on the entire field. Because these free Eco-Systemic Services ensure the improvement of physical properties of soils, they explain the improved water functioning and supply for crops. Its tolerance to extreme drought and its resilience at the edge of the desert is also positively affected. A study was conducted to assess the impact of the wadi programme on livelihoods and distress migration of the families. 2135 families were selected through stratified random sampling. The study involved survey of individual families at the beginning of the project (baseline) and at project completion stage. The comparison against baseline situation indicates significant impact of the wadi programme. Distress migration (number of days per annum) has reduced by 51%. The number of non-migrating families increased by 2.6 times of the baseline number. Migration of women and children has completely stopped in 70% of the families. Distress migration has reduced due to significant increase in farm income. The integrated farming system promoted through the wadi approach resulted in more than100% increase in farm income. The increased number of income sources offer better resilience to the farmers. The diverse forestry species in \"wadi\" provide benefits in the form of windbreak, improved microclimate, green manure, improved fodder, timber and income from sale of surplus timber. The fruit and forest trees are a valuable carbon sink. (Watson, 2017, www.thegurdian.com)."},{"index":2,"size":41,"text":"Owing to the significant impact of the wadi programme, it has been emulated in 25 states of India, benefiting more than 0.45 million families. This paper details on the components, processes, impact and learning's for wider replication of the \"wadi approach\"."},{"index":3,"size":413,"text":"The gender dimension of tree-resources dependency has been well documented in the West African agroforestry parklands where women are the main beneficiaries of non-timber forest products, which are critically important for food security and cash income. Diminishing tree resources, land degradation and climate change have increased women's vulnerability, while restrictive socio-cultural norms offer limited opportunities for women to participate in landscape restoration or agroforestry initiatives, and to benefit from these. There is a need to develop transformative processes that can redress gender inequalities in access to and control of resources, and to actively engage communities in these processes of change. To understand ways that this can be done, we first developed an innovative approach that brought together elements of the Gender Action Learning Systems (Mayoux, 2014) and the Forestry Poverty Toolkit (Shepherd, 2008) with system thinking. We applied this set of participatory tools in three communities in northern Ghana and four communities in southern Burkina Faso; interviews were conducted with male family heads and one adult female in each of 84 households. Analysis shows the contribution of income from trees, particularly shea (Vitellaria paradoxa), to total household cash income was very significant in both countries, especially in poor households. This income was almost exclusively sourced by women, who often have neither control over how it is spent nor a voice in decision-making for land restoration (e.g. tree planting and/or management, as well as soil and water conservation improvements). Furthermore, activities typically done by women, both in respect to farming and tree-product harvesting and to their reproductive role, are significantly less valued than are men's. We presented these findings to the communities through structured community dialogues around gender relations. These included culturally sensitive workshops that brought together an engaged men and women from different ages and generations. Participants were encouraged and motivated to reflect on how local gender norms generate constraints and limit their opportunities to increase resilience in landscapes and livelihoods. We show that this integrated and innovative approach has substantial potential to tackle gender norms, one of the major bottlenecks to scaling up restoration interventions. This approach, that the communities has named locally «Silakouda» meaning «the new preferred way out of poverty», has enabled 1,412 women to establish 52 sustainable business groups and multiply by 4 their annual average income in the 32 villages of the project area. It has also enabled to put under protection 276 ha of community forests managed by local communities in connection with environmental and forestry services."},{"index":4,"size":45,"text":"The development and support of this rural women's entrepreneurship has proved to be a real driver for improving this traditional market and is promising for the inclusion in the initiated approach of other species composing this agroforestry system, thus participating in its safeguard and valuation."},{"index":5,"size":10,"text":"Keywords: agroforestry parklands, Parkia biglobosa, entrepreneurship, rural women, M4P approach."},{"index":6,"size":85,"text":"L6 Social issues The changes in the receiving community and its environment, generally in rural areas with lower human population density. Absorption of new labour can start as paid labour and patron-client relationships or share cropping, but also involve land renting and buying, within customary land ownership rules (rarely involving formal land certification). In some of the cases experience with more intensified land use in the source area (e.g. W Java) proved to be enriching agriculture and agroforestry in the new environment (e.g. S Sumatra)."},{"index":7,"size":76,"text":"The effect of the migration on land use and livelihoods in the areas of origin. Feminization of agriculture, as described elsewhere for dominantly male migration patterns, appears to be less common than a pattern where elderly people taking care of grandchildren that stayed behind struggling to maintain their agricultural practices. The extensification of land use and a greater reliance on trees rather than annual crops are often constrained by lack of relevant knowledge, skills and technology."},{"index":8,"size":66,"text":"The dynamics of migrants returning with different levels of success. People coming back with success may help to rebuild the village and its agricultural system and could invest in social capital (mosques, healthcare, schools). Some who have failed may find other land use or urban labour options elsewhere. The interaction of migrants in all four aspects with government and other stakeholders in relation to development policies."},{"index":9,"size":89,"text":"In conclusion, our analysis suggests that positive aspects in both areas of origin and receiving areas may prevail, with exchange of knowledge between areas of different land use intensities spreading agroforestry practices. The latter may well be more effective than the routes through formal knowledge and extension, and in some cases is combined with tree germplasm exchange. Feminization of agriculture through preferentially male-based migration is not common in Indonesia, but age-based consequences are common, in both urban (or overseas) migration, and dispersal to areas of lower human population density."},{"index":10,"size":304,"text":"Keywords: Migration, Decision Making, Land competition, Feminization, Agroforestry. Shea parklands (Vitellaria paradoxa C.F. Gaertn.), which spread across sudanian Africa, reflect a human construction under certain conditions of land management and population density. They provide socioecosystems services : support and regulation services or provision services like traditional pharmacopeia, handicraft or food supply, which contribute to the reduction of socioeconomic vulnerability in the current context of climate change. In Benin as in other shea parklands, the resource management (land, trees, fruits etc.) keeps the gendered character described since the colonial period and the shea-tree is a particularly significant archetype. Men own land rights and control of trees which they can protect or cut. Women rights concern the collection or harvest of fruits, for family consumption or sale (raw or transformed) ; with this monetary income, women can cover the financial charges which fall to them inside households, where the budgets are largely separated. However, the state of shea parks is contrasted and often engaged in a process of degradation like in Djougou (Benin), where we have conducted our study between 2010 and 2015. Our objective was to identify and analyse the causes of this paradoxical situation of deterioration of the park, while the world demand for shea-nuts is rapidly increasing (Bidou et al., 2018). Our analysis was done at while different scales : regional (with remote sensing), village and households. At household level, we have conducted socio-economic surveys among 230 households and 381 women and qualitative interviews of a sample of women and men focused on the place and role of shea tree. By replacing the activities of the women within the families to which they belong ( by ethnic group, religion, socioeconomic level), we see that they are largely dependent on the degree of freedom which they have in their family (Droy et al., 2014)."},{"index":11,"size":62,"text":"Results show that shea parkland degradation is due to a lack of regeneration in a context of population rapid growth, land pressure and reduction of fallows where the young shea-tree can grow (Boffa, 2000). But also to men choice, who favour the cashew trees over the shea trees at the expense of women. This factor will be particularly developed in this paper."},{"index":12,"size":113,"text":"Main results of our analysis can be summarized in the following points : 1) Income of the sheatree, even low, remains important for the poorest women and contributes to reduce the food vulnerability because the sale of shea nuts takes place during hunger season. 2) Women ressources are decreasing as their rights on land and trees are questioned, although their family charges are rising (with monetary expenditure for children). As a consequence, child chronic malnutrition has been steadily increasing in the rural regions of northern Benin 3) Difference of interest between women and men is deepening, in particular with the expansion of plantations of cashew trees, controlled by men while using women workforce."},{"index":13,"size":723,"text":"Keywords: Gender inequalities, Shea parkland, Access to ressources, Vulnerability, Benin. In the wake of major climate change impacts on cocoa, farmers in the Techiman municipality have rolled out various adaptation and coping interventions. However, there is very minimal information on the gender dimensions of these adaptation interventions. There is therefore inadequate information which could inform improved resilience of cocoa systems and livelihoods to the threats of climate change impacts, given that climate change impacts and its responses are mostly differentiated along gender lines. The research focused on the transitional zone of Ghana, where cocoa cultivation is dominant, and the climate is also characterised by high rainfall deficits and high temperatures. Using a stratified random sampling approach, key informant interviews and focus group discussions, data was generated on farmer's perception on the manifestation of climate change and current adaptation strategies employed by farmers, as well as gender-driven challenges male and female cocoa farmers encounter during the implementation of these adaptation strategies. Findings of the study indicated that, small-holder farmers in the Techiman municipality were highly exposed to negative climatic impacts and they adopted agroforestry strategies, on and off farm diversification, and soil fertility management to respond to climate change stress on the cocoa system. However, the study revealed no disparities between male and female farmers in the choice of specific onfarm adaptation strategies that are needed to respond to climate change impacts on cocoa, but rather, gender differences manifest during the execution of these on-farm strategies. Furthermore, it was observed that while male farmers increased their reliance on activities like driving, palm wine tapping, and alcohol brewing, female farmers diversified their sources of income into mostly trading, with animal rearing being common to both gender groups. The findings of the study also showed that there was disparity between male and females with regard to access to finance to respond to climate change impacts on their cocoa systems, with male farmers being more likely to access finance to implement various measures to respond to climate change impacts than their female counterparts. The study also revealed that, issues relating to household chores, and labour intensiveness of most of the adaptation strategies such as \"line and pegging\"and agroforestry tree species access and incorporation in cocoa farms posed major barriers to female farmers' decision making and capability to improve the resilience of cocoa farms to climate change impacts. The study brings out the complexity of access, differentiated household responsibilities and decision making on a holistic response to climate change impacts, and the need to pay attention to specific gender issues at the household level which exposes the vulnerability of cocoa farmers, in spite of farmers' knowledge of adaption strategies. Participatory research using seasonality calendars and score -ranking was conducted with sixteen focus groups and comprised of a total of 160 participants to understand knowledge and preferences for food trees. A total of 61 food tree species were listed with differences among countries. In Uganda, the total species number was 47 (including 58% exotic species), and in Kenya 55 (65% exotics). In Uganda, knowledge on food tree species differed between genders, with older women listing the greatest number of priority species ( 22), followed by younger women (19) and older and young men (15). In Kenya, older women and men identified 38 and 36 species respectively, whereas younger women identified 26 species and younger men 23 species. In all four sites, both men and women preferred exotic food tree species such as Mangifera indica, Passiflora edulis and Persea americana. Both men and women especially valued food trees that contribute to improved health, nutrition and income, those whose products have a good taste, and with medicinal properties. For old and young women, the main reasons for selecting food trees species was their availability and role as children's food. Findings show diverse food tree species that fill food and nutrition gaps and the value of gender-sensitive participatory research for understanding local knowledge, needs and constraints, to inform project implementation decisions. There is a link between agricultural systems (crops of basic grains, livestock, agroforestry systems for coffee and cocoa) and poor populations in rural areas. These land uses not only provide food, but also other ecosystem services (SE). In turn, each of these farming systems impacts the communities differently and the benefits they provide are perceived differently, for both men and women."}]},{"head":"Keywords","index":60,"paragraphs":[{"index":1,"size":47,"text":"In Nicaragua, agricultural production in rural and poor areas is poorly technified and is closely linked to the benefits offered by nature. The main objective of the study was to determine the importance of land uses in the provision of different ecosystem services with a gender focus."},{"index":2,"size":72,"text":"We studied nine farming communities in three municipalities in the center and north of Nicaragua: El Tuma-La Dalia, Waslala and Siuna. We conducted 58 semi-structured interviews and 13 open interviews with key informants in order to determine access to the SEs. We also conducted two focus groups per community, one for men and one for women, using participatory mappings and the pebble distribution method, in total 41 men and 53 women attended."},{"index":3,"size":64,"text":"Our study finds that the use of forest land is one of the largest providers for SE communities; however, it is perceived as one of the least contributes to the family's economy. We also find that the land uses that provide the most benefits for women are the urban center and the crops of basic grains, while for men it is the agroforestry system."},{"index":4,"size":136,"text":"Provision of ecosystem services according to land use for men and women Keywords: Land uses, community capitals, participatory mapping. While labour scarcity is a primary driver, we found good economic rationale for taking these alternative farming practices. As a whole, the changing demographic picture has opened up new opportunities for promotion of agroforestry practice. At the same time, agricultural feminisation has been a major characteristic of the rural society, due to changing demography in the hills. Two important policy implications have been identified in the paper. First, the policy environment should be redefined and reframed towards facilitating increased forest-farm interface for minimizing the distinction between agriculture and forestry activities. Second, considering increased role of women in agroforestry, the public support system such as service provisioning including technologies should be geared towards making them more women friendly."},{"index":5,"size":55,"text":"Keywords: Agroforestry, Migration, Gendered. Fruit yield of shea tree is irregular and insufficient in Burkina due to negative impact of climate change on its productivity. Women and children are main collectors and processors of shea fruits for multiple usages but less is known about how they perceive climate change and its impact on their activities."},{"index":6,"size":41,"text":"The study was to determine women's perceptions of climate change and the impact on the flowering, fruiting and quality of the pulp and butter. We sampled 80 women collectors and shea butter processors within 4 associations in north-Sudanese and south-Sudanese areas."},{"index":7,"size":13,"text":"The group focus and individual questionnaire were used in 2017 for the study."},{"index":8,"size":497,"text":"The results showed that women perceive climate change through the declining rainfall, violent and dusty wind and the high temperature. 80% said that flowering and fruiting process are influenced by the wind and the declining rainfall. The insufficient rain causes less flowering intensity and fruiting with high non-mature fruits rate. Fruits do not taste good and nuts become whitish and give less butter compared to the reddish colored nuts with high butter rate (Photo 1). The frequent winds dry out the blooming flowers and cut off unmatured fruits. The dusty deposit on flowers prevent pollinators to access to the anthers and the stigmates, thus limiting sexual reproduction success. Their perceptions provide key guidance for future adaptation plans to climate change. Uganda is currently hosting over one million refugees within its borders, most of them in the north of the country. With the increased human population due to the influx, pressure on the surrounding ecosystems has intensified. Hosts and refugees both depend heavily on the surrounding vegetation for construction wood, firewood and farm areas. As a result, exploitation of the surrounding woody vegetation is leading to user right conflicts between the two communities. Refugees intensively cut down trees in their surroundings and further degrading the ecosystem. The objective of this study was to identify the potential for tree-based restoration options (e.g. agroforestry, farmer-managed natural regeneration) and identify the enablers to fast-track restoration of the ecosystem. Over 84% of both the host and refugee communities believe their ecosystem is degrading, causing societal tensions. From the field assessment using stump density as proxy, we found that 60% of the trees in the landscape had been cut in the last 2-4 years, mostly post the influx. Three potential pathways of restocking the woody biomass in the landscape were highlighted: tree planting (woodlots, fruit orchards, boundary planting and agroforestry -scattered trees and shrubs on farms and refugee plots), conserving existing trees, and promoting natural regeneration of sprouting trees. Among refugees, 66% of planting was suggested to be on plot boundaries and within homesteads. In contrast, host communities suggested that a similar share be in the form of woodlots. Refugees requested on average 32-50 trees to grow per household while the hosts expressed an interest in growing 863-1249 trees per household (they possess larger landholdings). Natural regeneration was suggested for communal degraded areas rather than areas currently used by refugees. To operationalize the ambition of restocking trees in the landscape, participatory farm sketches were designed with refugees and host community members. Further, a community learning center, consisting of a training unit and a tree nursery, was established to provide training and preferred planting materials to enable both refugees and hosts to engage in tree growing. In addition, an extensive extension system consisting of technicians and local community-based facilitators was setup to support tree growing. A partnership scheme was also agreed between the relevant government authorities and humanitarian organizations handling refugee matters to ensure the planted seedlings grew to provide ecosystem goods and services."},{"index":9,"size":45,"text":"Bringing back trees to the landscape is believed to restore natural capital hence reducing conflicts between communities. This intervention has been lauded by the relevant authorities and tools and approaches developed and piloted have now been upscaled to other refugee settlements in Uganda and elsewhere."},{"index":10,"size":621,"text":"Keywords: agroforestry, landscape restoration, refugees, host communities.  et al., 2015;Assalé et al., 2016). These different population movements have increased the pressure on the forest resources and modified the different agroforestry practices of the populations. Henceforth, deliberately leaving a tree on one's farm is governed by economic rather than ethical considerations. For Aboriginal producers, the tree is a land marker, a cultural richness and a source of non-timber forest products (Kouakou et al., 2017). For Aboriginal producers, the tree is a land marker, a cultural richness and a source of non-timber forest products (Kouakou et al., 2017). For agricultural migrants operating in protected areas, the tree on the contrary marks the presence of state managers and must be systematically eliminated so that these managers downgrade these areas. The ignorance of local tropical trees by migrants from Sudano-Sahelian areas is also one of the reasons for the total destruction of trees in migrant plantations (Zanh et al., 2016). These populations do not know the utility or the use of non-woody trees and forest products. trees with high yields but which support little shading is a brake on the promotion of agroforestry by migrants. One of the consequences of these practices is the recrudescence of Swollen shoot disease in Ivorian forest areas where the presence of outbreaks seems to be related to different agroforestry practices. to better livelihood? The DECOFOS in Mexico Cavatassi R. (r.cavatassi@ifad.org), Alfani F., Paolantonio A., Mallia P. Research and Impact Assessment, IFAD, Rome, Italy Starting from the '80s, Mexico has experienced one of the largest deforestation rates in Latin America. As a response to the country forest deforestation and degradation, in March 2011, implementation began of the project Desarrollo Comunitario Forestal en los Estados del Sur (DECOFOS), an initiative financed jointly between IFAD, the Global Environment Facility (GEF) and the Government of Mexico. The project had the dual goal of improving the livelihood of people living in poverty and extreme poverty in degraded or marginalized areas and of contributing to climate change adaptation and mitigation through the restoration and revitalization of degraded lands and deforested areas as well as by supporting, both technically and financially, the implementation of sustainable productive activities. To assess the impact of the DECOFOS project a rigorous Impact Assessment has been conducted ex-post through a quasi-experimental mixed method approach which combined quantitative primary data with qualitative analysis and climatic and geo-referenced satellite data plys secondary census data. The combination of different data sources and apporach has produced quite robust and rigorous results suggesing that the DECOFOS project has been successful in increasing agro-forestry and vegetation index as well as the income deriving from forest resources. The project presents different nuances tailored to the diversity of the three Mexican States where it has been implemented: Oaxaca, Chiapas and Campeche. A richness of heterogeneity is found across the three states, whereby higher impacts are found from better and larger use of forest and forest resources in the most forested areas namely Chiapas and Campeche, a stronger focus on agribusiness activities and agro-forestry is found in the State of Oaxaca. With regard to indirect beneficiaries, results suggests that the project facilitated specialization in the local economy: whereas project participants focussed on the use of forest and non-timber forest products through the use of permits and on starting or strengthening micro-business enterprises, indirect beneficiaries seem to strengthen agricultural activities. Economic mobility is positive across participants. Income, dietary and crop diversification is also a result of the project across the three states. Analysis has also been run controlling for climatic variables and variation to ensure that higher and more diverse forest resources where not linked to more favourable climatic patterns. Impacts on vegetation index have also been assessed finding positive results. "}]},{"head":"Keywords","index":61,"paragraphs":[]},{"head":"L07_O.02","index":62,"paragraphs":[{"index":1,"size":8,"text":"Building markets for forgotten wild Sahelian tree foods."},{"index":2,"size":349,"text":"A case study of Sahara Sahel Foods Garvi J. 1 (josef@saharasahelfoods.com), Garvi A. V. 2 , Garvi-Bode R. D. The Sahel belt of Africa has been grappling with chronic food insecurity ever since the droughts of the 1970's. In Niger, the national cereal production averages 400 kg/ha, which is inadequate for many farming households, so new livelihood models must be sought. Sahara Sahel Foods (SSF) is a social food-processing entreprise based in Zinder, Niger, that develops new food supplies from the near-forgotten wild trees and shrubs of the Sahel, so-called Wild Perennial Crops. These native plants were commonly eaten in precolonial times, but became neglected and stigmatised as agriculture expanded. They are well adapted to the dry climate, easy to grow in polyculture, often have a higher productivity than annual crops, and provide diverse and nutritious foods. By combining tradition and innovation, SSF has developed 50 different food products from 15 of these species, succeeded in destigmatising the popular conception of these foods, and turned them into symbols of national pride. A network of 1500 primarily female suppliers has been organised, from which the tree produce is sourced. However, for this new livelihood to become sustainable, the entreprise must become profitable and the volume of products processed and sold must grow substantially. The strategy for achieving this goal lies in scaling up three sectors: pseudo-cereals, food oils and drinks. This needs to be coupled with added marketing efforts on how to cook and eat these foods, and a larger distribution network. The Mountain Hazelnut Venture (MHV) is a contract-farming scheme in Bhutan under which 10,000 hectares or about 12% of cultivated land are planted with hazelnut trees. An estimated 15,000 farmers, about 20% of all agricultural households, are expected to benefit from hazelnuts as an additional income source. However, there are concerns that the contract-farming scheme could negatively impact output of other crops, particularly cereals. The government of Bhutan is alarmed about its increasing dependency on cereal imports, as the country is landlocked and imported cereals, which comprise 35% of domestic cereal demand, are only sourced from neighbouring India."},{"index":3,"size":78,"text":"We apply an economy-wide model to simulate the effects of the contract-farming scheme particularly focusing on agricultural output, food self-sufficiency and household welfare. We utilize a 2012 social accounting matrix (SAM) for Bhutan, which is extended to depict seasonal labour markets and the hazelnut activity using data from MHV. Based on the SAM, we employ a comparative-static computable general equilibrium model to simulate the contract-farming scheme by exogenously shifting land from the crop sector to the hazelnut activity."},{"index":4,"size":163,"text":"As the hazelnut is a high-value crop, we expect our results to show a general increase in agricultural output. Yet, we also anticipate that maize output is reduced as the harvest seasons of maize and hazelnuts coincide, which should increase seasonal wages and thus the cost of maize production. We expect farm households' welfare to increase, as except for the harvest months hazelnut growing requires relatively little labour, thus providing higher returns to land. With potentially decreasing maize production and increasing household income, cereal imports are likely to increase. However, the potential impacts on cereal self-sufficiency are contrasted with overall food self-sufficiency accounting for the higher nutritional value of hazelnuts. These aspects are specifically discussed when drawing policy implications from the model results. Mindful of the data structure, we intend to demonstrate how depicting seasonal labour markets matters for an adequate assessment of the scheme's impact. While cereal self-sufficiency declines, alternative policy options to reduce Bhutan's dependency on cereal imports are briefly highlighted."},{"index":5,"size":106,"text":"Keywords: Economy-wide modeling, Contract farming, Foreign Direct Investment, Bhutan. Food insecurity is rife in the middle-hills of Nepal because of under-utilised land resulting from outmigration of male labour and underperfroming agroforestry systems. Agroforestry here is inextricably linked with surrounding community forests. We present a conceptual framework describing the links between farm and community forest and role of improved agroforestry in enhancing food security. This underpinned the work of the EnLiFT research project (2013)(2014)(2015)(2016)(2017)(2018). Results from EnLiFT are presented concerning drivers of under-utilised land, and how simple agroforestry interventions can lift households above the poverty line. However, widespread prosperity requires commercial agroforestry systems on the under-utilised land."},{"index":6,"size":98,"text":"Five propositions are made to establish the pathway for agroforestry wealth: 1] Agroforestry should be institutionally integrated with agriculture and community and private forestry; 2] The greatest potential for improving agroforestry is in fodder-livestock and timber-woodlot systems on under-utilised land; 3] The regulations for sale of private-grown timber needs to be rationalised; 4] Multi-sectoral commitment is required to support youth to engage in agriculture, encourage investment of remittances into agriculture, and provide legal systems to encourage investment in commercial agroforestry partnerships;and 5] Current constitutional changes provide an excellent opportunity to develop policies and institutions to encourage wealth-generating agroforestry."},{"index":7,"size":77,"text":"Figure 1 The farm-forest interface and food security in mid-hills of Nepal In the Mt Elgon region in Kenya, deforestation, inefficient agricultural practices, uncontrolled grazing and soil erosion have a direct impact on biodiversity, soil fertility and farmers capacity to adapt to climate change. Crop yields and milk production are low and smallholders don't have a guaranteed sustainable connection to markets for their produce. The dairy sector's development is hindered by unsecured milk supply and collecting challenges."},{"index":8,"size":576,"text":"The Livelihoods Mt Elgon project is improving the livelihoods of by empowering farmers to increase adoption of Sustainable Agricultural Land Management (SALM) practices with a strong focus on and establishing connections to dairy markets through 15 cooperatives. The project will sequester 1 million tCO2e through increase in tree planting, soil organic matter and dairy cow productivity. The overall mission is to secure thriving livelihoods for smallholder farmer communities through widespread adoption of Sustainable Agricultural Land Management (SALM), that delivers value across carbon credits, milk supply chain and water resources. Farmers are trained on SALM practices such as agroforestry to adapt to the impacts of cli-. The monitoring of SALM also tracks carbon sequestration. By year 10, the project will have reached a wide spread adoption of SALM on 35,000 ha of agricultural land with 4 million trees planted. Free grazing within small area of land, which severely damages the ecosystem, is avoided as cows have access to feed and water throughout the year. To increase milk productivity, farmers produce fodder crops on farm to feed the cows all year round. The project strengthens the capacity of 15 cooperatives to offer services to their members such as farming advisory services, milk collecting and veterinary services. Also governance of the cooperatives is strengthened to enable women to participate more actively in the dairy value chain, with the aim of women in 50% of the leadership positions. The project is developed through an innovative investment model. It is pre-financed by the Livelihoods Fund, an investment fund created by private companies, who bears the investment risk. Brookside Dairy, a private company, co-invests in the project, pays according to milk production and commits to buy all milk produced within the project over a period of 10 years. The carbon sequestered in the project is the return to the investors which they can use for offsetting in their own companies. Vi Agroforestry, an NGO, implements the project together with local communities organised in 15 cooperatives. The project delivers and has already delivered tangible results. By May 2019, at the World Congress on Agroforestry, fresh results from 3 years of implementation will be presented by Vi-skogen and by Margaret Nelima, a smallholder farmer and leader in Kiminini Cooperative. The legal configuration of community forests(CFs) in Cameroon demands that communties exploit resources like business units but invest the profits like charity organisations to solve community problems. This setup portrays the characteristics of social enterprises, which are enterprises that apply commercial strategies to improve the financial, social and environmental welbeing of communities. However, the extend to which community forest enterprises have effectively developed and generated profits from forest resources as business units is not clear, their ability to invest profits in development projects is not clear. Mining for copper in Zambia has left a legacy of degraded and contaminated landscapes, where the incentives and finances for restoration are limited. This situation is exacerbated by the decline of mining activities. Under such circumstances peri-urban communities suffer high levels of unemployment and a degraded environment. The considered establishment of elite Pongamia pinnata bioenergy orchards and 'inter-crops' on disused mine facilities offers significant potential to simultaneously incentivize investment and initiate a process of local economic diversification, job creation and environmental remediation. We describe the rationale and challenges of establishing such operations, the observed benefits of a pilot in Chingola, Zambia and the potential benefits for job creation and sustainable economic growth when replicated and scaled across the region."},{"index":9,"size":57,"text":"Our all female tree planting team, benefitting from flexible job creation and improved environmental conditions. By learning from the solar industry we can de-risk investments while creating ownership opportunities for farm managers. It is important to contextualize farm decisions with economic assumptions, such as yields and profit, making crops within growth markets a clear path to profitability."},{"index":10,"size":66,"text":"In the US, purchasing land requires outside capital, as profits from agriculture are insufficient to pay a mortgage, and it is challenging to debt-finance a system that will not break even for up to 7 years. Investment opportunity sits in separating the tree assets from the land. This increases return potential with direct investments into agroforestry, as real assets, similar to investing in a solar array."},{"index":11,"size":91,"text":"Trends in solar such as tax incentive programs and power purchase agreements play an important role. In the US, opportunity zones and new market tax credits create incentives for investors. Meanwhile, long-term purchasing contracts allow brands to secure supply, mitigating risk by providing secured buyer relationships. Brands and investors can meet climate goals and address consumer demands, while increasing supply certainty and profitability. By working across the value chain from farmer to investor to corporation, the pursuit of longterm landscape regeneration and financial sustainability can be addressed through market-driven agroforestry solutions."},{"index":12,"size":34,"text":"Keywords: agroforestry assets, project development, investment readiness, crop economics, purchase agreements. The effects of agroforestry on local community and landscape -changing approach and strategies in a rural family's life Csikvári J. (judit.csikvari@gmail.com), Barsony D."},{"index":13,"size":4,"text":"Zsörk, Pápateszér, Veszprém, Hungary"},{"index":14,"size":70,"text":"Zsörk is a very diversified land which was partly abandoned when we started our project. We intend to keep it in its complexity, produce fruit while conserving natural values. The villagers' significant part commute to nearby towns and cities, work as factory hands or in services. Few families practice agriculture -mechanized farming on arable lands -,which does not create jobs to keep workers on the field and in the village."},{"index":15,"size":33,"text":"We believe agroforestry can have a local effect on the health of the landscape, on people's well-being and on the community. Agroforestry affects local communities in different areas of life, through several features."},{"index":16,"size":1086,"text":"Our system is labour-intensive and therefore costly -a challenge we tackle by product diversification and high added value products -which is labour-intensive again. Two persons (father and son) are working for us permanently. The son was working as a production line worker. Now they draw certain pride out of their status as the workers of Zsörk, and the rest of the village seem to respect that, too. Which makes it easier to involve occasional workers more efficiently. In a situation when forest and environmental protection is a priority and the demand for fuelwood is very high, the introduction of short rotation agroforestry system by planting fastgrowing species on rivers banks and canals could be one of the suitable systems to address these issues, improve land management and reduce flooding in plain areas. In Albanian rural areas, agroforestry represents one of the oldest land-use systems where trees and shrubs are used on the same land-management units as agricultural crops and grazing for animals. These traditions remain alive in rural areas where trees are cut at ground level or above to produce shoots which are harvested for various family uses including fuelwood, animal fodder, and building materials. Actually, coppice and shrubs cover 1 053 239 hectares or 37 % of the total area of the country (Agrotech 2004). Little attention has been given to coppice and shrubs during the last 20 years, an approach inherited from the central forest governance system before '90. They are a great unused potential for biomass production and their exploitation can both improve natural conditions and create more employment opportunities for farmers. Thus, apart from the areas near houses which farmers use for family needs, they can use other lands (bare or unused) to plant fast-growing species, initiatives which can boost family business and increase their income. Local case studies recognize that agroforestry is a major source of income to farmers. It shows that agroforestry activities have a significant contribution of 40% to the total annual income of rural households or around 1900 dollars a year (Kacani and Peri 2017). However, there is a lack of studies on the benefits of agroforestry systems and scientists and experts often hesitate to undertake a more in-depth analysis. This is a challenge for the Albanian context, as sectors such as agriculture and forestry have been isolated from each other for a long time. The review focused in understanding the advantages of short rotation coppicing and explore how the integration of these silvicultural techniques with traditional agroforestry might be used for environmental protection and increase production. It could be the first step in assessing whether promoting or not these means of vegetative reproduction and traditional agroforestry practices is the way towards a more sustainable and productive use of land. Swidden agriculture (SAIs) are land use systems adopted by caiçaras -traditional people that inhabits Brazilian coast. These systems consist on an itinerancy of cultivated plots alternated by a fallow period. SAIs are criticized for the use of fire and suppression of native vegetation, also they are pointed out as incapable of sustaining people. Nonetheless, these systems endure throughout the pan-tropical region until the present days. Another important aspect is that traditional agricultural systems represent local culture as an expression of people's interaction with nature. To evaluate SAIs capacity to maintain the forest and the population we investigated the dynamic of this system adopted by caiçara community in Cananéia, Southeast Brazil. We verified practices and interactions with the environment along time using the Diagnostic and Design tool and participant observation. We found that agriculture is a secondary activity that complements fishing and retirement incomes. Crops are for families' subsistence and feeding small animals. There is a sexual division of labor: preparation of areas (slashing and burning) is a masculine task while cultivation and harvesting are of feminine responsibility. Fallow period varies from 8 to 15 years depending on vegetation size but it's common to find older areas. The cultivation period depends on cassava or sugarcane cycles (2 to 3 years). New areas are chosen depending on crops and soil characteristics. There are no signs of soil erosion and forest seems to regenerate properly despite its temporary suppression, which will be confirmed by complementary field studies. Also, new land arrangements due to protected areas demarcation led caiçara people to restrict the areas under forest that could be in use. Finally, we noticed that the younger generations are getting involved into the emerging commercial fishing and leaving agriculture and/or the community. The studied SAIs have an importance in caiçaras families' subsistence and its practices seem to be adequate to preserve the local ecosystem. Even so, they seem to be threatened since only the older generations continue to adopt them. The understanding of SAI' dynamics and constrains in order to propose technological adjustments would help to improve its profitability and practice. Even more, it's necessary to conceive legal regulation appropriated to local forest management practices considering a land sharing approach. Thereby it will be possible to apply policies that preserve natural areas maintaining traditional communities, specially future generations, in their landscapes. The uncertainty of weather condition has really transformed to climate change and fluctuations in economic situation of an individual and entire nation at large. One of the factors responsible for climate change has been identified to be deforestation. This has seriously exposed the surface of the earth to direct sunlight and unprecedented rainfall with consequent ripple effect that threat existence of human being and agricultural crops. Drastic reduction of wood supply for making furniture and construction makes Nigeria as a nation to be importing forest timber products which transcend to reduction on nation's gross domestic product. Ogunwusi (2011) reported that the decreasing supply of wood to the wood products sector couple with the inadequate management of government plantations have made the need for private sector participation in forest plantation establishment imperative. However, through trees planting/afforestation unemployment as a cankerworm to the national development would be combated and also it will serve as means of households' livelihood diversification as noted by Matthies and Karimov (2014)  74% of the french employees think of changing life and jobs. 55% of the people who change jobs say they are more satisfied on a personal and professional level. These people want to give more meaning to their professional activities, to invest in social, local economy (1)... We can add migrants who wish to return to their country. Jobs linked to agro-forestry (2) answer to theses wishes . They bring quality of employment, social utility, diversified tasks."},{"index":17,"size":765,"text":"We have here motivated people who can put in practice agroforestry's \"know how\". They have the ability to create jobs. But they need to learn and to be trained for this: the study « SHORT FOOD CIRCUITS...» shines a light on the strong need of skills to answer the growth of demand for products stemming from the local economy. Savoir-Faire & Découverte trains more than 1000 people every year to ecological and manual know how. 55% pay personally, 45% were supported by existing devices. A survey carried out in 2016 (500 replies) shows that more than 80% of formers trainees put into practice the skills acquired (personal or professional purpose). More than 30% create their activity between 1 and 2 years after the end of the training. In developing countries, many farmers incorporate trees into their farming systems. For decades, donors have funded agroforestry research aimed at improving livelihoods and food security, while enhancing productivity and sustainability. Much good research has been done over the years, but rarely has it transformed rural communities. What then are the factors that catalyse transformational impacts from research projects? Do they vary in different regions? This presentation will draw on research conducted by the author to understand factors that influence success in collaborative agroforestry research. A new methodology for evaluating the relative success of agricultural and forestry research projects will be presented, and the lessons identified from case studies of transformational agroforestry research funded by the Australian Centre for International Agricultural Research (ACIAR) in Africa, Asia and the Pacific. More than 30 factors can either enhance or diminish agroforestry project success, most of which can be influenced during project design and implementation. However, a successful research project may not necessarily lead to widespread adoption of the agroforestry technologies and therefore the desired impacts. Some ACIAR forestry projects, for example on Acacias in Vietnam, have already catalysed transformative impacts. Other current work is demonstrating great potential to transform both adoption rates and farming livelihoods. Understanding the lessons from these projects could assist others to get better outcomes and greater impact from future investments in agroforestry projects. Natural regeneration represents more than half of all tropical forests. Within the Brazilian Amazon, the area of regenerating forest increased by 70% between 2004 and 2014, currently occupying more than 17 million hectares. These ecosystems have an important social roles, such as increasing food security and alleviating poverty among thousands of family farmers in the Amazon, while also being important repositories of biodiversity and carbon. Brazil has made bold commitments to the restoration of 12 million ha of forest by 2030 through the Bonn Challenge, Initiative 20 × 20, and its Forest Code law. The management of natural regeneration can be a viable alternative for accomplishing these commitments with less socioeconomic costs and higher environmental benefits. Here, we present a collation of different studies from the authors addressing natural regeneration on family farmers' land in the Eastern Amazon, aiming to address three overarching questions: i) How diverse are tree communities on these lands following natural regeneration? ii) What proportion of trees in regenerating forests have potential use recorded in the literature? iii) What are the real uses and motivations for farmers to maintain and manage these areas. We performed field surveys in 10m x 250m transects placed in regenerating forest fragments, followed by a literature review on potential uses for the dominant trees (> 80% of basal area). We separated the different uses in categories encompassing timber and non-timber forest products-NTPF (e.g. medicine, ornamental, food, handcraft, firewood). We applied semi-structured interviews and use the likert-scale to understand the uses and motivations for managing natural regeneration. The high tree diversity in the studied regenerating forests (up to 120 species ha-1) is reflected by a high variety of potential uses reported in the literature. Using an old regenerating forest plot (~50 years) as a case study in Northeast Pará, we found the vast majority of species reported in the literature as having potential for timber (76%), followed by firewood/charcoal (34%), medicine (29%) and food (20%). Natural regeneration has been used by family farmers in the Northeast of Pará for multiple uses, but mainly for extracting timber (50%) and hunting (18%). In fact, NT-PF-extraction and beekeeping management are important motivations for family farmers to conserve naturally regenerating areas. Despite the high potential for Farmer-Managed Natural Regeneration, the reality is that these areas continue to be prioritized for slash-and-burn agriculture. Therefore, public policies are needed to encourage family farmers to protect areas under natural regeneration to capitalize on the potential this form of restoration offers in the Amazon."},{"index":18,"size":232,"text":"Keywords: ecologial restoration, secondary forests, tree diversity, ecosystem services, Brazilian Amazon. Demonstration on three sites have shown that trees have stabilized the soil and water conservation structures and farmers were able to cut and carry grasses to feed their livestock. It is very important to create awareness to the community on the benefits of agroforestry and promote the different agroforestry practices in order to preserve the indigenous woody species. Furthermore, tree legumes are very important source of protein which provide animal feeds during the dry periods. However, it is important that extensive research programs be carried out on agroforestry and transfer the technology generated from research. In addition a lot of effort is needed so that farmers could be convinced in the adoption of agro forestry practices in a very aggressive manner. The need to move away from blanket recommendations and to tailor agroforestry innovations to local circumstances is well established. Yet there is a lack of tools for screening options based on current knowledge so that farmers can be offered suites of 'best fit' technologies to choose from. Here, we describe the development of livelihood trajectory models to assess (ex-ante) the extent to which planting on-farm trees for fuelwood can influence the livelihoods of those living in the drylands Northern Ethiopia and the degree to which they can directly and indirectly contribute to reducing poverty and increased fuel and food security."},{"index":19,"size":110,"text":"Due to scarcity of firewood, households in rural Ethiopia resort to using cattle dung as a supplementary fuel source, displacing its use as manure on farmers' fields. Planting on-farm trees for firewood could help meet household energy demand, reduce pressure on local forest resources and substitute the use of dung as fuel thus allowing for its return to croplands and increased production. Using the simulation modelling environment Simile (www.simulistics.com), participatory methods, expert knowledge and data collected from large-n trials, the impact of different levels of on-farm tree planting were evaluated in relation to enabling households with different resource profiles to reach fuelwood self-sufficiency and cross food security and income thresholds."},{"index":20,"size":146,"text":"The first version of the model, which simulated the establishment of Acacia decurrens woodlots, showed that the number of trees required to meet household fuelwood demand is substantially higher than current levels of on-farm tree planting and would require potentially unrealistic changes in land use for the majority of households, especially those with small farms. These findings motivated us to develop a more detailed model that enabled us to explore alternative configurations of on-farm trees, management regimes and species. Results from this second iteration of the modelling process suggest that while agroforestry practices such as trees scattered in cropland and manged through pollarding are unlikely to cover 100% of household fuel demand or lift the majority of households out of poverty, they can attenuate trade-offs between on-farm fuel and food production and may have indirect implications on food security through the substitution of dung as fuel."},{"index":21,"size":81,"text":"Our results highlight the need to scale up current tree planting efforts while finding ways to integrate trees with current farming systems, and that initiatives promoting trees for fuel need to be realistic about the extent to which on-farm trees can contribute to meeting household fuel demand. The modelling process also revealed major knowledge gaps and data deficiencies in relation to understanding key livelihood-options interactions, such as feedbacks in the wider rural economy, helping to focus ongoing research and model development."},{"index":22,"size":90,"text":"Keywords: Systems modelling, On-farm trees, Trade-offs, Fuel wood, Ethiopia. Since agroforestry is an option to design resilient farming systems facing global changes in West Africa (demography, markets, climate), the questions addressed by the project RAMSES II are : How agroforestry can be sustainably intensified and how this intensification can be upscaled ? Compared to crop alone, the C sequestration is supposed to be increased, climate variations buffered, and farms food and income diversified and increased. This way of intensification may be sustainable if its adoption by small farmers is maximized."},{"index":23,"size":136,"text":"The approach is based on a multi-scale diagnosis of the parkland drivers and the characterization of the environmental, agronomic, social and economic services provided by four common agroforestry parklands based on cereal crops in West Africa (Piliostigma ssp. and V. paradoxa, in Burkina Faso, G. senegalensis and F. albida in Senegal). They are inputs to multi-stakeholders innovation platforms at territory scale. To maximaze adoption, intensification scenarios have to be contextual and proposed by farmers themselves, scientists providing them with the simulated impacts on farm income and cereal yields. In addition, governance realistic arrangements able to support intensification are planned to be co-built by authoriries and all parkland users (famers, women, youth, migrants, etc.). The upscaling is expected to be achieved by «snowball effect», and monitored during-and after-the project by the NGOs and national scientific institutions involved."}]},{"head":"Chart of the RAMSESII project organisation","index":63,"paragraphs":[{"index":1,"size":38,"text":"Keywords: Extended-peer-community, Participative-approach, Bio-economic-modelling, Systemic-approach, Upscaled-intensification. From 2009 to 2014, the \"Agroforestry and Landscape Laboratory\" gathered various stakeholders in Rocher-Percé regional county (Quebec, Canada) committed to maintain regional landscape's attractivity and agricultural dynamism through a landscape-scale agroforestry project."},{"index":2,"size":120,"text":"We used this project as a case-study and performed document analysis and interviews to identify key processes and features that facilitated agroforestry adoption. The long-term and flexible project scheme enabled the implementation of innovative concertation, funding, decision-making and follow-up mechanisms that facilitated agroforestry adoption. The full commitment of the agroforestry team throughout all the project helped the building of key trusting relationships between stakeholders. By formalizing unofficial agreements between land owners and farmers for land uses on a long-term basis, the project enabled agroforestry system implementation and secured the agricultural use of the land for the farmers. While most agroforestry public support follow agricultural funding schemes, the project team implemented an innovative funding structure directly inspired by regional afforestation programs."},{"index":3,"size":40,"text":"Finally, the decision-making process combined both regional and farmers interests to maximize private and societal benefits. The case-study illustrates the importance of a grounded, human-based, long-term, flexible and concerted approach for the implementation of agroforestry systems at the landscape scale."},{"index":4,"size":186,"text":"Localization of the 33 agroforestry field trials and demonstration sites implemented during the «Landscape and Agroforestry Rural Laboratory». Agroforestry is often not immediately associated with cold climates but it has a long tradition in Finland. The main aim of the AFINET project and its Finnish farmer network is to promote the uptake of agroforestry by facilitating knowledge exchange between farmers, advisors and researchers. In 4 workshops, participants identified the challenges and barriers for the uptake of agroforestry, as well as potential innovations to tackle the challenges. In total, the stakeholders identified 89 innovations across Europe. After evaluation by the Finnish stakeholders, 12 of these innovative ideas would be applicable to Finland. Some examples are: 1) alley cropping and trees planted on contour lines on steep slopes initially to reduce wind speed and erosion but it also helped to reduce the impact of recent summer droughts, 2) active mushroom cultivation as a forest management tool generating additional income for the forest owner, and 3) sheep grazing in young forest stands reducing the need for pre-commercial thinning and additional feeding, while at the same time enhancing animal well-being."},{"index":5,"size":360,"text":"The AFINET project will produce science-based information for farmers (factsheets, videos, seminars, tutorials) helping the uptake of the innovations into practice. The AFINET project helped making the agroforestry concept better known in Finland and the practice is gradually gaining popularity. However, much work remains to make this practice better known among farmers and the general public. Agroforestry is raising the interest of more and more farmers together as of some academics and technicians willing to support the development of more sustainable food production systems and the maintenance of ecosystem services. Nonetheless, in the context of France, not enough links have been made so far between research projects and the concerns of agroforestry practitioners: many scientific results remain unknown to farmers or technicians while scientists may miss the red-hot questions to be targeted in priority. In this context, an overall analysis was carried out. First, the results from several surveys carried out among the French practitioners of agroforestry and targeting their needs were synthetized. Second, both the already existing and relevant scientific or grey literature was reviewed. By confronting the two, the remaining and further needs in research and development were identified. These needs were formulated as gaps of scientific or practical knowledge per types of agroforestry practices met in France (sylvopasture, sylvoarable agroforestry, riparian buffer-strips, forest-farming, etc.). The first main results from this analysis will be presented at the conference and shall in the future help stakeholders to collectively design efficient research and development projects and to disseminate existing knowledge. In the Brazilian Amazon, oil palm has expanded rapidly since 2010, largely driven by policy incentives that led major companies to invest heavily in the sector and establish agreements with smallholder farmers. Many family farmers in Tomé Açu, Pará question the risks associated with planting a single crop that takes up most of their land and labor. Biodiverse agroforestry systems can reconcile oil palm production with more resilient livelihoods while also providing environmental functions, however, upscaling will require tailoring the systems to local contexts and improving the enabling environment. This study aims to identify the key factors underlying the adoption and scaling of biodiverse oil palm agroforests in this region."},{"index":6,"size":647,"text":"The methodology was comprised of: a comprehensive literature review; analysis of biophysical and socio-economic characteristics; semi-structured interviews within Tomé Açu; and an analysis of access to assets and farmer objectives through farm-level socio-environmental appraisals, conducted on 15 farms in Tomé Açu through PLANTSAFS (Planning and Evaluation for Decision-Making on Agroforestry Systems). Preliminary findings show a high demand for diversification because of the reduced risks of more diverse systems in coping with market fluctuations, disease, and climate factors, particularly prolonged droughts. The key constraints for upscaling such systems among family farmers are: low access to labor, knowledge and capital required to establish and management complex systems, access to markets and processing equipment for agroforestry products. These factors vary largely according to farmer type. «Marginalized farmers\", who are more resource-constrained and have less access to policies, require more capacity-building, extension services and credit for initial establishment costs, whereas «organized\" family farmers and medium-sized farmers (such as CAMTA) have higher access to knowledge and key policies such as credit, as well as labor and machinery, with systems becoming increasingly simpler and dependent on external chemical inputs. Given these constraints, upscaling will require, at initial establishment, mingling relatively smaller high biodiversity plots with simpler systems on larger plots that can be enriched gradually. Expansion of biodiverse systems with agroecological management practices will also depend on costs of inputs and market factors. Across all farmer types surveyed, key motivations for adopting diversified systems include: greater resilience to market risks and fluctuations, adaptation to climate change, and optimization of scarce labor and land. The culture of livestock free grazing has been practiced for long time in Ethiopia. However, the livestock free grazing has been posing a major threat on agroforestry because the livestock has been freely grazing trees and crop residues on farm which led to deforestation, soil degradation, and nutrient depletion and environmental degradation, at large. Hence, the free grazing contributed to low adoption and scaling up of agroforestry in the country. This, in turn, led to declining overall agricultural production systems. To address these challenges, the Ethiopian government developed and implemented several rural development strategies and programmes which aimed to restrict free grazing practices and to improve tree-croplivestock production systems. However, the initiatives failed to address the problem of free grazing. To understand the context specific challenges and sustainably address the existing free grazing problem while facilitate accelerated adoption and scaled up of agroforestry, a study was done in Ethiopia through conducting field assessments, interviews and discussions with farmers, religious and informal institution leaders, policy makers and experts; reviewed different documents and complied the opportunities and gaps of the existing policies, institutions and technologies on grazing systems and management; and experimental trials were also done to test and identify best grazing technologies and management options. The result showed that there are major constraints on the existing policies and institutions including lack of grazing land use policies, less clarity on tree tenure security, weak institutional set up, weak coordination among key stakeholders and top-down extension approaches without considering varying resources and contexts at different levels. The study also identified technological challenges including shortages of livestock feed and better breeds, limited availability of feasible and best-fit technologies coupled with a culture of keeping high number of livestock per household and production systems. This is aggravated by lack of knowledge and improved skills coupled with low motivation of local experts contributing to low adoption and scaling up of agroforestry. The study concludes that free livestock grazing problem can be sustainable addressed through understanding and building to existing farmers circumstances, and varying contexts. This helps to design best fit sustainable grazing options and improving informed decision-making for enhancing adoptions and scaling ups of agroforestry practices in the country. This study underlines that sustainable grazing options are very important for improving agricultural production and livelihoods of smallholder farmers, and creating resilient ecosystems and societies in Ethiopia. "}]},{"head":"Keywords","index":64,"paragraphs":[]},{"head":"Agroforestry and sustainable cocoa production: experience of CEMOI through its sustainability program Transparence Cacao","index":65,"paragraphs":[{"index":1,"size":115,"text":"Assiri A. 1 (a.assiri@cemoi.com), Munoz J. -the improvement of aromatic quality of cocoa; -the traceability of supplies; -the professionalization of producers and their organizations; -the agroforestry -environment. Under this last axis, an inclusive and structured approach has been adopted by CEMOI. Five agroforestry systems were first defined with a list of 24 forest species by capitalizing on previous achievements, but also taking into account the needs and perceptions of producers. To ensure the availability of seedlings of these species and to facilitate their accessibility to producers, two to four nurseries men have been trained and installed per cooperative. Resource centers have also been set up to supply nurseries men with plant material for their nurseries."},{"index":2,"size":47,"text":"In the field, to demonstrate the proposed models and train farmers to adopt them as good agricultural practices for improving the productivity and sustainability of cocoa farms, a dozen pilot plots are set up per cooperative. Training is provided by two to four agents trained per cooperative."},{"index":3,"size":49,"text":"At the community level, a social and environmental responsibility committee has been set up in each cooperative. In addition, an agroforestry innovation platform has been set up to engage all key stakeholders (agents of cooperatives, representatives of communities, traditionnal and administrative authorities, ..) in raising awareness among producer communities."},{"index":4,"size":72,"text":"To evaluate the overall performance of the strategy, a land use map of the program area was delopped at the beginning of the program. Then, a periodic monitoring of the forest cover is carried out. A mapping of cocoa orchards is also carried out in order to locate them in relation to the classified forests and other protected areas. These data are also used to know the origin of the cocoa purchased."},{"index":5,"size":18,"text":"By 2022, a capitalization of achievements of the program and a scaling up of the approach are planned."},{"index":6,"size":233,"text":"Keywords: Cocoa, Agroforestry, Sustainability, Technical itineraries. In Burkina Faso, the exploitation of shea fruits is an opportunity to reduce rural poverty and offers a path for development in the country. But the shea stands are degradedthe potential is exploited without any concern for the safeguarding and renewal of the resource. Since 2013, INERA is implementing projects aimed at sustainably increasing women's access to shea nuts by providing them with technical means to conserve and restore shea parks. From 2015 to 2018, 1,460 women from 21 villages in southwestern Burkina Faso have been trained in 8 techniques of regeneration and shea management. They then trained 1,184 women from their villages. A survey conducted in 7 «control» villages focused on the expected contribution of regeneration techniques to stand density and the prospects for adoption and application of techniques by populations. Sowing and planting are positive in the fields, slightly less in shrub savannas, and negative in tree savannas. Protection against fire and livestock applied to the introduced or spontaneous regeneration is the most efficient technique. Regeneration appears to be the first option for women's sustainable access to the resource. However, difficulties with the application of certain techniques and the risks of conflict were noted. The future application of the techniques for a renewal of stands will depend on the common will and the interest that the populations bring to the restoration of the shea parks."},{"index":7,"size":274,"text":"Keywords: shea park, Burkina Faso, women, tree regeneration, forest techniques. The perspectives of local stakeholders (SHs) are critical in any research and policy making process (Sereke 2016). In order to know the opinions of Italian SHs on how agroforestry systems (AFS) affect production (P), environmental (E), management (M) and socioeconomic (SE) aspects (categories), an online survey was performed in Apr-Jun 2016. A questionnaire targeted to farmers, policy makers, technicians, researchers, tourism operators was sent to ca 20,000 email addresses. A total number of 652 responses provided respondents' biographical data and their opinions on AFS. The latter were collected through a Likert-type test scheme greement. The average weighted score (AWS) for each item and the mean of the items' AWSs per category were calculated (Fig. 1) SHs showed more positive opinions on E, SE and P aspects of AFS; lower scores were related to M. A similar trend was observed in a study on the positive and negative perceptions of local SHs on specific AFS in Italy (Camilli et al., 2018). The results seem coherent with findings on European SHs perceptions of AFS (Garcia De Jalon et al, 2018) even if, in this case, also SE issues were perceived more negatively. In this respect, further analysis is necessary also considering the influence on such items of the single target groups of the sample.  While the essential role played by rural advisory systems in reducing poverty and hunger is increasingly recognised, agricultural extension in many African countries continues to offer single size interventions that do not take into account the increasingly complex nature of farming systems in the face of global challenges, in particular climate change."},{"index":8,"size":227,"text":"The World Agroforestry Centre (ICRAF) in West and Central Africa, has been experimenting with a novel community-based extension approach, providing a multitude of services and products tailored to farmers' livelihood needs and capacities. Rural Resource Centres (RRC) are training, experimentation and demonstration hubs that are managed by grassroots organisations. Emphasis is put on access to knowledge, interactive learning, and networking among farmers, and between farmers and other actors. RRCs are now used in Cameroon, Burkina Faso, Mali and Chad to disseminate a range of agricultural technologies and practices aimed at building climate change resilience in rural communities. This paper demonstrates that, through their active participation and direct engagement in the design, evaluation and demonstration of technologies, and partnerships with NGOs, as well as with national and international research institutes and universities, RRCs have the potential to extend complex and innovative technologies, such as climate-smart agriculture. Background: Increasing tree cover on farms in Ethiopia supports livelihoods and the environment. Most tree-planting schemes rely on a few species. Aims: We aimed to understand farmers' priorities for tree planting in semi-arid and sub-humid conditions in selected sites in Oromia, Ethiopia and constraints to meeting those demands. Materials and methods: Farmers' priorities for tree species and planting niches were assessed through focus group discussions. Participatory trials comparing species and on-farm niches were implemented, and seedling survival and growth patterns were evaluated."},{"index":9,"size":29,"text":"Results: Farmers identified a high diversity of tree species for each niche. Most of these are logical but some need exploring further. Fruit species were mainly selected for homesteads."},{"index":10,"size":100,"text":"The diversity of desired tree species is much higher than that typically available in nurseries or promoted by projects. Meeting planting demands proved hard as seedling supply does not support diversity. Evaluation of tree survival showed striking differences among species, farms, agroecologies and niches. There was high variation between farmer in survival meaning that local-level risk factors are still not understood. Conclusion: Understanding farmers' tree species priorities for different niches and designing and implementing participatory trials reveal the diversity needed and should be part of tree supply and planting action. Better understanding of survival risk factors would allow improved management."},{"index":11,"size":25,"text":"Species priorities, trees planted and surviving on-farm niches in two agroecologies of Ethiopia. Line width is proportional to priority, numbers planted and survival rate respectively. "}]},{"head":"Successful experiences to foster and establish agroforestry systems with small farmers in Honduras","index":66,"paragraphs":[{"index":1,"size":13,"text":"Dubon A. (a.dubon10@gmail.com), Sanchez J., Martinez R., Granados R. 1 , Diaz J."},{"index":2,"size":8,"text":"Cocoa and Agroforestry, FHIA, La Lima, Cortes, Honduras"},{"index":3,"size":441,"text":"Honduras, one of six small countries that join North and South America, with a fast-growing population has 84% non-arable steep hillsides unsuitable for cropping. Tree cover steadily declines as forests and jungle are logged and burnt mainly by shifting agriculture. It has a record climate risk index (1995)(1996)(1997)(1998)(1999)(2000)(2001)(2002)(2003)(2004)(2005)(2006)(2007)(2008)(2009)(2010)(2011)(2012)(2013)(2014) together with Myanmar, due to extreme climatic events as hurricanes, flooding and heat waves. Here, it is difficult for unorganized settlers with little education and unsecure land tenure to seek out a subsistence living without further damaging the ecosystem, fueling poverty and migration. In this setting, in 1984 FHIA was created to advance agriculture production via applied research and promoting diversification with high value alternative crops to increase income and quality of life of income-poor rural families and restore and protect the natural resource base. It was natural to pick up on the historical legacy and cultural tradition of cacao-based agroforestry as one of its main programs and create a unique 50-ha demonstration and experimental center; followed in 1996 with a 200-ha a humid tropics agroforestry center in piedmont areas with Canadian government's support. These centers have done research for 30 years in agroforestry and forestry systems, diverse crops and tree species, studied soil conservation practices, nutrient cycling and have an exotic tropical fruit and bamboo collection. This knowledge and technology are the foundation to foster and establish agroforestry systems for the sustainable economic development of small farmers. To promote these agroforestry systems, they should have a fruit or timber component, provide income starting from year one and should be larger than that of traditional activities. Promotion include participatory evaluation of feasibility and commitment, production and partial donation of selected plants, practical training and continuous technical assistance by extensionist. A pioneering integral and sustainable watershed project in 2000 benefited 165 families in the Tocoa and San Pedro river basin with 79 ha of new agroforestry systems, 33 km of hedge or timber trees in rows, 6 community micro hydro-turbines and 550 ecofriendly fire stoves, amongst other activities. Since then close to 20 projects sponsored by international cooperation agencies, private sector and government have ensued with more than 5,000 ha of new agroforestry plantations, 500 certified plantations, some 700 km of hedge or trees in line, around 40 micro-turbines. Reproduction of these models based on cacao and rambutan has occurred spontaneously and the community appropriation of management of the electrical systems and care of tree cover in the suppling water basin is the norm. It has been possible to advance agroforestry production systems with small farmers in Honduras having a strong institutional backing with a clear methodology which requires a medium to long-term commitment."},{"index":4,"size":83,"text":"L8 Scaling up Due to changing climate, land degradation, increasing population pressure, and the development of unsustainable land use systems over the last few decades, the natural resources have suffered irreparable damages. Zagros region, located in the arid and semi-arid agro-ecological zone in Iran is one such area, where agricultural production has seldom matched the household needs. The local communities had practiced agroforestry systems since thousands of years, for meeting their basic needs, while restoring the degraded lands, based on their traditional knowledge."},{"index":5,"size":198,"text":"Although extensive research has been carried out on agroforestry throughout the world, little work has been done on improving the systems in Iran so far. Consequently, this research assessed the socio-economic and environmental values of traditional agroforestry systems in the Province of Kohgiluye-and-Boyerahmad located in Zagros region to compare them with the modern agroforestry systems in the world and recommend adaptable systems of agroforestry for Iran. for this comparison, the state of Uttarkhand in India, located at the same latitude of the study area in Iran, with similar geographical and ecological characteristics and also comparative socio-economic condition has been selected. This study inspected the land-use systems of the pilot areas through Participatory Action Research (PAR), exploring the traditional agroforestry systems practiced by the local farmers and then critical systems and their characteristics were recorded. An inventory was also made on the conservation and socioeconomic significance of the explored systems. For this purpose, a detailed schedule/ questionnaire was prepared and used for interviewing the local community, experts and managers. On the other hand, the modern and traditional agroforestry systems of Uttarkhand in India were reviewed and inspected. Accordingly, strategies for developing sustainable land use systems were recommended for Iran."},{"index":6,"size":1400,"text":"The results show that Agro-ecological characteristics can be used as a basis for planning agroforestry systems. Moreover, agroforestry systems in various geographical regions with similar ecological zones, are structurally comparable. It was suggested to improve the productivity through new systems such as \"Trees on pastures\", \"Multipurpose woody hedgerows\", \"Home gardens\" and \"Multipurpose trees on crop lands\". Finally, constructive solutions for adoption of agroforestry systems and improvement of traditional practices have been proposed for various land-use systems in Iran, including agricultural, range and forest lands which have easy acceptance by local communities. The study also reveals that for improvement of agroforestry systems as a feature of Sustainable Development, there are two basic points: one is application of the power of nature to solve its issues, and the other is use of a complex and sustainable landuse system for nature conservation, which is agroforestry. Farmer Managed Natural Regeneration (FMNR) is a rapid, low cost and easily replicated approach to restoring and improving agricultural, forested and pasture lands. The study was conducted in low (500-1500 m.a.s.l) and mid (1500-2300 m.a.s.l) agro-ecologies of Tigray region on Farmer's perception on FMNR. Purposive sampling was used to select three peasant associations (PA's) from each agro-ecology. Simple random sampling was used to select respondent household heads practicing FMNR. There were 15 respondents from one PA. The total respondents used for the study in both agro-ecologies were 90. All the data required for the study was collected through in-depth household survey and group discussion. Multiple response, Chi-square and means were used to analyse the data. Half of the respondents 38(42.2%) had 21-30 years of FMNR experience. The 15(17%) of the respondents with FMNR experience were from low land and 23(26%) were from mid land agro-ecology. FMNR has been practiced for more than two decades in the study areas. Respondents motivated to practice FMNR due to training from experts in the lowlands 33(37.1%) while in the midland 26(29.2%) their motivation was neighbours success. In the lowland 44(49%) respondents main reason to practice FMNR was fuel wood and fruit collections while in the midland the main reasons were for fuel wood collection 45(50%), soil conservation 42(47%) and 42(47%) fodder. The result shows that FMNR has the potential in improving income of households and supports the households especially in providing fuel wood, food/fruits, construction materials and farm equipment's. Smallholder plantation forestry is on the decline in Ghana because most smallholder efforts have resulted in mixed outcomes in terms of plantation success and economic returns. Meanwhile, plantation forestry presents an opportunity to address livelihood needs and lessening the impacts of climate change on rural households. To reap these benefits, Ghana has plans to establish 25,000 ha of forest plantation per annum. At present, smallholders do not seem ready to engage in this plan. Based on case studies in three forest districts, this study explores: (i) mechanisms by which smallholders integrate forest plantations in their production systems, (ii) their motivations for doing so, (iii) incentives available to them and (iv) barriers to their operations and options for addressing these barriers for effective smallholders' participation in national plantation development efforts. The findings reveal mismatches between smallholders' motivation for engaging in plantation forestry and their current agroforestry practices. A situation exacerbated by limited availability of support systems to smallholders engaged in plantation forestry. The study recommends the urgent need for investments in relevant support systems, including forestry extension to prop up smallholders' efforts. The increasing global demand to produce more food to support a rapidly growing human population has resulted in adverse ecological effects including land degradation, which threatens the livelihoods of smallholder farmers. In Ethiopian drylands, the effects of land degradation are more severe due to prolonged drought. Although smallholder farming systems are heterogeneous and dynamic, conventional land restoration technologies have focused on promoting few blanket restoration technologies informed by coarse-resolution assessments, rather than customizing technologies to local context. This has resulted in technologies not being locally adapted and effective, thus leading to low adoption of restoration options which leads to continued land degradation. We explored the role local knowledge can play in adapting land restoration options to local context and farmer circumstances. Local knowledge was elicited and analyzed through systematic knowledge-based systems approach (AKT5), on 95 smallholder farmers. Three catchments at different status of restoration were selected through paired catchment design in Samre, Northern Ethiopia. Results showed that farmers had an in-depth understanding of land degradation drivers, processes and effects across four scales namely regional, national, landscape and farm level. Farmers viewed land restoration as rehabilitation of already degraded land, and not prevention of degradation of non-degraded land. This reveals knowledge gaps, which should be addressed to ensure restoration interventions are locally understood and accepted. Farmers reported that some restoration approaches involved conversion of one land-use category to another, which calls for adaptive management approaches. Farmers' knowledge about land degradation and restoration varied with catchment, land-use categories and stakeholder categories. Farmers identified 12 contextual factors that influence the suitability of land restoration options to local context. Biophysical factors were soil erosion type, soil type, soil depth, slope of the field, field location along a slope and field size. Socio-economic factors were: livestock management system, land tenure system, labour, gender, technology and skills. This study also demonstrated that through their own experimentation and observations, farmers utilized their local knowledge to adapt and modify land restoration interventions to suit their needs and context. Hence the acquisition and analysis of local knowledge provides an effective mechanism to track iterative development of adaptation measures and to evaluate both positive and negative consequences resulting from these actions. Combining local and scientific knowledge can help to design, implement and monitor the performance of land restoration technologies to ensure successful scaling of locally adaptive, appropriate and effective restoration options which promote the delivery of multiple ecosystem services for diverse stakeholders at scale.  zil, Brasilia, Distrito Federal, Brazil; 3 Mutirão Agroflorestal/ICRAF Brazil, Brasila, Distrito Federal, Brazil   Designing agroforestry options tailored to the local context requires first assessing the key constraints and potentials in that situation, including biophysical characteristics, livelihoods strategies and access to resources, policies, and markets. Through a dialogue between farmers, technicians and local development agents (Miccolis et al., 2017), this study used a tool developed by ICRAF Brazil: PLANTSAFS -Planning and Evaluation for Decision-Making in Agroforestry Systems (AFS). Based on 40 indicators, the tool gauges farmers' access to different types of resources considered important for the long-term adoption and success of agroforests. Divided up into 6 main categories: human, social/political, physical, financial, environmental, and production systems, these indicators are scored on a scale of 1 to 5 and are explained by qualitative data from interviews. The tool was applied by ICRAF and partners in five different contexts in Brazil with the aims of: a) establishing a baseline for monitoring b) proposing improvements and agroecological management practices, c) providing guidance for designing new systems, and d) providing inputs to wider development interventions and proposing systems most suited to that regional context. Based on an aggregate analysis of these five case studies, we draw out lessons for increasing the adoption and success of AFS. The high degree of variability in key indicators between farms in the same context, i.e. where farmers have access to similar training, germplasm, and biophysical conditions, suggests that the human factor is determining to overall performance, and that systems design should be tailored to each family/farm. The main constraints to upscaling common to all five contexts were: low access to knowledge (extension) and labor for establishing and managing the agroforests, particularly more complex, biodiverse systems; low use of biomass-producing species to maintain nutrient cycling and soil conservation , leading to lack of mulch at key moments and decline of systems, lower availability of water at the farm level due to climate factors, and insufficient access to germplasm. Scant rural credit for agroforestry and farm equipment also occurred widely but varied significantly among farmer types. Overall, the more biodiverse systems tended to score higher in key indicators, especially food security, marketing, environmental indicators, and in avoiding drivers of degradation. Upscaling agroforestry in these contexts will thus require investing in capacity-building, strengthening value chains for key products, and supporting germplasm supply. In addition to farmer objectives, key considerations in species selection across contexts should be labor requirements, marketing opportunities and biomass production, ensuring that stories are occupied in different cycles, as well as resilience to climate change, particularly droughts. "}]},{"head":"Keywords","index":67,"paragraphs":[]},{"head":"Keywords","index":68,"paragraphs":[]},{"head":"The European Agroforestry innovation Network Fostering agroforestry in Europe","index":69,"paragraphs":[{"index":1,"size":4,"text":"Mosquera-Losada M. R. (mrosa.mosquera.losada@usc.es)"},{"index":2,"size":11,"text":"Crop production and Project Engineering, Univ. Santiago Compostela, Lugo, Lugo, Spain"},{"index":3,"size":193,"text":"AFINET is a European Union funded project which overall objective of AFINET is the promotion and innovation of European Agroforestry (AF) through the development of a multi-actor interactive and innovation-driven network, based on successful sharing of practical experiences and existing research knowledge, applied to different contexts, climates and agricultural sectors. AFINET will modify AF systems design and management in order to increase the agricultural systems production and profitability to promote a sustainable land management throughout Europe. AFINET networking is based on nine Regional Innovation Networks in the nine countries where it is based where over 300 stakeholders meet every six months. AFINET first meeting aimed at asking farmers which are the main challenges to foster agroforestry in Europe. Among all, challenges could be summarized in four main topics: technical, economic, education and policy. Solutions to these challenges were discussed with all stakeholders and a provisional list of innovations was produced that has been validated in the third RAIN meeting. Innovation topics can be seen in Table 1 and the technical challenge can be grouped in several clusters: Livestock management, Lower story management, woody perennials management and horizontal innovation clusters for the technical challenge."}]},{"head":"List of AFINET innovation topics","index":70,"paragraphs":[{"index":1,"size":68,"text":"Keywords: innovation, afinet, technical, education, policy. There are commonly two main reasons why agroforestry is a popular topic discussed in the context of rural development. Firstly, agroforestry is often seen to offer a balance between conservation and production in farming systems to provide socio-economic and ecological benefits, rather than either conservation or production systems in isolation. Secondly, agroforestry encourages smallholders to diversify enterprises and create resilient farming systems."},{"index":2,"size":232,"text":"Yet there is a gap between \"the ideal\" adoption of agroforestry and \"the fact\" that it is seen by many as difficult to optimise and not widely adopted. Government policies relating to building food security in developing countries,such as in Indonesia (where farmers are encouraged to grow rice and corn), still tend to lead to encroachment into forest areas and specialised farming systems geared towards maximising yields of commodity crops. This focus on agricultural production alone has led to severe land degradation including the erosion of farm soils and the siltation of rivers, the drying up of springs, and loss of lives, housing and other infrastructure due to severe flooding. Two research and development projects have been exploring an innovative approach to enhance extension efforts so that agroforestry is more widely understood and adopted by smallholders in Indonesia. This presentation (and associated papers) will discuss the design of the alternative extension approach used by the two projects, discuss the evaluation data collected about the learning impact of the extension approach and the implications for the adoption of agroforestry in Indonesia. The presentation will conclude with the key elements that have been identified about the innovative approach to agroforestry extension among smallholders, which include: close involvement of the local community; capacity building of smallholders' local institutions; framing the advantages within the local market context; and forging strong partnerships between smallholders, industry and government."},{"index":3,"size":149,"text":"Keywords: Rural development, extension, agroforestry, adoption, sustainable farming. Adoption and scaling up of simple and smart agroforestry practices in degraded areas such as Ethiopia plays key roles in enhancing productivity and resilience of agricultural systems and ecosystems while improving livelihoods of local communities. However, ecosystems and agricultural areas in Ethiopia are threatened by major challenges including land degradation, climate change, free livestock grazing and population pressure. This leads to declining ecosystem health, yield variability, crop failure and food insecurity. This also contributes to low buffering capacities of the local community with increased proneness to climate shocks. A study was, thus, conducted in Ethiopia to identify the key underlying drivers contributing to the problems, and explore best-fit, simple and smart agroforestry technology and scaling approaches. Survey methods substantiated by satellite image analysis were used to understand the Land Use and Land Cover (LULC) dynamics over time and their associated impacts."},{"index":4,"size":466,"text":"A multi-scale analysis approach was also used to analyse the data. The result indicated that Rural Resource Centre (RRC) approaches which built on and strengthened local practices were best fit, simple and smart options for enhancing accelerated scaling up of agroforestry practices in Ethiopia. The approaches also contributed to improved restoration of degraded landscapes (by 78%); gully reclamation (by 82%); four fold increase of vegetation cover (e.g., species density increased from 970 to 3310 individual plants ha-1); more honey bee production (from 5 to 75 kg hive-1 year-1); improved year round water availability (e.g., reduced women's travel distance to fetch water from 5 to 1.5 km); increased feed availability (from 3 to 7 months year-1); more rural employments and better income (above the poverty line household-1year-1). Adoption and scaling up of agroforestry contributed to improved overall results of this study provide evidences and insights on best-fit, simple and smart scaling up approaches for supporting design of informed policy-and decision-makings important for enhancing accelerated scaling up of agroforestry practices at national and regional levels. In Ghana, the cocoa sector employs over 800,000 smallholder farm families and contributes around US$2 billion in foreign exchange. It is an essential component of rural livelihoods and it's considered a 'way of life' in rural communities. The countries food security status is under threat due to the declining of per capita farm income and land and soil degradation. Between 2005 and 2010, the rate of deforestation was estimated at 2.19% per annum. On average, cocoa land area increases by 30,000 hectares annually with no evidence of decline. Also no shade cocoa systems have become the new cocoa production system with rich natural forest is rapidly giving way to cocoa farms. There is a knowledge-gap on understanding interactions between native tree species and cocoa yield as well as empirical evidence on this matter. The research therefore aims at determining the yield trends in cocoa under different forest-tree levels. Multi-stage sampling techniques were employed to selected 200 cocoa farmers in the Western Region of Ghana. Descriptive statistics and inferential analysis were used to analyze the data. A yield curve model was also adopted to determine the yield trend for various cocoa agroforestry systems. From the analysis, the R square values obtained under the no shade, low shade, medium shade and heavy shade were 77%, 61%, 53% and 56%, respectively. The highest average yield per hectare was attained for the no shade in year 16 (794 kg ha-1), for the low shade in year 22 (696 kg ha-1), for the medium shade in year 19 (735 kg ha-1) and for the cocoa under heavy shade in year 15 (546 kg ha-1). The no shade system showed the highest yield but there was a sharp fall in the yield compared to the low to medium systems."},{"index":5,"size":141,"text":"The conclusion of the study is that, although the no shade cocoa system has higher yields, it is input demanding, environmentally unfriendly and has a short productive life. Therefore, cocoa agroforestry system can be regarded as a win-win practice as it can support sustainable income of farmers with long years of cocoa yield, mitigate climate change and contribute to adaptation to these changes. With sustainable yield over time as a result of the cocoa agroforestry systems, the country benefits immensely and could contribution greatly to the GDP as well as improve livelihood of poor cocoa farming households. This therefore calls for the need to create an institutional system, tools and policies to rehabilitate the cocoa landscape; conserve and expand forests, forest buffer zones and corridors and incentivize cocoa farmers to adopt cocoa agroforestry system since it is an environmentally friendly practice."},{"index":6,"size":8,"text":"Keywords: Cocoa agroforestry, Deforestation, Ghana, Livelihood, Poverty Reduction."},{"index":7,"size":367,"text":"The exercise of data collection is indispensable to the Trees for Food Security II project where research is evidence-based and dependent on information collected from farmers. The project is managed by ICRAF offices at country level (Ethiopia, Uganda and Rwanda) in collaboration with respective development partners. Open Data Kit (ODK) which is a suit of methods that allow data collection using mobile devices, transmission and aggregation of data to an online server was adopted as a way of improving data quality with an aim of providing timely, credible and useful results and recommendations for the farmers. Now in the second year, we had a chance to analyze challenges and opportunities associated with the decision. The challenges observed are; 1) the process of developing questionnaires to be used is time consuming at the initial stages of the project, 2) availability and project awareness amongst the enumerators from partner organization, 3) technological awareness on how to fill the questionnaires and submit data, 4) data sharing concerns in terms of ownership and quality checks, and 5) time lapse between implementation and monitoring of project activities. However various opportunities in use of electronic data collection have been scouted in the project and include; 1) collecting research data in the geographically dispersed environment requires minimal coordination to ensure completeness, accuracy, and timely transmission of the data, 2) electronic systems allow use of transparent decision and improved data entry and data integrity, 3) can be integrated with webform option which can allow desktop data entry for data collected using paper format, 4) timely data analyses become possible which can inform the project early enough on key indicators for improving the process, revising project objectives or adding new ones from the observations, and 5) data archiving is improved and data losses minimized. In conclusion, use of electronic data collection offers a good opportunity for managing project involving multiple organizations with respective staffs as it allows centralization of the science at timely and cost-effective way. However, we observed significant challenges associated with the process and the study therefore offers a great insight into how data collection and monitoring of intercountry projects involving multiple partners can be effectively managed to improve scaling up of agroforestry options."},{"index":8,"size":11,"text":"Keywords: Electronic data collection, Agroforestry, Data quality, Small-holder farms, Eastern Africa."},{"index":9,"size":16,"text":"L8 Scaling up Socio-economic impact of farmer managed natural regeneration in the shea parklands of Uganda."},{"index":10,"size":416,"text":"Odoi J. B. 1 (juventineboaz@gmail.com), Gwali S. 1 , Odong T. L. Farmer Managed Natural Regeneration has been linked with low-cost land restoration technique used to combat poverty and hunger amongst smallholder farmers by increasing food and wood resource production and resilience to climate change impacts (Raij 2016). Here we discuss how smallholder farmers in Uganda's shea parklands practice and benefit from farmer-managed natural regeneration of woody species in their fields. Shea nut tree (Vitellaria paradoxa) Karité (in French) is a commercially useful indigenous fruit tree species found within Sudano-Sahelan Africa. Shea tree provides fruits, chocolates, oils, income, cosmetic and medicinal ointments, hair cream, soaps illuminant and water proofing materials, fuels protein and minerals that subsidize household food and nutrition during the hunger season and various services (Jasaw et.al. 2015). Households earn between US$50 and US$150 annually from the sale of such products. It also plays an important contribution in nutrient recycling when the leaves and fine roots decompose. The shea tree parklands result from naturally occurring individual trees that are protected by farmers when clearing their fields, thus creating parkland systems (Boffa et al., 1996). Farmers in the Uganda's shea parklands practice FMNR (77%) of economically viable woody species on farm resulting on realized increased profit per unit area over time. Although most of these species are found scattered on the farmland (67%) due to sporadic distribution and farmer random selection methods (Gwali et al., 2011), there is increasing woody species population on farm over the last ten years (74%). This is due to the established additional supportive instruments (bi-laws) that bans cutting and burning the species for charcoal. Seventeen (17) different crop types were registered to be intercropped with shea trees among which beans (30.4%); cassava (24%); maize (10.4%); sorghum (8.5%) and finger millet (4.9%) were the major crops reported to be mostly intercropped. These food crops are preserved for use even during dry seasons for food security. Meanwhile Combretum, Acasia; Terminalia; Albizia species; Grewia molle and Vitex doniana are some of the commonly naturally regenerating tree species that grow with shea trees within the parkland. The AFINET project acts in nine European countries aiming at taking up available research results on agroforestry into agricultural practice. Portugal is one of those countries. One of the main tools developed by the project is the creation, at each participating country, of one Regional Agroforestry Innovation Network (RAIN). For this purpose a multi-actor approach was considered, which is articulated by the figure of the Innovation Broker (IB)."},{"index":11,"size":39,"text":"The development of the Portuguese RAIN started in February 2017. In order to guarantee the representation of the aimed stakeholders categories and a broad regional distribution, the registration process to the RAIN was largely announced by several communication channels."},{"index":12,"size":251,"text":"In addition, a direct invitation to key stakeholders was also made. Until February 2019 four RAIN meetings have been carried out. At this mid-point of the project, a SWOT analysis exercise was carried out in order to analyze current results and promote experiences sharing. The results show: Strengths -current interest on Agroforestry -large impact of the available communication channels, in particular social media -relationship to the EURAF member's community -high number of agroforestry systems and practices referred by stakeholders -awareness of relationships constraints between different stakeholder types -Innovation broker motivation and collaboration with other project team members Weaknesses -small impact at the national policy level -practical constrains to increase the implementation of activities covering a broader geographical distribution area -lack of expertise regarding all of the referred topics, demanding a significant increase of time to tackle them Opportunities -using the RAIN as the network for future projects related to the Agroforestry topic -increase communication of scientific knowledge from science to practice -establishment of new experimental and demonstration trials in collaboration to farmers -basis for the creation of a national Agroforestry association. Threats -lack of funding for RAIN activities sustainability after 2019 -large scope of subjects approached by the RAIN members, that implies a reduction of the fraction of topics considered in total and increases the demand of funding for future activity -concentration of efforts in already well established and recognized agroforestry systems in Portugal -lack of institutional awareness to the agroforestry concept (forest and agriculture usually approached like two separate topics)."},{"index":13,"size":72,"text":"The importance of establishing thematic networks in Portugal is evident, and stakeholder's engagement has been remarkable along these two years. The maintenance and amplification of the RAIN activities to a larger percentage of topics requested my RAIN members are the main challenges still in need of further reflection. This is only possible with the involvement and colaboration with other research institutions in order to guarantee a multidisciplinary approach to the raised questions."},{"index":14,"size":7,"text":"Keywords: AFINET, RAIN, Innovation broker, Portugal, stakeholder. "}]},{"head":"Wildlife conservation and sustainable tree crop plantations call for innovative planting designs","index":71,"paragraphs":[{"index":1,"size":3,"text":"Rival A. (alain.rival@cirad.fr)"},{"index":2,"size":5,"text":"CIRAD, Jakarta, Jakarta Selatan, Indonesia"},{"index":3,"size":48,"text":"Reforestation experiments and rehabilitation of riparian areas are key in retaining wildlife and improving local ecosystems in plantations-dominated landscapes [1; 2]. In parallel tree crop plantations are increasingly implementing agro-ecological approaches which rely on environmental services [3] thus asking fo planting designs to change and integrate forest species."},{"index":4,"size":48,"text":"In the Sabah state of Malaysia, several groups including members of the PONGO (Palm Oil NGOs) Alliance have restored and reforested riparian areas for more than 10 years using native forest species including pioneer ones that quickly grow a canopy and fruit trees that provide food to wildlife."},{"index":5,"size":48,"text":"In parallel, agricultural practices in plantations are changing as a response to growing social and environmental concerns. Plantation management increasingly relies on agro-environmental services, which means that basic agricultural functions such as soil preservation, pollination, or pest control can be performed by living organisms (plants, insects, microbes…) [3]."},{"index":6,"size":278,"text":"Changes in practices will have to involve new planting designs aimed at mixing selected forest species with plantation crops. A series of measurements will help in characterizing both the performance and the resilience of mixed agroforestry systems compared to traditional planting designs. Changes in wildlife diversity and abundance must be monitored together with the impact of agroforest designs on yields and resistance to both biotic and climatic stress The AFINET project is a thematic network dealing with agroforestry across 9 European countries. In Belgium (Flanders), and the other 8 countries, a multi-actor 'Regional Agroforestry Innovation Network' (RAIN) was created. The strengths of the Flemish RAIN lie within 1) its opportunity to expose relevant information from other projects to end-users and 2) the diversity of involved practitioners (starting and more experienced farmers), covering a range of farming models (community supported agriculture, organic, non-organic) and systems (arable and livestock). Although this diverse network leads to just as many different perspectives on agroforestry, the need for more information on fruit and nut trees in agroforestry systems was in general identified as the most important challenge during the Flemish RAIN meetings. Building further on this observation, we gradually invited thematic experts to join the RAIN and/or share their expertise by hosting RAIN members on their farm or by presenting their experiences as an invited speaker. Offering information specifically targeting the demands of the stakeholders yielded an active and motivated network. The Flemish network is establishing synergies with other national agroforestry projects and projects abroad (France, Netherlands), and gathers relevant information supported by examples from practice. This information is made readily available to all practitioners, improving the successful implementation of agroforestry in Flanders."}]},{"head":"Flemish RAIN meeting in fruit orchard","index":72,"paragraphs":[{"index":1,"size":21,"text":"Keywords: AFINET, participatory approach, knowledge exchange, stakeholders, synergies. Barriers to uptake of agroforestry in the UK Westaway S. (sally.w@organicresearchcentre.com), Smith J."},{"index":2,"size":6,"text":"Organic Research Centre, Newbury, United Kingdom"},{"index":3,"size":189,"text":"Agroforestry farming systems are receiving increasing recognition across Europe for their economic, environmental and welfare benefits as we look for ways to sustainably intensify agricultural production and increase resilience to climatic uncertainty. Agroforestry in the UK offers great potential, a few pioneer farmers have developed successful, innovative and profitable agroforestry projects on their land. There is increasing interest in the positive effects of trees on agricultural land, demonstrated by the success of the sell-out first national Agroforestry Conference in June 2017. A 2016 survey (Stocks, 2016) of more than 1,100 farmers asked how trees could benefit them and what the main challenges to future establishment of trees on farms were. Wildlife protection, shelter for livestock, wood fuel and soil protection were the top benefits of trees identified by farmers, with a lack of financial help and advice the main barriers to tree planting. However, the number of people talking about agroforestry doesn't match the number of people implementing new systems. As part of the EU-funded AgroForestry Innovation NETworks (AFINET) project we wanted to find out why and how to help farmers who are interested but not yet doing agroforestry."},{"index":4,"size":82,"text":"To understand the limiting factors and barriers to uptake we created a short online survey. Out of a total 132 responses, 46% were farmers. Barriers to establishing new agroforestry systems were further explored via three multi-practitioner stakeholder workshops. These workshops, held in different locations aimed to get practitioners with a common interest in trees on farms together, build on the survey results and establish a baseline of common bottlenecks to address. The main areas identified matched those from the survey and were:"},{"index":5,"size":24,"text":"-A lack of demonstration farms, case studies and pioneers, for experience-based learning, a need to build local networks and partnerships to facilitate this learning."},{"index":6,"size":25,"text":"-A requirement for detailed cost/benefit analysis of different systems, information on the economic implications of introducing trees to farms and grants and funding sources available."},{"index":7,"size":28,"text":"-Access to advice on specific technical and management issues, for example the nutritional properties of tree fodder, efficient and economic tree protection, machinery to harvest tree products efficiently."},{"index":8,"size":102,"text":"-Lack of clarity around what is permitted under cross compliance regulations, what support is available and how this may change. Issues around land tenure and tree planting, how to make the case for trees to landlords. The interest in agroforestry by farmers in the UK is high, but as evidenced in our practitioner survey and feedback from workshops there are knowledge gaps to be resolved and a need to provide more opportunities for peer to peer learning. Through AFINET we are bridging these gaps to help farmers overcome perceived obstacles to agroforestry for the benefit of their farming business, environment and productivity."},{"index":9,"size":6,"text":"Keywords: agroforestry, barriers, farmers, tree planting.  "}]},{"head":"Agroforestry adoption","index":73,"paragraphs":[{"index":1,"size":6,"text":"Adopting the future of land use"}]},{"head":"-L9 -Value chains and certification of agroforestry systems and products","index":74,"paragraphs":[{"index":1,"size":91,"text":"Great brands for great lands: certifying agroforestry products and systems System' (PGS), 'Internal Control Systems' (ICS): all these voluntary market tools aim to provide a credible guarantee for markets seeking sustainable or legal products. In the case of agroforestry systems, especially with smallholder farmers involved, this guarantee shall be a tool to increase smallholder access to markets. However, often it is seen as a barrier and only appropriate to tion processes to demonstrate organic or good agriculture practices for food and sustainability for forest-based products. The question is: How to make"}]},{"head":"Researchers or professionals should transfer their agroforestry knowledge and on livelihoods, incentivising innovation and support of the development of ment, active participation of stakeholders, knowledge sharing and relationship building will be the key themes of this session. Strengthening links between science, society and policy","index":75,"paragraphs":[]},{"head":"20-22 May 2019","index":76,"paragraphs":[{"index":1,"size":4,"text":"Le Corum, Montpellier, France"}]},{"head":"Book of Abstracts","index":77,"paragraphs":[]},{"head":"L09_O.01","index":78,"paragraphs":[]},{"head":"Increasing uptake of agricultural interventions: A case of value chain innovation platforms in Uganda and Zambia","index":79,"paragraphs":[{"index":1,"size":318,"text":"Okia C. 1 (C.okia@cgiar.org), Isubikalu P. 2 , Kabwe G. 3 , Masikati P. 4 , Sekatuba J. 5 , Kasonde K. 6 , Kimayo J. 7 , Oduol J. 7 , Hughes K. Smallholder farmers are responsible for most agricultural production in Sub-Saharan Africa but most of them remain poor and marginalized. Efforts have been made to engage these smallholder farmers to increase productivity of their agricultural systems and improve access to markets. Traditional approaches, such as the top-down extension systems have not yielded much. Value chain approaches are emerging to guide economic growth in agriculture. This notwithstanding, opportunities for smallholder farmers especially women to benefit from value chains remains elusive. The World Agroforestry Centre (ICRAF) in collaboration with national and international partners are implementing a project focusing on developing value chain innovation platforms to improve food security in Uganda and Zambia. The project aims to ensure that farmers improve productivity and gain access to better markets through value chain innovation platforms. Through baseline studies and livelihood analysis, the project identified three priority value chains in both countries (coffee, dairy and honey in Uganda, and local chicken, soy beans and Solwezi beans in Zambia) with potential to improve livelihoods of smallholder farmers and with special consideration to women. Three potential models for commercializing smallholder agriculture including linkage with private sector actors, co-financing of critical inputs and boosting productivity have been identified and are being tested for cost effectiveness and fine tuning through planned comparisons. Envisioning of innovation platforms (IPs) and supporting them to develop business plans as well as linkage to financial institutions to access cheaper credit are helping to bridge the farmer's financing gap. Training of IPs in social and technical skills has been undertaken to boost social cohesion and improve collective action. There is increasing appreciation of IPs by government and other stakeholders as a valuable approach for smallholder agricultural transformation and achieving food security. "}]},{"head":"L09_O.03","index":80,"paragraphs":[{"index":1,"size":59,"text":"Evolving and strengthening cooperative approach for the agroforestry farmers in Bangladesh: lesson learn from Japan Islam K. K. 1 (kamrulbau@gmail.com), Fujiwara T. 2 , Sato N. 2 , Hyakumura K. Being an agroforestry based country, the farmers of Bangladesh do not receive proper returns from their products due to some obstacles blocking the way to achieve the ultimate goals."},{"index":2,"size":134,"text":"The study tries to identify the major challenges of agroforestry products supply chain in Bangladesh and offer an alternative solution through the involvement of farmer cooperative within the experiences of Japanese cooperative model. The objectives were outfitted by two case studies, and the Bangladesh case clearly showed that the involvement of many intermediaries in agroforestry products supply chain was one of the main obstacles which stunted the outcomes of the agroforestry programs. The intermediaries have maximized their profit by buying the farmer products at low price and selling them back at higher price and resulted high marketing margin. While the second case study in Japan had articulated that the well-organizational, apposite functions and estimable welfare facilities of the farmer cooperative did not have the scope for intermediaries and make the farming system sustainable (Fig."},{"index":3,"size":39,"text":"). In spite of decline the coop's member due to the ageing problem, the farmer driven Japanese cooperative approach would be a good solution to tackle the middleman problem and make the agroforestry a sustainable production system in Bangladesh."},{"index":4,"size":288,"text":"Keywords: Cooperative, Marketing channel, Sustainability, Agroforestry, Intermediaries. Social and environmental issues including climatic changes, plant diseases and vulnerability of producers and smallholders, threaten worldwide coffee production and in particular Arabica coffee. Meanwhile, social and environmental requirements are increasingly at the heart of the consumers' demand. All actors of the value-chain have a clear interest in engaging in agro-ecological and social initiatives preserving ecosystems and offering decent remuneration to farmers through a sustainable production of a high quality coffee. Coffee/Cocoa agroforestry Business driven Clusters (CaFC) are part of such initiatives as a new organizational model to finance social and environmental innovations. Defined as local micro value-chains dedicated to sustainable production under agroforestry of high quality Arabica coffee, CaFC are based on an original organization orchestrated by a network of five types of stakeholders forming an Innovation platform: producers, roasters, brokers, investors and CIRAD for methodology and engineering. In some cases, certification agencies could be integrated to this platform. Based on a 1300 ha prototype project in Nicaragua (MATRICE) initiated in 2016 funded by the Moringa fund. We will describe the operational principles of CaFC, the respective roles of each stakeholder in such projects (Moringa, NicaFrance, CIRAD, producers, ECOM…), as well as the added-value for each of them, the consumers and the environment. In a context of both the falling real prices of coffee and the continuous contestation of certification systems to internalize social and environmental problems, we will discuss why CaFC could be a sustainable governance mechanism among stakeholders as well as an alternative traceability scheme in conventional but also in organic production of Arabica coffee or cocoa. Finally we discuss its possibility of extension to other contexts such as Vietnam or Cameroon through the Breedcafs H2020 European project."},{"index":5,"size":7,"text":"Keywords: coffee/cocoa value chain, cluster, agroforestry, innovation."},{"index":6,"size":167,"text":"For many generations, farmers in the semi-arid and sub-humid areas of West Africa have practiced a traditional system of land use called agroforestry parklands characterized by the deliberate maintenance of trees on cultivated or fallow land. Parklands have the potential to mitigate the effects of climate change by improving soil fertility. Through water tapping and prevention of nutrient leaching, trees help recover nutrients, conserve soil moisture and improve organic matter, while restoring soil structural properties. In addition, the trees in parklands, specifically their non-timber forest products (NTFPs), contribute to dietary diversity, food security and household income (Hill, 2014). Rural families in Burkina Faso have few opportunities to diversify their livelihoods and thus are vulnerable to climate hazards. Forest products are vital natural assets from which they can earn revenue through agroforestry value chains development. However, poor regulation of access rights and control over the tree resources and protection of parklands puts at risk the natural assets these communities, in particular the most vulnerable, are so dependent on."},{"index":7,"size":88,"text":"Recent forest laws [1] and legislation [2] in Burkina Faso are providing a supportive policy and institutional framework for the decentralisation and devolution of forest governance (FG), which in turn should enable rural communities' access, control and derive sustainable benefits from their local forest resources. There is an opportunity for NGOs, such as TREE AID, to support forest actors through FG processes that recognise the rights and duties of local user. Key principles of 'good' FG include participation, accountability, equity, fairness, transparency, local control & management (Paulson, 2012)."},{"index":8,"size":136,"text":"Here we present the results of a quantitative study of 1,287 households based on a digital platform, built on open source software, called the Rural Household Multi-Indicator Survey (RHoMIS) [3]. The study shows that communities in the eight districts that adopted good FG principles generate up to 3 times more income, through the development of viable NTFP enterprises, compared to districts that are not yet familiar to FG processes. The comparative analysis also recorded better values concerning the level of control of tree resources by women and young people in the eight districts. The promotion of good FG is an important condition for the sustainable expansion of NTFP value chains. The approach facilitates value chain development, including their access to adequate financing, which links household-level economic outcomes to the conservation-restoration of forests (Carpena et al, 2016)."},{"index":9,"size":1,"text":"[ "}]},{"head":"L09_O.07","index":81,"paragraphs":[{"index":1,"size":135,"text":"From Fork to Fork -Towards market integration for agroforestry and agroecology Balaguer F. 1 (fabien.balaguer@agroforesterie.fr), Buresi A. There has long been felt a need to create an entity that could play the role of an agroecology innovation platform, able to integrate vertically the major players of the agroecology production/processing/distribution chains, and to reach out horizontally to a wide range of consumers, including across extended, ethically-oriented, institutions (schools, hospitals, enterprises canteens, etc.) Pour une Agriculture du Vivant (PADV) is a movement founded by private companies in direct relation with farmers associations and assisted by local organisations and advisory offices specialising in agroecology/agroforestry development. PADV is laying the foundations in France for an integrated and revolutionary agroecological production-distribution approach on a large scale, from corporations in the private sector and high-level political commitment, to engagement from farmers."},{"index":2,"size":86,"text":"As PADV provides services to food companies by helping them creating sustainable distribution chains and identifying producers that fit specified agroecology and agroforestry standards, the additional value is being reinvested in applied research and assistance to farmers for implementing permanent soil cover, low soil disturbance, low phytosanitary interventions and tree reintroduction in landscapes. By bringing the subject to a much wider audience, this project is a major opportunity to involve every consumer in agroforestry development and to go beyond the frontiers of specialist researchers and agronomists."},{"index":3,"size":16,"text":"Pour Agriculture Du Vivant -A collaborative initiative to value farmers' efforts in their transition towards agroforestry"},{"index":4,"size":262,"text":"Keywords: agroforestry, agroecology, agri-food chains, consumers, society. The Programme for the Endorsement of Forest Certification (PEFC) is an international, non-profit, non-governmental organization dedicated to promoting Sustainable Forest Management (SFM) through independent third-party certification. PEFC works throughout the entire forest supply chain to promote good practice in the forest and to ensure that timber and non-timber forest products are produced with respect for the highest ecological, social and ethical standards. Thanks to its eco-label, customers and consumers are able to identify products from sustainably managed forests. Expanding PEFC's scope from trees within forests, to include trees outside forests (ToF), is an important consideration for advancing sustainable landscapes and rural livelihoods. The term ToF refers to all trees that are grown outside the nationally \"designated forestland\" [1]; and includes both intensive and extensive, agriculture or settlement production systems. Within the scope are trees growing on private lands in fields and on field-boundaries in orchards and in common and state non-forest lands in parks and gardens, along roads, canals and railway lines in rural or urban areas etc. Sustainable management criteria and guidelines for ToF are necessary to achieve certification, since this land use is growing in importance, and could represent at least 27% of the global area of tree-based systems (Lawson 2016). The management guidelines should be administered in a similar way to forestry. These would form the basis of future certification of products from sustainably managed agroforestry systems. This approach will bring agroforestry to the attention of consumers, while emphasising its importance for the sustainable production of food, timber, fuel and environmental services."},{"index":5,"size":138,"text":"International requirements for agroforestry certification under the PEFC system have been available since the approval of PEFC's revised benchmark for Sustainable Forest Management at international level (14/11/2018), expanding the benchmark's scope and including an Appendix for ToF interpretation. ToF standards at a national level can be developed and later endorsed by PEFC International. The next step that is required on the national level would be the decision to either develop a new ToF standard or to adapt an existing FM standard to a ToF scope. Regardless of whether a new standard is developed or whether an existing standard is adapted to agroforestry, in order to achieve PEFC endorsement, the process needs to follow PEFC's standard setting benchmark. The oral presentation will outlines the process to ensure wide and balanced stakeholder engagement and pilot testing in the development process."},{"index":6,"size":252,"text":"[1] Using the national thresholds of minimum area, minimum tree height and minimum crown cover reported by countries under the terms of the UN Framework Convention on Climate Change. Expansion of cocoa fields is the main cause of deforestation in Ivory Coast which is the largest world producer of cocoa. When cultivating a new cocoa field, local farmers maintain a tree cover the first years to grow the young plants and clear cut all the forest trees within few years. To mitigate this important threat for biodiversity and carbon stocks of the few remaining forests of Ivory Coast, our aim was to develop and test a Payment for Environmental Service (PES in order to encourage local producers to preserve a forest cover in their existing cocoa fields. We focus our work on old cocoa plantations with remaining trees and excluded those originated from recent deforestation. An organic cocoa cooperative was created to deal this cocoa production from voluntary farmers and an agroforestry premium price according to a threshold on forest trees' basal area (a proxy of carbon stocks) was introduced through carbon payment from the client. Moreover, the cocoa is certified organic which guarantees another premium price to the producers in addition to the agroforestry one. Our results show that those premium payments represent an increase of 61% of the farmers' revenues from the certified fields. This significant increase due to the combination of organic and agroforestry premium prices compensates the decrease in yields due to the preservation of the forest cover."},{"index":7,"size":80,"text":"We observed so far that those premium prices are a sufficient incentive for the producers to maintain the forest cover. Those first results are encouraging and should be strengthened by the refinement of the monitoring system to ensure the respect of the agroforestry threshold. Such incentive is expected to provide a sustainable mean to encourage farmers not only to maintain their actual trees on their cocoa fields but also to stimulate new tree plantations on some of their other fields."},{"index":8,"size":193,"text":"Keywords: cocoa agroforestry, organic certification, deforestation, premium prices. The first step to making feasible certification processes for agroforestry-based production systems is to design measurable standards. Due to wide variation in agroforestry applications, ideally such standards would allow for endless variations in agroforestry practices while also reflecting likely desirable ecosystem service outcomes. We will share a proposed framework and measurable criteria for an agroforestry standard that could potentially be implemented as a standalone standard or built into existing agriculture, forestry, or resource conservation certification programs. This research is motivated by a growing interest in regenerative agriculture and efforts to certify regenerative practices. We examined how agroforestry practices can advance regenerative agriculture's five core environmental concerns: soil fertility and health, water quality, biodiversity, ecosystem health, and carbon sequestration. Next, we reviewed a subset of certification programs, standards, guidelines, and associated scientific literature to understand existing efforts to standardize agroforestry. We determined that development of an agroforestry standard alongside current efforts to certify regenerative agriculture offers an opportunity to leverage common goals and strengths of each. Additionally, we determined that there is a lack of standards with measurable criteria available for agroforestry, particularly for temperate environments."},{"index":9,"size":67,"text":"Measurable components of a regenerative agroforestry criteria. Agroforestry systems can be configured in a variety of ways. This generic illustration depicts a system arranged in rows as is commonly done in many agroforestry practices such as alley cropping, windbreaks, and riparian forest buffers. With ten years of experience, PUR Projet has built up a thorough methodology for sustainable agroforestry projects and supply chains creation, development and strengthening."},{"index":10,"size":142,"text":"Internally-elaborated tools enable staff to identify socio-environmental stakes at various steps of a value chain, list and prioritise potential solutions to those stakes, assess the practical feasibility of such initiatives, and regularly evaluate the compliance of rolled-out projects against key criteria for impact. All those assessments allow us to collaboratively build relevant agroforestry projects (40+) for both companies and the farmers supplying the raw materials, and suggest solutions for continuous improvement. PUR Projet's model for project development is community-oriented, which means that socialisation and trainings are organised with interested farmer communities to ensure acceptation of the potential agroforestry project locally, but also the application of good planting and maintenance practices over the long term. This is done through the PUR Field Schools methodology, a set of trainings and games that help PUR staff and local technicians animate trainings and workshops with farmers."},{"index":11,"size":58,"text":"When designing the project, planted species are carefully selected according to expressed and identified local needs, in order to increase and diversify revenues (according to a revenue increase model), help enhance crops' quality and resilience to climate change effects, etc. Planting models are elaborated following a landscape approach to generate impactful benefits on the environment and surrounding communities."},{"index":12,"size":96,"text":"Coordination with the sponsoring enterprise is also needed to align field activities with the sponsor's business expectations and constraints. And because sustainability of the projects is key to reach the expected impacts, companies are encouraged to commit over the long run, through solidarity sourcing contracts and the funding of impact studies for example. Depending on the risks encountered along the value chain, we may also encourage the implementation of innovative technologies, for ex. blockchain traceability or audits of intermediaries thanks to our internal Sustainable Supply Chain Assessment tool (SSCA©, that builds up on international socio-environmental standards)."},{"index":13,"size":80,"text":"An effective way to boost sponsoring partners' engagement is to create links between them and the project, notably through field visits and stakeholders' meetings, but also effective and trustworthy reporting. To this aim, PUR Projet has developed several tools that enable to collect, analyse and communicate field data. This includes but is not limited to registries and GPS tracks that monitor planted parcels, planters and planted trees; the economic valuation of PUR Projet's agroforestry projects' potential impacts; or automatically-generated infographics."},{"index":14,"size":22,"text":"Developing and applying relevant methods and tools is therefore key to educate and engage all actors and boost agroforestry in production systems."},{"index":15,"size":93,"text":"Keywords: value chains, methological tools, data management, sustainable production systems, stakeholder engagement. In 2018, the FFEM financed a study of agroforestry projects with focus on the cocoa-timber agroforestry systems in the Congo Basin and West Africa. We focused our interviews and observations in Cameroun and Cote d'Ivoire: two countries with contrasting trajectories in the cocoa and timber sectors. 30 entities have been met (6 timber companies, 3 chocolate industry, 7 research center and forest authorities, 4 international cooperation agency, 5 NGOs, 2 certification bodies, 3 agroforestry fund) and 16 projects have been analyzed*."},{"index":16,"size":2,"text":"Major observations:"},{"index":17,"size":14,"text":"-A large range of association schemes are implemented on a trial stage at small-scale."},{"index":18,"size":30,"text":"-For the moment, the foresters are engaged in plantation projects with chocolate industry, rather to meet compensatory reforestation obligations and not a goal of profitability and long term sourcing modalities."},{"index":19,"size":46,"text":"-The cocoa/timber plantation system with a purpose of wood production and profitability is an innovative approach in these countries. There is a convergence of interest, even early signs of a movement bringing together chocolatiers and foresters around common issues: climate, sustainable access to resources and livelihoods."},{"index":20,"size":25,"text":"-For timber industry, the cocoa + timber model can meet the requirements of FSC/PAFC forest certification, regarding the needs of livelihood projects for neighboring populations."},{"index":21,"size":36,"text":"-The cocoa + timber + annual crops and fruit species model can also be used as a basis for ecological intensification, climate smart agriculture, also leading to organic certifications, income diversification and payment for ecosystem services."},{"index":22,"size":47,"text":"-The development of fair trade cocoa in West Africa can lever on production systems transformation from single cropping to agroforestry: thanks to the guaranteed minimum price, to the development reward and to the multi-year commitment of buyers/importers/chocolatiers, certified cooperatives develop significant support capacities for their member producers."},{"index":23,"size":146,"text":"The success for «cocoa/forest plantation» projects must suppose organizational, technical and economic agreement between the farmer (who plants cocoa and trees and ensures the maintenance of the agro-forestry system), the cocoa buyer and the wood buyer. As in any innovative strategy, obstacles must be overcome. In our case, there are conditions to create: access to quality seedlings, technical support for good maintenance of tree species, adapted financial products and adaptation of the existing legal framework. These elements together can lay the foundation for a strategy for early payment for future timber resources, based on a sustainable partnership between cocoa farmers and foresters. These findings have been shared with the \"Cité du développement durable\" (France): 20 institutions involved in sustainable development and international cooperation. Many of them work on cacao agroforestry from different angles (agronomic, adaptation to climate change, agro-ecological transition, fair-trade) and will join their effort."},{"index":24,"size":120,"text":"Keywords: Timber, Cocoa, West-Africa, Fairtrade. Kodagu district in India is part of the Western Ghats, one of the hotspots of biodiversity in the world. The district is one of the largest wooded region in the country with over 80 per cent of the area under tree cover. It comprises of diverse natural forests managed by state, agroforests managed by farmers and sacred groves managed by local communities. The diversity of ecosystems, associated species and their management by local communities have contributed to make Kodagu among the most diverse landscapes in the tropics. As is the trend in many tropical landscapes, landscape dynamics due to changes in land use and land cover has impacted the density and diversity of biological diversity."},{"index":25,"size":224,"text":"Valuation of ecosystem services and providing incentives to farmers following sustainable practices was attempted as a tool to promote conservation. Studies were undertaken under CAFNET project funded by European Union to value the ecosystem services and look at possible mechanisms of payments to farmers in a coffee based agroforestry system. It indicated that coffee agroforests contribute significantly not only to economic development of the farmers, but also ecologically by contributing to key ecosystem services in terms of water, carbon storage, biodiversity conservation, pollination services and ecotourism. But it found that these diverse agroforestry system are undergoing simplification due to reduction in number and diversity of shade trees in coffee plantations to increase productivity of coffee crop by converting from shade grown to sun grown coffee production system. Hence an attempt was made to explore the possibility of incentivising the cultivation of biodiversity friendly agroforestry practices through eco-certification of farmer collectives. Though incentivising farmers through collectives showed tremendous opportunities, our experiences suggests that there is a need to ensure that these globally driven certification mechanisms need to be modified to suit the local situations where regional stakeholders can come together to workout payment modes and mechanisms. We share the first time effort undertaken in the country to conserve and sustainably manage natural resources involving multi-stakeholder approach aimed at conservation using the principle of ecological economics."},{"index":26,"size":79,"text":"Keywords: Farmer collectives, Landscape labelling, Green tax, Corporate social responsiblity. Agrobranche aims at studying the possibility of strengthening the economic model of the agroforestry by improving the valuation of the intermediate biomass in the new domains of bio-based materials and chemistry. This objective answers a double purpose: Agroforestry management requires regular cuttings of branches for the control of the shade and the influence of trees. Branches constitute a resource available throughout the life of trees, very few harvested today."},{"index":27,"size":102,"text":"For the partners of the industrial development, it is the possibility to benefit a resource of quality compatible with the classic agricultural productions, and safer in terms of supply. Agrobranche will identify the best segments for the agroforestry systems with a comparison between the various uses and to dread the relevance of these agroforestry products among the set of resources mobilizable for these segments. Among the aimed segments, rigid / semi-rigides insulations with wood, particle boards and composites wood-polymer for the « material » way and extractibles molecules for the «green chemistry» way will be particularly envisaged as ways of promising valuations."},{"index":28,"size":164,"text":"The works which are going to be led by our consortium including agricultural professional organizations, research laboratories and companies, aim in : Defining agroforestry products likely to contain substances extractibles of interest, Qualifying the industrial potential of valuation of the agroforestry chips for the new markets Identifying the standard of the agroforestry chips meeting the needs of companies for a given application and an organization of the sector to optimize its development and profitability, defining on one hand the upstream chips production ways and on the other hand the downstream technological ways dedicated for fibers and molecules extraction, The main asset of Agrobranche is the concern to connect the needs between research and industrial sectors with an agroforestry product with strong agroecological value, without any competition for the agricultural productions. By this way, we avoid the frequent stumbling block of the green chemistry projects based on rival productions and\\or on limited resources or little long-lasting, even few sustainable from an energical point of view."},{"index":29,"size":7,"text":"Keywords: green chemicals, chips, molecule, timber, pannel."},{"index":30,"size":1,"text":"References:"},{"index":31,"size":77,"text":"1. Bono P. et al., (2015). Les nouveaux champs de recherche et développement pour la valorisation des 2. FRD/ADEME, Evaluation de la disponibilité et de l'accessibilité des fibres végétales à usages maté 3. Kebbi-Benkeder Z., Colin F., Dumarçay S., Gérardin P.. 2015. Quantification and characterization o 4. Marchal R., Kouakou S.-S., Brancheriau L., Candelier K. Introducing trees into cultivated fields t 5. Thebaut M., Pizzi A., Dumarcay S., Gérardin P., Fredon E., Delmotte L. (2014). Polyurethanes from"}]},{"head":"Background","index":82,"paragraphs":[{"index":1,"size":19,"text":"In many tropical countries, agroforestry systems provide both services for agriculture and for non-food economic sectors (housing and energy)."},{"index":2,"size":118,"text":"Since six decades, European countries, including France, have massively excluded trees from the fields and crops in order to intensify mechanized agriculture. But the current agro ecological transition reverse the trend through the design of new agroforestry systems. Nevertheless, French farmers are still to be convinced about the economic reliability of such systems, building their agricultural models on an annual income, which is not so easy with trees that cost annually making economic returns only every few years. Different ways exist to reduce these misgivings, among them the integration of trees products into conventional wood market or to some niche markets. In parallel, wood or chemistry industries are to be convinced of the interest to harvest such woods."}]},{"head":"Aim","index":83,"paragraphs":[{"index":1,"size":99,"text":"Trees growing conditions are very different in agroforestry and in forests and so have a large influence on wood qualities that we currently assess making comparative measurements of mechanical, physical and biochemical properties between agroforestry and forestry woods for some given wood species. Agrpforestry farmers having to prune trees in order to control the light flux to the crops, they harvest every year a quite large volume of branches, valorizing them making mulching or energy. But, according to literature, wood of branches shows higher rates of polyphenols than wood of trunks and can open some new markets for branches."}]},{"head":"Materials and methods","index":84,"paragraphs":[{"index":1,"size":103,"text":"In the framework of the project \"Agrobranche\" financed by the French national agency for environment (Ademe), we screen biochemical contents of branches of different sizes from four species collected in two types of agroforestry systems: interplot systems (oak and chestnut); alleycropped system (poplar and walnut). We make first NIRS qualification on branches and tests of natural resistance to decay. Then we chipped the branches before processing chemical extractions and their qualification using UPLC-ESI-DAD-MS and CG-MS analysis in LERMAB, Nancy. For oak and chestnut, we have make comparison of extractives composition and rates between branches and wood of the trunk of the same trees."}]},{"head":"Major results and conclusion","index":85,"paragraphs":[{"index":1,"size":80,"text":"The comparison of extractives composition show a higher biochemical variability in wood of branches than in trunks. NIRS measurements make very effective prediction of the extractive composition determined by direct measurements; it seems possible to develop a NIRS-based rapid and non-destructive method to assess branches biochemical value directly on trees into the crops. Woods with more extractives resist more to decay than woods from trunks. These results are promising for new valorisation of branches coming from pruning of agroforestry trees."},{"index":2,"size":69,"text":"Keywords: wood, bioproducts, branches. Kinomé is a social business that aims to improve communities' economic and human development via forests. Through this project developed in Tchamba (Central Region of Togo) with Triballat Noyal (France) and Inades (Togo), we intend to test an integral solution from fields to schools to address the challenge of agroforestry chains development, assuming that this matter underlines three major issues: agronomy, food and collective gouvernance."},{"index":3,"size":104,"text":"In term of methodology, we first designed an agroforestry model by adding Moringa trees in current local productions (corn, soy). Highly nutritious leaves and seeds would then be cooked by women and distributed in schools. Second, and to motivate stakeholder engagement, we have adapted the GQHD© (Global Quality on a Human Dimension© from the Ethical Leadership) to the context of Togo. This tool enables the analysis of actors' individual and collective interests. To feed this framework, we interviewed 600 students, 10 teachers, 20 producers and 10 women cookers with a holistic and participatory diagnosis based on the 7 fundamental needs (on the figure) assessment."},{"index":4,"size":102,"text":"Finally, we designed indicators to measure how this innovative value chain reorganization could address human development needs. This project was based on life-skills and social entrepreneurship dynamic allowing the repositioning of actors, creating strong partnerships and thus generating positive impacts to develop sustainable and fair solutions for local development. In stands of cork oak (Quercus suber L.), the extraction of cork is one of the main productive activities of agroforestry management. The current practice is to debark every nine years, and the question whether it is better to decrease or extend the interval between cork extractions arises very often for various reasons."},{"index":5,"size":100,"text":"WebCorky was developed as an online tool for decision support on the deferral or not of the debarking in a given stand. The web application projects the cork growth of a given set of samples with known caliber (measured before or after boiling), classifying it according to the industrial caliber norms. Cork quality, in the absence of a quality analysis of the samples, can be added through an empirical quality classification (editable by the user), allowing the calculation of the average stand cork value over the years, based on a price table (caliber vs quality) also editable by the user."},{"index":6,"size":259,"text":"The observation of the distribution of the caliber classes over the years, together with the quality classification and price table, provides the yearly projection of the stand value by evaluating its present value on an interest rate also editable by the user. By simulating for different cork value influencing factors, WebCorky lets the user quantitatively evaluate if the postponing of the debarking is the best option, i.e. if it brings added value to the stand and by how much. In India, trees growing in private lands in agroforestry, farm forestry, along the farm bunds and in homesteads, in orchards, in parks and gardens, along roads, etc in rural or urban area mostly in non-forests constitute Trees Outside Forests (ToF). Such trees are contributing in a big way in meeting domestic needs of industrial wood of the country. Being in informal sector, ToF remained as invisible resource to land use agencies and their value as industrial wood has not been properly assessed and realized. Though reliable data on production of industrial wood from ToF is not available, using its growing stock data annual potential production has been estimated as 69 million cum as reported by Forest Survey of India (ISFR 2017) constituting about 85% supply of industrial wood. Most of the wood production comes from agroforestry sector. Despite such a huge production from TOF resource, there are no sustainability adherence systems. As a result, Indian producers using TOF raw material are unable to tap the global market and fetch desired price. Farmers who hold most this resource get adversely affected."},{"index":7,"size":56,"text":"There are also problems with the domestic marketing of the TOF product which is often unstable and inconsistent. Further, being in private sector, there is a lack of uniformity in silvicultural, management and other operational practices. There is also no mechanism to access to the improved and best management practices which are essential for sustainable management."},{"index":8,"size":76,"text":"In the certification standard and scheme developed by NCCF efforts have been made to globally align with other certification programs. Since there is a cost associated with the certification process, care has been to simplify the standard without compromising with global conditions so that it remains within the reach of small and marginal land holders. The standard is fully voluntary and not legal. It is only for the benefit of tree owners interested in value addition."},{"index":9,"size":143,"text":"In developing the standard, representative from all stakeholders including farmers, woodbased industries, pulp and paper mills, governmental and non-governmental organizations, research organizations related to agroforestry and forest professionals were involved. The focus of the standard is on a. legality compliance, b. management plan and practices, c. health and vitality, d. maintenance and enhancement of productivity, e. socio-economic responsibility and f. conservation and environmental safeguards. In all there are 6 themes, 28 criteria and 97 indicators applicable to block plantations of agroforestry. Certification conditions have been relaxed for scattered trees with 6 themes, 16 criteria and 51 indicators. The draft of the TOF standard was on website for public consultation and then under pilot testing in the field. Based on the comments it was subsequently revised. The themes, criteria and indicators developed are subjected to modification based on local, national and global changing conditions."},{"index":10,"size":92,"text":"Keywords: trees outside forests, certification, management, agroforestry, stakeholders. New programs promoting agroforestry have emerged since the 2000s claiming a contribution to farmers' resilience. The objective of this study is to analyse the evolution of the value chain governance and its implications in terms of farmers' vulnerability reduction. The results are based on a detailed analysis of some thirty programs implemented by the firms holding the majority of market shares in cocoa and coffee sectors, a dozen of semi-structured interviews conducted with these firms, and farm level field surveys in Peru and Nicaragua."},{"index":11,"size":31,"text":"Our results show that cocoa and coffee sectors are facing new challenges on both the demand and supply sides : (1) there is an increasing demand for better quality products ;"},{"index":12,"size":87,"text":"(2) the security of supply is threatened. This changing context is redefining the governance of cocoa and coffee value chains : industries downstream are developing partnerships with actors upstream to increase their control over their supply leading to an increased vertical coordination. Firm's position on the market determines the choice of coordination and agroforestry model to implement. The more the firms are positioned in niche markets, the more the link with the producer is essential and the more agroforestry is a central element of the partnership developed."},{"index":13,"size":35,"text":"Two key results emerged : (1) traders are becoming a key factor for the success of sustainable partnerships and ( 2) contract farming is creating an opportunity for more created shared value at farmers' scale."},{"index":14,"size":26,"text":"Typology of agroforestry partnerships in cocoa and coffee sectors (Authors) Can the certification of cork management agroforestry system in Sicily help to relaunch its future management?"},{"index":15,"size":62,"text":"Sala G. 1 (giovanna.sala@yahoo.it), Brunori A. 2 , La Mantia T. The economic importance of cork oak forests is mainly attributable to the role of provisioning non-timber forest products. The history of human management of these cork oaks stands make them a perfect example of agroforestry system, which surface is totally included in the Mediterranean-climate zones with more than 2.3 million hectares."},{"index":16,"size":81,"text":"In Sicily, the surface covered by cork forests amounts to about 15,000 ha but the most of this area is not affected by cultural practices. The cultural abandonment of many cork oak stands threatens their survival because of the close link between the conservation of cork stands and its use for productive purposes. The abandonment reasons are related to poor enhancement of cork raw material. However, in recent years some surveys have verified the high quality of cork obtained in Sicily."},{"index":17,"size":34,"text":"It is therefore possible to revive the sector through the validation of the product but also the certification of the management processes of the cork, if it is coming from a certified sustainable management."},{"index":18,"size":76,"text":"Certification of sustainable management of the cork stands owned by a Sicilian cork company called Syfar, with the certification of the chain of custody for the manufacture of articles of cork, such as coarse grained cork sheets for thermal and sound insulation, allows the Italian company to sell its product at national level and abroad, for the market of \"green building\" that is looking for certified material from the ethical and the quality point of views."},{"index":19,"size":217,"text":"Keywords: Quercus suber, abandonment, PEFC, wild fire, sustainable management. Strategies for improvement of agro-forestry market practice in North Western India Shukla S. (shashank.shukla2010@gmail.com), Singh H.P., Rawat A., Chaudhary A. Silviculture & Forest Management, Forest Research Institute, Dehradun, Uttarakhand, India Agroforestry has appeared as a most enticing and viable approach for maintaining social, economic and ecological sustainability in India. Especially North western region's of Indian states i.e., Punjab, Haryana, Uttar Pradesh and Uttarakhand. Farmers of these areas often prefer crops with Popules, Eucalyptus, Melia, Dalbergia sissoo and Azadirachta indica species in their fields. Agroforestry wants some cost to be borne on the part of the cultivator, which includes purchase of saplings, planting and caring for the trees. But most farmers have little access to market information regarding timber demand and price; little knowledge of market specifications. Marketing of Agroforestry tree produce in North-western India is a three-tier system i.e. Farmer, middlemen/commission agents and saw mill contractors. Commission agents are more often involved in the process from purchasing of plantation, harvest and transport. This has adversely affected the value of wood and simultaneously the interest of tree growers. Keeping this aspect in view, present study was carried out focusing the demand and supply status of wood in Punjab State of India and developing market strategies for the future prospects."},{"index":20,"size":94,"text":"The studies conducted in the State of Punjab in the year 2014 under which market mechanism of farm grown wood, the wood markets/mandis in Punjab were surveyed thoroughly and the data on market channels, method adopted for auction in mandis, sizes of logs in demand, marketing expenditure including Kat (weight loss due to moisture), prevailing market prices of commercially important agroforestry tree species. The required information from State Forest Department collected. The collected information analyzed and suitable measures were suggested strategies to improve the market practices. These aspects discussed in the paper in details."},{"index":21,"size":300,"text":"It is suggested from the present study that to develop viable wood market enterprises, producers must improve their market position excluding the middleman, strengthen their organizational set up and forge strategic business partnerships with the state forest department. Forest market institutions must adapt by providing business services to small-scale farm producers, investing in regional forest enterprise development to fill gaps in the value chain for wood pro- Cocoa production has dramatically reduced forest cover in Cote d'Ivoire, once a haven of biodiversity, particularly for primates (Bitty, et al. 2015). Facing intense public scrutiny, chocolate companies are turning to certification programs to sustainably source cocoa and mitigate their role in forest degradation. In addition to rules against clearing remaining forests, the two largest cocoa certification programs in West Africa include agroforestry components, aimed at minimizing environmental degradation and conserving biodiversity in areas already cleared of primary forest. Cocoa-agroforestry systems can sustain significant biodiversity outside of traditional protected areas (Asare 2006). Research suggests that cocoa certification programs are positively correlated with the intention to adopt agroforestry practices (Gyau, et al. 2014), but missing is an in-depth analysis of certified farmers' perspectives on agroforestry and their effects on adoption. This study examines the potential of certification programs to promote agroforestry adoption on smallholder farms. Drawing on in-depth interviews with production and marketing, I analyze how certified cocoa farmers engage with and implement agroforestry requirements. Preliminary results suggest that certified farmers are less familiar with agroforestry rules as compared to other rules of certification. Furthermore, how, or even if, agroforestry compliance is monitored as a part of certification audits is poorly understood, which could have implications for participation in agroforestry. Finally I discuss how farmer perceptions translate to agroforestry implementation more broadly, and highlight implications for the success of agroforestry components of certification programs."}]},{"head":"Abstracts","index":86,"paragraphs":[{"index":1,"size":433,"text":"AbstrActs The Gedeo traditional agroforestry system is a multi-strata system composed of an organized mix of mosaics of multipurpose indigenous trees, coffee, and enset components, which is arranged sequentially in time and space. It is known for its uniqueness as it supports large number of population (population density >1000person/km2), on a very steep (slope gradient >60%) and undulating landscape. Despite this, the system remains resilient without modern soil and water conservation measures and able to feed large number of population without external inputs, agrochemicals or improved crop varieties. Arguably, it the most efficiently sustained land use system in the country, thanks to diligent Gedeo elders and their ancestors who meticulously harnessed nature's potential to accommodate the ever-increasing human population through an intergenerational transmission of indigenous agroforestry knowledge (IAK) and practices. However, IAK is not static; change is inevitable. The question is whether the young generation will follow their ancestors' footpath and ensure the continuity of indigenous agroforestry practices. In this regard, this study was carried out to examine changes and continuities of IAK and its implications to its sustainability. Data from 290 sample respondents chosen from four intergenerational groups were collected using semi-structured questionnaires, card sorting, free list, and cognitive mapping. Berkes ( 2008) knowledge-practice-belief framework was employed to analyse IAK and practices gap and thereby determine IAK change and continuity. Accordingly, IAK of the local people were assessed based on eco-cognitive, practical and normative dimensions. The collected data were organized based on themes and analysed using one way ANOVA, t-test and chi-square. The results of the analysis indicate that there is a clear IAK gap between young people and adults, which implies the loss of some of IAK. Majority of young people failed to identify common indigenous tree species, indigenous agroforestry practices and socio-cultural values and norms which are vital to manage the agroforestry system. They were not able to demonstrate as much knowledge and skills as their elders do. For instance, among the sampled adolescent (12-20 years old), 52% failed to demonstrate their knowledge and skills properly. About 71% of sampled adolescent (12)(13)(14)(15)(16)(17)(18)(19)(20) lack knowledge of socio-cultural practices and have never participated in any socio-cultural activities. Very slow transmission of IAK, lack of interest to follow their ancestors' footpath and inclination towards modernization, are among the contributing factors for the gap. The gradual loss of IAK has a negative impact on sustainability of the system. This calls for concerted efforts to maintain the sustainability of IAK through revitalization of IAK transmission and acquisition. Finally, joint effort is required to document IAK, include in school curriculum, and integrate with the modern practices."},{"index":2,"size":368,"text":"Mineral fertilizers are substantially used in agricultural production systems in order to improve yields in most part of the word. However, the use of fertilizer alone could not increase and maintain soil fertility in most tropical soils including that of Mali. Perennial nitrogen fixing shrubs have the potential to improve soil organic matter, biological activity, and physical properties, while protecting the soil against water and wind erosion. However, these have been underutilized in most agroecosystems due to biophysical, socio-economic and cultural reasons. This study lies within the framework of the organic resource management for soil fertility project (ORM4Soil) and aims at participatory designing and testing of the profitability and environmentally soundness of Gliricidia sepium cotton, maize and sorghum -based farming systems with and without alley cropping in order to recommend the best practice for scaling-up in the region. The trial is being conducted in the Sahelian and Sudanian zone of Mali with five treatments of organo-mineral fertilizer -with and without Gliricidia. The treatments were arranged in a split plot design and replicated four times. In the Sahelian zone, alley cropping with Gliricidia sepium generated 1559 kg.ha-1 dry matter of Gliricidia after 377 days of growth which was incorporated into the soil. Similarly, in the Sudanian zone, 3179 kg.ha-1 dry matter was generated after 407 days and incorporated into the soil. The results after two years showed that the agroforestry system with Gliricidia sepium had a significant impact on cotton, maize and sorghum growth, biomass and grain yields. Average yields of maize (1330 kg.ha-1) , sorghum (919 kg.ha-1 ) and cotton (871 kg.ha-1) from the agroforestry system with Gliricidia sepium were higher (p tem without Gliricidia Maize (742 kg.ha-1), sorghum (903 kg.ha-1) and cotton (568 kg.ha-1) . In zones, organic carbon and total soil nitrogen, increased at an average rate of 120 and 80 kg Nha-1 in the 0-20 cm depth under Gliricidia sepium mulch fields as compared to 80 and 40 kg Nha-1 in the field without Gliricidia sepium. The study conclude that Gliricidia sepium cotton, maize and sorghum-based farming system has the potential to improve crop yields and soil nitrogen, and thus, its scaling-up can improve the livelihood of small scale farmers and soil fertility in Mali."},{"index":3,"size":11,"text":"Keywords: Gliricidia sepium, Organo-mineral Fertilization, Cropping system, Agroforestry, Soil organic matter."}]},{"head":"Background","index":87,"paragraphs":[{"index":1,"size":268,"text":"The intercropping of poplar trees for timber production with crops has been largely studied and practiced in Italy until the late '70s (Prevosto et al., 1971). This practice was almost abandoned in the subsequent years, because tree canopy spraying for pest/diseases control was often hindering the management of intercrops. Nowadays, tree-crop intercropping is again studied for its important environmental and productive values for mitigating Global Changes. In Europe, public institutions provide funding for the establishment of new silvoarable (SA) systems. In Italy, new poplar clones are now available, not requiring canopy spraying (MSA clones, Colaoa et al., 2016). Aims This paper reports the study at a SA site with a traditional poplar clone (I214). Biophysical experimental data, collected for the first 5 years, are currently implemented with bibliographic data, back to the '70, for an economic analysis of poplar SA system in Italy. New financial simulations are carried out using the new MSA clones. Material and methods. The site was established in 2014 by the Casaria Farm, in the Po valley. The SA area is ca. 9 ha large, on reclaimed alluvial land with permanent drainage ditches (depth of 1 m and spaced at 30-35 m). The tree rows, planted along the outer ditch edge, have an orientation of 5° N. In the SA area, 9 experimental transects of 300 m2 were formed, with measurements on tree growth and intercrops yield, and for studying tree-crop interactions for solar radiation, soil moisture and nitrogen (N) (Paris et al., 2018). For the financial analysis, long terms data, concerning the effect of adult tree shade on intercrops, is obtained by literature."}]},{"head":"Results","index":88,"paragraphs":[{"index":1,"size":144,"text":"Alluvial soils, with frequent drainage ditches, can be easily used for the establishment of SA systems using fast growing poplars planted along one side of the drainage ditches, optimizing the use of reclaimed land. Tree growth rate in such conditions is comparable to those in monoculture. The expected tree rotation should be 14 years. Timber quality is not negatively affected by the low planting density required by SA system. Intercrop management, in terms of machinery movement, is not negatively affected by tree rows. Stable isotopes studies show early positive synergic tree-crop interactions, with trees using soil moisture in deeper soil layers than intercrops, and reducing N leaching (Paris et al., 2018). Old literature provides long term experimental data on tree growth and crop yield (Prevosto, 1971). MSA clones have many evident productive and environmental advantages in comparison to clone I214 (Colaoa et al., 2016)."}]},{"head":"Conclusion","index":89,"paragraphs":[{"index":1,"size":490,"text":"Results show that between trees and associated herbaceous crops, during the years of study, it prevails complementary interactions for light and water, and synergistic ones for N. The above results, along with old literature, are being used for running financial simulations of new SA systems with the new hybrid clones MSA. Floresta Viva SA is a private company which goal is to be the 1st organic producer of heart of palm and other products, cultivated under large-scale agroforestry systems in its own 1'000 hectares farm, the Fazenda São Pedro, in the São Paulo estate with 220 ha of open land, mostly cultivated with the pupunha palm tree (bactris gasipaes) associated with banana trees, green fertilizers and various trees for high. The remaining 780 hectares is preserved natural forest. The Fazenda São Pedro is located in the Vale do Ribeira region, home of most of the remaining Mata Atlântica (the Atlantic Forest, which is the 2nd forest with the most biodiversity in the world, and is also the 2nd most deforested) and one of the poorest regions of the state of São Paulo and Paraná, with the lowest HDI (0,69 mean). Moreover, it is estimated that more than 30% of its population (which is largely rural) live below the poverty line. The local economy relies largely on agriculture (banana and citruses) but is heavily affected by the poor infrastructures relies heavily on the massive use of industrial inputs like pesticides and chemical fertilizers. The main objective of the Floresta Viva project is to offer a productive and innovative agricultural model, based on agroforestry systems and agroecological practices, capable of regenerate degraded lands and provide a decent livelihood to every farmer, from smallholders to large-scale agricultural projects. This model is inspired by the Syntropic farming, an agricultural model created by Ernst Götsch in Brazil, based on spatial and temporal association of plants and trees following natural forest stratification and vegetal succession, and also inspired by the E.R.A. model (Environmental Revitalization Agriculture) developed by Leontino Balbo, using regenerative agriculture principles for more than 25 years in 25'000 hectares of sugarcane. It is since 2013 that Floresta Viva is developing this model in its own farm, step by step, creating and adapting economically viable techniques and machines, reaching today a 166 hectares plantation that has received the organic certification in October 2018, and is providing job to more than 80 rural workers. This large-scale transition to a regenerative model, 100% organic, has been successfully operated during the year of 2017-2018, and overall expense has not overpassed 15% compared to a standard conventional project. Even if still incipient, the Floresta Viva project is a good example to understand agronomical and economical challenges and results for agroecological transition in a business landscape. This example is not limited to its size, or production, or geography, since it relies on universal agronomy principles that could be adopted by every agricultural entrepreneur, and the lessons learned could benefit all."},{"index":2,"size":411,"text":"Keywords: Brazil, Agroforestry, Syntropic, Agroecology, ESG. The agroforestry in India is meant to reducing deforestation and pressure on woodlands by providing farm-grown fuelwood and focuses on improving the major ecosystem services and environmental benefits, namely, the carbon sequestration ; biodiversity conservation ; soil enrichment and the air and water quality improvement, in addition to alleviating poverty. The present study shows that the poplar (ciliate) and certain clones of exotic poplar (deltoids) have been found to be extremely fast growing trees and well adapted for agroforestry plantations together with wheat and sugarcane crops under irrigated conditions of Uttar Pradesh and parts of Haryana and Punjab in North India. Raising poplar trees on marginal crop and pasture lands incorporates carbon from atmospheric CO2 into biomass and this plantation helps in the establishment of vegetation filters, in which nitrogen and phosphorus in waste water and sewage are used for irrigation and fertilization in short-rotation forestry. It is of particular interest to India where technically advanced purification plants are too expensive. Biodiversity in this agroforestry region is typically higher than in conventional agricultural systems. With two or more interacting plant species in these land areas create a more complex wildlife habitat and found to support a wider variety of birds, insects, and other animals. The agroforestry further fixes Nitrogen of about 50 -100 Kg N/ha/year in the soil, shelters livestock, stabilizes depleted soils from erosion and promotes closed cycling of organic matter and nutrients thus, improving/enriching the soil so that crops are more productive. Poplar is grown to a noticeable extent in plantation programs in the above states because of their market demand and high returns. It has wide industrial use in the manufacturing of paper, matchbox, and plywood among others thus enhancing the rural livelihoods. The author observed that the economic condition of the farmers has improved by practicing agroforestry since the total output per unit area of tree/crop/livestock combinations is greater than any single component alone. It has been estimated that 60,000 hectares equivalent plantations of poplar exists in India. and the author concludes that the poplar trees help in removing atmospheric CO2 and producing oxygen. Further, deep roots of the poplar trees improve ground water quality by absorbing excess nutrients that have been leached below the rooting zone. Therefore, due to their fast growing nature, they serve as renewable resources for future green economies that has added up to a substantial improvement of the economic and resource sustainability of agriculture in India."},{"index":3,"size":32,"text":"Keywords: agroforestry, biodiversity, green economy, poplar, water quality. Forest and land rehabilitation involving local community remain the best alternative, and most effective practice for rehabilitation, especially those in relatively densely populated areas."},{"index":4,"size":129,"text":"One of the practices used is participatory agroforestry which has been practiced in Java, Sumatra and other islands in Indonesia. Several improved participatory agroforestry practices have been established using several locally adapted and economically valuable commodities in several sites in Java and Nusa Tenggara, Indonesia under the KANOPPI Project. Several commodities such as bamboo (Gigantochloa atter), smallholder teak (Tectona grandis), medical plant named ules (Helicteres isora) and rattan substitute for handicrafts locally known as rumput ketak (Lygodium circinnatum) have been planted using this practice and have been contributing to both local community livelihood and ecological aspect surrounding the trial sites from at least 9 trial sites established in Java and Nusa Tenggara islands. Trials and supporting activities under this project have contributed to the livelihood pathway as follows 1)."},{"index":5,"size":66,"text":"Communities are likely to manage their resource sustainably, 2). Increasing benefits obtained from project activities and 3). New market opportunities and diversifying products that support local economy. Under the current second phase of the project, several activities will be extended and replicated to wider rehabilitation activities not only in Java and Nusa Tenggara but also to other islands in Indonesia in order to produce wider impact."},{"index":6,"size":19,"text":"Keywords: agroforestry, local community, participatory, livelihood. Walnut and crop yields in walnut orchards intercropped with wheat , Zebec V."}]},{"head":"Faculty of Agrobiotechnical Sciences, Osijek, Croatia","index":90,"paragraphs":[{"index":1,"size":265,"text":"The significance of intercropping is to reduce stress but also to increase productivity. The aim of our research is to investigate the yields in intercropped system of walnut and wheat. The field trial was set up in Eastern Croatia in an 11-year old walnut orchard with alley width of 8m, wheat was sown in 6m wide strips. The field trial consisted of three plots: a) control plot of wheat b) walnut orchard with intercropped wheat and c) walnut orchard without intercropped wheat. The walnut orchard has 10 equally long rows of walnuts. However, walnut yield of first five rows was always around 30% of the total yield, while the last five rows had around 70% of total walnut yield. We have decided to sow crops in the 4 alleys in between first five rows to increase the productivity of this low productive area. After the sowing of wheat in the alleys of first five rows they had walnut yield of 378 kg/ha and wheat yield 4.5 t/ha. Walnut control plot had walnut yield of 746 kg/ha and wheat control plot had wheat yield of 6.7 t/ha. In relative numbers the walnut yield was 51% (0.51) of the walnut yield in the walnut control plot and wheat yield was 67% (0.67) of the wheat yield in the wheat control plot. Altogether it comes out that intercropped plot had land equivalent ratio (LER) of 1.18 which means that by intercropping wheat in this rows of walnut of low productivity we have increased the production of this low productive area in comparison to high productive area by 18%."},{"index":2,"size":480,"text":"Keywords: agroforestry, intercropping, yield, walnut, wheat. Maize (Zea mays) cultivation in Northwest Vietnam has dramatically increased on the formerly shifting cultivation lands since the 1990ies, where more than half the area has slopes of over 20 degrees. Traditional cultivation practices in the region, mainly based on intensive tillage combined with burning crop residues, had resulted in severe erosion, soil degradation, reduced crop productivity and significant environmental impacts. However, farmers still apply monoculture maize in sloping lands. The main reason is because they lack financial backup to shift into new practices. The study aimed to assess the economic and ecological benefits of agroforestry practice in the context of the upland areas in Northwest Vietnam. This study presents the actual benefit assessment of a designed agroforestry system with late fruiting-longan (Dimocarpus longan) together with maize and forage grass strips (guinea -Panicum maximum) during 2012-2017 using cost and benefit analysis, land equivalent ratio (LER) and quantification of soil loss. The two monoculture systems, mono-maize and mono-longan, were used for comparison. The results showed that the longan+maize+forage grass system gave an early income from forage grass and maize. Forage grass yielded 17 ton ha -1 year -1 . Maize yield was not significantly different from mono-maize and the average dry grain yield was 4.5 ton ha -1 yr -1 . The longan trees started to bear fruit in the 4 th year; it yielded 0.06 ton ha -1 which increased to 0.38 ton ha -1 in the 6 th year. Longan in mono-longan system also started bearing fruits in the 4 th year. In terms of profitability, the net profit of the mono-maize was initially 23 million VND ha -1 yr -1 . However, it decreased to 4 million VND ha -1 yr -1 in the 6 th year, mainly due to drop in maize price. Mono-longan system was only reaching a profit of 3 million VND ha -1 in the 6 th year. Meanwhile, the longan+maize+forage grass system had a positive profit of 18 million VND ha -1 in the 2 nd year which increased successively to 33 million VND ha -1 in the 6 th year. The break-even point of the longan+maize+forage grass system was after one year of planting, and the payback period of the loan-credit provided to farmers was one year after planting. The LER from 2013 to 2017 of the longan+maize+forage grass system ranged from 1.05 to 1.84. Regarding the effectiveness in controlling soil loss, longan+maize+forage grass system reduced soil loss by 50, 56 and 77% in comparison with mono-maize system in 2015, 2016 and 2017, respectively. The data proved that the evaluated agroforestry system gave higher productivity, profitability, early returns to investment and significant reduced soil loss as compared to monocultural systems. We will continue monitoring and evaluating different agroforestry systems and tree species to provide the options for agroforestry development in sloping land area in Northwest Vietnam."},{"index":3,"size":103,"text":"Keywords: Agroforestry, Monocultural systems, Productivity, Profitability, Reduce soil loss. In coffee based agroforestry systems, biodiversity management by farmers is a promising lever for innovation to promote system sustainability and increase income. We hypothesized that the co-design of agroforestry cropping systems based on ecological process, and on implementation of innovative practices have to take into account the reality of the technical work as well as the farmer concerns and the knowledge leading to the actual plot management. The aim of this study is to examine how coffee farmers understand the diversity of their agroforestry systems and how do they manage it through their practices."},{"index":4,"size":155,"text":"We have developed an original methodology based on the activity analysis applied to the study of the shade trees regulation practices in the agroforestry coffee plot by coffee growers. The activity analysis is interested in human activity with a view to transforming and designing work situations. According to Theureau (2010), considering enaction paradigm, activity is considered as a dynamic of asymmetrical interaction between an actor and his environment 1 . Thus, human action is not considered to the actual achievement of a predetermined program resulting from the application of decision rules 2 . First, semi-structured interviews were conducted to understand the systems and the cropping practices drivers. Then, practices were studied in real situation, through participant observation and the use of methods of verbalization during practice, of self-confrontation and farmer-guided practice 1 . This study took place in Costa Rica (Turrialba). Agroforestry systems consists of coffee (Coffea arabica) and various types of shade tree species."},{"index":5,"size":196,"text":"Our results highlight each action carried out by the coffee grower, associated with farmers indicators, considered as the factors that farmer take into account in the agroforestry environment against the background of his concerns, knowledge or habits. These indicators inform about complexity of interactions between the coffee grower and his environment. This interaction occurred at several levels: for a systemic management (to favor the ecological processes like disease regulation), for an ergonomic management (to favor movements, or reduce risk of injury), for a personal management (based on an affective relation with the biotope). In that respect, shade tree regulation is not only intended to increase the incident light energy received by coffee, but also driven by other motivations. The re-design of innovative and sustainable cropping systems has to take into account the interaction between diversity of human situations and the agroforestry system complexity. In this context, how can practices be transformed? How can we support farmers to think about their own practices and initiate changes specific to them? The activity analysis is an efficient framework to nourish the thinking on current management practices and a promising way to support their progressive transformation in complex agroforestry systems."},{"index":6,"size":9,"text":"Keywords: co-design, agroforestry system, coffee growing, activity, farmers indicators."},{"index":7,"size":94,"text":"Every year, millions of dollars are spent on tree-based restoration activities. Over the last few decades there are few success stories of such interventions and even those do not match the anticipated objectives for which the resources were spent. News articles announcing tree planting campaigns accomplishing millions of seedling plantings are not uncommon. Despite all these, in many countries vegetation cover has not improved proportional to the investment. The objective of this paper is to highlight the main underlying challenges that need to be tackled if restoration through tree-based interventions are to be successful."},{"index":8,"size":171,"text":"The key challenges are as follows. 1) Often tree planting is stated as a goal of an intervention, rather it should be tree growing. 2) Planning cycles of national governments which often implement such tree-based interventions are annual, hence have insufficient resources to support tree growing. 3) In many developing countries priorities shift every year. Environmental issues are of less priority in relation to other short-term pressing societal needs, limiting the funding for such activities. 4) Performance indicators are often number of trees planted or area planted, not number of trees grown, or area of land covered with grown trees. 5) Most projects operate on a short time frame (1-3 years) while many species (e.g. indigenous ones) need more than 3 years to sufficiently grow. 6) Even in most projects, despite having adequate project duration, emphasis on the after-planting management is limited. 7) There is very weak tree tenure to formally transfer the management of planted trees to local communities who reside in the landscapes over a long period of time."},{"index":9,"size":187,"text":"For investments in tree-based interventions to lead to anticipated results (i.e. restored green vegetation areas) the following measures are recommended: 1) Donors, government agencies and any other stakeholder engaged in tree-based interventions should realize that tree planting is a one-time event and tree growing is a process involving management of planted trees. Hence, project or interventions focusing on a one season activity of tree planting should not be promoted as it results in waste of resources. 2) Strategies to strengthen the ownership of the restoration efforts by local actors and communities should be strengthened. This helps communities to take over the management of the planted seedlings even if the projects were short-term. 3) If there is limited local capacity, donors should ensure a clear justification and strategy by the implementors exists to continue managing the planted trees. 4) Unless such strategies are in place, governments and donors should not approve any one-season tree planting activity. 5) Incentives for local communities to take up the management during and after planting should also be crafted. 6) Finally, the basis for restoration discourse should be tree growing, not tree planting."},{"index":10,"size":8,"text":"Keywords: tree Planting, tree growing, planning, indicators, incentives."},{"index":11,"size":431,"text":"The baobab tree (Adansonia digitata L.) occurs naturally throughout the drier parts of Sub-Saharan Africa. Since its wood cannot be utilized as timber, and the fruits and other parts of the tree are appreciated by local populations for a number of uses, baobab trees are often preserved on agricultural lands whereas other trees are cut down -creating natural agroforestry systems. The fruit pulp of the baobab tree is rich in vitamin C, minerals and has pre-biotic and antioxidant properties. However, the potential baobab can have in Eastern Africa on improving local diets and livelihoods is not yet fully exploited. Processing of agroforestry food products such as baobab by rural producers or small-scale enterprises can considerably contribute to local food security, employment, alternative household income and improved livelihoods. The development and launching of new products has key influence in achieving such objectives since it contributes to continuous business success and growth of the involved enterprises. Such considerations are currently being addressed and put into practice within the BAOFOOD project. The project aims to promote the domestication, production, market development, processing and consumption of baobab for the improvement of food security, nutrition and rural livelihoods in Kenya and the Sudan. The project's ultimate goal is to establish a community-based processing unit to sustainably produce and supply highly nutritious baobab products for home consumption and local and regional markets. Approx. 80 farmers with baobab on their agricultural land are involved in the community-based processing unit. These farmers are currently being trained in the sustainable production, harvesting, and processing of baobab. Furthermore, novel ideas for the integration of baobab fruit pulp into traditional Kenyan recipes for dietary enrichment are currently being developed and tested. This approach gives local baobab producers and processors, often characterized by limited resources and expertise for product and business development, the opportunity to collaborate with stakeholders across the baobab value chain, research institutions, or regulatory bodies. While traditionally the development of new, marketable products has primarily been approached from the perspective of the companies involved in production and sale of such products, it is increasingly recognized that successful product innovation is the outcome of a collective and interactive effort rather than the achievement of a single person or firm. The approach followed in BAOFOOD gives the opportunity to not only contribute to food security and improved livelihood objectives but also to help build local entrepreneurial skills and verify the applicability of this more unconventional product development pathway. The paper describes the integrated approach applied by BAOFOOD in more detail and also presents initial results of the agroforestry food product development work."},{"index":12,"size":259,"text":"Declining crop productivity is a major challenge facing smallholder farmers in central highlands of Kenya. This decline is caused by continuous cultivation of soils without adequate addition of external inputs in form of manures and fertilizers. With this background, an on-station trial was initiated at Embu in 1992 with the aim of evaluating the feasibility of using two leguminous shrubs; Calliandra calothyrsus and Leucaena leucocephala as hedgerow for improving food production. The objective of this study was to evaluate the long term effects of hedgerow intercropping on maize yields and soil fertility status. After over 20 years of implementation, the results indicate that, Calliandra calothyrsus and Leucaena leucocephala biomass transfer with half recommended rate of inorganic fertilizer treatments gave the best average yields of 3.3 Mg ha-1. Calliandra calothyrsus alley cropped with prunings removed treatment recorded the lowest maize yield of 1.2 Mg ha-1. Though treatments with Calliandra calothyrsus biomass transfer had similar yields compared to those of Leucaena leucocephala biomass transfer, all the treatments that were Leucaena leucocephala alley cropped did better than Calliandra calothyrsus alley cropped, both with prunings incorporated and prunings removed. On average, integration of organic and inorganic sources of nutrients gave higher yields compared to all the other treatments. Over time, the soil fertility parameters changed significantly with soil pH, Ca, Mg, P and OC decreasing in all treatments with the exception of K and total N where there was no significant change in their amounts. This might explain the reason why the hedgerow intercropping technology has been abandoned by many small scale farmers."},{"index":13,"size":236,"text":"Keywords: Leguminous shrubs, biomass transfer, maize yields, Calliandra calothyrsus, Leucaena leucocephala. Oil palm has become an important export commodity for Indonesia and has been cultivated by both smallholders and large scale companies mainly as monoculture plantations. Research suggested that this massive monoculture practices have led to adverse impacts to natural and social systems. Smallholders encounter difficulties to cope with the fluctuating commodity price and extreme climate events such as long dry seasons. We argue that agroforestry could become a promising and realistic alternative to deal with these problems. This is indicated by the voluntary adoption of oil palm agroforestry system by smallholders although this occurred at limited scales. This article aims at analysing the adoptability, productivity and sustainability of oil palm agroforestry practiced by smallholders. We employ a hybrid method which combines qualitative and quantitative analysis. This research suggests that the adoption of oil palm agroforestry decrease the household dependency on monoculture commodity and thus improve the household resilience in terms of income. However, our findings suggest that oil palm agroforestry has been challenged by the tendency of decreasing oil palm fresh bunch fruit production. Species selection and crop combination strategy become the key factors to improve the productivity of oil palm agroforestry. We suggest that long term and regular observations as well as longitudinal data are required to paint more comprehensive picture on the contribution of oil palm agroforestry to the improvement of ecosystem functions."},{"index":14,"size":8,"text":"Keywords: oil palm agroforestry, Indonesia, adoptability, productivity, sustainability. "}]},{"head":"Evaluation of chronological changes of trees and coffee bushes in permanent plots within a gradient of coffee management","index":91,"paragraphs":[{"index":1,"size":551,"text":"Gómez-Martínez M. J. 1 (mjgomez@ut.edu.co), Ortíz-Ceballos G. The design of coffee agroforestry systems (CAFS), which simultaneously fulfill their function of conservation and production, requires a better understanding of how diverse tree species are interacting. Interactions would be either positive ones (facilitation), or negative ones (tradeoffs), on the microclimatic and pedological conditions within plantations. It is quite important to access to real and constant data through permanent plots in farms of producers. We selected 15 coffee plantations with heterogeneous management, in the Coffee Region of Coatepec, Veracruz, Mexico, which is originally an area of cloud forest, with approximately 200 years of coffee introduction history. Plots were demarcated (50 m x 20 m), 3 transects were drawn (50 m x 2 m) and sampling points were located every 10 m (18 points plot -1 ). The density of sowing, age of the crop, varieties and management of the plantation were registered. Additionally, the number of trees with DBH> 10 cm, crown area, height and plant species, number of strata, canopy percentage, area index of coffee trees and trees, and leaf litter percentage was counted. The variables were compared by type of AFS by ANOVA and mean comparison coffee plants were measured, of the varieties Catimor (31.6%), Sarchimor (29.4%), Costa Rica (21.8%), Mundo Novo (10%), Arabica (4.4%), Caturra (2.2%) and Oro Azteca (0.6%). These varieties are preferred since they require little direct sunlight and can be grown in shaded environments. Coffee densities differed between CAFS and range from 3383 to 7800 plants ha -1 . A total of 178 tree individuals were registered, comprising 17 families, 24 genera and 33 species. The Fabaceae family stands out with 11 species that represent 60% of the abundance. The most common genus for its richness is Inga, with 6 species and with 45% of the arboreal individuals. As the management of coffee plantations intensifies, producers select varieties resistant to coffee rust and increase the abundance of the tree component, however, with less diversity. Contrary to traditional producers, who leave in their plots few but large trees, and whom manages a mixture of coffee varieties. The assembly of the tree species in the CAFS is influenced by the decisions of the producers regarding the productivity of their plots, who mainly direct their efforts to the productivity of the coffee trees, maintaining tree coverage, which is positive for the conservation of biodiversity and provision of ecosystem services. For example: the composition of tree species is crucial to provide some nutrients for the development of coffee trees, however, this will depend on the agro-ecological conditions of the area. Farmers in the hills of Nepal have practiced agroforestry for centuries. For much of this time, farmers grew trees to meet subsistence farming needs, but the nature and extent of these practices depended on the size of their land and the accessibility of fuelwood and fodder from community forests. Over the last decade, much has changed in the rural areas of the Middle Hills. Household livelihood expectations have changed, many families have individuals working in cities or outside Nepal which has increased household income and reduced labour availability. Throughout this period, the role of agroforestry in Nepalese farming system has remained important, but the need for improved agroforestry systems and better knowledge of the various agroforestry options and market possibilities has increased."}]},{"head":"Keywords","index":92,"paragraphs":[{"index":1,"size":56,"text":"In order to examine the current agroforestry systems and practices in Nepal, and what factors are responsible to sustain a given practice, a survey was carried out in Eastern, Central and Far-western districts of Nepal. The survey showed that number of practices has increased since the 1999 when agroforestry as science was just new in Nepal."},{"index":2,"size":167,"text":"The survey also showed that agroforestry practices would further scale up if the selection of tree species from among some three dozen indigenous and one-dozen successful exotics visà-vis their silvicultural characteristics and local suitability is known and practiced accordingly. Proper choice of shrubs and herbs of economic value for commercial and general purposes, such as, medicine, essential oil, fibres, floss, and food could be encouraging for agroforestry practitioners. Capacity building should focus on skill development, market and its linkages and optimal use of available resources, optimal use of spacing, livelihood development and their enhancement. Understanding the structure, densities and utilization of tree populations in agricultural landscapes is useful in determining the species influencing agroecosystem function. Our study evaluated agroforestry adoption and practices within smallholder farms in a former large-scale maize growing area of Trans Nzoia County, Rift Valley Province, Kenya. This was followed by investigation of factors influencing heterogeneity in the adoption and practices. The factors include: household resource endowment, land tenure and time under current management."},{"index":3,"size":208,"text":"Five settlement schemes which were formerly large estates dominated by maize mono-cropping were selected for the current study. Tree inventories of the farms were obtained through transect walks across each settlement. A total of 123 farms were assessed representing households of different resource endowment levels, tenure and number of years under current management. Different analyses were carried out including farm size and tree number, tree density, tree diversity and utilization of the dominant tree species. In total, we identified 44 tree/shrub species, 24 of which were indigenous and the rest exotic. However, the exotic tree species dominated strongly in abundance with Eucalyptus spp. being the most frequent taxon and constituting 34.6% of all trees. Species richness was found to be low compared to other agricultural landscapes in the region. Resource constrained households were found to prefer fruit tree species and maintained high tree diversity on their farms. Households with secure tenure had higher tree diversity than those without who had higher species richness and opted for fast growing fodder and fertilizer/firewood trees. Younger farms had fewer trees but higher species richness than older farms. The study, therefore, explains heterogeneity in agroforestry adoption in terms of variation in household resource endowment, land tenure and time under current management levels."},{"index":4,"size":13,"text":"Keywords: Tree diversity, Resource endowment, Land tenure, Time under current management, Small-holder farmers. "}]},{"head":"Aims","index":93,"paragraphs":[{"index":1,"size":30,"text":"This study aims to determine the effect of selective pruning and thinning on i) tree species richness, and ii) potential production of standing biomass in fallows of Sudanian woodland stands."}]},{"head":"Method","index":94,"paragraphs":[{"index":1,"size":50,"text":"In Sudanian woodland of Benin, three random blocks (repetition) of 20 m x 20 m each were demarcated in homogeneous stands and divided into three treatment plots of 10 m x 10 m each i) T1: no harvesting, ii) T2: 30% thinning and pruning, iii) T3: 60% thinning and pruning."},{"index":2,"size":4,"text":"between 2015 and 2016."}]},{"head":"Results","index":95,"paragraphs":[{"index":1,"size":90,"text":"The plant species richness and composition varies with treatment and woodland development stands. Whatever the treatment applied, there was a deficit of 68.28 % to 85.59 % in biomass to cover local population need estimated in biomass at 9,515,850.22 kg/year. The best tree height (Figure 1) and biomass production (3,018,736.25 kg/year) were obtained with 30 % thinning and pruning (T1). Compared to T1, the biomass produced with no thinning and pruning and with 60 % thinning and pruning increased the deficit in biomass respectively by 17.31 % and 4.83 %."}]},{"head":"Conclusion","index":96,"paragraphs":[{"index":1,"size":34,"text":"Moderate thinning gives the best result in early woodland's development stands, while more severe thinning gives the best result at later development stands. Keywords: Biomass, tree diversity, thinning and pruning, Sudanian woodland, Benin Republic."}]},{"head":"Background","index":97,"paragraphs":[{"index":1,"size":43,"text":"Baobab (Adansonia digitata L.) is an important plant species to people's livelihoods through provision of food, fibre and medicine. Baobab products are increasingly being commercialized and exported around the world which calls for an understanding of the status of the species natural stands."}]},{"head":"Main","index":98,"paragraphs":[{"index":1,"size":26,"text":"This study was conducted to assess the extent of conserve stands of baobab in different land use type in the semi-arid region of Benin, West Africa."}]},{"head":"Data collection","index":99,"paragraphs":[{"index":1,"size":56,"text":"The study was conducted within the Sudan agro-ecological zone of Benin specially in the Pendjari National Park (PNP), and surrounding farmlands, and Controlled Occupation Zones (COZ). Tree girth, tree total height, number of seedling and sapling was measured in 12 sample plots of 250m x 250m. Additionally, all baobab individuals irrespective of their size and all"}]},{"head":"Data analysis","index":100,"paragraphs":[{"index":1,"size":78,"text":"Tree density, diameter and height were computed and compared among the four sites using one-way analysis of variance followed by Fisher's LSD test. Diameter size class distribution (SCD) slope obtained from the regression analysis was used as indicator of the population structure. Population stability was assessed with three metrics: the Simpson index of dominance (S), permutation index (P) and the quotient (Q) between successive size classes. Univariate and bivariate pattern of trees were studied with the pair-correlation function."}]},{"head":"Results","index":101,"paragraphs":[{"index":1,"size":149,"text":"The farmlands had high number of young trees and adult tree densities (stem.km-2) (181. 3 ± 155.4 and 453.3 ± 190.9), followed by COZ (16.0 ± 16.0 and 106.7 ± 33.3) and PNP (32.0 ± 16.0 and 85. 3 ± 24.4). Tree diameter and the total height did not differ significantly among land use types (p > 0.05). All land-use types had negative SCD slope showing that there were more individuals in smaller size-classes than in larger size-classes. However, the flattest of slope (between -0.001 and -0.006) suggests low recruitment. Values of Simpson dominance (> 0.1) and permutation (> 0) indices in addition to the fluctuations of the quotients of the density of successive size classes suggest unstable stands with episodic recruitment and mortality, particularly in the COZ. In general, A. digitata showed a random spatial distribution for both young and adult trees, irrespective of the land use types."}]},{"head":"Conclusion","index":102,"paragraphs":[{"index":1,"size":32,"text":"This study showed that higher density of baobabs occur outside protected areas and the populations are mostly unstable, calling for active conservation in protected areas and promoting domestication of baobab in farmlands."},{"index":2,"size":155,"text":"Keywords: population structure, protected area, farmland, spatial distribution, Pendjari National Park.  (Price, 2007). A unique feature of this species is that all of its parts (leaves, roots, seed, bark, fruit, flowers and immature pods) are used for different purposes with the medical ones being more popular in traditional and modern medicine (Leone et al 2015). Among its alimentary uses prevails oil production but it can also be used for water purification (Price, 2007). Its wood is excellent for the production of paper pulp, blue dye with its bark used for mats and rope. Its leaf extract contain growth factors which, when sprayed on other plants, increase their yield by 25-30% (Fuglie, 2001).  Achieving the forage autonomy is a huge step in the goal of agroecological transition of farming systems. It's a priority in the current context of climate change, economic crises and the fluctuations of prices in raw materials and concentrates used for livestock supplementation."},{"index":3,"size":138,"text":"The objective was to evaluate, under the conditions of Ariège (France) a high density mulberry (Morus alba; 25 000 plants/ha) forage production technology, previously evaluated with very good results in tropics (see references). In collaboration with a voluntary farmer, a 0.2 ha pilot paddock was planted under real life beef cattle production, after previous conventional soil preparation and early stage plant growth in a nursery phase. A monthly monitoring was scheduled during the first-establishment year (i.e. from planting in April 2017 to the first-harvest -standardization cut-, in April 2018). Afterwards, the distribution to animals started. Mulching with on-farm produced straw between rows, and manure allowed efficient weed control and organic fertilization, with a zero-input approach. The plant growth and survival, biomass yield (total and edible forage) as well as its nutritive value and cattle voluntary intake are promising."},{"index":4,"size":73,"text":"The first results in agronomic and animal performance demonstrate the feasibility of establishing this technology under temperate conditions with this fodder specie, widely distributed in Europe. However, further efforts are required and the study will continue. In this study, SYAPROVAG and its partners in the VALAB initiative (Integrated ecosystemic valorization of the agrobiodiversity in the forest of Guadeloupe) surveyed the current diversity of complex agroforestry cropping systems in the forest undergrowth of Guadeloupe."},{"index":5,"size":123,"text":"For more than 3 centuries, Guadeloupeans cultivate many species in the undergrowth. High value-added heritage crops such as vanilla, coffee and cocoa, which can be classified as high quality and exportable, can be distinguished from other food, fruit, aromatic or medicinal crops intended for local households. All these species are cultivated in the heart of the natural rain forest, in complex agroforestry systems (AFS), the associated spontaneous forest species serving sometimes as shading, sometimes as support for cultivated species such as vanilla (Vanilla planifolia and Vanilla pompona) or the different yams (Dioscorea ssp) when they are not valued directly for some of these (production of various oils and resins) such as red wood carapate (Amanoa caribea), incense wood or white oak (Dacrydes exelcasa)."},{"index":6,"size":170,"text":"Five main AFS have been identified in the Guadeloupe forests, a secular endogenous construction that has been produced by the history of the archipelago, with today two main orientations: the AFS based on heritage crops only on the one hand, and those combining heritage crops and food crops, accounting for 5 to more than 20 cultivated species, current declensions of forest gardens that tend to disappear. These various AFS are characterized by several common points. First of all, cropping techniques come from ancient know-how. Thus, chemicals and mechanization are missing. As a result, these systems are respectful of the environment and contribute to the conservation or the improvement of the biodiversity of the forest area. On the other hand, the labor intensity of these agroecosystems, coupled with the high cost of labor, limit the area cultivated by asset and the productivity of land and labor. On farm processing of high value-added crops for niche markets, or direct sales, are strategies developed to overcome this structural constraint by increasing income generation."},{"index":7,"size":119,"text":"Overall, it remains difficult today to live only with these AFS in Guadeloupe. Only the diversification of individual activities (pluriactivity) and / or the diversification of farms activities (agro-processing, agri-tourism ...) make it possible to make viable these systems of activity that nevertheless attract many candidates for farming installation. In the UK agroforestry is a relatively unknown and little understood practise with the exception of boundary hedgerows, wood pasture and parkland. It accounts for approximately 3.3% of the utilisable agricultural area den Herder et al., (2017). The UK is a densely populated country with approximately 70% of the land area being farmed. A land management approach is required that avoids the potential trade-offs between food production and public goods."},{"index":8,"size":444,"text":"Agroforestry has the potential to deliver multiple benefits for productive, resilient and environmentally integrated farm systems. Since 2013 the Woodland Trust has been offering farmers across the UK advice and funding support to help them set up agroforestry schemes. This has been made possible by our partnership with the PUR Project and funding from the Accor hotel chain. Over the last 5 years we have helped implement a wide variety of agroforestry schemes in the UK planting 90,000 trees on farms. Table 1 summarises agroforestry planting in the UK funded by the Trees on Farms scheme. This poster will describe, via short case studies, the benefits and challenges of implementing agroforestry and how these examples are being used to share best practice, increase uptake in the UK and influence future land management policy. Examples include: saving soil on an arable farm, tree fodder for dairy cows, shelter on upland sheep farm, woodland eggs mean better business and alley cropping to improve economic returns. Tree-based intercropping (TBI) systems, which offer many benefits for society and the farm enterprise, are not very common in eastern North America. An experimental network of widely spaced 4 to 6 year-old TBI systems (25-40 m between tree rows) that are adapted to large scale annual crops was established in southern Quebec. Realistic estimates of the effects of these TBI systems on crop yields and microclimatic conditions are clearly needed if their widespread adoption is to occur. Soybean (Glycine max), corn (Zea mays) and wheat (Triticum aestivum) yields, weed density, soil moisture and soil temperature were studied at four disbetween the center of the cropped alley and the tree row) and in control plots over the 2017 growing season across four sites (4, 6, 6, 6 and 21 years old). In all sites the distance from the tree row significantly affected weed density. TBI systems did not affect the soil temperature and soil moisture measured at 15 cm depth. In all cases, integrated crop yields (all distances combined, where only the space occupied by the crop is considered) were not different from the control. Our results suggest that the effects of widely spaced tree rows on soil microclimatic conditions and crop yields are negligible in young TBI systems.   Potato (Solanum tuberusum L.) is an important food and cash crop cultivated in the highlands of Rwanda. Its yield is low to meet market demand due to inadequate use of mineral fertilizers which appear an expensive input. This research assessed potato yield response as affected by the application of alnus acuminata green manure and pruning managements in the tree long term trial of Tamira research station in the sub-humid highlands of Western Rwanda."},{"index":9,"size":357,"text":"Alnus acuminata with two management treatments involving two pruning levels (75% pruning and farmer practice corresponding to 90% pruning) and an open field with no trees were used. Potato, Kirundo variety was conisidered as crop test. Before planting, each pruning treatment plot was divided into two to accommodate two sub treatments of Alnus acuminata green manure (7 t/ha dry matter and 0 t/ha). Results indicated that all treatments with green manure performed better than those without green manure. Moreover, alnus green manure significantly increased potato yield (28.4 t/ha) in the open field compared to other treatments. Farmers' pruning treatments recorded the highest yield compared to the 75% branch pruning although there was no significant difference; however, trees were more vulnerable to wind due to excessive pruning in farmer practice. These results show that Alnus acuminata trees pruned at an appropriate pruning level (75%) are of potential use by farmers as green manure for improved potato crop productivity in Rwanda. Sikkim a state of India located in the Eastern Himalayas region with an area of 7096 sq.km. About 80% of the population depends on agricultural land for their livelihood. Trees are planted in farms along with agriculture and crops over the length and breadth of Sikkim Himalaya is an age-old practice with a considerable effect on the natural systems of this region. The local people possess broad knowledge on the tree-crop combination and their role in conservation of resources and in livelihood .There is need to gather such knowledge and incorporating into our resources education system, technical training and development plan. In view of this present study was conducted with the objectives, to study the different agroforestry systems in south and west Sikkim and to record the perception of the farmers regarding function of different agroforestry components in conservation of natural resources and role in livelihood. Three villages each were selected from south and west district of Sikkim. A list of 60 respondents were prepared using different tools such as; semi-structured interviews, group discussion, and social mapping. Agroforestry area survey was conducted to identify the agroforestry systems and to understand the components and composition of the agroforestry systems."},{"index":10,"size":50,"text":"Ten different Agroforestry systems were recognized on farmers land in South and West Sikkim, which are rich in tree-agriculture crop diversity. The study shows that the farmer's have considerable knowledge about farming and its contribution to natural resources and finding were recorded by White (2001) and Chauhan and Dhyani (1990)."},{"index":11,"size":117,"text":"As per the perception of farmer, the Agroforestry systems plays both productive and protective role. The functional unit like agricultural crops, vegetable, fodder crops, fruit trees plays productive role where as large cardamom, multipurpose tree species, pastures, fruit trees and apiculture plays productive as well as protective role for the farmer (Table 2). Agrisilvipasture, agrihorticulture, agrihortipasture, livestock based mixed farming systems, apiculture and kitchen garden are more beneficial and mostly preferred by farmers. Eight different agroforestry components have been observed in agroforestry systems. In total 96 species i.e. functional unit were recorded in agroforestry systems of Sikkim Himalayas of which 85 percent plants species are native (Table 2). Similar finding were recorded by Chauhan and Dhyani (1990)."},{"index":12,"size":229,"text":"The study reveals that the agroforestry is an age old practice in Sikkim and has been way of life and livelihood for centuries. The farmers of South and West Sikkim presently practicing ten traditional agroforestry systems which plays both productive and protective role to farmers' subsistence and conservation of local germ plasma. However Research on choice of species, tree crop interaction, spacio temporal dynamics needed to be undertaken to maximize the socio-economic and ecological benefits of the Agroforestry systems. Keywords: Agroforestry system, productive, protective, functional unit. To produce charcoal and prevent the deforestation around Kinshasa (Gond et al., 2017), 7,700 ha of Acacia auriculiformis were planted on savannah ecosystems, in 1987 (Bateke Plateau, DR Congo). Since 1995, the plantation was managed using the rotational woodlot system alternating agricultural and charcoal production on the same area (Kimaro et al., 2007). The 7,700 ha produced a large amounts of charcoal, cassava and maize during many years (Bisiaux et al., 2009). However, farmers have observed for a while a decline in wood and crop productivity. The aim of this study was to compare chemical properties of soils in six acacia stands in two farms having undergone different agroforestry trajectories: -one 22-year-old acacia stand, never-harvested; 4 stands in their 2nd rotation after 1 cropping cycle; and 1 stand in its 3rd rotation after 2 cropping cycles -and soils in the native control savannah."},{"index":13,"size":36,"text":"Compared to the original savannah, all acacia stands showed an increase in soil C, N and N-NO3-contents, but a decline in soil pH and exchangeable cations, and an increase in exchangeable Al and CEC (Fig 1)."},{"index":14,"size":55,"text":"To maintain the sustainability of the system, we recommend different practices in order to improve the nutrient balance and decrease the soil acidity. Such practices are the debarking of tree stems before carbonization, the restitution of small branches and charcoal residues to the soil, and the supply of natural rock phosphate (Dubiez et al., 2018)."},{"index":15,"size":36,"text":"Total carbon content, total nitrogen content, pH in water, Cation Exchange Capacity (CEC), Exchangeable Ca, Mg, K and Al in the soil at a depth of 0-20 cm in the savannah and the six acacia stands."}]},{"head":"L10.P.19","index":103,"paragraphs":[{"index":1,"size":18,"text":"Cacao yield in agroforestry systems with non-traditional income earning shade trees Dubon A. (a.dubon10@gmail.com), Sanchez J., Diaz J."},{"index":2,"size":9,"text":"1 Cocoa and Agroforestry, FHIA, La Lima, Cortes, Honduras"},{"index":3,"size":503,"text":"Native legume trees Gliricidia, Erythrina and Inga are found in cacao-based agroforestry systems offering suitable and manageable shade, soil improvement and fire wood, yet provide no addition income for impoverished small farmers. Thus, FHIA has proposed fruit or tropical timber as shade trees and set out to determine their effect on cacao yield. In 1987 on a site close to sea level with tropical rainforest climate, on low fertility alluvial soils, cacao was planted with black laurel (Cordia megalantha), Spanish cedar (Cedrela odorata), rambutan (Nephelium lappaceum) and a legume control in a 0.25 ha plot each with four replicas in a randomized complete block design. The analysis of variance of average yearly yield gave a gumes, rambutan or Spanish cedar, 13.1, 13.6 and 13.9 t/ha, respectively, all different to black laurel with 10.5 t/ha. We have demonstrated additional income from fruit or timber shade is possible since cacao yield is not affected compared to traditional legumes except for some fast-growing competitive trees like black laurel. Radial growth of pollarded hybrid walnut trees in a mediterranean agroforestry system Dufour L. (lydie.dufour@inra.fr), Gosme M., Dupraz C. UMR System, INRA, Montpellier, France In temperate agroforestry systems, crop yield is reduced mainly by light competition (Dufour et al, 2013). Dramatically reducing tree canopy by pollarding may alleviate both light and water competition. Pollarding provides an additional production (branch biomass) but may affect timber production negatively. To assess this tradeoff, we compared the trunk radial growth of pollards and control trees in a cereal-based alley-cropping plot. In December 2013, fifty 22-year-old hybrid walnut trees were cut back at 4m height. Each pollard was paired with a control tree, always pruned up to 4 m high, with the same initial height and trunk diameter. Pollarding was repeated in October 2017. We monitored tree diameter growth with microdendrometers during 5 growing seasons. Pollarding reduced trunk growth in spring but increased summer growth 2, 3 and 4 years after cutting (figure1). The mean growth of pollards was 5.9±0.8 mm year-1 vs 6.3±0.7 mm year-1 for controls during 2014-2017; but only 2.6±0.8 mm for pollards vs 9.6±1.0 mm for control after the second pollarding. Ghahramany et al. (2017) evidenced that long term pollarding had a positive effect on the diameter increment of oaks. In contrast, we observed that the strong reduction the first year after pollarding was not totally compensated by the boosted growth during the subsequent years, while the second pollarding was impressively detrimental to trunk growth.  In coffee based agroforestry systems, biodiversity management by farmers is a promising lever for innovation to promote system sustainability and increase income. We hypothesized that the co-design of agroforestry cropping systems based on ecological process, and on implementation of innovative practices have to take into account the reality of the technical work as well as the farmer concerns and the knowledge leading to the actual plot management. The aim of this study is to examine how coffee farmers understand the diversity of their agroforestry systems and how do they manage it through their practices."},{"index":4,"size":155,"text":"We have developed an original methodology based on the activity analysis applied to the study of the shade trees regulation practices in the agroforestry coffee plot by coffee growers. The activity analysis is interested in human activity with a view to transforming and designing work situations. According to Theureau (2010), considering enaction paradigm, activity is considered as a dynamic of asymmetrical interaction between an actor and his environment 1 . Thus, human action is not considered to the actual achievement of a predetermined program resulting from the application of decision rules 2 . First, semi-structured interviews were conducted to understand the systems and the cropping practices drivers. Then, practices were studied in real situation, through participant observation and the use of methods of verbalization during practice, of self-confrontation and farmer-guided practice 1 . This study took place in Costa Rica (Turrialba). Agroforestry systems consists of coffee (Coffea arabica) and various types of shade tree species."},{"index":5,"size":196,"text":"Our results highlight each action carried out by the coffee grower, associated with farmers indicators, considered as the factors that farmer take into account in the agroforestry environment against the background of his concerns, knowledge or habits. These indicators inform about complexity of interactions between the coffee grower and his environment. This interaction occurred at several levels: for a systemic management (to favor the ecological processes like disease regulation), for an ergonomic management (to favor movements, or reduce risk of injury), for a personal management (based on an affective relation with the biotope). In that respect, shade tree regulation is not only intended to increase the incident light energy received by coffee, but also driven by other motivations. The re-design of innovative and sustainable cropping systems has to take into account the interaction between diversity of human situations and the agroforestry system complexity. In this context, how can practices be transformed? How can we support farmers to think about their own practices and initiate changes specific to them? The activity analysis is an efficient framework to nourish the thinking on current management practices and a promising way to support their progressive transformation in complex agroforestry systems."},{"index":6,"size":41,"text":"Keywords: co-design, agroforestry system, coffee growing, activity, farmers indicators. Cork oak is an important species in the Mediterranean agroforestry systems. There are few studies outcomes providing knowledge on the impact of different understory management practices, on the tree and cork growth."},{"index":7,"size":87,"text":"Monthly diameter increments, monitored with band dendrometers, and the seasonal variation of the specific leaf area (SLA) and N, P and K content of current-year leaves, were collected during two consecutive years from an uneven-aged cork oak pure stand that included debarked trees at two different years. This dataset provided information to study how trees respond to three distinct understory management alternatives (UMA): spontaneous understory vegetation maintenance (NUR, as control); understory removal with biomass incorporation into the soil (RUI); and understory removal with simultaneous NP fertilization (RUF)."},{"index":8,"size":662,"text":"A parametric approach was performed to identify seasonal patterns for the leaves variables, and differences among UMA and debarking ages. Differences were found between UMA and for the combined effect with different debarking years, where the P content was higher in the 2nd year on RUF. A difference on RUF was also revealed in the 1st year for the diameter increment. A linear mixed model was performed for the diameter increment, which allows simultaneously considering the UMA effect and its interaction with climate and distance-dependent competition indices. A positive correlation with precipitation was expectedly found regardless the UMA. Keywords: Montado, dendrometers, spontaneous shrubs, fertilization, cork growth. Forests provide adjacent communities with livelihood opportunities; during periods of uncertainty, shocks and stress, indigenous knowledge is used for alternate livelihoods. This study focused on the use of indigenous knowledge by local communities in the creation of agro-forestry alternatives amidst conservation programs in the Mount Oku Forest, North West Region, Cameroon. Based on frontline and secondary villages, five communities were randomly selected from the three tribes (Nso, Kom, Oku) that make up the forest. Selected Participatory Rural Appraisal tools were used to collect relevant data. Resources extracted from the forest were ranked; trees extracted from forest and planted in farms were identified, farm produce before and after the practice of agro-forestry was assessed. The paired sample t-test was used to test differences between agricultural productions from farms and livelihood opportunities before and after agro-forestry practices. The results indicated that there was a nities, viz-a-viz forest cover. Though there was diversification in livelihood opportunities, the lack of incorporation of basic scientific approaches of agro-forestry was a major limitation. There is need for a blend of indigenous and scientific knowledge and training of farmers, in the practicing of agro-forestry practices for forest sustenance and livelihood assurance in the Mt Oku area. The present investigation was conducted at the experimental field in the Department of Silviculture and Agroforestry, Dr. Y. S. Parmar University of Horticulture and Forestry, Nauni, Solan (H.P.) during 2017-2018 to evaluate the effect of different types of organic manure on yield and biomass production of Lepidium sativum under Morus based agroforestry system. The present investigation consisted two structural and functional components Morus alba fodder tree as woody perennial and Lepidium sativum as intercrop. In addition, the impact of three types of organic manure on performance of Lepidium sativum was observed under Morus and open conditions.There were eight treatments i.e.T1: Lepidium + Morus +FYM@ 4tonnes ha-1 (3.2 Kg plot-1), T2: Lepidium + Morus +Vermicopost@ 1.12 tonnes ha-1 (0.9 kg plot-1), T3: Lepidium + Morus +Jeevamrut@ 500Litre ha-1 (0.4Litre plot-1), T4: Lepidium + Morus +No Manure, T5: Lepidium + FYM @ 4tonnes ha-1 (3.2 Kg plot-1),T6: Lepidium + Vermicompost @ 1.12 tonnes ha-1 (0.9 kg plot-1), T7: Lepidium + Jeevamrut@ 500Litre ha-1 (0.4Litre plot- Agroforestry is a widely advocated adaptation strategy for enhancing agricultural resilience to extreme climates. Here we describe studies on jujube agroforestry regimes using two different cash crops: the annual fodder species rape (Brassica napus) and the perennial daylily (Hemerocallis fulva). The jujube agroforestry systems were characterized with respect to their interspecific water interactions and their responses to extreme natural drought using stable isotopic techniques and in situ soil water observations. We found that agroforestry altered the jujube trees' water sources but its impact depended on soil wetness: compared to monocultures, jujube trees in agroforestry systems generally shifted to deeper water under dry conditions but to shallower water under wet conditions. Complementary water use between jujube trees and crops was observed on most sampling dates, but there was clear evidence of water competition in the shallow layer under relatively wet conditions. Furthermore, it was found that facilitative interspecific interactions were clearly enhanced in both agroforestry systems during extreme drought. In addition, jujube yields in agroforestry systems were clearly higher than in monoculture. These findings demonstrate that agroforestry is a climate-smart agricultural system and can increase the resilience of semiarid jujube plantations to extreme real-world drought."}]},{"head":"Keywords","index":104,"paragraphs":[{"index":1,"size":52,"text":"Seasonal patterns of contribution of soil water at different layers to xylem water under different treatments in 2015 (upper) and 2016 (lower). The error bar represents one stand error. JT0, JT1 and JT2 denote jujube tree in the jujube monoculture, jujube/daylily system, and jujube/fodder rape system, respectively; DL: daylily; FR: fodder rape."},{"index":2,"size":403,"text":"Keywords: intercropping, water use, stable isotopes, interaction, Bayesian mixing model. . Results showed that the two areas have the same composition for dominant woody species but the mean tree density is higher in the ANR than in non-ANR areas. Tree density is lower in fields in the vicinity of the village than those that are far away irrespective to the two areas. Soil moisture in uppermost horizons is higher in ANR areas under -and out of canopy than in non-ANR area. However, in deep horizons up to 1.0 m, soil moisture is higher in ANR areas (under and out of canopy) than in non ANR areas. Apart from seeding density (F P-value in the non-ANR area. This study showed that the ANR improve crop production in a sustainable manner through the increase of crop yield. With the increase of tree density, additional direct incomes could be expected to smallholders through wood exploitation. , while that percentage in the eastern parts of the province, where the effect of the southeastern wind called Košava is the greatest, goes between 1.5 and 7.7%. Lowland terrain and the climate there make this area susceptible to wind erosion, i.e. degradation of the agricultural land. The negative effect is two-fold: deflation of fertile soil particles, and deposition of infertile material over fertile agricultural land. Degradation of the agricultural land due to the wind erosion, salinization of the soil caused by irrigation and flooding, spreading of infrastructure and similar negatively affect the area of land convenient for agriculture. The paper points to all the adverse effects that lead to the decrease of arable land areas in APV, making it vital to protect and preserve the most fertile zones. As a priority measure, raising forest windbreaks is suggested so as to provide a long-term protection of the degraded agricultural land and preserve the existing agricultural land, along with the crops raised there. The purpose of this paper is to analyze the need for, the types of and the techniques of forest windbreaks on the territory of the Autonomous Province of Vojvodina, in the Republic of Serbia, as well as to establish other positive impacts of planting and maintaining forests. It also presents a comparative analysis of the change in the ration between agricultural and forested areas based on CORINE Land Cover -CLC database, illustrating natural and both positive and negative anthropogenic effects on the protection and degradation of the said areas."},{"index":3,"size":64,"text":"Keywords: agricultural land, forest windbreaks, land degradation, wind erosion, protection. Forests play an integral role in securing livelihoods of the rural poor in Nepal. Large population, which does not have adequate land to cultivate, has been benefitting from common pool resources especially community forests. Management of community forests and sustainable use of diverse forest products, has significantly contributed to food, fiber, medicine and income."},{"index":4,"size":786,"text":"Drawing on the lessons learnt from community forestry in Nepal, this paper shows how strengthening forest-farm interface creates opportunities for securing food security of the people dependent on forests. The evidences were gathered during the five years of action research supported by Australian Centre for International Agricultural Research (ACIAR) in Lamjung and Kavre districts of Nepalese hills. It is evident that timber, fodder, grass, and non-timber forest products (e.g. tea, coffee, fruits) that are grown in close association with community forestry hold a significant share of income and livelihood of the people. However, the existing policies, regulatory framework and forestry institutions are not fully embracing these realities and still tend to be inclined to timber-centric management, thus overlooking the diverse existing and potential strategies for supporting rural food security. Strengthening forest-farm interface will not only help in achieving food security, but also contributes to check deforestation through reduced demand for agricultural expansion. Efforts to scale agroforestry in the arid and semiarid areas in Ethiopia are constrained by the high rate of tree mortality. These areas have low tree cover despite concerted efforts of tree planting by both governmental and non-governmental institutions. To enhance tree survival in East Shewa zone of Ethiopia, two micro catchments: micro basins and trenches were introduced in four districts: Adami Tulu, Dugda, Lume and Bora. This study sought to assess the effectiveness of the micro catchments in enhancing survival of three tree species: Cordia africana, Grevillea robusta and Mangifera indica through soil moisture retention. The study also sought to assess other factors that influence survival of trees from farmers' perspective. Survival of the trees grown in the micro catchments was compared with trees grown in the conventional planting pits (control). Tree survival data was collected through six-month assessment from planting time up to 36 months while data on farmers' perceptions was collected through a household survey involving 110 farmers who had planted at least one tree species for the past five years. Using SPSS, descriptive statistics and ANOVA were used months with no significant differences between trees in the micro catchments and those in the control. The highest mortality rate was observed between 6 and 12 months. Trees that had survived past 18 months survived up to 36 months. Survey results showed farmers had planted a total of 33 different species. Mangifera indica was planted by all households in Bora and Dugda. Melia azedarach was planted by 100% and 85% households in Lume and Adami Tulu respectively. Only 9 species were common across all the sites. Of these, a significant being recorded in Lume. Water scarcity was reported to be the main cause of tree death in all the sites (>30%). Livestock damage was the second main cause in Adami Tulu (25%) and Dugda (20%), insects and pests attack in Lume (33%) and Bora (29%). The study further revealed differences in tree management activities and access to water for trees across the sites. The study concluded that: in isolation, micro catchments may not adequately address the low tree survival rate in East Shewa. Not only is tree survival influenced by other factors such as inadequate soil water but also by livestock damage and attack by insects and pests; early stages of tree establishment are critical in overall tree survival; variations across sites in terms of tree species suitability and tree management influence performance of trees. The study recommends holistic approaches in addressing tree survival and further research into appropriate tree management practices suitable in the specific sites and for the different tree species, mainly focused at the early stages of seedling establishment. Beninese smallholders associate food or cash crops with young oil palm stands to reduce field maintenance costs and gain income before the oil palm comes into production. However, little is known about the effects of these agroforestry systems on nutritional and growth status of the tree at end of its juvenile phase although it is well known that the tree production could be affected by the management in juvenile phase. We selected 15 plantations where the crop succession associated with the trees was mostly based on maize, cassava, tomato and pineapple respectively. Nutrient contents in soil and tree leaves, and the vegetative growth of the tree were examined at end of juvenile phase. We found that N and P nutrition of young palms was satisfactory but K nutrition was deficient in all systems especially in tomato and pineapple ones. There was a significant correlation between K contents in soil and palm tree leaves. In the pineapple-and tomato-based systems, the amount of K fertilizer did not compensate the exportations by the crop. We concluded that competition for K are particularly important in pineapple-and tomato-based systems although fertilizer inputs were the highest."}]},{"head":"Keywords","index":105,"paragraphs":[{"index":1,"size":303,"text":"Trade-offs between profitability of these associated crops and the productive performance of the tree could be sought. A better adaptation of mineral fertilization could help in satisfying these compromises.  The aim of this study was therefore to assess local drivers and indicators of food insecurity by land degradation status. Local knowledge was elicited using systematic knowledge-based systems approach (AKT5) from 150 smallholder farmers through paired catchment assessment of three landscapes along a land degradation gradient in Western Rwanda. Data was analysed using R statistical software. Results showed a decrease in annual crop diversity or complete disappearance of some annual crops between 1995 and 2015, which 76% of farmers attributed to Crop Intensification Policy launched by the government of Rwanda in 2007 that led to specialization in a few 'high-value' crops. About 83% of farmers reported being food insecure, with the main indicator of food insecurity being food shortage during certain months of the year (mainly July to November) when the high value crops were not mature for consumption. This resulted in most farmers outsourcing food. Over time, farmers have become more dependent on the market, with food produced on-farm supporting them for an average 6.6 months annually in 2015 compared to 10.1 months in 1995. The main coping mechanism currently employed by 55% of farmers experiencing food insecurity was off-farm (paid labour). The frequency of mention of all the above parameters varied with land degradation status, but there were no gender differences. Inversely, there was an increase in perennial crop diversity between 1995 and 2015, mainly attributed to access to quality germplasm (66%) and tree propagation and management skills (34%), with farmers noting that tree food crops played a key role in filling food gaps during 'food -insecure months Agroforestry is well known and is becoming more popular as a sustainable farming method."},{"index":2,"size":80,"text":"In Latvia there is agroforestry, but it is not mentioned in local legislation. There are two main farming methods which could be also be classified as agroforestry, they are short rotation coppices, which is counted as agroforestry in some countries because trees are grown on agriculture land and have been managed like an agriculture crop. Multistrata agroforestry takes its cues from this natural structure, blending an overstory of taller trees and an understory of one or more layers of crops."},{"index":3,"size":46,"text":"Because multistrata agroforestry mimics the structure of forests, it can deliver similar environmental benefits. Multistrata systems can prevent erosion and flooding, recharge groundwater, restore degraded land and soils, support biodiversity by providing habitat and corridors between fragmented ecosystems, and absorb and store significant amounts of carbon."},{"index":4,"size":38,"text":"Whether the crop being grown is coffee, cacao, fruit, vegetables, herbs, fuel, or plant remedies, the benefits of multistrata agroforestry are clear. It is well suited to steep slopes and degraded croplands, places where other cultivation might struggle."},{"index":5,"size":40,"text":"The costs to establish such a complex system are high and without immediate returns. Though they are quite profitable once established, that investment may be out of reach for resource-poor farmers. That same complexity makes mechanization difficult, if not impossible."},{"index":6,"size":267,"text":"Tending and cultivating by hand means higher labor costs. And though resilience and longevity are superior, yields can be lower than with conventional approaches, as crops compete for water, light, and nutrients. Multistrata agroforestry cannot be implemented everywhere, but where it can, it promises a sizable impact. In addition to their high rates of carbon sequestration, these systems of cultivation are among the most energy efficient in the world. Management of isolated trees as an integrated part of smallholder farming systems has long been a key food security strategy in Africa. Current knowledge on the impact of parklands structuring on agrosystems productivity is limited. Combining multisources remote sensing, landscape ecology and statistical modelling, this study aims at evidencing the contribution of FMNR to the agricultural performance of smallholder farming systems at landscape scale in Senegal. Agronomical surveys were conducted in 2017 and 2018 on 70 farmers' fields with heterogeneous trees composition. We assessed groundnut aboveground biomass (AGB) and millet grain yield (GY). Proxies for parklands composition and vegetation productivity were derived from remote sensing. Regression models were calibrated and model parameters were optimized using a random sample consensus method accounting for measurement uncertainties. For 2017, Green chlorophyll index over millet flowering phase and whole groundnut cropping cycle allowed estimating GY and AGB with R² of 0.76 and 0.67 respectively. Integrating information on tree cover structure (fraction of soil covered by trees) increased assesspromising results have to be strengthened with data from ongoing cropping season but they already indicate the need to integrate information on trees at landscape scale to better assess agricultural performance of smallholder farming systems."},{"index":7,"size":103,"text":"Millet grain yield estimation (left) and groundnut aboveground biomass estimation (right) with a linear model and a random sample consensus algorithm applied to linear regression. Input variables are chlorophyll index, woody cover and phenological information derived from multisouces high spatial resolution remote sensing data. Another positive point for this new opportunity is to offer the possibility to farmers, often very busy, to join session without spending too much time outside their farm, but keeping the interactivity with other trainees or participants. In the same way, it's also the possibility to connect a same project with international partners… that encourages collaboration and shared learning."}]},{"head":"Keywords:","index":106,"paragraphs":[{"index":1,"size":177,"text":"Training, Blended learning, icosysteme, webinary. Trees on farms have the potential to improve the livelihoods of smallholder farmers. In addition to ecosystem services, they provide opportunities for generating additional income and contributing to household nutritional requirements. Despite these benefits, tree planting in the eastern drylands of Kenya has had many challenges, especially characterized by low seedling survival. This is partly due to erratic rainfall, planting of ecologically unsuitable tree species, poor quality seedlings, and poor tree seedling management practices. To support farmer learning to enhance tree seedling survival, 1600 farmers in Kitui, Machakos and Makueni Counties conducted on-farm planned comparisons to explore the performance of different planting and management practices on survival. The objective was to determine how different planting and management practices influence tree seedling survival across varying farm contexts. Farmers compared two sizes of planting holes with and without manure, and mulch. Seedlings of six tree species were planted in November 2016 and November 2017 and seedling survival was monitored six months after planting using electronic data entry. Data was analysed using R statistical software."},{"index":2,"size":147,"text":"Results showed that of the six tree species, Moringa oleifera seedlings had the highest survival rate in Kitui County while Carica papaya and Senna siamea had the highest survival rate in Machakos and Makueni Counties respectively. Seedlings planted with manure had a higher survival rate across all species and Counties. Azadirachta indica, Carica papaya, Mangifera indica , Melia volkensii, and Senna siamea had higher survival with the addition of mulch across all the Counties while seedlings planted in a woodlot had a higher survival compared to those planted along the boundary, scattered in cropland, along the terraces, and home compound. Survival was highest with watering in Makueni County while survival was higher for seedlings planted without fertilizer in Machakos and Makueni Counties. Seedlings planted in the 90cm by 90cm by 45cm hole had a higher survival rate than those planted in the 45cm by 45cm by 45cm."},{"index":3,"size":97,"text":"Survival was also higher in Kitui and Makueni Counties for seedlings planted in November 2017 compared to those planted in November 2016. Farmers reported that higher seedling survival was due to increased rainfall during the November 2017 planting season, improved farmer management of the seedlings due to practices learned during trainings, and changes in attitudes towards the value of tree planting which resulted in better management practices. Contextual variables affecting seedling survival include: household characteristics such as farm size, access to labour and inputs, and farm characteristics such as erosion status, soil quality and level of degradation."},{"index":4,"size":13,"text":"Keywords: Trees on farm, Options by context, On-farm planned comparison, Tree seedling survival."},{"index":5,"size":242,"text":"Many studies have demonstrated the advantages of cacao agroforestry systems. However, large scale, long-term field trials are not common, and the current body of knowledge is not sufficient to support farming recommendations. We are currently evaluating cacao agroforestry schemes at scale for an extended period (2015-2026) using a 12-ha agroforest in Côte d'Ivoire. The aim is to assess the economic and environmental benefits of large-scale cacao agroforestry. The experimental design is based on three agroforestry planting schemes and one control. Each agroforestry scheme has a different design comprising cacao intercropped with timber or fruit-trees, temporary & permanent shade (plantain and Gliricidia) with sufficient space for the growth of annual crops (maize and cowpea) during the establishment period of cacao. Scheme 1: double row cacao and teak. Scheme 2: double row cacao and coconut. Scheme 3: single row cacao and teak. Scheme 4 (control): single row cacao and plantain (typical small-holder's system). The trial has just completed the establishment phase. Measurements include i) economic performance: cost of inputs, labour and outputs, ii) agronomic performance: mortality, growth rates and yields and iii) environmental assessment: climate & microclimate data, soil chemistry, carbon sequestration and shade level. The establishment and early findings from the trial will be described. Arunachal Pradesh is rich in variety of agro-ecosystems. These ecosystems are being practiced by indigenous population representing 28 major and 110 sub-ethnic tribes. Agroforestry is one of the most commonly practiced farming systems in this humid sub-tropical climate."},{"index":6,"size":291,"text":"The poor small land holding farmers are mostly engaged in the agro-forestry systems and they adopted various cultivation strategies for their enhanced food security and better livelihood options. Out of various land use practices operated, the most common land use practices are Agri-silviculture, Agri-silvopastoral and Agri-horticulture in this foothill of Eastern Himalaya. Among these practices, home garden and shifting cultivation are the most prominent indigenous agroforestry systems extensively adopted for cultivation of variety of crops. Crops grown in home gardens are mainly selected by the tribes on the basis of their utility to the family for fulfilling day to day requirement of the family. These species includes variety species of trees, bananas, vines, vegetables, spices and diverse medicinally important herbaceous plants which are grown to make a dense canopy with random or spatial and temporal arrangements. Further, the dependency of the population is on age-old traditional slash and burn agriculture system which comprises variety of rice, maize, mustard, vegetables including various indigenous spices as major crops which played a vital role in meeting the basic family needs. Conservation of forest trees and bamboo in and around the agriculture fields adopted by the indigenous tribals provides resilience to the system at the landscape level. Besides agro-forestry practices, the region is endowed with rich and unique natural diversity of wild edible plants. However, expanding population and increasing cost of commodities are adversely affecting the sustainability of indigenous farming practices, which require attention from the policy makers and Government department to sustain such practices which should be ecologically balanced and economically feasible. It requires holistic approach of forest management in the tropics with emphasis on landscape management for sustainable management of resources, providing developmental benefits to local communities, based on equity and social justice."},{"index":7,"size":10,"text":"Keywords: Indigenous farming, Homegarden, Shifting cultivation, Food security, Northeast India."},{"index":8,"size":158,"text":"Agroforestry (AF) is considered to have a high mitigation potential and to be more resilient to climate changes compared with conventional cropping systems. However, the effectiveness of AF systems still need to be evaluated in the Mediterranean, where ongoing changes are exacerbating the interannual variability of climate, making farmers choices increasingly difficult. A multidisciplinary team is focusing on the establishment of a 40-ha Long Term Experiment (LTE), to support the transition towards AF in Tuscany. The purpose of the LTE is to assess the sustainability of rainfed AF compared with conventional arable and agro-pastoral systems. The LTE, started in 2018, is located in Pisa on clay loam soils (Fig. 1). Two AF systems, silvo-arable (SA) and agro-silvo-pastoral (ASP), have the same linear tree system for timber production, with poplar and oak, but different crop rotations. In AS the rotation consists in durum wheat, sorghum and faba bean; in ASP the 3 crops are followed by a 4-yr meadow."},{"index":9,"size":44,"text":"Trees have been planted along one side of each field, 2m away from drainage ditches, with a density of 60 trees ha-1. The space between tree rows and ditches are managed as semi-permanent buffer strips to increase functional biodiversity and to limit nutrient leaching."},{"index":10,"size":50,"text":"The controls are the 2 rotations without trees, 2 pure stands of poplar and oak and a polycyclic plantation (oak, poplar, hazelnut and alder). The LTE will be the base for future research and demonstration activities.  This abstract is based on existing projects developed by 12Tree Finance in Latin America."},{"index":11,"size":27,"text":"Cacao is a species native to the tropical rainforests of the Americas. The humid natural environment of cacao trees favors fungal diseases, which decrease the plants' productivity."},{"index":12,"size":38,"text":"To protect their investments, investors looked for drier climates to establish new large and capital-intensive commercial cacao plantations. However, these \"superior\" climatic conditions brought new challenges: water scarcity, lacking organic matter in the soil and adequate nutrition programs."},{"index":13,"size":196,"text":"For most South American large-scale producers, the solution was to establish monoculture cacao plantations in dry climates with complex irrigation systems that supply the water demand and compensate the evapotranspiration rates in such conditions. However, with increasingly erratic climate patterns, these dry zone plantations will have less surface water available over time and at all of the times. As rainfall decreases and temperature increases, deeper wells and bigger water reservoirs are needed. These factors combined with a volatile commodity market, make a point for agroforestry economic and environmental resilience. Agroforestry concepts used by 12Tree cacao provide moderate shade, while maintaining the environmental services of an agroforestry plantation; such as protection of younger plants from radiation and extreme heat, reduced evapotranspiration rate and increased organic matter in the soil over time. By reducing evapotranspiration, the amount of water required by the main crop reduces significantly. A cacao plantation in a full exposure system may require up to double the water lamina than an agroforestry system, because of the reduction in evapotranspiration. Lower water requirements mean smaller investment in pumps, wells and reservoirs, and less energy consumption because of shorter irrigation turns. In other words, lower operation costs."},{"index":14,"size":414,"text":"Using leguminous plants as primary shade, also decreases the amount of nutrients that must be provided by a nutrition plan, as leguminous plants help fixing nitrogen in the soil. The presence of shade substantially decreases the weed growth in a plantation; decreasing the cost of weeding. This ensures that the fertilization is more effective as there is less competition for nutrients between the commercial crop and the weeds. By using such profitable shade crops, the same plot of land can be used to produce two or more different crops that are linked to different commodity markets, which increases the economic resilience of a project as it diversifies revenues streams.Using Musaceae in the earlier stages of a cacao plantation is another good example how temporary shade crops contribute positively to financial returns [1]. Musaceae also attract Forcipomyia, a pollinator of cacao [2]. Having this pollinator in the plantation increases the pod production, thus increasing the returns [3]. , and a combination of other fruits, hardwoods, and fertilizer species, with a total of 33 species and average of 12 species per plot in innovative compositions. After 9-10 months, over 80% of areas have been managed properly, plant development has been satisfactory and farmer participation in demonstration sites and project activities has been high. Youth accounted for 54% of farmers directly involved in plot establishment and management, and women made up 45% of participants in project activities. Key constraints in initial establishment were low labor availability, significant losses of fertilizer species planted by cuttings, few short-cycle food crops in most of the systems, and insufficient planting materials to cover the whole site with some species. Given high labor requirements for more complex, biodiverse systems, it is highly advisable to establish smaller plot sizes than usually practiced for monocrop oil palm in the region, not exceeding 1 hectare per family per year in the case of family farmers. The prevalence of degraded lands and low ecological resilience where many of these new plots are being established calls for the wider use of fertilizer species. Overall, the greater use of short cycle crops and food species in the first year should also be encouraged to offset high initial establishment costs and enhance food security, thus spurring adoption. Constraints identified in the appraisal stage and confirmed in initial establishment also include the need for capacity-building and extension processes that build solutions with farmers, strengthening germplasm supply, and increasing access to the financial capital needed to cover high initial investment costs."},{"index":15,"size":218,"text":"Keywords: oil palm, agroforestry, Saf Dendê, diversification, Brazil. Dynamic Agroforestry without burning for land preparation for annual and perennial crop production in the tropics Milz J. 1 (j.milz@ecotop-consult.de), Jacobi J. 2 , Velasquez F. Slash and burn practices are still one of the most common methods used by small and largescale farmers for land preparation of bush and forest fallow for annual and perennial crop production in the tropics. The consequences are risks of uncontrolled bush fires, rapid loss of soil fertility, biodiversity loss, erosion, and high pressure by weeds, pests and diseases. Ecotop conducted an experimental study in the Alto Beni region in the lowlands of Bolivia during four years, producing upland rice, beans and maize while applying the principles of dynamic agroforestry processes as described by E. Götsch. In addition, within Ecotop's scope of participatory extension work with small farmers in Bolivia, Central America, Ivory Coast and Ghana, farmers are rapidly adapting non-burning field preparation. The slashed vegetation is chopped and the organic matter distributed uniformly on the ground. Dynamic agroforestry systems are also replicated elsewhere: In Ghana, a pilot phase of the renovation of unproductive cocoa plantations by implementing the principles of dynamic agroforestry started in 2016, and 450 ha of dynamic agroforestry systems are going to be established with small farmers as of 2019."},{"index":16,"size":130,"text":"In general, it is thought that the main reason for field preparation with fire is because of less labour requirement comparing with non-burning land preparation. Nevertheless, on-field monitoring of labour investment for land preparation in the Alto Beni Region without burning indicated less requirement of working hours compared with the use of fire. Implementation costs are varying according to characteristics of existing vegetation, topography and land use history. Labour requirement for land preparation with and without burning included slash of fellow vegetation, chopping of branches, tagging for cocoa plantation of 4m x 4m, preparation of banana suckers, digging of holes for banana and cocoa planting, sowing of maize, beans and squash. The average labour requirement was 513 working hours/ha for non-burning and 681 working hours/ha for land preparation with burning."},{"index":17,"size":141,"text":"The main difference is that land preparation without fire for dynamic agroforestry systems requires the establishment within a timeframe of only 3 to 5 days. The planting of banana and by-crops have to be done before cutting and chopping the vegetation while land preparation with fire can be extended within a time frame of several weeks. Throughout the four years of the upland rice field experiment in Bolivia, we achieved annual yields comparable to slash and burn plots on primary forest soils of around 1560 kg/ha of husked white rice without land rotation and any external inputs. Average yields of upland rice in the Alto Beni region are normally less than 1000 kg/ha. Further labour requirements for weeding in non-burning fields are considerably lower than in burnt fields and cocoa, banana and other crops are performing better than in burnt fields."},{"index":18,"size":18,"text":"Keywords: Dynamic agroforestry, Non-burning land preparation, Upland rice in dynamic agroforestry, Bolivia, Ghana, Ivory Coast, cocoa production Ghana."},{"index":19,"size":611,"text":"Agroforestry are sustainable land management systems able to increase the production considering both the woody and herbaceous component. The Woody component economic return is usually produced when the stand is thinned and in the final harvest. However, the herbaceous production is usually negatively affected by the shade, but it also depends of the type of understory that it is grown. Yield SAFE is a biophysical model that allow to compare different crop production under different tree management options. The aim of this paper was to compare the herbaceous production of wheat and grassland in a tree less situation and a silvopasture system with low tree density (600 trees ha-1) developing four different scenarios. Wheat and grassland were sown at the beginning. Under treeless situation (Figure 1), wheat produces more than grasslands, but in extreme years with a high leve lof drougth the production of pasture is reduced in a lower degree or even not reduced. When the herbaceous component grows up under the tree, wheat diminishes more its productivy than grasslands. As a mean pasture under tree is able to maintain the 20% of the full sunlight situation grassland production, while the whea is below 5%. We can conclude that having grassland as part of the understory of a pinus radiata silvopastoral systems, farmers are able to have more forage than having wheat. Moreover, the resilience of pasture availability is higher when grassland is used in silvopastoral systems. Mosquera-Losada M. R. 1 (mrosa.mosquera.losada@usc.es), Chatrchyan A. 2 , Chedzoy B. J.   Keywords: environment benefits, productive benefits, social benefits.   A randomized complete block design replicated three times was used with 5 treatments, continuous unfertilized maize (T1), natural fallow-then maize (T2), pigeonpea intercropped with grass in (1st year) -then pigeonpea (2nd year) -then maize (3rd year) (T3), maize intercropped with pigeonpea (1st year) -then pigeonpea (2nd year) -then maize 3rd year (T4). Two-year pigeonpea fallow then maize on 3rd year (T5). Pigeonpea fallows were planted as pure stands at a spacing of 1 m by 1m, direct seeded in 2015/2016 season. The fallows were terminated in November 2017, and then maize was planted in all plots. Soil macrofauna was sampled using steel monoliths. Infiltration rate was measured using double rings. Aggregate stability was measured using a modified wet-sieving technique.Data was analyzed using Estimate S, Correlation and macrofauna species richness and diversity as indicated by the order T5 (17.44d) >T4 (13. Increase in aggregate stability and infiltration can increase potential for rapid capture of rainfall. This will also decrease the potential for runoff, erosion, and evaporation leaving more water available for maize crop use. This ultimately leads to a more sustainable viable system and under climate change variability maize crop may go under dry spell, hence it will create resilient maize cropping system. The Food Forest as part of Agroforestry approach seems to give convincing results in term of marginal land management, reduction of inputs, sustainable production and ecosystem services, even though it is still little studied and known. It is based on the prevalent use of perennial varieties and the design takes place according to the creation of an ecosystem, based on self-fertilization, the close cycle of nutrients typical of a forest and the constant coverage of the soil. All these factors create a model with very low energy and care needs but highly fertile and biodiverse, and therefore resilient. This article is an attempt to describe the phenomenon of the \"Food Forest\" in the Italian scenario, researching design methods, purposes and specific characteristic of the forest creation. 6 case studies from 5 Italian regions were visited and interviewed in 2017 to registered plant species and varieties, the gastronomic use and potential ecosystem services."}]},{"head":"Keywords","index":107,"paragraphs":[{"index":1,"size":43,"text":"According to the results, the formation of these 6 food forests are quite recent with similar aims (mainly educational and self-sufficiency) on experimental base. In small areas (3000 m2 as average) 113 species/varieties of vegetables and 2 animal species were identified in total."},{"index":2,"size":466,"text":"The species were chosen for different productive roles, ecosystems functions and characteristics. Many results are already tangibles but productivity, animal interactions, consolidation and enlargement of surface are goals for the near future. Central European countries have a strong potential for agroforestry application in practice, which has become a rediscovered land use system of mainly family and small-scale farmers and foresters in the last years. The main aim of the study was to give a general overlook of the role and potential of agroforestry in Slovak Republic, Czech Republic, Poland and Hungary with special attention on selected agroforestry systems. One of the most traditional agroforestry systems in Slovakia is represented by juniper pastures. Current findings from the mapping of juniper localities occurrence in Slovakia confirm the assumption that vital juniper stands suitable for fruit production can be most effectively exploited as agroforestry systems combined with livestock grazing. In the Czech Republic several traditional systems had occured until the begining of the 20th century, however slowly disappearing starting from the second half of 19th century due to intensification and collectivization in agriculture. Mainly hedges on the borders of particular properties, homegardens and pasture in forests were the most frequent in this period. Relicts of traditional agroforestry practices remains in some areas, especially in montane regions (silvopasture, «Streuobst»), such as White Carpathians Mts. Nowadays, the development of small farms based on family enterprises tend to re-establish these traditional elements (hedges, windbreaks, Streuobst, etc.) in the landscape as well as establish new agroforestry systems (e.i. alley cropping) in some areas. The estimated proportion of total territorial area based on LUCAS data is 0.6 %. In Poland, there is slowly growing interest among farmers (particularly organic, but not exclusively) in planting mid-field trees rows (including lime, ash, elm, black locust, willow or traditional varieties of fruit trees) for biodiversity conservation (green infrastructure concept), protection against wind impact on grazing animals and honey production. There are number of different social actions aimed at planting trees on rural areas carried out by NGOs (e.g. Eco-Development Foundation, Agri-Natura Foundation, Polish Agroforestry Association) or landscape parks (e.g. Landscape Park Complex the Wielkopolskie voiovodship). Despite many campaigns and local workshops, lack of unequivocal definitions considering trees on agricultural lands, particularly trees management rules discourage farmers to plant them. Wood pastures have been present in Hungary for thousands of years. According to the recent surveys, there are about 33, 000 hectares of wood pastures in Hungary, 90 % of which is located in protected or EU Natura 2000 areas. Today, large areas of wood pastures are overgrown with shrubbery and trees, causing serious problems at farm level. The restoration of abandoned wood pastures is a key issue for developing the natural and cultural value of the rural region, and also for the profitability of the livestock industry."},{"index":3,"size":79,"text":"Keywords: Central Europe, agroforestry practice, traditional systems, wood pastures, hedges. Among agroforestry systems, the intercropping of fruits and market gardening (Horticultural Agroforestry System -HAS) is innnovative and attracts more and more new entrants to farming (Burgess et al. 2018;Léger et al. 2018). Although HAS meet environmental and social challenges, particularly with regard to diversified and local food consumption, their management is challenging because of species diversity and the complexity of fruit and vegetable management practices (Lauri et al. 2016)."},{"index":4,"size":18,"text":"The present study aims to understand how labor organization and management practices are impacted by the agroforestry configuration."},{"index":5,"size":47,"text":"A framework co-developped with farmers was implemented to record workload in market gardening and orchard activities. Regular follow-ups and semi-structured interviews in 9 farms made it possible to acquire data on workload for fruit-trees and vegetable management practices and to highlight frictions points between these two activites."},{"index":6,"size":41,"text":"The results reveal (i) an increase in the overall workload induced by the management of two activities; (ii) numerous friction points between orchard and market gardening management practices (Fig. 1); (iii) innovative strategies developed by farmers to address this increasing complexity."},{"index":7,"size":167,"text":"Often very promising on paper, HAS are sometimes more difficult to set up in the field (Eksvärd 2016). The present work points out the main antagonisms related to the simultaneous implementation of fruits and vegetables in an agroforestry design.  Agroforestry is a land management system in which trees are cultivated among crops or pasture. Tree products, such as fruit or nuts, are one of the outputs of this system; the other output(s) are in the form of plant crops and/or livestock. It is found on every continent, using a range of cultivars. In the Sahelo-Sudanian zone of Africa, agroforestry is the dominant land management system. The two key tree cultivars are shea (Vitellaria paradoxa) and nere (Parkia biglobosa). The main products from these trees are the fruits, and these are important both as a source of nutrition and as a commodity that farmers may sell at market. The importance of these products is particularly high for more marginalised and vulnerable communities that rely on subsistence smallholder farming."},{"index":8,"size":52,"text":"Across the African continent, many rural communities also use insects for food and income. Until recently, this was limited to the harvesting of insects from wild land and agricultural fields. There are now a few initiatives that promote farming edible insects in enclosed systems, but most are still in the pilot phase."},{"index":9,"size":196,"text":"In the Sudano-sahelian zone, the edible caterpillars Cirina butyrospermi and Cirina forda are harvested widely from both wild and cultivated areas. Their abundance is partly due to their food preference: the shea tree. They do not appear to cause damage to shea fruit production, though evidence for this is not conclusive. The caterpillars are sold in rural and urban markets, but recently in Burkina Faso a company has responded to urban demand by processing and packaging the caterpillars in a way more palatable to the high-end consumer, and distributing these in supermarkets at a high price. This strategy could generate additional income for the collectors of the caterpillars. The purpose of this paper is to explore some concrete examples of possible solutions. It is possible to combine the production of several commodities, and this is the basis of the management of other multipurpose tree species in agroforestry parklands. Specifically, double-end species are common and the differentiated management practices (eg. Of Adansonia digitata, Parkia biglobosa…) implemented by rural communities could be a source of inspiration. Thus, certain individual or stand-level management (offset harvest, pruning and pollarding techniques, differentiated management) could increase and spread foliar production over time."},{"index":10,"size":425,"text":"The development of insect farming could also, like certain old practices (sericulture) or recent initiatives make it possible to manage this resource more sustainably. In many regions, finding a means of protein production that is compatible with the maintenance of tree cover is a major issue. Thus, better management of foliar production in agroforestry systems as an aerial forage resource specifically dedicated to insect farming opens important perspectives in terms of diversification and the promotion of new agroforestry practices. Agroforestry (AF) studies tend not to take much into consideration the different options available for the management of crops per se, generally taking into account classical techniques. However, in these single farming systems, reduced or no-tillage methods using mulch or cover-crops defined as Direct seed Mulch based Cropping systems (DMC) are gaining momentum. According to recent studies, DMC systems result under specific conditions in an enhancement of biological activity of soils and optimization of soil-plant-microorganisms interactions which in turn can enhance the resistance of crops towards plant pathogens. DMC systems have however been rarely combined with AF systems. A straightforward explanation lies in the high level of expertise needed to follow each of the two approaches, which makes their combination highly complex. But more fundamental issues such as the difficulties to manage root competition between trees and vegetables without ploughing are also at stake. The objectives of our work is (1) the co-design and co-implementation with farmers of DMC and AF systems, ( 2) the study on how these systems and their combination affect the farming system in its whole and ( 3) the continuous diffusion of the results of this study. We focus on a co-design which is a result from a thorough collaboration between the farmers and our partners which are AF structures and experts in different fields. We started our work in 2016 and are currently collaborating with a network of 34 farms (arable crops, breeding and horticulture) in the South-East of France which are using or developing DMC and/or AF systems (e.g. vegetable-orchards, agroforestry in arable crops) since 2007 and up. Ndoli (2018) [1] has already shown that under specific conditions the combination of DMC and AF systems can lead to a reduced productivity as in the case of maize grown under trees. Hence, one of our aims is to identify technical and design options optimizing the combined management of crops and trees in DMC systems and allowing the success of the farming system in the long run. We direct this identification into an iterative process with the co-design of the farms."},{"index":11,"size":108,"text":"The co-design of the DMC and AF systems is implemented based on the diagnosis of the farming system at various levels associated to the farmer's objectives. On-farm experiments are then processed by the farmers in order to test the viability of the design. The ADAF carries out with the farmer and in relation with the technical partners the monitoring and evaluation of various parameters which assess the agronomic, environmental and socio-economic performances of the farm as well as the soil and crops conditions. Focus is also made, through a systemic approach, on the specific linkage between crop culture and tree management (e.g. workforce repartition and adaptation in vegetable-orchards)."},{"index":12,"size":161,"text":"Keywords: co-design, conservation agriculture, on-farm experimentation, systemic approach, participatory development. The Free Labour Contribution Period (FLCP) is a common feature of rural society in the Tigray Region of Ethiopia. During this period, typically lasting between twenty and sixty (20-60) days, community members volunteer substantial hours of intensive labor towards large-scale projects, frequently directed at watershed restoration. Many agroforestry initiatives in Tigray rely on the FLCP-often unwittingly-to realize projects, and as such, the FLCP is a force that animates much 'community-led participatory agroforestry' in the region. Despite the centrality of the FLCP to these projects and practices, there is little scholarship or systematic treatment of the FLCP within programming, publications, or evaluation schemes. This research dimentionalizes a case study in Abreha we Atsbeha, a qebele (village) known for successful restoration and agroforestry efforts [1], through the lens of the FLCP. In so doing, it aims to initiate academic documentation the FLCP and identify key factors that motivate community participation in FLCP-based agroforestry."},{"index":13,"size":38,"text":"This interdisciplinary case study relies on three types of data collected via the following methods: (1) ethnographic qualitative data collected through participant observation, focus groups, and interviews (2) quantitative labor data collected at the woreda (regional) level and"},{"index":14,"size":42,"text":"(3) historical data synthesized from previous publications, analyses and archives. [2] The data was analyzed using conceptual mapping to identify loci of decision-making within the community, and assess the degree of participation afforded within this loci to community members across different metrics."},{"index":15,"size":89,"text":"The results suggest a high degree of heterogeneity among different community stakeholders in their attitudes, motivations, and perceptions surrounding the FLCP. Moreover, results reveal that while many community members understand the economic and environmental benefits of their work, participation in the FLCP is also motivated by fear of punishment. Notably, political party affiliation appears to play a substantial role in determining a community member's ability to participate in FLCP decision-making, which in turn may negatively impact their perception of both the FLCP and the projects undertaken during the FLCP."},{"index":16,"size":320,"text":"The study concludes that a lack of political diversity historically enables the FLCP, making possible the mass movements and large-scale projects central in Abreha we Atsbeha's success. This political monoculture may render Abreha we Atsbeha-and communities seeking to emulate it-vulnerable to political shocks and stressors across scales. The study offers an improved sampling methodology to assist future researchers model and survey the unique political organization of rural communities in Tigray and beyond. Ultimately, this knowledge can help integrate agroforestry within political frameworks, and steer community interaction with intensive agroforestry initiatives towards more durable, equitable, and resilient outcomes. Agroforestry can generate multiple ecosystem services underpinning human wellbeing while maintaining environmental integrity but rather than promoting silver bullet technologies across large areas, menus of options need to be tailored to local context. There are knowledge gaps in scientific understanding about how to enhance tree cover to deliver a range of ecosystem services. We present insights on how to do this from participatory action research across contrasting farming contexts in sub-Saharan Africa. In all cases, farmers had knowledge of a wider range of tree species than was available scientifically or promoted by extension services. This knowledge can be used in tree planting or regeneration initiatives to include a diverse range of tree species, largely unknown to science but important in farmers' practice. Doing so results in agroforestry options that are more inclusive, with different options suiting different people. Drawing from these experiences we propose a co-learning framework that integrates multiple knowledge systems through the facilitation of stakeholder engagement to identify agroforestry options for different contexts, alongside interventions required in the enabling environment for them to be realised. Co-learning continues beyond the design phase to drive iterative evaluation and refinement of options based on their real world performance, thereby reducing risks and increasing benefits for smallholder farmers adopting innovations. Agroforestry is a pillar of the agroecology program initiated by the French government in 2012."},{"index":17,"size":230,"text":"In Western Europe, hedgerow landscapes are one of the most widespread agroforestry systems (Baudry et al., 2000). Initiatives of hedge's restoration have primarily emphasized their value as providers of environmental services. For instance, their local impacts on nutrient leaching and carbon sequestration are widely recognized (Moreno et al., 2018). The « Terres et Bocages » farmers' association promotes a more multifunctional view of hedges as productive resources, contributing to the sustainability of farming systems. Wood chip resulting from tree shaping and early management pruning has a low energy value. While their use as mulching generates shipping costs, the farmers investigate their agronomic interest as an organic amendment in the cultivated field. In this context, the project presented here aims to bring together farmers, teachers/scientists and students in order to challenge different views of soil quality in a hedgerow agroforestry system. It is based on a scholar field experiment involving soil indicator measurements in two livestock farms in Brittany (France). In Loire-Atlantique, at the West of France, we can see paddocks surrounded by trees managing by dairy farmers. They choose to create and manage innovative paddocks inspired by the bocage system. Indeed, this agricultural practice is a heritage as rotational intensive grazing was common in the first part of the twentieth century. Yet, these new paddocks are designed for contemporary farming: trees are planted instead of hedges which permits crop rotations."},{"index":18,"size":108,"text":"These new rotational intensive grazing systems have numbers of benefits. Firstly, paddock's size is designed for a 2 or 3 days grazing rotation which contributes to maximise fodder quantity and quality. If there are more paddocks available than needs, they can be cultivated or can be cut for hay. Moreover, small paddocks help avoid grazing refusal as there is less food available. Secondly, trees contribute to animal well-being as they provide shade. Thirdly, farmers and advisors notice that cows don't cross trees lines and are quickly adapted to the new pathway without harming fences. This helps zone management of livestock. Finally, farmers save time as distances are shorter."},{"index":19,"size":37,"text":"To enhance this note, we will come with a farmer to the 4th World Congress on Agroforestry. His story will help to explain how rotational intensive grazing systems are created according to each farmer's situation and needs. "}]},{"head":"Multifunctional boundary hedges: making the most of the possibilities","index":108,"paragraphs":[{"index":1,"size":140,"text":"Vityi A. 1 (vityi.andrea@uni-sopron.hu), Kiss-Szigeti N. 2 , Szalai Z. Hegdes and shelterbelts have history in some European countries, for their important role in protecting fields, people, poverty and livestock and improving productivity.In Hungary and many other Eastern-European countries hedge and shelterbelt management is a historical agroforestry practice. During the last decades their numbers are reduced and their condition is deteriorating in many places.After their disappearance environmental problems occurred (e.g. soil degradation) and led to economic difficulties. Therefore, the Hungarian Regional Agroforestry Innovation Network (RAIN) focuses its work on promoting the multifunctional benefits of shelterbelts and their innovative use in mixed farming for land owners.In this case study the farmers and researchers share their experiences on silvoarable organic mixed agroforestry farm where boundary hedges are planned and managed in accordance with the principle of making the most of the possibilities."},{"index":2,"size":7,"text":"Keywords: shelterbelt, hedgerow, agroforestry, multifunctional, mixed farm."},{"index":3,"size":52,"text":"Agroforestry systems designed to decentralise both food and energy production, based on diversity at all levels, within and among crops, can mitigate climate change and increase sustainability. For example, the organic crop rotation at Wakelyns Agroforestry is widening the range of crops grown both for resilience and for diet in the locality."},{"index":4,"size":304,"text":"For wheat, we have developed a composite cross population which is reliable in widely varying environments including alley cropping, with no external inputs. Small-scale sourdough fermentation of the wholemeal flour produces easily digestible bread with outstanding taste and quality. For apple, dispersal of different varieties among timber trees provides a high level of protection against all common pests and diseases with no external inputs, again with potential for fresh consumption and local processing and marketing. System maturity (the main tree planting was completed in 1994/5) leads to vegetational climax progression and increasing biodiversity which contributes to productivity both directly and indirectly. For example, muntjac established naturally on the site and has become a livestock enterprise through regular culling for local processing. This aspect of decentralised food production was achieved at almost no cost. However, we delay climax progression of the trees by coppicing and pollarding so as to maintain tree growth at maximum rates, increasing potential fuel production. For the past 10 years, wood chip (mainly willow and hazel) produced on the farm, has provided central heating and hot water for the farmhouse. We now aim to change the current boiler for a small-scale CHP (combined heat and power) unit which will deliver both heat and electricity so as to further decentralise energy production and reduce transmission losses. Thus, alley cropping integrates decentralisation of both food and energy production, while delivering many other benefits including increased biodiversity, carbon sequestration, water storage and health benefits for the crops, animals and humans involved. The next stage, already in progress, is to encourage wide replication of the principal system to other smallscale, food and energy circles (not chains) in different localities. This will highlight the potential for 'commoning' (Ferrando & Vivero-Pol 2017) to sustain and enrich the natural world from the soil upwards by connecting these replicates."}]},{"head":"L10.P.71","index":109,"paragraphs":[{"index":1,"size":19,"text":"Agroforestry management to maximize ecosystem services provided by soils Mao Z. 1 (maozhun04@126.com), Zuo J. 2 , Cardinael R. "}]},{"head":"Agroforestry adoption","index":110,"paragraphs":[{"index":1,"size":6,"text":"Adopting the future of land use"}]},{"head":"-L11 -Agroforestry in public policies","index":111,"paragraphs":[]},{"head":"From pen pusher to tree pusher: agroforestry in public policies","index":112,"paragraphs":[{"index":1,"size":166,"text":"The Sustainable Development Goals, agreed in 2015, encourage all countries to address 17 social, environmental and economic goals that promote prosperity while protecting the planet. Whilst there is clear evidence that agroforestry can support the attainment of these goals (see the other sessions!), farmers continue to cite administrative and policy burdens as one of the most important reasons for not using agroforestry. In this session, we are seeking papers from tropicaland temperate contexts that move beyond stating that there is a mis-match between our aspirations for agroforestry and its administration and implementation in practice. Instead we want to encourage papers that demonstrate and explain how public policies, initiatives,strategies and action plans can successfully promote agroforestry at regional, national, and international levels. We encourage researchers, practicioners and policy makers to submit and to participate to an exciting roundtable about the key policy ingredients to make agroforestry attractive for farmers. Hopefully by learning about agroforestry policies that work, we can frame the key steps towards an agroforestry transition."},{"index":2,"size":329,"text":"For agroforestry to reach its full global potential, there is a need to overcome barriers and create favourable environments at all levels. This requires horizontal integration across sectors, such as agriculture and forestry, and vertical integration between local, national and regional governance and operations (Coe et al. 2014). Local uptake can be enhanced through for example active farmers' organisations and the availability of sustainable value chains for agroforestry products. There is also a need for conducive national or sub-national guidelines, policies and plans (with an attached budget to facilitate implementation), and a link to regional and global frameworks to create a favorable environment for scaling up agroforestry. The Agroforestry Network (2018 and 2019) in Sweden has produced a series of reports and briefs to explain how and why agroforestry should be at the top of policy-and decision-makers' minds. The recommendations can be considered at local, national, and global levels: Local action: this includes increasing knowledge and cooperation among key stakeholders whilst ensuring gender equality and equity; engaging with farmers' organisations and groups; considering longer funding cycles and increased funding for agroforestry projects and research; supporting more demand-driven, participatory and inclusive research which benefits from local knowledge systems; strengthening agroforestry value chains; and promoting multi-functionality in landscapes through a mix of tree species on farmland and mosaics of forests around farm land and in uplands. National and regional policy: this includes making agroforestry visible in policies, strategies, and budgets and communicate successful implementation; strengthening land tenure and resource rights for smallholder farmers and indigenous peoples; ensuring that policy instruments and investments are appropriate for smallholder farmers, especially women; and using multi-actor dialogues to integrate policy-making particularly across agriculture and forestry. Global frameworks: this includes connecting agroforestry practices to the Sustainable Development Goals (SDG), the Paris Agreement, and the Convention on Biological Diversity, and report progress. Agroforestry can contribute to at least nine out of the 17 SDGs: 1, 2, 3, 5, 6, 7, 12, 13, and 15. Keywords: sdg, policy."},{"index":3,"size":376,"text":"Multiple management decisions affect the species composition and the architecture of agroforests and forestry plantations. Mixed-species plantations and agroforestry systems that incorporate a diversity of indigenous tree species have the potential to restore degraded land in a way that is more productive and supportive of biodiversity and other important ecosystem services (Lamb et al. 2005, Perfecto and Vandermeer 2008, Tscharntke et al. 2012, Leakey 2014). However, mixed-species plantations and diverse agroforests are more complex to manage than monocultures of well-known exotic species. The complexity of working with multiple species, and the lack of information regarding indigenous tree species performance, ecology and silviculture, have been long recognized as important limitations for the widespread adoption of indigenous species in agroforestry systems and mixed-species plantations (Evans 1999). Nevertheless, and in response to this, an important pool of knowledge on indigenous trees' ecology and silviculture has been developed in the last decade (see for example, Rolim & Piotto 2018, Wishnie et al. 2007), providing project managers of agroforestry and forestry operations with a suitable set of species for planting. Hence, instead on focusing on technical barriers, this presentation discusses key policies, and public and private investments that could address market related barriers currently influencing management decisions about the species composition in agroforest and forestry plantations under 12Tree's management. Specifically, the need for coordinated private and public efforts to build regional-scale processing facilities that provide a market for timber and non-timber forest products (NTFP) grown in diverse agroforests and mixed-species plantations. Founded in Berlin in 2016, 12Tree Finance is an investment advisory and asset management company working with institutional investors to place capital in sustainable forestry and agroforestry projects in deforested and degraded agricultural lands of Central and South America. 12Tree manages more than 150 million euros in assets covering about 20 000 ha. Current investments include established and new agroforestry projects in the Dominican Republic, Guatemala, Costa Rica, Panama, Colombia, and Ecuador. Drawing on 12Tree's experience in Central and South America, this presentation describes three case studies that highlight the enabling conditions for constant growth and advancement of the agroforestry industry. In addition, the presentation reveals how localized eco-industries could help get around the problem of low timber prices triggered by the abundant supply of illegal wood from natural forests. "}]},{"head":"LISIS, ENS de Lyon -UPEM, Lyon, France","index":113,"paragraphs":[{"index":1,"size":694,"text":"In 2017, the European Court of Auditors special report n°21 concludes that \"greening, as currently implemented, is unlikely to significantly enhance the CAP's environmental and climate performance\". Can we extend this conclusion to agroforestry? To answer this question, I focus on how the CAP's cross-compliance is able or not to protect hedges. In France, the greening was directed on the first pillar payments, but also extended to the cross-compliance, that is compulsory rules that every farmer has to follow. They are named \"Good Agricultural and Environmental Conditions\" (GAEC) and, among them, a new one concerns agroforestry: the GAEC7, which protects ponds, copses and hedges. Since 2015, farmers who receive CAP payments cannot uproot hedges without an authorization. If this seems to be a good thing to conserve a traditional form of agroforestry, in the different French departments the GAEC7 implementation is however highly variable: sometimes the GAEC7 is well applied resulting in the diminution of hedges' uprooting ; sometimes the GAEC7 is not applied resulting in the unchanged, or even increasead, number of hedges' uprooting. My communication identifies political, social and environmental factors that explain this phenomenon in different local contexts. The materials result from a long field work inquiry (2016-2019) led for my PhD in sociology on the CAP greening. The ethnographic method used is based on social immersion which allows the researcher to understand people's practices and representations. The two types of actors encountered are state local administrations and agroforestry associations. I analyze three types of materials: ethnographic observations; in-depth sociological interviews; and gray literature. This study was partly conducted in collaboration with the French Association of Agroforestries (AFAC). The focus on the regions of Britanny (West), Auvergne (center) and Rhône-Alpes (East) provides a wide range of agricultural practices and social contexts. The main result is that the GAEC7, even if mandatory, is not implemented in the whole country. Its implementation often, but not necessarily, results from the conjunction of two factors. The first one is that the hedge's official definition excludes some types of hedges. It follows that is difficult to protect hedges that are found in the local landscape but are not officially defined as hedges in the law. But the most important factor is political: I observe a correlation between the activity of local agroforestry associations and the application of the GAEC7. I show that the quality of the relation that these local associations maintain with the state administrations is also crucial to the GAEC7 implementation. With this French case study, this inquiry moves toward the idea that an efficient agroforestry public policy is not only a text, as ambitious it is, but also, and maybe primarily, a network of local administrations and associations. Agroforestry systems (AFS) are recognized as being a land use system that can improve the sustainability of agroecosystems (Wilson et al, 2016). However, low market opportunities for its products is one of the challenges for its adoption, especially the more diversified AFS (Coq-Huelva, 2016). With this perspective, the Brazillian National School Meal Program (Programa Nacional de Alimentação Escolar, PNAE) and Food Procurement Program (Programa de Aquisição de Alimentos, PAA) have emerged in the last decade as public policies aimed at stimulating purchasing of local products (Grisa & Porto, 2015). This research aims at assessing how the programs have encouraged biodiversification and in particular in AFS. We compare two municipalities in the Brazilian Amazon, Paragominas and Irituia. By realizing interviews with local stakeholders and review of documents, we identify the variety of products that have been acquired through programs representing different cropping systems (Table 1). The AFSs are the most significant cropping system purchased by the programs in Irituia, differently from Paragominas. This can be explained by the set of background initiatives improving AFSs carried out in Irituia. Programs, in this case, have emerged as one of the drivers of this expansion process. We conclude that the programs have a great potential to act on the expansion of diversified systems such as the AFSs, as long as they are associated to other actions present at the local level.  Although increasingly recognized, the role of agroforestry in mitigating climate change still did not reach its full potential."},{"index":2,"size":106,"text":"Basing on a review of available literature and on an in-depth analysis of agroforestry approaches in selected NDCs, the paper aims at understanding where the gaps are and at providing a set of suggested considerations for policy-makers. The paper also maps the role of agroforestry as a measure for emissions reductions from the AFOLU sector, through REDD+ and NDCs. We evaluate the opportunity that these national strategies and contributions offer to scale up agroforestry in moving towards concrete and long-term results within the countries, and bring concrete good practices for how agroforestry can contribute to the goals of national policies and Paris Agreement, for wider uptake."},{"index":3,"size":7,"text":"Keywords: redd+, agroforestry, climate change, policies, NDCs."}]},{"head":"Historical Agroforestry Policies","index":114,"paragraphs":[{"index":1,"size":33,"text":"It is estimated that there are 15.4 million ha of agroforestry systems in Europe, comprising 8.8% of the utilized agricultural area [1]. Yet the first mention of \"agroforestry\" in policy documents of the "}]},{"head":"Future Agroforestry Policies","index":115,"paragraphs":[{"index":1,"size":67,"text":"There are important opportunities for agroforestry promotion in the CAP for 2021-2027, which is currently being developed. Within Pillar I, there are plans for Member States to develop \"Ecoschemes\" and to map and set a minimum threshold for \"isolated trees\" and \"lines of trees and groups of trees\" [5]. Within Pillar II, there are plans for \"Agro-Environment-Climate Schemes\" which include higher-and longer-term payments, but with greater conditionality."},{"index":2,"size":61,"text":"Outside of the European Union, in Switzerland traditional agroforestry fruit orchards and wooded pastures are maintained by agri-environmental measures. The regulations are flexible, so that modern agroforestry systems such as alley cropping on arable land can be supported. In the UK, ministers have argued for a new land-use policy focused on public service provision and \"Environmental Land Management\" plans after Brexit."},{"index":3,"size":7,"text":"Keywords: policy, CAP, Landscape Feature, LPIS, Greening."},{"index":4,"size":73,"text":"Agroforestry is a key component of climate smart agriculture, with trees in agricultural lands providing significant contributions to both climate change mitigation and adaptation. Trees also play key roles in strengthening ecological resilience, whereas various tree products provide economic and nutritional benefits to rural households. The EU-funded Reversing Land Degradation in Africa by Scaling-Up Evergreen Agriculture (Regreening Africa, 2017-22) is an active intervention that deploys agroforestry for land restoration across eight African countries."},{"index":5,"size":481,"text":"It has an explicit policy objective to accelerate scaling up of land restoration through policy influencing. The target countries are Ethiopia, Kenya, Rwanda, Somalia, Mali, Niger, Ghana and Senegal. Based on mixed-methods research consisting of an intensive desk review, focus group discussions and key informant interviews, the comparative analysis conducted across the eight countries revealed four key findings: (i) agroforestry has not been mainstreamed or supported through policy frameworks. Various aspects of Agroforestry remain scantly spread across mainstream agriculture, forestry or other environmental policies (ii) There are significant gaps in human, technical and financial capacities to implement agroforestry (iii) There is fragmentation and poor coordination of institutions dealing with agroforestry (iv) Complex land tenure aspects and tree permit regimes constrain the wide adoption of AF by smallholder farmers. Some key opportunities to ensure coherence and widespread adoption of AF practices included: a) the establishment of a national cross-sector AF scaling platform (e.g. in Ethiopia) and development of an AF strategy and action plan (e.g. Rwanda); b) the establishment of networks of rural resource centres to multiply and promote diverse quality tree germplasm together with knowledge and skills on its deployment; c) implementation of the devolution process enabling the integration of AF into sub-national level plans, programmes and policies; d) reforms on land and tree tenure regimes that re-align with the interests of landowners and farmers. As a way forward, the SHARED (Stakeholder Approach to Risk Informed and Evidence Based Decision Making) methodology is being applied in the eight countries to bring together multiple actors, across sectors and stakeholder groups to review evidence, discuss key scaling challenges and develop a roadmap for regreening. Through structured stakeholder engagement and clear strategies to shift behaviour practices, the project hopes to support massive scaling up of evergreen practices and benefits. Although agroforestry (AF) is widely recognized as a promising land use option to stimulate farm productivity, mitigate environmental challenges, alleviate poverty and hunger, and provide livelihood security to the smallholder farmers, its development is impeded by lack of public policy support. To remedy the situation, India formulated the National Agroforestry Policy (NAP) in 2014. Though a total of 16 or so countries have framed policy agendas to promote AF, India is the first country in the world to have a comprehensive policy. NAP aims to promote AF by removing the constraints in its adoption and incentivizing it. A multi-pronged strategy, focusing on industrial models of AF, removing regulatory barriers for farm-grown timber extraction, and providing market support and credit, is the cornerstone of NAP. The policy also aims to create convergence among various programs/agencies involved in AF and helps to meet the increasing demand for AF products, protect environment and natural forests and minimize risks during extreme climatic events. Although four years since the launch of NAP is not long enough to evaluate its impact, we report here some of the progress made so far."}]},{"head":"Keywords","index":116,"paragraphs":[{"index":1,"size":740,"text":"Several initiatives have been made to implement the policy, which includes establishment of a Sub-Mission on AF (SMAF; Rs. 9350 million outlay for 2016-2020) to expand tree coverage on farmland in conjunction with arable crops, liberalising timber transit regulations and amending the Corporate Social Responsibility (CSR) guidelines to put AF under its ambit. SMAF aims at nursery development for quality planting material, peripheral and boundary plantations, farm woodlots, capacity building and demonstration of AF Models. Financial assistance up to 50% of the cost will be provided to the farmers. Several states have also taken steps to streamline the regulatory framework that restricts growing trees on farms. For the wood based industries, CSR provides a golden opportunity for developing back end linkages with growers for enhancing wood availability through tree plantations. ITC Limited, one of the leading private companies, with its subsidiary WIMCO Ltd, has established plantations of different species over 300,000 ha of land in over 60 districts of the country. Although India is estimated to have 25.32 million ha under AF or 8.2% of the geographical area (Dhyani 2014), there are many institutional, technological, ecological and socioeconomic factors, which obfuscate the adoption of AF. Major constraints include property rights (land tenure), tree tenure, supply of quality planting materials, subsidies and extension systems. In view of this, adoption and spread of AF has not kept pace with the expectations, despite climate change issues. Tree planting also could not be done at the expense of food production. The solution to this appears to tree planting on farm boundaries. NAP and other sectoral policies make AF the main form of current and future land use in India.  SMA 44 (2008). The agroforestry systems are often considered as a restoring plantation in those Permanent Protection Areas once they could induce the restoring process of vegetation and soil by the inclusion of trees to agricultural production ensuring biodiversity of the ecosystem and optimizing land use when compared to monoculture and also because of income generation and food production. According to São Paulo State Resolution SMA 32(2014) small landowners with less than 4 local rural modules are able to install agroforestry systems in these areas. This permission promoted a high demand of agroforestry system plantation in these areas once the agroforestry system can be explored with agricultural products giving the landowner some extra income and also giving environment gain due to native trees plantations and maintenance. The monitoring of the increase of plantation in those areas have been done by an electronic registration system of national scope established by Law 12.651 / 2012 , the Rural Environmental Registry which gathers the information of the properties and rural possessions composing a database that will help environmental and economic planning and combat to deforestation. More than 259 thousand properties that have 4 rural modules or less were registered. The information given by landowners inserted in the system the location of native vegetation remnants, Permanent Preservation Areas (PPA) and Legal Reserves (LR) and this rregistration of rural properties is essential and is a requirement for joining the Environmental Regulation Program (PRA) where the landowners make a commitment to fulfill the legal requirements within a established period of time to plant the areas deprived of vegetation. The complexity of the game of actors mobilized around the issues of valorization of the Guadeloupe forest is a question of research and a major stake for the sustainable development of the territory. Like other ultraperipheral European tropical regions (Jouan, 2017), the study reveals deep antagonisms for the advent of a territorial policy of sustainable agroforestry valorization in a context where the land resource is limited. Between the regional authority, decision-maker of a territorial policy and manager of European funds, the departmental authority, large public forest owner, decentralized State services, guarantors of compliance with national regulations, the Chamber of Agriculture in representation of Guadeloupe farmers, the institutional micro-sheet complicates the emergence of a viable agroproductive sector in the Guadeloupe forest (Demené 2013, Cruse 2014). In corollary, we find among producers (Castro Nunes et al., 2018), a proliferation of divergent strategies sometimes crossed, depending on opportunities, or threats with tensions sometimes curbing the synergies around innovative endogenous collaborative initiatives. In a territory where the forest has played a major socio-economic role, beyond the currently promoted agroforestry models (Vinglassalon et al., 2018), or the ecological sanctuary advocated elsewhere, it seems necessary to strengthen the work of participatory co-construction to achieve an inclusive territorial agroforestry project."},{"index":2,"size":512,"text":"In the Czech Republic, industrialised agriculture is predominantly practiced. Intensive and industrial agriculture is able to provide sufficient agriculture products to supply high demands; however, it has a number of adverse effects on the environment such as, soil erosion and compacting, decreasing of soil fertility, loss of biodiversity, reducing landscape functionality, breaking local nutrient and energy cycles, etc. Agroforestry systems (AFS) entails an option that can minimize these negative effects and can provide more diverse and sustainable production. Agroforestry is currently not a common land-use system in the Czech Republic. Traditional agroforestry nearly disappeared during the era of collective farming throughout of 20th century, except for small remnants, modern agroforestry systems are not in practice yet. The traditional agroforestry practice did not survive decades of agricultural industrialisation, and hence, it is scarcely practice nowadays. To re-introduce agroforestry as a sustainable agricultural practice among Czech farmers, technical background and research on its implementation is needed. Therefore, the research project \"Agroforestry in Czech Republic -potential for regional development and sustainable rural landscape\" funded by the Technology Agency of the Czech Republic (ETA programme, TL01000298) started in 2018. It aims at evaluating the benefits and constraints of using AFS in Czech Republic with a focus on the socio-economic, legal and environmental context. The project evaluates planting and adaptability of selected tree species on arable land in areas affected by soil erosion and drought, as well as animal husbandry combined with tree components. The target areas will be large contiguous arable lands with intensive agriculture in the Central Bohemia and South Moravian Region. Based on detailed literary review, socio-ethnological surveys, production and economic data gathered from farmers, the AFS benefits on the agricultural land will be evaluated. Furthermore, legislative constraints and opportunities for trees growing on agricultural land will be analysed. Scientific publications and the development of methodologies for the application and implementation of the AFS in Czech Republic will be the main and final output of the project. This study evaluated the most effective models and participatory approaches for restoration through profitable and sustainable land management systems at scale, to develop restoration programs and landscape-level strategies in Iran. For this purpose, the objective, strategy and action plan for landscape restoration have been localized and customized to the specific conditions of the country, including its biophysical conditions and its stakeholders, taking into account their interests, indigenous knowledge and the decisions they make. Some of the expected outcomes and achievements of this study are: Better information for improved land-use decision-making; High-level political support for FLR; Fundamental inputs to national strategies on FLR, REDD+, adaptation and biodiversity conservation, and for mutually reinforcing convergence between such strategies; A basis for better allocation of resources within restoration programs; Engagement of and collaboration among key policy-makers and decision makers from different sectors, as well as other stakeholders with interests in how landscapes are managed; and Shared understanding of FLR opportunities and the value of multifunctional landscapes. By implementing ROAM, decision-makers and stakeholders can expect to deliver the multiple functions and different types of outcomes that will be approached through this methodology."},{"index":3,"size":44,"text":"Restored landscapes and seascapes can improve resilience including adaptive capacity of ecosystems and societies, and can contribute to climate change adaptation and generate additional benefits for people, in particular indigenous and local communities and the rural poor, using a participatory approach involving all stakeholders."},{"index":4,"size":3,"text":"L11 Public policies "}]},{"head":"Potential of national and international policies and policy instrument in the development of agroforestry in Chad","index":117,"paragraphs":[{"index":1,"size":5,"text":"Foundjem-Tita D. (d.foundjem@cgiar.org), Degrande A."},{"index":2,"size":8,"text":"World Agroforestry Centre (ICRAF), Yaounde, Centre Region, Cameroon"},{"index":3,"size":457,"text":"Within the context of climate smart agriculture (CSA) in most dryland countries, agroforestry diversifies and increases food production, improve livelihoods, and increase adaptation and mitigation to climate change. The right enabling environment are prerequisites for technology development and uptake amongst which agroforestry. Yet, many countries often fail to tap into the opportunities provided by national and international policies and the global institutional environment to develop agroforestry with prevailing literature citing national policies and legal context as major impediments to agroforestry uptake. We aim to show with the case study of Chad that most countries can exploit opportunities in national polices and legislation on the environment and forest to enhance agroforestry. To demonstrate the latter, information was collected through (i) literature reviews of important national and international polices and legislation governing access to land and trees, amongst which 'La Loi 14', Chad's 2010 poverty reduction strategy paper; draft zero of the National Environmental Policy; (ii) interviews and focus group discussions with NGOs, Government officials and farmers; (iii) household surveys with 100 farmers. We found that despite the absence of a specific agroforestry policy in Chad, the country has adopted many policies and developed strategies that may be exploited to develop the practice. Most stakeholders interviewed had positive attitudes towards agroforestry, but its uptake is constrained by limited expertise and inadequate extension efforts, limited access to improved planting material, and poor mastery of the forestry law by farmers and forestry officials. This gives room for rent seekers to collect access fees to trees on both forest and farm land thus discouiraging tree planting. The study concludes that more farmers will become involved in tree planting on farm land as awareness increases, and as water and planting materials are made available. We propose that the Government of Chad should unmask elements of agroforestry in its current forest and environment policies and policy instruments and demonstrate the importance of the technology to the country's economic and environmental challenges. It is important for the country to develop clear agroforestry action points in subsequent climate change and environmental policy documents so that tree planting initiatives entrenched in such policy documents could be implemented from an agroforestry perspective. REUNIR AF is a national project, coordinated by APCA and AFAC and founded by the Agriculture Ministry, to coordinate the Agroforestry Development in France. This program named a referentt in each province to lead the regional adoption of agroforestry. A key action is to make sure of the « Agroforestry » presence in the regulations, in the first and second pillar in the CAP. To this purpose, various actions are led to determine the key parameters for adoption regarding the current regulations and to propose some adaptations or innovations in the proposals for the next CAP."}]},{"head":"Keywords","index":118,"paragraphs":[{"index":1,"size":43,"text":"From November till January, an important survey will be led to all the professional public concerned by the CAP evolution : farmers in first place, but also the technical advisors in association or Agriculture Chamber, the administration (instruction but also the control office)."},{"index":2,"size":565,"text":"Interviews will be organized in all the province and 700 persons will be interviewed. The main objectives are to realize a state of the current CAP and to formulate new proposals for the next CAP Period, at different scale : European, National, and Regional. The survey will take attention to the articulation between the CAP and administrative or local regulation, to check if it could exist some contradictions between European and national or regional measures. The project will take part to the European activities from EURAF. A possible European survey could be organized in collaboration with the different national associations. The Western part of Europe is dominated by Atlantic weather conditions which are associated with high rain fall conditions of over 600 mm to 2500 mm per year. This precipitation provides excellent conditions for high productivity for all types of crops which are mainly associated with forestry and to permanent grasslands in the Western part of Europe. There is also a temperature gradient from the North to the South that creates growth restrictions associated with cold and droughts in areas like Ireland and Galicia. Both areas have enormous potential to increase agroforestry use and promote more sustainable land management. Ireland has a large number of hedgerows that help reduce the negative impact of winds in grassland production but also contributes to improved animal welfare. Galicia has a 70% of its land allocated to forestry and should use livestock to reduce forest fires which results in over 100,000 ha of burned land in only a few days every decade when weather conditions become increasingly negative. The benefits that silvopastoralism could provide are even greater considering the rising temperatures and the appearance of extreme events due to climate change. Increasing forest cover in Ireland and delivering agricultural products (livestock) can be achieved on the same piece of land, while access to the land is prolonged through the presence of trees and the enhanced drainage they provide. The potential for agroforestry to mitigate the negative effects of wildfires in Ireland is also recognised. Increasing forest land used by livestock in Galicia is essential to increase income and rural development as livestock produces a short and medium term income to farmers that otherwise cannot live exclusively from the benefits of forestry. Tree species selection and tree density becomes a key issue in both cases. Broadleaves such as oak ,ash (some species), birch, willow, walnut, poplar or cherry are excellent species because they can provide feed in the autumn or when pruned and shaped to obtain high value timber trees. In addition they can protect water, intercepting silt and nutrient runoff and can increase soil fertility as they incorporate leaves every year into the soil increasing nutrient recycling and carbon storage. When selected the species it is important to take into consideration the time when the leaves appear, the capacity of generating epicornic buds, fruit and nuts, but also its management such as the distribution within the plot or the timing for thinning and final harvests as this will affect the development of both livestock and forest stand. The management of light will be critical too as the trees mature and shade increased it is important that there is enough light for grass to thrive. In spite of the known positive impacts silvopastural agroforestry systems could have in both areas, the number of measures promoting them is still rather small."},{"index":3,"size":518,"text":"Agroforestry is one of the most prominent tools to make easy the transition of European agricultural and forestry farms to more sustainable land use systems such as agroforestry.  2018). Since the participants of the events organized by the Agroforestry Committee identified the absence of recognition at the political level and the lack of technical and financial support as some of the most important constraints to adoption of agroforestry, a working group stemming from this committee was also set up in order to draw up a document about the strategies to put in place to stimulate such an adoption ( 2017). An analysis of the current situation in view of the challenges faced by the agroecosystem brought the working group to make six recommendations: the recognition by the public authorities of the potential of agroforestry systems; an increased technology transfer through the setting up of networks of agroforestry advisors and demonstration sites; the provision of financial support to producers through a program specifically dedicated to agroforestry; the creation of new knowledge through research; the development of adapted plant material; and an increased dialogue between the various actors of the agriculture, forestry, environment and rural development sectors. The implementation of these recommendations should help the scaling-up of agroforestry in Québec. However, the ability of the Agroforestry Committee to reach policy makers could be a pre-requisite for that. The advantages and disadvantages of such an organization for stimulating the development of agroforestry will be discussed. Agroforestry systems (AFS), presented by their supporters as systems able to reconcile multiple social and ecological functions, are potentially interesting for a diversity of sectoral policies such as forestry, environment or water policies. They are presently in a process of being institutionalized in Europe through the development of specific policy instruments. In this context, we investigated the policyscape of agroforestry, meaning the articulation between multiple policies impacting a diversity of AFS in two Mediterranean protected landscapes: the Ventoux biosphere reserve and the Verdon regional nature park. We conducted in depth interviews with 50 practitioners and institutional representatives from diverse policies directly concerned by AFS. We found that if some AFS such as silvopastures are highly intersectoral and concerned by a large diversity of instruments, others such as alley-cropping systems are confined in the agricultural sector (Figure 1). Presently, systems such as grazed pastures are largely ignored by policies. Our results indicated that instruments specific to agroforestry represent a minority in relation to the diversity of sectoral instruments impacting AFS at a landscape scale. Regarding this agroforestry policyscape, we discuss opportunities for agroforestry development with issues of policies coordination, lack of instruments or of involvment from environmental or land-use planning policies for certain types of AFS. A study was conducted in western Uganda to; i) determine the socio-economic attributes of private natural forests owners, ii) assess the status of private natural forests under REDD+ iii) assess the drivers of deforestation and degradation of forests under REDD+ and iv) assess the effect of REDD+ on livelihoods. A participatory approach using semi-structured interviews and focus group discussions was followed to collect data. Quantitative data were analyzed in SPSS 20."}]},{"head":"Keywords","index":119,"paragraphs":[{"index":1,"size":129,"text":"Results showed that up to 69% of Private natural forest owners were middle aged men with limited education (86%) and involved farming (62%) as a key source income. About 48% of the forests were slightly logged, 30% slightly degraded and 14% heavily degraded (the cadegradation include agricultural expansion and land grabbing. Although some participants were still protecting their forests, the incentives provided or promised seem to have just encouraged others to stay with the program rather than conserve the forests. To ensure effectiveness of REDD+, a review of the nature of incentives and the approach of delivering them should include assisting the smallholder farmers with mechanisms to address crop raiding and land tenure insecurity. Without these, perpetuity of tropical forests on private land under REDD+ will be in jeopardy. "}]},{"head":"Keywords","index":120,"paragraphs":[]},{"head":"Developing a vision on agroforestry for the Nijmegen-area in the Netherlands","index":121,"paragraphs":[{"index":1,"size":26,"text":"van der Meulen S. 1 (suzanne.vandermeulen@hvhl.nl), Verschuur M. 2 , Santegoets J. The municipality of Nijmegen is developing a vision on agroforestry in its surrounding areas."},{"index":2,"size":33,"text":"To investigate the current state view of stakeholders on agroforestry, a Rapid Appraisal (RA) has been carried out in the region around Nijmegen, completed with in-depth interviews (Verschuur, 2012; Van der Linde, 2014)."},{"index":3,"size":199,"text":"A number of the interviewees are actively involved in a form of food forestry production, with a focus on crop production (figure 1). These initiatives are small and are currently not planning to scale up to larger sized farms or processing units, which would be needed to provide food for a city like Nijmegen. People who are at the moment involved in agroforestry are very passionate and very much looking for connections outside their farms, which is key for the establishment and acceptance of a new system. The other side is that at this moment agroforestry in the Netherlands is mainly associated with the small scale food forests. With the aim of providing the city of Nijmegen with food coming from agroforestry, this is might not be enough and many questions remain. Part of these circle around the agroforestry system itself: what types of sustainable systems will fit the area? Others deal with the economics and business models. Also, what will be the effect on the landscape in the Nijmegen-area? And last but not least: a discussion is needed about the role and responsibility of the municipality of Nijmegen, if they want to further develop and implement their vision. "}]},{"head":"Agroforestry adoption","index":122,"paragraphs":[{"index":1,"size":16,"text":"Adopting the future of land use -L12 -Economics of agroforestry: the link between nature and society"}]},{"head":"An agroforestry wedding band between society and the natural world","index":123,"paragraphs":[{"index":1,"size":588,"text":"Agroforestry practices and techniques are relatively well described as well as environmental aspects (biodiversity, impact on soils and fauna…). Impacts partially lacking in explaining why some farmers move to agroforestry. Social issues are mainly seen from an ethno-botanic perspective. This session focuses on socio-economic aspects, including income analysis (in particular for vulnerable countries and populations link to food security), social components (farmers' perceptions, organization and policy), payments for ecosystem services and other environmental issues. The objectives of this session are 1) to contribute to knowledge on economic impacts and social nature of agroforestry practices in order to bridge the science-policy gap, 2) to provide a broader view of understanding the basics of agroforestry practices and develop ment using a multi-disciplinary context, and Agroforestry (AF) systems have clear potential to increase ecosystem services in agricultural landscapes, but to what extent do they meet the socio-economic needs of farmers? We present a goal-programming approach that integrates farmer knowledge and future uncertainties in the optimisation of farm portfolios. Using this robust, normative method we investigate the potential of AF to meet multiple objectives at the farm level, focusing on a forest frontier region in eastern Panama. We obtained data from farmer interviews, drawing on participatory research methods to quantify farmers' knowledge and perceptions of six land-uses. Results show farmers viewed silvopasture very favourably, and this AF system dominated the optimised farm portfolios. Maintaining liquidity appears to be a key driver of farmers' land-use decisions in the study area. Differences emerged in the preferences and perceptions of different farm types, highlighting that a one-size-fits-all approach to promoting AF systems may be inappropriate. Overall, results suggest that farmers in the study region would be receptive to silvopastoral systems, which as part of a diversified farm portfolio can contribute to a range of socio-economic objectives. However, important barriers to adoption, such as a complicated tree harvesting permit system, remain. While we tested the modelling approach in Panama, it is easily transferable to guide land-use planning in other tropical and temperate regions. Most agroforestry systems in the world results from local adaptation to climate, soils, crops and markets conditions for a specific crops combination and generally linked with a crop opportunity for export during colonial era which is mainly true for coffee, cocoa, rubber and clove. The focus is then put on income generation and rapid monetarization of local livelihoods. Some systems are purely resulting from local demands such as coconut tree based systems with focus on food for self-consumption. Some systems are based on a main cash crop (rubber, cocoa, coffee…). In all cases, production diversification is a key element for a better global resilience through production of the main crops and fruits, firewood, timber wood, resins, rattan… and other plants such as medicinal plants. Some products are sold and some self-consumed largely depending on access to markets. The \"useful\" biodiversity is then largely known and combined to fulfill a better resilience, based on crop diversification in order not to depend only on one product and generate in the short/mid term several sources of income. But the \"non useful\" biodiversity or more exactly the non-marketable biodiversity is also producing ecologic services in the long run that are highly appreciated and generally well known by local people. What is the role of these externalities in agroforestry development and associated farmers' strategies. If most income analyses have difficulties in providing a value to these externalities, they may have a key role in farmers' choice and preference in agroforestry rather than monoculture when they have the choice."},{"index":2,"size":186,"text":"In other words, if profitability and short term income generation are often a priority for most smallholders, long term stability, positive externalities provided by ecological services of agroforestry systems and the search for a better resilience are key factors in developing agroforestry strategies in the long run. More than 150,000,000 ha of tropical forests were converted to farmland between1980 and 2012, with devastating effects on livelihoods, biodiversity and ecosystem services, resulting in a global outcry for restoration supported by a UN Decade. Agroforestry has become one of the key restoration interventions. Using the Philippines as a case study the paper demonstrates the current mismatch between the agroforestry systems promoted and the development objective to be achieved which is restored forest landscapes. Farmers and forest dependent communities, like elsewhere in the world -want trees that provide income, and fairly quickly, in the absence of functional markets and enabling policy frameworks and financial support native timber tree species are not a very high preference. This is leading to the inclusion of exotic fruit, fodder and fast-growing timber trees in the agroforestry models promoted and implemented on forested lands."},{"index":3,"size":304,"text":"We conducted a literature review on a 110 successful agroforestry case studies, documented by the Institute of Agroforestry of the University of the Philippines and reviewed more than 50 commercial forestry investment proposal (CFIP) that were submitted to the Department of Environment and Natural Resources of the Philippines, to be considered under the Natural Resources and Environmental Management Program program. The analysis show that on the one hand current farmer and community driven species selection is strongly following the agricultural with trees understanding of agroforestry, with the main socio-economic benefits coming from the crop component, ensuring food security and from tree products, providing income. The CFIP models analyzed are exclusively designed with financial incentives for planting trees. Long term sustainable aspects looking at access and benefit sharing of slow growing timber species is largely absent. While the Philippines has one of the most progressive forest legislation frameworks with respect to supporting private timber production, it is compounded by a web of policies and laws that regulate the planting, harvesting and sale of trees on farms and of state land, unintentionally restricting farmers and larger private investors who want to plant indigenous forest species and restore degraded land. Based on the Philippine case studies we argue that successful forest restoration programs need to move beyond the traditional view that land should be classified based on a specific land use: that timber is produced on forest land and food is produced on agricultural land. A unifying agroforestry policy could serve as a bridge between sectors that rarely coordinate their actions, bringing together not only government agencies but also small and large sectoral interests to navigate a clear path through the tangle of policies and regulations to ensure swift and efficient achievement of national commitments through better use of trees on farms and degraded state forest land."},{"index":4,"size":7,"text":"Keywords: Forest Restoration, smallholder, agroforestry, incentives, income."},{"index":5,"size":165,"text":"The multi-dimensional diversification of agroecosystems, from the plot to the landscape scale, is known to be a key factor of social-ecological systems resilience. Agroforestry research especially brought considerable insights on this issue by documenting the socio-economic, agronomic and environmental outcomes of this type of practices. However, the drivers of agroforestry practices' heterogeneity and its spatial patterns remain poorly understood. This requires a diachronic perspective as the observed agroforestry systems often result from the gradual implantation of tree in pre-existing plantations, fallows, forests or pastures. This study addresses this issue through an original diachronic approach at the landscape scale, which contrasts from more usual static approaches focusing on cropping systems. We characterized the drivers of the observed heterogeneity of agroforestry practices and its spatial patterns in the landscape of a village located in the Analanjirofo region on eastern coast of Madagascar. In this locality, small farmers cultivated for 50 years varied perennial crops (clove, litchi and fruits, vanilla, coffee…) within different patterns including complex agroforestry systems."},{"index":6,"size":578,"text":"Analyses were conducted in 2016 on both qualitative and quantitative data collected through farmers' surveys on the following topics: i) the plant species grown in local agroforestry systems, ii) farms socio-economic characteristics, and iii) economic evaluation at plot level. A land-use map was built in 2016 through photointerpretation of drone and satellite pictures, and was compared with a map from 1966. The survey showed that a wide diversity of agroforestry practices currently exists on the locality regarding their plant species composition. Agroforestry accounted for 20% of the land surface in the study locality, resulting in a highly heterogeneous landscape mosaic. By merging the analysis of farmers' survey and the diachronic analysis of the land-use map between 1966 and 2016, we were able to give insights on the economic, demographic and geographic processes that led to the observed heterogeneity of agroforestry practices and their spatial patterns. These results raise perspectives to understand the processes involved in agroforestry evolution and expansion in Analanjirofo landscape over the past 50 years. Our results are relevant for supporting the orientation of social-ecological systems toward resilient trajectories. Results prove no relation between land tenure security and the plantation of trees. Land occupation by any farming system with or without trees, such as food crop or pasture, is informally recognized as proof of ownership. Farmers plant trees around their house, in pastures or on the borders of paths, for the high value they attached to them. Trees provide goods (timber, fuel wood, fruits, medicine…) and services (preservation of soils and water resources, regulation of pests and diseases, action on the local climate), and are also recognized for their social value. With the same logic, both women and men recognized forest as the main land use regarding ES provision. By contrast, they consider it of less interest than agricultural land uses regarding household's income and livelihoods. Logging is not a well-remunerated activity, and the forestry law imposes strong restrictions to timber sale. Women and men farmers perceived that forests are important for soil, water and biodiversity preservation. They may provide fuel wood and timber for family needs, but these are also provided by trees in agroforestry systems and elsewhere in the farm. Indeed, fuel wood is more often collected in agroforestry systems, including sylvopastoral ones, as are fruits and medicines. Timber trees might be preserved when opening new agricultural lands over forests, for later use, and timber species spontaneous regrowth in agricultural lands might be protected by farmers. Forests poorly contribute to the household's livelihood, trees within agroforestry systems provide the same ES than forests, and deforestation for agricultural land use conversion is a way to gain access to land. For these three reasons forests are converted into agricultural land uses until only remaining in locations of poor agricultural value. Because farmers value trees, these are preserved and even planted within agricultural lands, leading to a rich variety of agroforestry systems. As a result, agroforestry systems replace forests for their higher economic value to farmers. In Senegal, areas covered with scattered trees, intentionally selected and preserved by the populations, are dominant features of the landscapes. Numerous studies have highlighted the multifunctionality of these parklands, where people use trees as fodder for herds, as natural fertilizers for crops, and food, wood and pharmaceutical providers for households livelihoods (eg. Sène 2004;Baudron et al, 2017). A study conducted in Mali conclude that parklands were responsible for between 26 percent and 73 percent of household revenue (Faye et al. 2010)."},{"index":7,"size":103,"text":"Regardless of this, the role of the parklands and the importance of their preservation remains little discussed in rural development policies and programs, and the potential of the tree in reducing food insecurity remains poorly explored. As human pressure on lands, increase of herds demography and climate change effects are currently threatening parklands (Bayala 2014), the need to better understand the contribution of trees in household's resilience takes on increasing importance. How might trees affect livelihoods and food security of farming families? Based on a dense survey, our work aims at improving our understanding on the links between parklands and household food security."},{"index":8,"size":128,"text":"Our study area is the groundnut basin in Senegal where we choose the arrondissements of Niakhar (Fatick region) and Nioro du Rip (Kaolack region), of approximatively 400 km² each. They differ in the parkland composition in terms of tree species and density, and in the social rules of access to the trees. In each of these areas, 200 households were surveyed over the 2018 cropping season. The questions focused on the description of the parkland to which they had access (collective or individual access), their uses of products from trees, their production system and their non-farm activities. For each household, two indicators of food security level, frequently used in the literature; were calculated as well: the Household Food Insecurity Access Scale (HFIAS) and the Coping Strategies Index (CSI)."},{"index":9,"size":106,"text":"Our preliminary results show that parklands have an impact on household food security, particularly in sustaining nutritional intake, and highlight the complementary roles through time of different tree species in coping strategies. We then estimated incomes from the sale of tree products to highlight the economic importance of trees. Our results also demonstrate the importance of collective areas for families whose state of food insecurity is the most critical. By replacing the tree at the heart of the coping strategies of households in times of hunger, this study contributes to providing scientific knowledge that could then be used to advise policies and programs addressing food insecurity."},{"index":10,"size":7,"text":"Keywords: food security, parklands, senegal, coping strategies."},{"index":11,"size":225,"text":"Across much of Europe, hedgerows are an important part of our joint cultural heritage, covering a total of 1.78 million hectares in the EU (den Herder et al. 2016). Innovative reinterpretation of traditional hedgerow management techniques for modern farming systems represents an opportunity for farmers to both diversify income streams and increase system sustainability. Recent trials in the UK have investigated the potential of using biomass from hedgerow management for local heat production as a way of supporting the rejuvenation of old hedges, restoring not only their economic role but their value to the wider landscape (Westaway et al. 2016). These trials assessed the feasibility of mechanising the process of coppicing hedges and processing the resultant material, and demonstrated that hedges can be managed to produce woodfuel of a quality that meets industry standards. However, to be attractive to farmers, the management of hedges for bioenergy must be profitable. This paper reports on a cost:benefit analysis of these UK trials using the FarmSAFE model (Graves et al. 2011) to test the hypothesis that harvesting hedgerows for woodfuel is financially profitable. Costs associated with standard hedgerow management by flailing every two years are compared with hedgerows managed on a 15 year coppice rotation, under different scenarios (scale of machinery, end use/market for the woodfuel, and the availability of grants). The Alliance Approach to Innovation in agroforestry:"},{"index":12,"size":3,"text":"Parrot L. (laurent.parrot@cirad.fr)"}]},{"head":"CIRAD, Montpellier, France","index":124,"paragraphs":[{"index":1,"size":94,"text":"Agro-ecological innovations aim at promoting sustainable agricultural practices that have long term benefits. However, farmers rarely adopt beneficial innovations in agro-ecology despite expressing an understanding of the benefits and a desire to do so. It has been argued that the farmers lack sufficient knowledge to implement complex innovations. We believe that in many cases such knowledge is necessary, but is ultimately insufficient for complex innovation adoption. We argue that there is a need to understand the economics of agro-forestry as a series of relational acts. All interventions, all innovations are relational acts between people."},{"index":2,"size":386,"text":"Effective economics is therefore an effective analysis of the relatonal acts occuring in an agro-forestry system: between the farmer and his or her farm, family, markets, and so on. The goal of such an approach is to select for exemple the pertinent and useful information. In order to assess the effectiveness of a relational act, we will present Alliance Approach to innovation. This approach is modeled after the therapeutic Alliance Approach at work in cognitive and behavioral sciences. We argue that using the Alliance Approach will not only prove effective in helping farmers adopt complex agro-ecological innovations, but also a better fit for the human centered development of capability approach human development, as it is likely to enhance both the well-being and agency of the farmers. Forest gardens (FGs) are tree-dominant land uses in small, family farming enterprises in Sri Lanka (McConnell et al., 1997). Although the financial performance of FGs has been described, how they compare with other components in farming enterprises and their current and future contributions to farming enterprises as a whole are poorly understood. This information is critical given the global quest for financially viable farming models that increase livelihood security (Pretty et al., 2014) in the face of climate variability (Marambe et al., 2015) and shrinking natural resources (Food and Agriculture Organisation, 2018). We investigated and compared FG financial performance with other components of farming enterprises in short (reference year, 2012-2013) and long-terms (beyond 2013). Farming enterprises include On farm (land uses: FGs, paddy, cash crops, plantations, swidden plots and livestock), Off farm (employment, trading, grants) and household components. Data were collected for 85 farming enterprises in nine locations of the Intermediate zone in Sri Lanka. Floristic, timber and fuelwood inventories were undertaken and area mapped for all land uses. Financial data were collected using household income and expenditure surveys and quantified using accounting procedures. Forest gardens occupied the largest area and had the highest floristic diversity of all land uses. Tree crops were more productive than seasonal crops despite multiple stressors including rainfall variability, animal and insect pests, and labour scarcity. In the short-term, FGs contributed 29% to household food self-sufficiency, generated the highest profit and profitability, and were the most financially efficient land use in the On farm component. Average FG profit (Current assets) was greater than enterprise profit. "}]},{"head":"Honduran farmers' perception of cacao agroforestry systems","index":125,"paragraphs":[{"index":1,"size":106,"text":"Van Isterdael J. 1 (codesa@yahoo.es), Diaz J. All mentioned there is always something to harvest for self-consumption with these systems, including fire wood from temporary shade. These systems help to improve diet and nutrition. Few mention the income opportunities by transforming cacao, agritourism and sale of budwood. They are aware of the challenges of increasing organizations membership to be able to ferment and sell at a better price, but recognize volumes are small. All focal groups believe climate is less predictable, warmer, with longer dry spells and less but torrential rains. The negative impact of Hurricane Mitch and El Niño drought (2014)(2015) are remembered by all."},{"index":2,"size":1019,"text":"The later killed some young cacao trees but not mature plantations. All corn and beans plots were lost. They foresee no threats to sustainability of plantations, they feel well trained and will protect investment done thus far. Groups recognized the systems as a radical departure from traditional agriculture development initiatives. They are diverse, flexible and adapt to family preferences, plot conditions and allow inclusion of women and men. They recognize improvements: higher soil fertility, water retention and less soil erosion. Few groups mentioned the benefits of no-burn, biodiversity protection and landscape enhancement. Families recognize added wealth-heritage with permanent shade of high value certified tropical wood trees. We recognize the need for a follow-up study as cacao matures and to broaden the survey. Findings clearly show Honduran small farmers with new cacao agroforestry systems have a positive perception of the economic and environmental benefits. This development initiative is a winning strategy and should be applied to other developing tropical regions. Willow is one of the most widely grown species and comprises about 13% of the total broad leaf plantations established on government and privately owned lands of Kashmir Valley. The results of our study vis-à-vis viability measures indicated that cultivation of willows in Kashmir has a great economic feasibility with respective NPV of $ 3964 and $4802 and BCR of 1.55 and 1.57 when the plantations are managed and used for making cricket bats and basketry under a production period of 20 and 7 years respectively. The economic feasibility of willows for biomass production in short rotation coppiece forestry managed under a planting design that accommodated 17600 plants ha-1 revealed that the first rotation of this crop harvested after 4 years of plantation yielded 15 tons (fresh weight basis) of biomass ha-1 yr-1 which increased to 23 tons ha-1 yr- The diversity of associated crops within cocoa-based agroforestry systems (CAFS) generates different productions that can be either sold or self-consumed. This wide range of plant species and densities directly influence the amounts of products to be sold and/or self-consumed by the producers and their families. Consequently, the impacts on the overall economic performances of these CAFS can be important but have been poorly assessed. We characterized 140 CAFS distributed over 3 production areas in the Dominican Republic in order to (i) build a typology of Dominican CAFS according to their cultivated plant structure, and (ii) compare the agro-economic performances of each type of CAFS. We found that the sum of the different sales, including cocoa, do not differ significantly among the 3 types of CAFS that we characterized. However, a high degree of diversification combined with a significant densification of associated fruit species weakens the economic performance of cocoa sales, but increases fruit sales and the level of self-consumption of the farming household. On the other hand, a low diversification of plants associated with nitrogen-fixing trees increases the economic performance linked to the sales of cocoa but reduces fruit sales and self-consumption. This study evidences different farmer's strategies. It also provides elements for the improvement of agricultural practices towards different economic options between sold and self-consumed products provided by CAFS.  Farmers in Nepal have practiced some form of agroforestry for centuries, however the contributions of trees and agroforestry to food security is poorly understood. Using a bio-economic model, EnLiFT, the food security index across 6 household types of rural Nepal were estimated for selected agroforestry interventions. Market-oriented timber production shows strong potential to increase food security across all household types with greater benefits accruing to land-rich households (Figure 1). For land-poor households, remittances from household members working abroad remains the strongest route to their food security despite the underutilisation of agricultural land due to adult male labour outmigration. A drawback of market-oriented timber production is the long-term nature of timber production. As EnLiFT assumes that timber can only be harvested from year 9, complimentary livelihood strategies are required to address food insecurity in the short term. Complimentary agroforestry interventions with strongest potential to improve food security include combined high-yielding fodder production and commercial goat production, and production of non-timber forest products. While land-poor households are heavy reliant on foreign remittances for food security, it is argued that policies encouraging use of remittances to promote agroforestry businesses is needed.  Social innovation refers to the reconfiguration of social practices and new institutions such as networks, partnerships, collaborations and governance arrangements -in response to societal challenges and opportunities (Polman et al. 2017;MacCallum et al., 2009). VALAB is studied and supported by SIMRA as a case study and an innovation action. In this research, our hypothesis is that to bring about change, social innovation has to be transformative. We build upon the theoretical framework of transformative social innovation (Avelino et al.;2017) to analyse and understand i) how problems and opportunities related to linkages between nature and society are tackled within the setting of an operational group and ii) how innovative solutions that meet the end-users needs (including on the economics of agroforestry) are developed. We conducted an in-depth case study of the VALAB social innovation based on a mixed-research methods approach. Our preliminary results reveal that operational groups can be conceptualised as real social innovation laboratories because of both the processes they enable and the knowledge they produce. In particular: i) they lead to new ways of framing sustainability issues in relation to the forest; ii) knowledge is co-produced and shared among participants and new methodologies of work are co-created and implemented; iii) they lead to new governance arrangements; iv) as a result, future actions and projects will be implemented aiming to design viable agricultural farming systems while guaranteeing the protection and preservation of the forest ecosystem. The research contributes to the development of a better understanding of: (i) human-environmental interactions in social-ecological systems; (ii) the perception of pathways to change by relevant stakeholders to suggest on an agroforestry wedding band between society and the natural world; (iii) diverse development trajectories of SES, with identification of management options, policies or institutional arrangements as responses (e.g. social innovations) to assist in overcoming the challenges and achieving sustainability in the Guadeloupean Forest at a local scale."},{"index":3,"size":209,"text":"In the Eastern Amazon, many small-scale farmers have been spontaneously initiating experiences in forest restoration, mainly through agroforestry systems. To guide more inclusive restoration policies, it is important to assess the socio-economic viability and ecological benefits of the different systems. Following a companion modelling approach, simulation and gaming tools were developed to enable exploring how and why smallholders would engage in farming systems oriented toward agroforestry systems. A stylized model of 4 similar 25-ha family farms was first designed by researchers. This virtual landscape represents a game board. During gaming sessions, participants are requested to select the activities they would like to perform, to locate them in the game board and to indicate the practices related to these activities. These human-made decisions are inputted into a computer simulation model that allows simulating the growth of the plants and calculating a set of indicators to assess the balance between environmental and socioeconomic benefits. This tool has been codesigned with a small group of farmers from the Municipe of Irituia (North-eastern Para, Brazil) who were selected because of the experience in agroforestry systems. The game was then tested by students from Itabocal, a rural school of Irituia Municipe. We present how it enabled fostering knowledge sharing among students, farmers and researchers."}]},{"head":"A gaming session in Irituia","index":126,"paragraphs":[{"index":1,"size":426,"text":"Keywords: Gaming, Agent-based simulation, social learning, Brasil. We visited cocoa farms to characterize the cropping system and conducted socio-economic surveys with farmers to collect data on the land acquisition costs, farms age, farms maintenance costs, yield of cocoa and associated fruit tree species between 3 cropping seasons (2015 -2018). We identified three SAFc differing by their level of complexity in term of shade tree density and associated species, namely simple SAFc, mixed SAFc and complex SAFc. The average cocoa yield and the income generated from cocoa over the three years was positively correlated with the complexity of the SAFc. On the contrary, the income generated from the associated fruit species was negatively correlated with the complexity of the SAFc. Overall, the incomes generated from the complex, mixed and simple SAFc were 171,288 ± 67,502, 181,041 ± 47,453 and 166,937 ± 37,760 F CFA/ha respectively, suggesting that mixed SAFc can be recommended as the best profitable cocoa agroforestry option in the study area. However, a trade-off between the financial profitability and the other benefits of agroforestry i.e. ecosystems services, social benefits…need to be considered. Colombia is occupying the second place among the countries with the greatest biodiversity in the world, unfortunately by more of 50 years we had to live the scourge of armed conflict that left thousands of victims and deforested areas caused by the establishment of illicit crops. This project originated in 2006 in the region of Meta, We seeking that the displaced families have a source of decent income, through of agroforestry with non-timber forest products, Amazonian fruits, condiments, spices, colorings and essences. We were based on research from the Institute of Amazonian Studies SINCHI, this in order to establish the nurseries, have the seedlings and to be able to cultivate in an optimal way according to the ecological and topographic conditions and then transform it for to give an added value . As a result we have a Network of 144 families producers and agroforestry units developed, where they are guaranteed better living conditions, food security and decent income. Currently and with the signing of the peace process (Nobel Peace Prize 2016), this agroforestry model and experience is the bet for try to reintegrate more than 6,000 former guerrillas to civil and productive life, , with a potential of more 400,000 ha to recover , the commitment to a new country in peace with opportunities for all where agroforestry combined with the biodiversity of the country is the key to these regions that for so many years lived with fear and state abandonment."}]},{"head":"Keywords","index":127,"paragraphs":[{"index":1,"size":524,"text":"Training, establishment and use of Amazonian fruits within agroforestry systems Keywords: amazonian fruits, non-timber forest products, armed conflict, illicit crop substitution, agroforestry alternatives. Cacao (Theobroma cacao L.) a plant from Central America that was cultivated long before the arrival of the European settlers. Cacao has great importance in the national agricultural scenario since Brazil is the fifth largest producer in the world and 90% of this production is directed to foreign market. After the decline of the crop in the 1980s with the witch-broom problem, there was a restructuring of the production chain leading to a resumption of production in recent years, which resulted in a considerable increase in Brazilian production from 170 thousand tons in 2003 to 279 thousand tons in 2014. This culture has gained attention in the northwest part of São Paulo state where has been increasing planted area in consortium with the culture of the rubber tree (Hevea brasiliensis) and banana in agroforestry systems. The dissatisfaction with the price of latex and the possibility of an extra income in the same area of cultivation of rubber tree stimulated large-scale planting in old and new rubber tree plantations. The state of São Paulo produced 56% of the national rubber in 110 thousand hectares and produced 98 thousand tons of dry rubber in 2017. An agreement between CATI (Coordination of Integral Technical Assistance) and CEPLAC (Executive Committee of the Cocoa culture planning) has already directed plantations in the region of São José do Rio Preto. At the same time, some farmers have planted the crop in full sun, as they understand that this is a great opportunity for expansion in the region, which has attracted the interest of industries that process and commercialize cocoa and its products. The experimental areas with cocoa clones from CEPLAC, were planted in rubber plantations, with different spacing (2.5m x 8m and 14m x 3m) located in the northwest region of São Paulo State and also planted in full sun in a consortium with banana and windbreaker of rubber in two spacing. The cost of rubber tree plantation (476 plants / ha) is US$ 5.250 and it takes from 7 to 8 years for exploration and the cost of the irrigated agroforestry system with rubber tree, cacao and banana (397 rubber plants in the first year, 855 second year banana plants and 855 cocoa plants in the third year) is approximately US$ 7,950. At the current juncture the planting of rubber trees monoculture, inspite taking 7 to 8 years to be explored, could make the project unfeasible and would yield approximately 1.6 tons of latex or US$ 340/ ha/year. The agroforestry system model with the three crops would generate US$ 1860/ ha/year and begin to generate income already in the third year.In the regional scenario and within the demand of the cocoa production chain it is understood that this work is the beginning of a long work and, that does not exhaust all the possibilities and questions that the culture will require in the near future, since its large-scale commercial planting is recent in this region and tends to expand rapidly, requiring further studies and further study."},{"index":2,"size":98,"text":"Keywords: Chocolat, Theobroma cacao L., Hevea brasiliensis. Improving the financial rationale of agroforestry for farmers Burgess P. 1 (P.Burgess@cranfield.ac.uk), Graves A. 1 , García de Jalón S. 2 , Palma J. The integration of trees in livestock and arable production can improve animal welfare, increase biomass production, and provide environmental benefits. Hence, economic analyses from a broad societal perspective have shown that agroforestry can be preferable to separate monoculture livestock and arable systems (García de Jalón et al. 2018b). However the question remains: how can we make agroforestry more financially attractive to farmers? This paper highlights three areas."},{"index":3,"size":126,"text":"Using trees to support existing farm enterprises Graves et al. (2007) concluded that for agroforestry to be more profitable than both monoculture forestry and agriculture, the profitability of the monoculture systems needed to be similar or the farmer would focus on the more profitable farm or forest enterprise. However, experience with the EU AGFORWARD project suggests that most farmers using agroforestry do not attempt to balance the two enterprises, but rather to make an existing enterprise more sustainable. Hence, for example, trees in a free-range egg system can be used to promote hen welfare, and arable farmers can use trees to reduce soil erosion to enable long-term crop production. Focussing on how trees support an existing farm enterprise is therefore important in agroforestry adoption and practice."}]},{"head":"Availability of tree product prices","index":128,"paragraphs":[{"index":1,"size":115,"text":"Early modelling of silvoarable systems indicated higher revenues from agroforestry, compared to separate arable and forest production, due to continued cropping and the benefits of concentrating timber growth on fewer large trees rather than many smaller trees (Graves et al. 2007). There is readily available data on the sale price of agricultural crops. By contrast, there are few details on the interaction between volume and quality on timber and fuelwood prices in many parts of Europe. In practice, valuable timber like walnut can even be sold for firewood, as shown in the case of the commonly-cited walnut-arable system at Les Eduts in Western France (AGFORWARD 2016). More information on timber and fuelwood values is needed."}]},{"head":"Simplified government support for agroforestry that provides public benefits","index":129,"paragraphs":[{"index":1,"size":130,"text":"In recent analyses in Europe, increased complexity and management costs are identified as key negative effects of agroforestry (García de Jalón et al. 2018a) but these effects are typically ignored in financial analyses (Graves et al. 2007). In fact within the EU, a complex land use like agroforestry can be penalised within Pillar I of the Common Agricultural Policy and there can be low financial benefits and high administrative hurdles associated with support in Pillar II (Mosquera-Losada et al. 2018). In addition, farmers can perceive that tree planting results in more restrictive environmental legislation on their farm. In view of the societal benefits, we argue that farmers practising agroforestry should receive enhanced public payments, with low administrative hurdles, and this would help to address some of the higher management costs."},{"index":2,"size":65,"text":"Keywords: Profit, Motive, Prices, Regulation, Complexity. While agroforestry systems have been described internationally (Nair et al., 1993, Parrotta, 2012), this study sponsored by the VALAB program provides typological insights into the reality of Guadeloupe by deciphering the extreme diversity of farming situations (Perrot et al. 1993). A combination of agronomic, techno-economic and socio-cultural criteria distinguished 5 farms types for a study sample of 40 farmers:"},{"index":3,"size":51,"text":"-Organizations with a productive and / touristic vocation are large-scale farms, with business status and a commercial or touristic vocation contrasting with the other stakeholders of the undergrowth of Guadeloupe. Their weight is undeniable in the whole actors of the three traditional sectors of the undergrowth of Guadeloupe (coffee, cocoa, vanilla)."},{"index":4,"size":56,"text":"-The traditional crops parcels out of the undergrowth are developed by farmers who have chosen to get out of the constraints that the undergrowth could have in particular in terms of regularity and profitability of the production for the supply of structured trade channels. However, this model appears vulnerable in terms of phytosanitary and socio-cultural values."},{"index":5,"size":47,"text":"-The ONF concession farms are in vanilla monoculture. These multi-skilled farmers cannot live only on this climate-dependent productive activity. They have little leeway to change their agrosystem towards a viable activity in the undergrowth in relation to the rather coercive specifications proposed by the departmental land manager."},{"index":6,"size":88,"text":"-Undersized private understory plantations result from the structural sharing of the activity of the farmers concerned between their farm and other sectors of labor, valuing their labor force in an immediate and less risky way. These farms reflect the current rather general situation of degraded valuation of the Guadeloupean private undergrowth. Fragilized for the most part by sectorized support exacerbating their sensitivity to climatic and economic hazards, they gather potential candidates concerning the initiative that some farmers wish to promote with agroecological integrative diversification projects in the undergrowth."},{"index":7,"size":104,"text":"-The forest gardens are still a model of valorization by old knowledge of the agrobiodiversity of the undergrowth in an integrated and diversified way, fruit of a concomitant transmission of the land heritage and the associated intangible heritage. This mode of development is becoming rarer with the retirement of the old farmers and the structural difficulties of a transmission based on orality and proximity, for these particularly complex agroecosystems. This typology, essential for understanding the reality of undergrowth agrosystems, is also used as a tool to study their viability. Finally, it makes it possible to envisage development actions adapted to each type of farming."},{"index":8,"size":246,"text":"Keywords: Guadeloupe, undergrowth, socio-economy, typology, diversity. Shea trees (Vitellaria paradoxa; Karité in French) are a major presence in the agroforestry parklands of Uganda and a source of livelihoods for the local people in these areas [1]. Shea trees produce nuts that contain abundant oil which is extracted and used in cooking, in cosmetic formulations and medicinal ointments. Shea tree populations in Uganda have been decimated by various anthropogenic practices [2]. This study sought to identify the most suitable shea tree use option that has least social and environmental cost. A consultative mixed-methods approach [3] involving 124 household interviews, 10 focus group discussions and field observations was employed to perform a cost benefit analysis of various use options. Farm gate prices and average quantities harvested per hectare were used to value the shea tree products [4]. The value of environmental services from shea parklands per acre was obtained from secondary sources [5]. Labour costs in charcoal production were US$ 220 ha -1 , US$ 132 ha -1 in oil production and US$ 44 ha -1 in timber production. Environmental services were estimated at US$ 23.9 ha-1yr -1 . The Net Present Value (NPV) of she oil production was US$ 8,309 ha -1 , charcoal production was US$ 5,766 ha -1 and timber production US$ 4,822 ha -1 . Since charcoal and timber production are a one-time harvest in 20 years, oil production is therefore the best-bet use option since it continues throughout the lifetime of a tree."},{"index":9,"size":22,"text":"Sensitivity of shea tree use options' NPV to various discount rates. Note the base-case discount rate was 10% during the study period."},{"index":10,"size":12,"text":"Keywords: Shea tree, Vitellaria paradoxa, Cost Benefit Analysis, Agroforestry parklands, Use options."},{"index":11,"size":332,"text":"L12 Economics of AF In Kenya the agricultural sector provides employment and contributes to food security. However, micronutrient deficiencies are prevalent and require interventions from a range of interconnected strategies. Wild plants such as Baobab are often rich in micronutrients and are increasingly being recognized globally for its high nutrients. In spite of the nutritional and economic benefits potentially accruing from the opportunities for trade created by the international markets, the potential of Baobab to uplift local communities from nutritional deficiencies and poverty in Kenya has not been assessed. The present study aims to fill this gap by characterising baobab collector/producers and analyse the structure of market supply of baobab fruit and pulp on seed with respect to non-price incentives in Kenya. A total of 274 respondents were selected using linear systematic random sampling method from a list of commercial baobab collectors in three different counties of Kitui, Makueni and Kiifi. Preliminary results indicate that baobab supply by harvesters/collectors is predominantly done by women and children mainly with basic primary education. Price of the baobab fruit/pulp on seed positively influences the quantity supplied. However, the price is not the main reason why a household sold through a particular marketing channel but rather availability and accessibility of the buyer, timeliness and buyers' ability to pay in cash, and the proximity/nearness to the market also play a role. Household with more number of baobab trees in their farm supplied more baobab to the market than those with fewer trees. Households with unemployed heads and spouses and those with lower on-farm income tended to supply most of the baobab. Moreover, households with children aged between three years and 13 years participated more in the harvesting and hence selling of baobab than those with older children. The results thus imply that government policies targeted at improving commercialization of baobab fruit and pulp would greatly enhance incomes for the vulnerable groups participating in baobab trade as well as raise the nutritional status for everyone in the society."},{"index":12,"size":113,"text":"Keywords: Agroforestry, baobab supply, Incomes, Nutrition. The adoption of agroforestry practices depends on several factors, including the possibility of diversifying income sources. In an ecological zone that is apparently not suitable for cocoa cultivation (Camara et al., 2009), three traditional agroforestry systems (SAF) with cocoa have been identified (Kpangui et al., 2015). Their management involves the maintenance, preservation or introduction of local or exotic species. Although the choice of species has been documented, the financial income from the sale of the products of these associated species remains one of the important questions. To address this issue, a botanical inventory coupled with socioeconomic surveys were conducted in 52 plantations of the three identified SAFs."},{"index":13,"size":112,"text":"The investigations allowed to count 37 introduced and 35 local plants maintained. The study showed that food products from introduced species such as banana, avocado, orange and cassava provided more benefits. The simple SAF yielded more income than the others. The wood products of the saved local species brought in the most, after the felling of trees and cutting into planks. The logging of local saved timbers (Figure 1) could yield to a farmer between 3,000 and 30,000 FCFA per tree (an average of 15,500 FCFA) according to the diameter and the quality of the tree. The exploitation of wood products tends, however, to favor the expansion of the simple agroforestry system."},{"index":14,"size":26,"text":"View of a framire (Terminalia ivorensis A. Chev.) shot and slaughtered in a cocoa plantation Keywords: : Economic value, cocoa companion species, agroforestry system, Côte d'Ivoire. "}]},{"head":"Income contribution and determinants for adoption","index":130,"paragraphs":[{"index":1,"size":217,"text":"Lejissas L. T. 1 (lemlemtajebe@gmail.com), Tanga A. A. 2 , Ayele Z. E. Despite the long history of agroforestry in Ethiopia, the level of its adoption by farmers and its significance for household income improvement has not been matched by the generated technology and knowledge system. This is due to the system's more attractiveness to relatively wealthy families or those with larger land holdings since they have financial capability and mental readiness to allocate more resources to commercial tree growing ( Bellow et al., 2008 ). Poorer farm households often concentrate on producing subsistence crops rather than growing trees as cash crops, the benefits of which can be accrued after years ( Negussie Achalu, 2004). A key lesson is that promoting technology is far more complex than simply generating information. Promotions of on-farm tree/shrub plantings could also greatly relieve the pressure on the remnant natural forest by providing variety of forest products. Beside climatic and biophysical suitability for temperate fruit production, central highlands have a great opportunity for marketing of the produced fruits due to their proximity to the capital city market. Accordingly, this research was intended to find out the contribution of apple-based agroforestry system to improve the household income along with the critical factors that limit the adoption process in the central highlands of Ethiopia."},{"index":2,"size":250,"text":"For this study, a rule-of-thumb that , where N is minimum number of households and m is explanatory variables, was used (Green, 1991). The market price method was used to estimate the value of goods that are bought and sold in the local market. To answer the question of factors influencing the adoption of apple-based agroforestry system, a binary logistic regression model was used. Adopters mean annual gross income from vegetable + apple fruit was 344,602.27ETB ($12,763) ha-1yr-1 and mean annual gross income of non-adopters from vegetables was 187,925.43ETB ($6960)ha-1yr-1. Non-adopters annual net income from vegetables was 165,478.34ETB ($6128) ha-1yr-1 and adopters' annual net income from vegetable + apple was 312,378.79ETB ($11570) ha-1yr-1. The mean annual apple fruit production from 928.3trees ha-1 was 3639.68kg ha-1 yr-1 and the gross income was 58,234.85ETB ($2157)ha-1 yr-1. Income obtained from apple contributes 17 per cent of the total income from agri-horticultural system. The mean gross income of adopters from vegetables + apple was 1.8 times higher than the income of non-adopters from vegetables. The mean gross annual revenue of adopters from solely apple fruit production constituted about 17 per cent of the total income obtained from vegetable + apple. The mean net annual income of adopters from vegetables + apple fruit was 2 fold higher than the income of non-adopters from vegetables. However, adoption of the system was significantly influenced by Age (+), formal educational levels (+), livestock holding (+), distance from market to home (+), sex (-) and total land holding (-)."},{"index":3,"size":196,"text":"Keywords: Agri-horticulture system, Apple tree adoption, Household income. Agroforestry offers an opportunity to increase agricultural enterprise profitability. The benefits of agroforestry are multiple, but too often the decision by farmers to adopt an agroforestry system is dependent on only a single benefit, such as the forestry economics being profitable. However, the forestry benefits per se may only be a relatively small component of the overall financial benefits that trees provide to the agricultural system. We established a project in Tasmania to quantify the benefits that agroforestry, in a shelterbelt configuration, conveys to the adjacent agricultural enterprise. The project is also developing a modelling framework to integrate the benefits into a form that allows farmers to understand the scale of the financial returns and the relative contributions of each of the benefit streams. Key results from the study will be presented, including the impacts of shelter on the windspeed, evaporation and pasture productivity. Other values such as carbon and amenity are included in the tool that allows land managers to account for the financial returns from the broader suite of benefits. The benefits of shelter on agricultural productivity tended to outweigh all other returns from the system."}]},{"head":"L12 Economics of AF","index":131,"paragraphs":[{"index":1,"size":37,"text":"The assumption that land for agroforestry needs to have low opportunity cost is challenged by the study, as higher benefits are likely to accrue from the use of agroforestry systems in protection of higher value cropping enterprises."},{"index":2,"size":186,"text":"30% higher pasture production in the sheltered half of a paddock compared to the unsheltered half leads to increased profitability Keywords: Bioeconomic modelling, Imagine, Shelter benefit, economics, adoption. In Paraguay, around 20% of the population runs a family-based farm, where they mainly produce for their own consumption, plant cash crops, as soy and sesame, and maintain a low amount of livestock (Garcia and Chavez 2007;Riquelme 2016). The main challenges of these farm systems are on the one-hand increasing variable climatic conditions and compact and degraded soils, with low yields as a consequence. On the other hand, they face weak access to markets and low integration into the agroindustrial sector. Living on the edge of poverty, the younger generation migrates to cities or leaves the country. Therefore, policy makers and smallholders are interested in alternative production system that are not only economically feasible but also help to overcome the environmental burdens and reduce risk. Acrocomia, also known as macaúba, coyol, or mbocaya, is a native palm-tree in the neotropcis of Latin America. The oil-bearing fruits can be processed to fuel, food and fodder (Hilger et al. 2015)."},{"index":3,"size":86,"text":"In Paraguay, smallholders collect the fruits from wild growing palms before they are further processed in small factories since almost a century. The diverse product portfolio of Acrocomia has a high potential on the international markets and targeted cultivation would help in managing the palm and oil-quality. The main objective of this research is to find economically viable and locally adaptable cultivation systems including Acrocomia. Attention is turned to agroforestry systems with Acrocomia to especially bridge the gap of a four-year investment until the first harvest."},{"index":4,"size":378,"text":"The district of San Pedro del Paraná in the province of Itapúa was selected as a representative case study for family-based smallholder farms. A literature review was conducted and local experts and farmers were interviewed in order to identify new agroforestry systems related to Acrocomia. In a second step we built a mathematical micro-simulation farm-model with the software package MP-MAS (Schreinemachers and Berger 2011). The model is based on typical crops and livestock production patterns as well as own-consumption, derived from census data and discussed with the smallholders in the area. The model is used to analyze data related to farm-labor, costs and revenues over a 20 years investment horizon. The results are a comparison of land-use-decision options of Acrocomia, the agroforestry systems with Acrocomia and with actual production schemes. The results give further insights into farm-labor distribution, cash-balances and farm-income. Preliminary results show a potential for Acrocomia-Agroforestry systems focusing on consumption-crops. Land and labor is used more effectively and smaller farms among the smallholders can overcome liquidity problems. Measuring efficiency is important because it is an indication of resource saving potential and it is useful for better informed policy formulation and for improved farm management (Idumah, et al, 2015).This study presents the analysis of technical efficiency differential of farmers that adopt agroforestry technologies and the non-adopting farmers in North central, Nigeria. A multi stage sampling techniques was used to select 295 farmers in the study area. Data on input-output and socioeconomic variables were collected and analyzed using descriptive statistical methods and by applying a stochastic frontier production function to the data. Results show that the average farm size of adopters was 2.4 hectares while the non-adopters had an average farm size of 3hectares. The adopters had a significantly higher average gross margin cal efficiency showed that the adopters had a mean of 0.84 while that of the non-adopters was 0.79 which was significantly different. Factors affecting the technical efficiency of adopters includes: seed, labourand farm size. The variables that significantly influenced the output of the non-adopters were the seed, farm size and labour. In addition, there are increasing returns to scale for adopters and non-adopters. The study concludes that adoption of agroforestry practices play a significant role in determining the levels of technical efficiency of the farmers."},{"index":5,"size":10,"text":"Keywords: Technical efficiency, stochastic frontier, agroforestry, arable crop farmers, Nigeria."},{"index":6,"size":225,"text":"The use of biochar in agroforestry practices is a new concept in Nepal. The soil application of biochar is considered to be a promising alternative to increase productivity and reduce chemical fertilizers. To test this concept an action research project was implemented in two villages of Lamjung district in the middle hills of Nepal. This study aimed at assessing the productivity and livelihood impacts of a banana-based Agroforestry (AF) system with and without biochar-based fertilization. Biochar was used in one village while another village served as control (with NPK application but no biochar). The information obtained from 111 household survey was verified and tested through five farmers' field trials. The present paper investigates the effect of different fertilizers on banana yields and its contribution to poverty reduction. The result of the study shows that the banana yield increased by 41% in the plots treated with urine-biochar plus compost compared to the control with conventional NPK fertilization; and more than doubled (102%) compared to the fertilization with compost only. Findings also revealed that the poverty level of respondent households using biochar dropped by 30%, at Dhamilikuwa (biochar village) and it is only 19% at JitaTaxar (control village). The study implies that the use of biochar in banana-based agroforestry system has potential for increasing soil productivity and reducing poverty, thereby revitalizing agrarian economy of many Nepali villages."},{"index":7,"size":331,"text":"Keywords: biochar, banana based agroforestry, productivity, agrarian livelihood, poverty alleviation. Cacao production in Colombia has socioeconomic relevance. Its production implies an estimated annual demand of 7 million daily-labor and supports the monetary incomes of 35000 families, mostly in rural areas (Agronet, 2013). According to Agricultural National Census, 2014, cacao area (recently planted area + harvested area) was 165.000 hectares, located in 27 out of 32 national departments in 327 Colombian municipalities. Given the current socioeconomic scenario, which combines attractive market forecasts for farmers and a post-conflict period, which promotes the developing of new profitable agricultural activities, cacao area has increased in recent years (Cely, 2017). Among the different cacao productive regions, Tumaco -Nariño, has been placed as one of the most important municipalities. It is located in the Pacific region, which is a Colombian post-conflict zone and according to some national \"fine and flavor\" experts, the cacao harvested in this region has special characteristics, which are attractive for the market [1] (Casa Luker, 2014;Rodriguez et al., 2011). This study was conducted in Tumaco during 2016 and 2017. it was divided into two stages. During the first stage a socio-economic characterization for cacao agroforestry systems was conducted; cacao production costs, plant densities, yields, financial sources, and planted forest materials were analyzed. it was identified that there are 3 plant densities in the region (3mx3m, 3.5mx3.5m and 4mx4m), which affect only the production costs, but also the yields for the farmers. Based on this fact and in order to determine the optimal plant density, a linear programming was conducted, in the second stage. The algebraic model used workforce, financial payments minimum required incomes as constraints, in addition, profitability was used as the objective function. This model was optimized with GAMS software, using CPlex solver and the plant density 3mx3m (1100 plants/Ha), was identified as the optimal solution for it. The minimum required price for this solution was $4.700/Kg and the ICR (Rural Capitalization Index subvention) had to be greater or equal to 20%."}]},{"head":"L12 Economics of AF","index":132,"paragraphs":[{"index":1,"size":20,"text":"[1] A cacao sample collected in Tumaco-Colombia won the \"Excelencia Extranjera' prize in \"Salon du Chocolat\" at París 2016 ."},{"index":2,"size":83,"text":"Keywords: Costs, Utility, Linear Programming, Incentives, Cacao. The agroforestry parkland has been conceptualized empirically in the Sahelian zones, to cope with the constraints pedoclimatic the weak soil fertility, food demand and economic conditions. And now, it is promising to ensure the resilience of agro-systems destroyed by the intensified monoculture promoted since the 1950s. There results showed that under tree a pure culture or mixed / intercropping systems with fewer inputs produced more under the crown than intensified monoculture because of free Eco-Systemic Services."},{"index":3,"size":26,"text":"Provisioning services: food and feed yields are higher than pure crops (LER de 1.20 to 4); Regulating services: (micro)-climate regulation; protection against wind and rain erosion;"},{"index":4,"size":15,"text":"Economic and Social services : Benefit Equivalent Ratio>1; curbing the exodus to limit social disruption."},{"index":5,"size":47,"text":"The influence of agroforestry parkland because of several free ESS, preserve agro-écology and limits the greenhouse effect. Peasants use now the Assisted Natural Regeneration but also the « forest zaï » ensures resilience agroecosystems. Then only the peasants will get their ecological, food, economic, and social sovereignty. "}]},{"head":"Agroforestry adoption","index":133,"paragraphs":[{"index":1,"size":6,"text":"Adopting the future of land use"}]},{"head":"-L13 -Socio-economic and cultural constraints on technology adoption in agroforestry systems","index":134,"paragraphs":[]},{"head":"You want me to do WHAT? the many constraints on adopting agroforestry tech","index":135,"paragraphs":[{"index":1,"size":149,"text":"Technology adoption has often been a key constraint on improving productivity, income and yields in farming, particularly in developing countries where market-based systems of production are not well developed, the subsistence economy remains strong, land is held under communal tenure and family labour is the backbone of production. This session welcomes papers that explore socio-cultural and economic factors that constrain or limit the adoption of new technologies in agroforestry systems. We interpret technology in its broad sense to include non-material technologies such as new farm management techniques, labour arrangements, changing gender relations, new regimes of land tenure, etc., as well as material technologies like new processing machinery, inorganic fertiliser and so on. We anticipate that together the presentations will provide an overview of the key constraints on technology adoption and smallholder productivity in much of the developing world and point to potential solutions and strategies to address such constraints."},{"index":2,"size":516,"text":"The low rate of technology adoption has long been a key constraint on improving productivity, income and yields in farming, particularly in developing countries where market-based systems of production are not well developed, the subsistence economy remains strong, land is under communal tenure and family labour is the backbone of production. We examine four case studies of innovation to explore key socio-economic factors facilitating or constraining adoption: 1. new replanting program for oil palm smallholders in PNG, 2. new selected oil palm planting materials in Cameroon smallholdings, 3. Cocoa Pod Borer control methods in PNG, and 4. high yielding planting materials amongst cocoa growers in PNG. We assess the propensity to adopt along a number of socioeconomic dimensions including intra-household relations, particularly gender relations; tensions between modern and traditional farming practices in terms of labour mobilisation, land tenure and the indigenous values underpinning production, consumption and distribution. The barriers to technology adoption and innovation are not simply technical and nor are they because smallholders lack the relevant knowledge and information to facilitate adoption. Rather, proposed technologies and innovations are often incompatible with indigenous values, habits, and socio-cultural institutions that can make adoption difficult for farmers. Improving adoption rates requires a closer alignment with indigenous social institutions and values.  Agroforestry systems are an intervention priority in the Andean montane landscapes of Ecuador, as they contribute to the restoration and sustainability of a highly fragmented landscape. However, smallholders are often reluctant to adopt new practices, preferring to maintain conventional monocultures and pastures. Within the framework of the projects EcoAndes and Programa Bosques Andinos, a tool that proved effective in generating acceptance of change was farm planning. This comprehensive, simple and participatory planning tool, based on mapping and analysis of land use options, was used with 38 smallholders who later chose to implement different agroforestry practices; which, in addition to protecting forest remnants, also restored priority areas. Through the farm planning tool, it was possible to: a) generate trust with landowners, by providing them with a tangible and useful product to support their decision-making regarding land use; b) recognize advantages and vulnerabilities of the different farm areas, and jointly reflect on more sustainable use options. The farm plan was a first step towards a more pro-active and informed decision-making by landowners, and has potential to be a key element for external support programs that act in a coordinated manner and contribute to a previously established plan. This tool, which can be updated over time, also contributes to documenting land use change and facilitates the monitoring of impacts of agroforestry practices over time. Keywords: agroforestry adoption, farm planning, landscape restoration, agroforestry systems, silvopastures. Land degradation has reduced agricultural productivity in Nepal's terai. This has raised concern over the viability of conventional agriculture of the terai farming system. Agroforestry can be a potential solution to the above problem. This paper aims at identifying socio-economic constraints affecting adoption of agroforestry with respect to conventional agriculture. Data were collected from a survey of 288 households through a face-to-face interview. A multinomial logistic regression (MNL) was run with conventional agriculture as a base category."},{"index":3,"size":133,"text":"It was found male-headed households are more likely to adopt agroforestry. Having a source of off-farm income also has a positive effect on adoption because off-farm income acts as a safety net in case of crop failure. Landholding size was found as a major constraint to adoption. Sparing a part of farmland for tree planting means reducing field crop production and thus failing to meet annual food needs of smallholder farmers. Some other variables affecting positively include livestock herd size, provision of extension service, home-to-nearest government forest distance, membership and awareness of farmers about environmental benefits of agroforestry. Irrigation is another constraint that has stopped farmers from promoting a tree-based farming system. Home-to-highway distance, family size (economically active family members) and risk-averse have significantly negative effects on adoption of a tree-based farming system."},{"index":4,"size":62,"text":"Keywords: Agroforestry, Adoption, terai farming system, multinomial logistic regression, Nepal. Soil fertility replenishment, through improved fallows, was a key achievement showing the \"promise of agroforestry\" (Sanchez 1999). The World Agroforestry Centre (ICRAF) was extremely active in eastern Zambia, carrying out extensive research and promotion of fertilizer trees for soil replenishment from 1986 until it ceased operations in 2006 (Ajayi et al. 2006)."},{"index":5,"size":39,"text":"With partners, ICRAF established a scaling-up team to promote adoption of improved fallows (Kabwe 2010). By 2006, it was estimated that over 61,000 Zambian farmers were \"reached\" with improved fallow technologies. Today, improved fallows are virtually nonexistent in Zambia."},{"index":6,"size":124,"text":"To understand what happened, a \"process tracing\" approach was used to examine the causal relations of fertilizer tree uptake in Zambia (Collier 2011). According to data from a 2015 national Rural Agricultural Livelihoods Survey, \"agroforestry\" is practiced by about 5% of households in Zambia and very few use fertilizer trees (Table 1). ICRAF left a \"vacuum\" and \"gap\" in agroforestry in Zambia. There has not been a \"sense of ownership\" by the government, r other entities to agroforestry. This paper discusses institutional and policy factors influencing adoption, including fertilizer subsidies, seed supply, land availability, extension capacity, top-down project approaches, donor demands, as well as a failure to understand farmer/household characteristics, and their knowledge, attitudes toward both the technology and its perceived returns and risks."},{"index":7,"size":9,"text":"Keywords: adoption, improved fallows, fertilizer trees, impact evaluation, Zambia. "}]},{"head":"Social marketing of agricultural practices supporting biodiversity conservation","index":136,"paragraphs":[{"index":1,"size":240,"text":"Israely L. 1 (lironisraely@mail.tau.ac.il), Amdur L. 2 , Dayan T. Encouraging farmers to adopt new practices is social challenge, as agricultural practices such as agroforestry brings multiple environmental & social benefits (Torralba, 2016). Social marketing is a strategic marketing scheme set for promoting social values using commercial marketing tools (Verissimo, 2013). The aim of the study at hand was to develop and evaluate framer  While female farmers also achieved perceived increases in knowledge through traditional sources, the knowledge gains were less than those of male farmers. In addition, the interaction of female farmers with lead farmers (i.e. community members trained to train others) made increases in knowledge much more likely. However, the overall impact of lead farmers is constrained by their limited range and availability. While women who received lead farmer visits were more likely to report high levels of agroforestry knowledge retention post-extension, the majority of female participants received no such visits. These findings correspond with the literaure in several ways, including the efficacy and limitations of lead farmers (Toth et al. 2017). Our results can inform more effective approaches for improving CSA extension effectiveness, such as: training more female extension agents, including improving the extent of sensitivity to the needs of female farmers in extension agent training, and coordination of specialized women's groups for the purposes of serving as their own farmer clubs and centralizing receipt of formal extension (thereby increasing confidence and reducing nominal and passive participation)."},{"index":2,"size":9,"text":"Keywords: Gender, Climate Smart Agriculture, Agroforestry, Extension, Logistic Regression."},{"index":3,"size":174,"text":"Intercropping annual food crops in coffee gardens is sometimes done in an ad hoc manner (usually without added fertilizer) in order to provide additional food for the household. The objective of this research was to study the adoption of formalised intercropping of coffee with vegetables in a way that improves the nutrition and yield of coffee through its juxtaposition and thus access to nutrients applied to those vegetables. The trials were conducted on-farm to maximise farmer participation and to test the research concepts under real conditions. The uptake of formalised intercropping was successful in Asaro because farmers were already familiar with this concept as they were already practising ad hoc intercropping because of land shortage issues. However, in Bena it was less successful as it was a new concept and was adopted by only one farmer (who had secured a market for his vegetable produce) (Fig 1). One reason for the initial lack of adoption is clear; namely, limited funds to support the technology even though it can have financial benefits in the future."},{"index":4,"size":177,"text":"Increased production leads to increased incomes thus providing resources to further increase vegetable production and improve nutrient management strategies for both coffee and vegetables. However, the adoption of such technologies is minimal and needs more research to identify the gaps for better intervention. This paper explores the various reasons for adoption or non-adoption of intercropping technologies. Keywords: intercropping, coffee, vegetables, nutrition. The need to address socioeconomic and environmental conditions in the upland area in the Philippines, necessitate the introduction of agroforestry technologies. Agroforestry is the main production technology that is integrated in the country's sustainable forest management programs. In spite of these, however, the sustained adoption of agroforestry remains a challenge. This article argues that socioeconomic characteristics of the farmers, particularly age and income, as well as policies are the main determinants in the farmers' choice of adopting agroforestry and conservation farming practices. This argument is based on a study conducted in three upland farming communities in the Philippines, involving a survey of 230 farmer-respondents, nine sessions of focus group discussion, key informant interviews and farm visits."},{"index":5,"size":310,"text":"Results revealed five dominant development pathways that exist in the upland farming communities, namely: monocropping + conservation practice (Pathway 1); multiple cropping + conservation practice (Pathway 2); agroforestry (Pathway 3); agroforestry+non-farm activities (Pathway 4); and, multiple cropping without conservation practices (Pathway 5). From monocropping in the 1990s to early 2000, the upland farmers have shifted to crop diversification from the mid 2000 to 2016 at the time of the study. The shift was driven by internal stimuli such as the need for households' source of food and income, as well as external stimuli such as development programs, and climatic variability. Results of the multinomial logistics redeterminants in the farmers' choice of adopting agroforestry and conservation practices. Specifically, as the income of the farmers engaged in Pathways 1, 2 and 4 increases, they would prefer these pathways rather than Pathway 3. Agroforestry requires the integration of two or more crops, with woody perennials, which imply the need for additional capital to invest on planting materials, farm inputs and labor costs. Similarly, older farmers engaged in Pathways 2 would choose these pathways over Pathway 3. The woody perennial components of the agroforestry systems take about at least seven years before they bear fruit. This may not be favorable among the older farmers because of the perception that they would not have immediate economic benefits from these species. The mean predicted probabilities suggest that there is 13% probability that farmers would choose Pathway 1; 5% would choose Pathway 2; 29% would choose Pathway 3; 52% would prefer Pathway 4 and 1% would choose Pathway 5. These results imply the need to emphasize the ecological services of agroforestry besides its economic contributions, and review the mechanisms of incentivizing and providing support system to farmers engaged in agroforestry, among others. Thus, there is a need to revisit and formulate sound national and local agroforestry policies."},{"index":6,"size":48,"text":"Keywords: climate change, adoption, upland farming, pathways, policies. In most developing countries, there has been a long-standing conflict of interest between using land for agriculture and the conservation of biodiversity. This paper reports on a study of factors influencing farmers' decisions to incorporate trees into their agricultural practice."},{"index":7,"size":184,"text":"We also discuss the possibility of protecting and managing trees on farmland in order to restore degraded land and improve biodiversity. The data were collected from personal interviews conducted with farmers in the Center-West region of Burkina Faso and analyzed using Principal Component Analysis, multiple linear regression and binary logistic regression. The results showed that farmers' decisions to incorporate trees into their farmland were mainly influenced by silvicultural knowledge and skills, participation in farmers' groups or other social organizations with an interest in tree conservation, the social value of biodiversity in the rural landscape and the perceived economic benefits of trees on farmland. The most important factors associated with variation in levels of motivation to conserve trees on farms included household wealth, gender, age, education level, marital status, residence status, farmland size, household size and technical support. We conclude that an agroforestry project will be more successful if the diversity of smallholder socio-economic characteristics and their perceptions are considered in its design. The importance of farmers' attitudes for the adoption of agroforestry: a case study in India Brockington J. (j.brockington@bangor.ac.uk), Hockley N., Brook R."},{"index":8,"size":10,"text":"School of Natural Sciences, Bangor University, Bangor, Gwynedd, United Kingdom"},{"index":9,"size":560,"text":"The vast majority of agroforestry adoption studies only consider demographic and socio-economic variables in their analyses. While valuable, the focus on 'extrinsic' factors has neglected underlying psychological and motivational factors that are likely to influence farmer decisionmaking (Meijer et al. 2015) Cattle production is a central livelihood for smallholders in the Argentinian Chaco. Smallscale \"criollo\" farmers oftentimes live in settlements in the middle of the forest. However, the Chaco forests and related ecosystems are under high pressure. The Argentinian Chaco currently experiences very high deforestation rates. This process has been driven mostly by the expansion of the agricultural frontiers, in particular for soy, as well by large-scale cattle ranchers [1]. Among the two main user groups of native forest, we find indigenous people, as well as small-scale \"criollo\" farmers. These smallholders raise cattle, mostly with management practices known as \"campo abierto\", a system under which cattle roam freely in the forest and feed from natural vegetation (trees, shrubs and rare natural pastures). In order to secure higher income for farmers, as well as to reduce pressure on forests, recent and private initiatives have developed silvopastoral production systems for smallholders. Most of these systems involve felling shrubs (either with tractor rollers or manually) and introducing new grass species (gaton panic, buffalo grass, etc.). These pastures provide forage during the dry season and thus contribute to reduced pressure on forests during this sensitive period, although this comes with important costs associated with preparation of land and fences. This article examines the current introduction of silvopastoral production systems in the Chaco salteño and their adoption by smallholders. We will present results from a survey conducted in August 2018 of 552 small-scale cattle rangers from the departments of Rivadavia and San Martin, Salta, Argentina. We will focus especially on the stated motivations of smallholders adopting these practices. This information will be combined with socio-economic profiles of the households (i.e. subsistence versus entrepreneurial farmers). We also examine diffusion channels of silvopastoral practices (networks and institutions involved). The article concludes with some policy implications for silvopastoral development in the Argentinian Chaco in the context of acute deforestation. Rural forests, i.e. farm forests and trees outside forests (TOF), are part of traditional agroforestry systems in many European regions. Yet, the industrialization of agriculture has induced the decline of rural forests and promoted a physical and functional separation between trees and agriculture. Despite the recent promotion of TOF in the Common Agriculture Policy (CAP), most farmers do not reinforce them in their farms. In order to understand farmers' attitudes towards rural forests, we conducted 19 face-to-face interviews in southwestern France. Farmers identified 32 positive contributions, including 29 ecosystem services (ES), associated with rural forests. Similarly, they emphasized 25 negative contributions, including 21 ecosystem disservices (EDS). Contributions varied with the type of forested area. For instance, hedgerows had high levels of positive and negative contributions, while woods had high levels of positive and low levels of negative contributions. Finally, farmers identified 19 stakeholders and institutions, especially the CAP, that influenced rural forest management. In focusing on the balance between positive and negative contributions, our study enabled us to uncover the complex rationale of local rural forest management. Ecosystem disservices and CAP policies tended to discourage farmers to reinforce rural forests in their farms. Taking into account farmers' rationale and perceptions may give invaluable information to better target public policies."}]},{"head":"Keywords","index":137,"paragraphs":[{"index":1,"size":12,"text":"Number of times each positive and negative contribution was cited by farmers."},{"index":2,"size":9,"text":"Only contributions with at least two citations are represented."},{"index":3,"size":94,"text":"Keywords: local knowledge, local perceptions, Common Agriculture Policy, Mental models, landscape-scale agroforestry. Pacific Islanders are \"natural\" agro-foresters in as much as their gardens are dynamic mixtures of tree and ground crops within the context of shifting cultivation. However, coastal land with easy access for communities is at a premium with coconut plantations taking up a large area that could be considered disproportionate to the goods and services that they produce. But copra is one of the few avenues for subsistence farmers to earn hard cash and therefore coconuts command their position within the landscape."},{"index":4,"size":394,"text":"The widespread planting of teak has brought further pressure on land within coastal communities, especially in those provinces where land pressure is highest (Malaita and Guadalcanal), the development of a formal agroforestry system was seen as a way of allowing people to earn a living from growing high value trees for export while utilising the land for food and cash crops. A project under the Australian Centre for International Agricultural Research was instigated to examine the introduction of novel systems for growing high value trees that would also allow crop production. Trial plots were established in communities and in selected vocational training centres (see image) with good results, but the initial enthusiasm was short lived. The paper will discuss the challenges the project has faced and also the agroforestry solutions that have been established to assist communities to have a sustainable livelihood in one of the worlds least developed counties. Firewood is the main source of cooking energy in West Africa. In the savannah, firewood mostly comes from agroforestry parklands which are subject to increased environmental pressure. Failed predictions on the exhaustion of parklands as firewood stocks suggest that these warnings may have over-simplified the phenomenon, lacked the necessary data or underestimated the parklands' resilience. During 2014 and 2015, in the catchments of Dassari, Benin identify householders' firewood-management practices, quantified their consumption, and identified the favored species and the biomass stocks. Our results show that preferred species diverged from species conventionally asserted as firewood and there was a growing predilection for bushes and palms. A firewood trade had started to emerge, framed by scarcity and institutional control, and firewood gathering was being overcame by branching and selective cut. The average per capita consumption may be substantially higher if other uses are accounted for such as beer brewing (Figure). Our two-site study, contrasted production and consumption and their drivers, contributed to an understanding of the sustainability of firewood and shed light on other factors, such as religion prohibitions, that play a determinant role in firewood demand. The conversation around agriculture in the U.S. is subject to a neoliberal framework that requires farmers to consider their practices in economic terms. As a result, the rationale behind any change in practices is often discussed in terms of bottom line and omits the environmental and social aspects that need to be considered for agricultural practices to be sustainable."},{"index":5,"size":42,"text":"In the case of agroforestry, environmental benefits have been carefully studied and conversations about the adoption of practices have come to include these arguments. However, due to the challenge of measuring their impact, the social components, on the other hand, remain subordinate."},{"index":6,"size":71,"text":"To counterbalance the power of economics in the agricultural discourse, an intentional focus on non-economic factors is necessary. Interviews conducted in Southwest Wisconsin using this methodology allowed agroforesters to discuss their practices in their own terms and revealed clear considerations of the environmental and social components of these practices. Most importantly, these conversations helped identify place as a useful concept to recognize the inherent embeddedness of these environmental and social elements."},{"index":7,"size":44,"text":"Challenging the mainstream understanding of sustainability that separates environment, society, and economy and using the concept of place as a framework allows the social benefits of agroforestry to be further discussed and can make for a more balanced and wholesome conversation around these practices."},{"index":8,"size":436,"text":"Keywords: motivations, social aspects, sustainability, place, discourse. The characteristic Miombo ecosystem of Upper Katanga is severely degraded on the outskirts of the city of Lubumbashi by charcoal production, slash and burn agriculture, urbanization, and the regular passage of fire. To jointly meet the objectives of food security and the fight against deforestation, the Afodek project (Agroforests for the Development of Kipushi, 2012-2017) implemented by Gret and Nature + with EU funding, supported the development of an agroforestry perimeter. 2,000 hectares where 150 families from the surrounding villages have been progressively settled and supported in the development of 12 ha lots exploiting the principle of improved (soil-building) fallows. The monitoring of tree growth and ecosystem services (carbon storage, non-timber forest products) is now carried out by the University of Lubumbashi in support of the Central Association of Agroforestry Perimeter Associations of Kipushi (CAPAK). This system of forest species planting whose main purpose is the production of timber or fuelwood is part of the initiatives in DRC carried out around Acacia auriculiformis and Acacia mangium. The project demonstrated how to adapt the Taungya system to the local soil, climate and socio-economical conditions by addressing the challenges of land quality and household capital heterogeneity. Achieving these results requires initiating a collective learning dynamic that leaves room for experimentation and adjustment. Sustaining biodiversity while meeting global agricultural needs is a critical challenge. This is especially true in remote Pacific Islands like Hawai'i where over 25% of native plants are threatened or endangered and high labor and land costs make both native forest restoration and agricultural production economically challenging. Biodiverse, crop producing agroforests can address this issue and were widespread in Hawai'i before European contact, yet few remain today. While interest in agroforestry restoration is growing, designing systems that incorporate indigenous and local knowledge and produce desired ecosystem services remains challenging. Plant functional traits may facilitate the design process by serving as a tool to predict the connections between plants and ecosystem services; however, few studies have combined a functional trait approach to agroforestry design with explicit inclusion of cultural values. We tested a participatory design process to identify a list of culturally and economically important candidate species and then used a functional trait approach to select species that would also provide 1) erosion control and 2) early successional facilitation services. We established the two species mixes on a community farm using before-after-control-impact design and will monitor plant growth and survival, soil carbon, and erosion over time. We discuss the opportunities and challenges of this approach and describe the early stages of a long-term experiment. at a community workday opening ceremony."},{"index":9,"size":108,"text":"Keywords: biodiversity conservation, functional traits, ecosystem services, biocultural restoration, participatory design. In recent years, economic forces have favored expansion of perennial crops (such as almonds, grapes, and walnuts) at the expense of annual crops (such as tomatoes, carrots, and alfalfa) in the Central Valley. These perennial crops -now more than 2 million acres -are high-input mechanized monocultures; they do not usually have lower inputs or higher biodiversity than annual crops. However, some Central Valley farmers are experimenting with adding species to their orchards and vineyards to augment ecosystem services and reduce environmental impacts. Here, we examine a small sample of early adopters and assess prospects for scaling up."},{"index":10,"size":178,"text":"We interviewed 16 farmers with diversified orchards and vineyards, some of whom used more --These diversified practices are currently very rare in the Central Valley. For example, data from Yolo County [1] suggests that only about 4% of field and road edges are maintained with hedgerows or other native vegetation. A US-wide analysis [2] found that only 1% of crop area is integrated with livestock; this is likely even lower in California due to strict food safety laws for fruits and vegetables [3]. This illustrates the challenge of diversification when financial and policy incentives are lacking and knowledge networks are sparse. However, we also found reasons to be optimistic about diversification trends. For example, incentive programs may increase adoption. In 2017, California's new Healthy Soils Initiative gave out over US$7 million in grants for conservation practices, of which approximately 25% included diversification of orchards and vineyards. More research is needed on farmers' experiences and perceptions so that California's Central Valley becomes renowned not only for its agricultural output, but also for its diverse and sustainable perennial cropping systems."},{"index":11,"size":47,"text":"Keywords: Mediterranean, orchards, vineyards, intensive, diversify. Agroforestry offers an integrated approach that can curb land degradation and deforestation, while securing the livelihoods of rural households. As well acknowledge that, the adoption level normally based on the real needs and interests grounded in socio-cultural and economic factor's contexts."},{"index":12,"size":13,"text":"With the aim to bring agroforestry research results to application in Northwest Vietnam."},{"index":13,"size":90,"text":"The research framework combined different activities, started by understanding local ethnic group's knowledge on tree-soil interaction, their perception, the challenges and interests from adopting agroforestry. The participatory approach was carried out to design agroforestry systems, in which local knowledge and scientific knowledge are combined. These established trials were evaluated to find out suitable options and spread through farm visits and training sections, following by equipping basic skill based on farmer's needs and interests. The research findings and farmer's feedback were used to advisory policy makers on promulgate the development programs."},{"index":14,"size":399,"text":"The study showed that the farmer's specific social circumstances influence their aspiration and constraints for agroforestry intervention. Perceived challenges to adopting agroforestry systems are varied among ethnic groups. Seven systems have been evaluated as higher economic and environmental performance compared to current farmer practice. The farm visits and trainings on various aspects of agroforestry, as laying out contour lines, establishing nurseries, preparing seedlings and designing agroforestry farms, benefiting more than Both science-technologies and local knowledge can offer potential solutions to addressing the increasing vulnerability of mountain ecosystems and communities and building their resilience to natural hazards. However, a disjuncture between local and scientific knowledge on farming practices can have implications for rural livelihoods, ecosystem health and potential hazards when the two knowledges come together. So how can we resolve this disjuncture for reducing communities' vulnerability and increasing their resilience? Knowledge hybridization might be one such process towards resilience, \"where traditional knowledge, practices, and beliefs are merged with novel forms of knowledge and technologies to create new knowledge systems\" (Gómez-Baggethun et al. 2013). In eastern Nepal, farmers are changing their farming practices from traditional and scientifically-endorsed alder-cardamom agroforestry to monoculture cardamom plantations that can potentially trigger landslides. Many researchers and development agencies have endorsed a preferred agricultural practice for farmers in this region that aims to not only reinvigorate traditional agroforestry systems but also couple innovative climate-smart agricultural practices with the reinvigoration. During this process, this research postulates that sustainable resource management and disaster risk reduction measures derived from knowledge hybridization may (1) be nurtured with increased knowledge range, diversity and options for learning and problem-solving; ( 2) emerge as cultural built-in objects and situated practices, and ( 3) therefore be more intuitive to local farmers and more likely to be acted upon. As a result, a hybrid knowledge system, and a capacity and condition to cultivate such hybridity, could proffer pathways to resolving the disjuncture between local and scientific knowledges and contribute to enhancing farmers' resilience to environmental changes. This research is operationalized through an ethnography of risk-based agricultural decision-making and a field experiment of knowledge engagement through citizen-powered participatory digital mapping. The study examines the conditions in which local and scientific knowledge are produced and exercised, when they are compatible, and how they can be integrated to develop place-based resilience through reviving alder-cardamom agroforestry in Nepal. A mixed-methods approach has been used to collect qualitative and quantitative data. "}]},{"head":"Educational offer in agroforestry in the countries of the Pacific Alliance","index":138,"paragraphs":[{"index":1,"size":7,"text":"Lizárraga A. (alizarraga@cientifica.edu.pe), Lino G., Quirós L."}]},{"head":"Ingeniería Agroforestal, Universidad Científica del Sur, Lima, Peru","index":139,"paragraphs":[{"index":1,"size":82,"text":"The Pacific Alliance is a platform composed of four countries, Chile, Colombia, Mexico and Peru, and «is a mechanism of political, economic, cooperation and integration that seeks to find a space to promote greater growth and greater competitiveness of the four economies that make it up» (Pacific Alliance, 2018). This agreement is related to the development and integration processes. In this sense, policies related to the promotion of education, and particularly on agroforestry systems (AFS), are considered as strategic elements for sustainability."},{"index":2,"size":206,"text":"There are several examples of the importance of education in agroforestry systems (Zulkberti, 1990;Tengnäs et al.;2008, Okojía, 2018)). Education is somehow related to the different characteristics of the four countries. Therefore, knowing the situation of agroforestry in the university system is important in order to perform a detailed analysis later. The information on the entire educational offer at the undergraduate and postgraduate levels of universities in the four countries was reviewed, based on the Webmetric Ranking data. The total of universities in the four countries was 618, of which 99 have degrees in Agronomic Engineering and 32 in Forestry Engineering. Within forestry careers are six (1% of the total) whose objectives are oriented to the management of agroforestry systems. In Colombia, 5% of universities have a degree in Agroforestry Engineering, while Peru has only 2%; Mexico and Chile do not have careers in agroforestry. None of the universities in these countries has a master's degree or doctorate in agroforestry. However, some universities with careers in Agronomic Engineering and/or Forestry Engineering in Colombia and Peru include some agroforestry courses: five in Colombia and 15 in Peru, equivalent to 8% and 10% respectively. There are differences between the relationship between the agricultural/forestry area and the number of universities."},{"index":3,"size":27,"text":"There are also differences in the relationship between the GDP of the countries and the number of agricultural careers. In both cases we considered a negative direction."},{"index":4,"size":107,"text":"Keywords: Agroforestry, Pacific Alliance, Education, Latin America. Agroforestry systems in Greece have a long tradition and were once actively managed. However, they have become increasingly neglected due to agricultural intensification and rural exodus. This has, in part been driven by the Common Agricultural Policy, which has promoted to remove trees in favour of intensive production systems. This study sought to assess local perceptions of the socio-economic contribution of old agroforestry systems for the livelihoods of the local population. Interviews were held with 64 farmers, shepherds and other actors from the villages Eratira and Sisani in Northern Greece to assess the contribution of agroforestry to ecosystem service provision."},{"index":5,"size":113,"text":"The results showed that despite the need for economic income, agroforestry was highly valued for contributing to indirect benefits of ecosystems like the beauty of the landscape, climate regulation and protecting livestock against harsh weather. This corresponded with ecosystem services that were recognised as most important ones for supporting local livelihoods. Yet, the results showed that trees were increasingly being removed from the landscape due to economic pressure. In order to maintain the multifunctional character of the landscape, it is recommended to promote the valorization of non-monetary benefits from agroforestry practices and improve the cooperation between local and administrative level. Furthermore, continuous and strategic awareness-building on benefits of agroforestry is seen as crucial."},{"index":6,"size":21,"text":"Advantages of integrating trees into cultivation areas and pastures according to the interviewees Keywords: ecosystem services, agroforestry, multifunctional landscape, indirect benefits."},{"index":7,"size":214,"text":"Agroforestry is a land use system that includes the use of woody perennial and agricultural crops and animals in combination to achieve beneficial ecological and economical interactions for food, fiber and livestock production.The aim of the study was to evaluate and classify the timber based mixed farming/agroforestry systems.The objectives of the study was to determine the potential constraint of rainwater on the establishment and expansion of agroforestry, to document farmer's perception on constraints to agroforestry competiveness, to review the current knowledge on agroforestry and to identify and describe the farmers' benefits from timber based mixed farming/agroforestry. A purposive sampling technique along with quantitative and qualitative designs were used to select 65 productive and potential timber based mixed farming/agroforestry systems classified as follows: Silvipasture; Agrosilvoculture; Agrosilvipasture and Apiculture.The socio economic data was also coded, captured and analysed using Statistical Package for Social Science (SPSS). Most of the potential classified agroforestry systems visited fell in areas of good rainfall and the results also indicated some important benefits and constraints identified by farmers. It is thus recommended that stakeholders should take note of the potential classified agroforestry systems, benefits and constraints identified by farmers in an attempt to increase agroforestry competitiveness and adoption in Limpopo Province. Optimizing yield and sustainability through mechanization and improved land management practices?"},{"index":8,"size":3,"text":"Martinez L. (lenny.martinez@12tree.de)"},{"index":9,"size":6,"text":"12Tree Finance GmbH, BERLIN, Germany, Germany"},{"index":10,"size":31,"text":"Mechanization is common all-over Latin America (but in various ways, adapting to local traditions and cultures), in all kinds of contexts and by all sorts of companies with varied values [1]."},{"index":11,"size":378,"text":"It certainly disrupts dynamics in a rural landscape, but this where both context and how the company approaches it matters. We defend an approach specific to the project's socioeconomic and environmental context. We are not suggesting that everybody should and can mechanize. In fact, in order to mechanize a farm, you need to design it and plan for that purpose from the very beginning. Mechanization entails considering the architecture of the tree and the topography of the land. Mechanization might make sense in specific projects, but it may not make sense for others. Combined with training courses, affordable, labor-saving tools could be more suitable in some contexts to increase sustainability (in particular for small farmers). Nevertheless, mechanization, if done correctly, can positively affect not only the smallholders around a project, but also the local economy by sharing infrastructure or renting machines to local companies. In fact, some machines are not used throughout the entire year, and by renting and sharing equipment, we can maximize the machine's use and offer new services to the local area. Mechanized farms may lead to lower direct employment (in comparison to labor-intensive commercial farms), but they create more indirect employment opportunities (in services required for mechanization provided to the farm), as well as more qualified employment opportunities that offer higher wages and allow aspiring youths to remain in rural areas rather than push them to migrate to urban centers, fostering growth in the region. Mechanization also increases gender equality as it alleviates the physical demands of hard manual labor and enables women to take up farm worker (and manager) positions that previously were too physically demanding. Finally, we don't want to omit the challenges of avoiding soil compaction resulting from the intensive use of machinery from this discussion. This means that particular attention needs to be paid to using proper equipment to limit soil compaction (e.g., cable transport systems instead of tractors), understanding soil dynamics, providing farmers and employees with training and educational documents on safe and optimal use, calibrating and maintaining the machinery and equipment. Drawing on 12Tree's field experience in Central and South America, in this presentation we discuss the social and cultural challenges behind the mechanization of large-scale agroforestry plantations based on preliminary results from 12Tree's established agroforestry cacao projects."},{"index":12,"size":12,"text":"[1]http://www.ifpri.org/blog/increasing-agricultural-mechanization-latin-america-will-takemore-coordination-investment Keywords: Agroforestry Systems, Mechanization, Social and Environmental Impact, Investment, Soil Restauration."},{"index":13,"size":58,"text":"This study analyzes the socio-economic determinants of garden plank technologies and horticultural grafting adoption of Adansonia digitata L. (baobab) in Kolda and Sedhiou regions in southern Senegal. The main interest of this study is twofold: on the one hand, it focuses on the preservation factors of A. digitata and the durability of its exploitation in the two regions."},{"index":14,"size":153,"text":"On the other hand, it shows that A. digitata can play a major role in improving the income of rural populations through the sale of products and in food and nutritional security. The methodology used is based on surveys and interviews with populations, but also on statistical estimates. The results show that the adoption and non-adoption factors are multiple and depend on the interest of the populations studied. For the majority of the sample (74%), adoption is determined by water availability, access to seeds and land, and the possibility of selling or buying baobab products in markets. People are also adopting technologies for their and horticultural grafting technologies of A. digitata by local populations. «Land ownership» is therefore a factor that promotes adoption as well as a «household size». In other words, improved access to land and increased household size facilitate the level of adoption of agroforestry technologies in Kolda et Sedhiou areas."},{"index":15,"size":10,"text":"Keywords: socio economic determinants, adoption, garden plank, horticultural grafting, Baobab."},{"index":16,"size":63,"text":"From urban margins to the remotest forest areas, multistrata and biodiversity-rich cocoa agroforestry systems dominate the agricultural landscapes of Centre and South Cameroon Regions. For a long time, the development of cocoa production benefited from the strong support of the Cameroonian State. Local farmers rapidly adopted the new crop and adapted their swidden agriculture practices, developing an original agroforestry system rich in biodiversity."},{"index":17,"size":369,"text":"Progressively they introduced the improved hybrid seeds, shade regulation techniques and chemical inputs promoted by an active national extension network. Unfortunately, the major economic crisis of the late 1980s and following structural adjustment plans put an end to State support and left the Cameroonian agricultural sector in stagnation for two decades. The decline and volatility of cocoa price, population migrations (rural to city, rural to forest areas), and major socio-economic changes induced a profound transformation of the cocoa production sector. Nowadays, cocoa growers' profiles and strategies are highly diverse, a diversity which in turn impacts cocoa plantations. Comparing four ecologically and socially contrasted sites in Centre and South Cameroon, a multidisciplinary study thoroughly investigated 170 farmers and 71 cocoa plantations. Ten major types of cocoa plantations were identified and characterized in terms of species composition of trees and vegetation structure (number of trees and basal area per stratum), and cocoa technical management. In the two oldest sites (Obala and Akongo) agroforestry systems have persisted, though evolving somehow. In the more densely populated areas near Yaoundé (Obala), the intermediate stratum ( 8to 25 m high) has become richer in fruit trees, the cocoa stand has been renewed with new varieties and treated with pesticides. In Talba, where population pressure is increasing in a forest area, the natives and in-migrants from Obala have opted for cocoa plantations rich in forest trees with a predominance of the high stratum (from 25 to more than 60 m), mixing old/new cocoa varieties and mobilizing pesticide treatments. On the forest margins of Mintom, where population pressure is still low, more complex agroforests (in number of strata and specific diversity) have remained, with old cocoa varieties and less pesticide mobilization; they have been even developed by recent in-migrants from Obala. However, in Mintom as well as Talba, new cocoa plantations with simple structures, new cocoa varieties and high intensity of pesticide treatment, have been established by new stakeholders, mainly urban elites investing non-agricultural capital in cocoa production, and seeking short-term financial gains. Demographic pressure, the forest environment, the origin of farmers and their strategies are the major factors that determine the farmer's choice between complex agroforests, intensively managed cocoa plantations or a hybridization of the two."},{"index":18,"size":12,"text":"Keywords: technical management, vegetation structure, specific richness, demographic pressure, diversity of farmers."},{"index":19,"size":1,"text":"References:"},{"index":20,"size":299,"text":"1  3. Bisseleua, D.H., and B.S. Vidal. 2008. Biodivers. Conserv Agroforestry is a traditional land use system that may represent the answer to many present and future environmental problems. However, many farmers who practice agroforestry do not identity it as agroforestry nor even accept such identification. So far, there is not an organized training method on agroforestry apart the Agrof MM method. The Agrof MM, «Agroforesterie -Formation -Mediterannee et Montagne», was a 3-year KA-2 ERASMUS+ educational project that aimed to i. Train between 130 and 150 agricultural professionals in Europe, ii. Improve and develop the education tools to enable agroforestry training to be sustainable, and, iii.  Agroforestry is an agricultural system where crops and/or cattle are associated with woody perennials. Rediscovered some decades ago, agroforestry is today becoming more and more popular, mostly due to the provisioning of ecosystem services it enables. In France, agroforestry is being promoted through the National Agroforestry Plan (NAP), a strategy aiming at developing agroforestry practices nationwide. The 5 French Overseas Departments (FODs, Martinique, Guadeloupe, Reunion Island, Mayotte and French Guyana) are territories characterised by their geographical isolation, a tropical climate and a specific economic context. As a consequence, agroforestry systems found in FODs are very different from those found in continental France, and the question of how to implement the NAP there arises. In the framework of the NAP, this study aims at developing a better understanding and description of agroforestry systems in FODs, focusing on three examples: shifting cultivation in French Guyana, shade-crops on Reunion Island, and creole gardens, a form of tropical homegarden. Financial incentives promoting agroforestry are also analysed. Data is collected through a review of existing literature and interviews of local stakeholders. From the results, tools that could potentially be used to promote agroforestry overseas are presented and discussed."},{"index":21,"size":134,"text":"Keywords: overseas, tropical agroforestry, agro-ecology. Agroforestry practices support agricultural resilience against climatic variability, increase soil productivity, can diversify and increase farmers' incomes, and support native fauna in agricultural landscapes. However, many farmers are still reluctant to implement agroforestry practices. Based on a comprehensive literature review we investigated the habitat potential of agroforestry systems for the golden-headed lion tamarin (Leontopithecus chrysomelas), the maned sloth (Bradypus torquatus) and the golden-bellied capuchin (Sapajus xanthosternos) in Brazil's Atlantic Forest region. We sent questionnaires to 75 agroforestry and 64 \"conventional agriculture\" small-scale farmers in southern Bahia to identify the motivations and limitations to implement agroforestry practices. We found five important factors that supported the three analyzed species in agroforest systems: absence of hunting; absence of domestic dogs; canopy connectivity; occurrence of food plants; and close proximity to forest remnants."},{"index":22,"size":118,"text":"In addition, we found four main reasons why farmers worked with agroforestry: higher income generation (89%); diversification of the production system (86%); increase in the land's quality and productivity (86%); and increase in self-sufficiency (82%). The three most common mentioned reasons for \"conventional agriculture\" farmers not shifting to agroforestry practices were: uncertainty if the system would work (62%); reduction in yield of the main agricultural crop (43%); and a lack of models and knowledge in the region (41%). Agroforestry in Brazil's Atlantic forest region can support native fauna, but farmers need to be educated about agroforestry practices and encouraged to switch from \"conventional agriculture\" to agroforestry through an increase in available technical assistance and capacitation/training in agroforestry practices."},{"index":23,"size":12,"text":"Keywords: cabruca cocoa plantations, biodiversity conservation, small-scale farmers, technical assistance, Atlantic Forest."},{"index":24,"size":131,"text":"Recent \"post-forest\" landscapes of Madagascar result generally from combined processes: forest conversion to agriculture, forest degradation, ecologically regressive dynamics, and regeneration thanks to practices that favor the protection or regeneration of trees. \"Agriforestry\" (when agriculture and trees are on different plots) and agroforestry practices have been analyzed in a Highland district in order to identify the possible levers for a landscape transition towards more trees. The approach focused on the ecological characterization of habitats and their dynamics in a recent post-forest zone, the link between practices and dynamics, and the ecosystem services expected by farmers and other stakeholders. The spatial and ecological analysis showed a double process of forest fragmentation and degradation: agro-industrial exploitation of large post-forest areas; over-exploitation of forest remnants; and barriers to regeneration processes due to bush fires. "}]},{"head":"Socio-economic factors Determining agroforestry practices in","index":140,"paragraphs":[{"index":1,"size":357,"text":"Taltamo T. 1 (tesfayemi@du.edu.et), Bongers F. 2 , Giller K. 3 , Amede T. Multispecies agroforestry is widely acknowledged for its sustainable production while maintaining the resilience of the landscape. Despite recognized advantages, its adoption is challenged by various factors. This study aimed to assess the role of socioeconomic attributes in the adoption of agroforestry systems in drought-prone Kabe watershed in northern Ethiopia. Sixty sample farms were selected using stratified random sampling. The watershed was grouped into three classes (Downstream, Midstream, and Upstream) for fair representation of farms and 20 households were selected from each elevation category. Subsequently, households were categorized into four farm types based on resource endowment that depended on farm size, livestock ownership and annual income from non-farm activities. Socio-economic data and woody species, stem number and niches of plantation were recorded in each farm. Tree and shrub diversity indices and density were calculated and compared across farm types and with the socio-economic attributes. Twenty tree and shrub species were identified. Tree and shrub species richness and abundance significantly differed among the four farm types. High resource endowed farmers possessed higher species diversity and density compared with less resource endowed farmers. Farm size and age of the household head were positively correlated with on-farm species diversity and density whereas family size and farm distance from village center showed a strong negative relationship with on-farm species diversity and density. From the results, it could be explained that richer farmers with larger farm size and better income may not be constrained by food shortages for households and allocate a significant part of the land for tree plantation. In contrast, poor farmers invest in their land for quickly growing annual crops to satisfy the immediate need of food for the households. Finally, it is concluded that tree and shrub species diversity and abundance in the farms are influenced by socio-economic factors. Therefore, it is important to identify the socio-economic constraints on the households, particularly resource endowment status prior to the introducing tree and shrub species in the farms for the adoption of the agroforestry system in the Kabe watershed and in areas with similar biophysical, socio-cultural settings."},{"index":2,"size":218,"text":"Keywords: Agroforestry, Adoption, Farm-type, Socio-economic, Kabe. A project on the ecosystemic value-enhancement of forests (Valab) emerged at the initiative of the Agricultural Union of Vanilla Producers (Syaprovag) in the Guadeloupean archipelago. This paper analyses the contextual elements -with a focus on the insular context -that led these producers to start the project. It presents their vision of agroforestry in Guadeloupe and the local challenges the project has had to face. In the early 20th century, agroforestry systems were located in spontaneous forests, in most cases itinerant, and based on a great agrobiodiversity found in Guadeloupe. Those systems were progressively abandoned because of their own constraints and because of socio-economic changes on the archipelago ( 1). In the 1990s, programs to revive the coffee and vanilla sectors led to the creation of farmers' organisations. Among them, the Syaprovag was created in 1993 and received financial support for vanilla plantations. However, vanilla monoculture did not provide sufficient income for the farmers due to the long return on initial investment, climate hazards, lack of technical knowledge, and international competition magnified in the remote insular context. In 2011, the Syaprovag farmers put forward the alternative of diversified activities in the forest, inspired by the historical Guadeloupean forest gardens. They designed the concept of \"Integrated ecosystemic value-enhancement of the Guadeloupe forest agrobiodiversity\" (Valab)."},{"index":3,"size":87,"text":"The objectives were to: 1) assure incomes to farmers through diverse quality products; 2) preserve ecosystemic services provided by the forests to society; and 3) maintain a threatened socio-cultural heritage. Moving away from long promoted sectorial approaches, these producers decided to adopt a systemic vision of the forest plot and related issues. Then, they designed the Valab project and recruited local partners for its implementation. They chose to talk about \"forest valorisation\" (value-enhancement) instead of \"agroforestry\" to distinguish their approach from tree plantations in open field systems."},{"index":4,"size":60,"text":"Valab aims to address different issues of the Guadeloupean archipelago: economic issues (viability, creation), environmental issues (preserving endemic biodiversity as well as water quality and stock for the islands, balancing carbon stocks and sinks), as well as social issues (providing quality product that meets local demand while maintaining cultural heritage and enhancing agriculture's contribution to the well-being of the population)."},{"index":5,"size":52,"text":"The VALAB project is currently being implemented. It proposes a paradigm shift in the approach to agroforestry in Guadeloupe: first, through the development of systems by and for farmers; and secondly, through the objective of achieving global value-enhancement of the forest leading farmers to envision and build new roles as biodiversity managers. "}]},{"head":"Keywords","index":141,"paragraphs":[]},{"head":"Agroforestry adoption","index":142,"paragraphs":[{"index":1,"size":6,"text":"Adopting the future of land use"}]},{"head":"-L14 -Agroforestry landscapes","index":143,"paragraphs":[{"index":1,"size":274,"text":"Across much of the world, agricultural systems, ecosystem health, and rural resource-based livelihoods are in crisis. Over the next 50 years, agriculture will be forced to go through an extraordinary transition to meet production needs sustainably, in the context of climate change, growing populations, and economic transformation. Biodiversity and ecosystem conservation efforts will need to shape new strategies in the face of agricultural growth. Populations base to secure the full range of goods and services needed from their landsof agricultural landscapes (ILM) will be an essential building block towards that transition. Landscape-level platforms and partnerships are the mechanisms by which inclusive green growth and Sustainable Development Goals will be implemented. Agroforestry systems and practices promise to play a major role in the sustainable transformation of agriculture within sustainable landscapes. This Session on Agroforestry Landscapes will examine: Increasingly agroforestry is considered as a foundation for multi-functional, socio-ecological landscape transformation. Yet the barriers to large scale agroforestry adoption are legendary, rooted in the misalignment between risk-takers (small scale farmers) and beneficiaries (society at large) (Franzel et al., 2001). Integrated landscape management (ILM) offers a strategy for scaling up agroforestry, by mobilizing collaborative efforts among multi-sector stakeholders. This study evaluates the application of ILM strategies in agroforestry initiatives in three diverse landscapes: the Amazon Production Transformation Agenda (ATPA) project of the Ecuadorian Ministry of Livestock and Ministry of Environment, the Chocó-Andean Bio-Corridor in Ecuador, and the Nut Tree Based Agroforestry initiative in New York. Integrated landscape management (ILM) frameworks provided the conceptual basis for analysis (Denier et al., 2015, Sayer et al., 2013;Scherr, et al., 2012;Tonen et al., 2018). Other landscape examples were incorporated into the analysis."}]},{"head":"• the roles of agroforestry in multi-stakeholder strategies for integrated landscape management in diverse agroecosystems, • the evidence on multi-objective performance of agroforestry at landscape scale • strategies for scaling agroforestry through multi-stakeholder landscape partnerships • tools for analyzing agroforestry adoption and impacts at landscape scale • drivers, processes, and social-ecological impacts of expansion or decline","index":144,"paragraphs":[{"index":1,"size":105,"text":"The agroforestry initiatives represent a public policy, government led approach (ATPA); a civil society grassroots and international NGO led approach (Chocó-Andean Bio-Corridor); and a value chain led approach (Nut Tree Agroforestry). All include indigenous peoples' lands and organizations. The analyses highlight characteristics that are advancing the scaling-up of agroforestry; blockages to progress; prospective levers of change to unlock the blockages; and the partners, partnership formation and strengthening processes, activities, roles, and responsibilities that can advance momentum for landscape transformation. Integrating value chain and landscape governance perspectives and critical partners can accelerate scaling, and create incentives that attract multiple sources of finance to sustain the initiatives."},{"index":2,"size":108,"text":"Keywords: Agroforestry landscapes, Integrated landscape management, Landscape partnerships, landscape transformation, scaling up. An advancing agricultural frontier is one of the key causes for tropical deforestation and present a major obstacle towards the global target for sustainable agriculture (CBD-Aichi target 3). In one of Central Americas most dynamic areas in Eastern Honduras, main agricultural land-uses replacing native forests are coffee, cattle ranging and grains. Production systems and the respective actors operate to large extents in silos and do neither engage with each other nor with conservation initiatives. Continous droughts and low market prices for cattle products increase the vulnerability of cattle rangers and lead to questioning existing farming practices."},{"index":3,"size":138,"text":"We applied and adjusted the NET-MAP approach as a negotiation tool to bring together different landscape actors to agree on an objective for a landscape approach. The NET-MAP is a tool for analysing social networks of local actors related to trees on farms both on the national level and in the case study region around Catacamas, Olancho (Schiffler et al. 2010al. , Reed 2009)). Focus group discussions brought together stakeholders from governmental agencies, NGOs, business and farmer organisations as well as academic actors to analyse the influence of actors on trees on farms. In a four step analytical process, we first identified and categorised relevant actor groups. Secondly, linkages regarding the exchange of information, financial flows and regulatory influence were mapped. Thirdly, participants rank the influence of actors in an ordinal scale. Finally, results and observations were discussed."},{"index":4,"size":135,"text":"As key result, cattle rangers and coffee association were found to have the strongest potential in influencing trees on farms. After having been a driving force in land-use change, cattle farmers got aware of the potential of forming coalitions for multi-functional approaching expanding their sources of income, accessing the know-how for sustainable, shaded pasture management practices. Besides local coalitions for alternative management approaches, national biodiversity policy actors were connected to different farmer groups presenting new innovative potential for implementing biodiversity targets in agricultural landscapes. While producing both quantitative and qualitative information, our results highlight the potential of net-map to structure learning processes for transformative sustainability science (Lang et al. 2012). Net-Map presents a methodology that is both scientifically solid as well as flexible and practical to be applied as analytical tool in transdisciplinary development projects."},{"index":5,"size":20,"text":"Temperate agroforestry landscapes provide economic and environmental benefits; however, these benefits are only partly financially valued by farmers and society."},{"index":6,"size":289,"text":"Against this background we assessed the economic performance of marketable ecosystem services (ES) and non-marketable ES in contrasting landscapes dominated by agricultural or agroforestry land use in twelve case study regions in Europe. The focus was on the evaluation of the annual biomass production as marketable outcomes and groundwater recharge, nutrient retention, soil preservation, carbon sequestration and pollination as non-marketable outcomes (Kay et al. 2018). Our findings showed, that agroforestry landscapes had slightly lower market outputs than agricultural areas if the focus was only on marketable ES. However, when monetary values for non-marketable ES were included, the relative profitability of agroforestry landscapes increased. This was due to the fact that nutrient and soil losses were reduced, and additional benefits could be gained from carbon sequestration. This trend was of similar relevance in all three major biogeographical regions of Europe (Figure 1). Our outcomes showed how a market system that includes the value of broader ES would result in landscapes including multifunctional agroforestry systems and underlined that there is a critical gap in economic assessments that fails to account for ecological and social benefits. Agroforestry for Conservation: planning sustainable landscapes in the Colombian Amazon Ordonez M. 1 (maria.ordonez@tnc.org), Arango D. 21 Lands Strategy, The Nature Conservancy, Bogota, Bogota, Colombia; 2 Science Team, The Nature  Conservancy, Bogota, Bogota, Colombia   The vast area of the Colombian Amazon region spans close to 39 million hectares. A gateway to the Andean Amazon, the Department of Caqueta, is one of the most affected areas by the armed conflict and it is currently the country's highest deforestation hotspot, representing 30% of national deforestation in 2017. To build a territory of peace implies several challenges for conservation and the sustainable development of the Amazon and its inhabitants."},{"index":7,"size":89,"text":"The Agroforestry for Conservation (A4C) project, an initiative developed by The Nature Conservancy and the Amazon Conservation Team under the International Climate Initiative, aims to restore natural and productive degraded ecosystems and to reduce deforestation in Caquetá by promoting the implementation of agroforestry practices. The A4C project developed a methodology for a comprehensive technical landscape planning process for Caquetá considering three criteria: 1. Legal status of the territory, 2. Plans and policies for the development of the Amazon region, and 3. Historical trend of deforestation and current land cover."},{"index":8,"size":52,"text":"The spatial analysis of these criteria allowed the identification of priority areas for the implementation of agroforestry systems that can fulfill several objectives: increased forest cover and biodiversity protection and connectivity; increased carbon storage contributing to climate change mitigation; and increased productivity and profitability for farmers and indigenous peoples depending on forests."},{"index":9,"size":212,"text":"Landscape planning process for Caquetá Amazon region Keywords: Landscape, Planning, Agroforestry, Colombian Amazon, Sustainability. We aim at presenting our research movie : Agroforestry, agroforesters and landscapes, it is a scientific documentary showing with the help of audiovisual tools how landscapes benefit from agroforestry. If we lack knowledge on the qualification of agroforestry landscapes we do know that refurbishing the landscapes is part of the agroforesters involvement.  For centuries, rainfed lowland rice production associated to sugar palm (Borassus flabellifer) hedges planted in the paddy field bunds (RLR-SP) has been an emblematic cultural agroforestry system in the indianized Southeast Asian countries. But recent changes in communication infrastructure, commercialization, urbanization, private and state interventions are driving the rapid transformations of these multi-functional systems. In the absence of in-depth analyses documenting the socio-ecological impacts of such change on household livelihoods and landscapes, a case study on the transformations, over the past four decades, of one of the most sophisticated coastal RLR-SP agroforestry system was implemented in Sathing Phra peninsula, Southeastern Thailand. Chronological series of satellite images and ground truthing were used to characterize and quantify land use change during 1983-2015, and 120 interviews with concerned stakeholders were carried out to understand agro-ecological, social, and economic effects of the driving factors of change on their livelihood systems."},{"index":10,"size":286,"text":"We show a process of diversification of farming (and off-farm) activities along their gradual market integration, since the opening of bridges and all-weather roads linking the area to neighboring cities in the 80s. We found that the traditional RLR-SP agroforestry system survived, almost unscathed, a first series of agrarian change. It was characterized by attempts at introducing irrigated rice, shrimp farming small perennial tree plantations in the paddies, or converting deep-water rice areas into small-scale integrated farming systems. The much improved communication infrastructures, and lack of irrigation water to switch from the low and unstable RLR yields to higher-value cash crops, increased the mobility of family farm laborers. They sized wage-earning opportunities, in the village or in fast developing urban centers, and escaped the drudgery of tapping sugar palms, in increased numbers. But a rising and profitable demand for sugar palm fruits from caning factories allowed the maintenance of the multiple functions of dense and healthy palm groves. A more recent \"palm narang\" government policy, supported by the establishment of new palm oil companies in the area, promoted small oil palm plantations in abandoned paddy fields to raise farm incomes. As the conversion to oil palm plots was the most important land use change observed during the last decade, it seems to be a more serious threat to the survival of the RLR-SP agroforestry system. In addition to these impacts of peri-urbanization combined with private and state interventions, an increase in the frequency of extreme rainy and windy events was also uncovered. This is underlining the need for the collaborative design of land-use scenarios and related collective and coordinated action plans to adapt this, diverse but increasingly vulnerable, iconic agro ecosystem to future challenging socio-ecological circumstances."},{"index":11,"size":261,"text":"Keywords: rice, Borassus flabellifer, crop diversification, market access, climate change. Agroforestry systems across the planet are elements of larger anthropogenic landscapes. These include a range of environments, from forests to areas mainly used for the intensive production of cereals, tubers or forage for domestic animals. We examine 'traditional' agroforestry systems to decipher how indigenous and local knowledge creates continuities and connectedness among the different elements of these larger anthropogenic landscapes. The societies that have devised these systems and shaped these landscapes conceive of nature and culture as intimately interconnected. These conceptions are linked to multiple practices, including choice of crops and how each crop is propagated, management of wild species as part of food systems, soil management, and management of vegetation mosaics at the landscape level. These societies use the wide range of environments in multiple activities for subsistence and for trade. Given these interconnections, focusing only on the part of the landscape seen as 'agroforestry' prevents us from understanding the structure, functioning and dynamics of the overall system. Using case studies from Indonesia, Madagascar, Morocco, Sicily, France, Vanuatu and Amazonian forests, we will show how agroforestry is embedded within social-ecological systems. We emphasize the importance of understanding how societies use indigenous and local knowledge to manage landscape-level interconnections and how practices are related to their conceptualization of nature. We will also show how these practices create and maintain diversity at different levels, from intraspecific genetic diversity of their crops to landscape-level biodiversity, and thereby contribute to the resilience of agroforestry and the well-being of societies that increasingly depend on it."},{"index":12,"size":211,"text":"Keywords: Nature-Culture, Connectedness, Domestication_Diversification, Local knowledge, anthropogenic landscapes. Large-scale restoration goals have been targeted globally and achieving those requires further understanding on how different restoration options are perceived. This study analyzed the potential of Agroforestry systems (AFS) for upscaling landscape restoration, considering Forest Transition theory and pathways (Lambin & Mefroydt, 2010;Wilson et al., 2017). We combined literature review, interviews, focus group and participatory observation about AFs in Rio de Janeiro state: 128 experiences were mapped, of which 18 were visited. Data about the AFS objectives and the species composition were collected, along with stakeholders' perceptions about them. Different types of AFS were observed, with different species, designs and management strategies, which subsidized a discussion about the role of different AFS in the restorative continuum. According to the stakeholders, the main benefits of AFS are: quality and diversification of food production, soil recovery and the sense of (re)connection with nature. Challenges include: access to knowledge and labor, inputs and markets, as well as legal insecurity in managing forests and land tenure. Results expand the understanding on Forest Transitions, identifying new factors that promote agroforestry adoption and forest gain. This understanding is fundamental for planning effective restoration projects, based on diverse strategies, contributing to climate change mitigation, adaptation, biodiversity conservation and human wellbeing."},{"index":13,"size":394,"text":"Expanded framework on Forest Transition pathways, their drivers and relative outcomes. We identified new drivers that promote agroforestry adoption and forest gain at landscape scale, showing it's potential for promoting multifunctional landscapes and achieving global targets. Based on Wilson et Wildfires represent one of the most extensive disturbances of the agroforestry systems, as other land use systems of the Mediterranean basin. As Mediterranean rural landscapes are often characterized by a complex matrix of grasslands, open wooded pastures, shrublands and broadleaf forests, these heterogeneous conditions may limit the prediction of wildfire behavior and severity and in turn affect the sustainability and effectiveness of fire prevention and fire management activities carried out by the fire protection agencies. For these reasons, fire prevention and suppression actions should be supported by analytical tools (simulators and decision support systems) and data provided by monitoring technologies (satellite imagery, unmanned aerial vehicles with vision-based systems, automatic weather station networks, short-term weather forecasts) able to provide assistance in evaluating the most appropriate fire prediction and management strategies. Analytical tools can help managers considering in an integrated way the complex relationships among variables that affect wildfires: fire ignition and current location, vegetation and fuel characteristics, weather conditions and other landscape characteristics. The aims of this work are ( 1) to present a wildfire simulator designed to provide support to wildfire prevention and management operations in Sardinia (Italy) and ( 2) to provide a probabilistic application of wildfire simulators devoted to estimate burn probability in Sardinian grazed forests considering different scenarios of grazing pressure and weather conditions. The wildfire simulator is based on in-house developed codes for the estimation of high resolution wind field maps from local area weather forecasts by a mass-consistent model, and the simulation of wildfire spread by a level-set approach which uses as input the vegetation characteristics summarised as fuel models, the weather conditions and the topography. The simulator is specifically designed to simulate the wildfire propagation on different temporal and spatial domains. The wildfire simulator were run using a random sample of ignition points in order to determine fire probability and severity maps for different treatments and environmental conditions. The probabilistic application of wildfire simulators provided useful data and maps to assess the effects of grazing pressure on fire behaviour, to identify the areas with high probability of burning, and to plan the fire prevention and fire management practices."},{"index":14,"size":48,"text":"The study confirmed that regulated pastoral activities could provide a valuable support in wildfire management, particularly if linked to a higher involvement of farmers in the surveillance and prevention policies of Mediterranean areas; this role could be even supported by the public institutions through specific programmes and incentives."},{"index":15,"size":166,"text":"Keywords: fire behaviour, fire spread, fire management, grazing. Agroforestry (AF) is promoted as a key strategy to increase the level and stability of multiple ecosystem services. Yet, this may not be true for all landscapes and all systems. As it is usually impossible to empirically test different landscape designs and AF systems, we rely on modelling approaches. We propose a multi-objective land-use allocation model for investigating different land-use strategies. Being parsimonious in nature, the model draws on a set of indicators and their uncertainties to optimize land-use allocation. We include and exclude agroforestry systems to investigate whether they can actually help to increase levels and stability of multiple ecosystem services. We present example applications of the approach from Panama, Ecuador and Indonesia. We find that in forested landscapes agroforestry did not contribute to multifunctional landscapes, while in agricultural dominated landscapes, they could help to improve service provision. The modelling approach may help to better understand the conditions under which agroforestry and specific systems should be promoted."},{"index":16,"size":207,"text":"Keywords: Land-use allocation, robust optimization, ecosystem functions, multifunctional landscape, compromise solution. The landscape-based approach has been promoted to overcome the multi-faceted direct and indirect causes of deforestation. Efforts are needed to move toward operationalising it into practice. In Indonesia, challenges include the lack of integrated planning at the landscape level. The conceptual framework is clear, integrated grand strategy based on sustainable business model considering the ecosystem characteristics and supported by complementary policy framework, and this is crucial for facilitating a sustainable integrated forest-landscape management. Using Participatory Action Research Approach, two documents of grand strategy in two-district case studies in eastern Indonesia have been developed considering multiple management objectives of different stakeholders and government agencies at the landscape level. Watershed used as the workable landscape unit of the analysis. The policy working group was initiated and formally appointed by the head of the district. Challenges included the newly imposed act of recentralisation governance system at the national level, in which Forest Management Unit's authority was shifted from district to provincial level. The grand strategy has provided the district government as the negotiation-tool in dividing the management plans between the two-government authorities. Cases in these two districts have provided a good lessons-learnt on multi-stakeholder negotiation for effective acceptable solutions."},{"index":17,"size":3,"text":"L14 AF landscapes "}]},{"head":"Drivers of expansion of Agroforestry system within landscape of North-Eastern Madagascar","index":145,"paragraphs":[{"index":1,"size":64,"text":"Andriatsitohaina N. 1 (ntsiva_intel@yahoo.fr), Celio E. 2 , Rabemananjara Z. Agroforestry system is expanding in North-Eastern landscape of Madagascar. Farmers establish their vanilla and clove plantation in a mixed-agroforest, combine also pastures and cloves plantation. This expansion are due to many factors and has socio-ecological impacts. This contribution would like to fill the knowledge-gap on drivers of agroforestry expansion in this part of Madagascar."},{"index":2,"size":355,"text":"Our study took place in two landscapes in Northeastern Madagascar that are featured by a small-scaled agriculture with dynamic developments in the vanilla and clove production. We used a participatory Bayesian network-based land-use decision modelling approach which aims to set-up the conceptual model and to analyze future land-use development in a spatially explicit way. We first analyzed the model's sensitivity to investigate which factors influence land-use decisions of farmers on intensifying and/or extending agroforestry system (AFS) and then evaluated its extent on landscape. Results (Cf. Figure ) suggest that intention of farmer is the most important factor for adopting and/or keeping the agroforestry system in overall case study area. In the Southern site of our case study area, biophysical context such as slope, soil fertility and water followed intention. In contrast, in the Northern site, socio-economic factors such as rice sufficiency of households, theft were ranked as most important after intention. Furthermore, agroforestry landscape is likely developing in the area. Habitat temporal continuity influences plant and animal communities and species spatial distribution, according mainly to their dispersal capacities and lifespan. Considering habitat history to the long and mid-term is then crucial to understand thow past landscape changes affect current biodiversity patterns. Moreover, the knowledge of the socio-economic causes of past landscape changes allows a better anticipation of their future changes and more efficient habitat or landscape management strategies. We thus reconstructed the history of rural forests in an agroforestry landscape in South-Western France, composed of farm forests and trees outside forests. Thanks to retrospective photo-interpretation of airborne images, we traced back and quantified their evolution from 1962 to 2010. We first attempted to understand both ecological and sociological determinant factors of these rural forest changes illustrated here for hedgerows. We focused on their location within exploitations and showed how changes are dependent of farm dynamics but also patrimonial and cultural backgrounds. We underline as well their potential contribution as ecosystem services providers (windbreak and erosion). Second, in order to detect whether changes in structural farm forest connectivity translate into changes in functional connectivity, we assessed its dynamics for plant species differeing by their dispersal capacities."},{"index":3,"size":39,"text":"Changes in hedgerow density from 1962 to 2010 in the studied area, from dark red (strongest density decrease ie -9 to -4,5 km by km²) to dark blue (strongest density increase ie +1,5 to + 2,7 km by km²)."},{"index":4,"size":293,"text":"Keywords: Landscape ecology, history, rural forests, ecosystem services, connectivity. Oak woodlands are declining in many regions of southern Europe (Brasier, 1992;Costa et al., 2010). With the goal of assessing this process, long-term trends of the Normalized Difference Vegetation Index (NDVI) were derived and mapped at 30 m spatial resolution for all areas with a stable land cover of cork oak (Quercus suber L.   Vaillant et al. (2016) and the Wildfire Analyst (WFA) software for the simulations. VAF components, exposure, sensitivity, and resilience, will be measured first in a retrospective assessment (after the wildfire) of landscape vulnerability, followed by a predictive, comparative assessment under different scenarios of project success, including the 'business as usual' (without project). We hope this study will help forestry authorities and local government officials to make better informed decisions on land management and ultimately, to achieve fire resilient communities and landscapes in the region. In the 1970s and 1980s, the Sahel experienced recurrent drought and famine. Farmers and their development partners reacted to this crisis by developing climate-smart agricultural practices, including water harvesting techniques to restore degraded land to productivity. In several densely populated parts of the Sahel, farmers began to protect and manage woody species that regenerated naturally on their farmland. Farmer-Managed Natural Regeneration (FMNR) is a foundational practice that produces multiple benefits, such as maintaining or improving soil fertility, which raises crop yields, and increasing the production of tree-based fodder, fruit and firewood. In Niger's Maradi and Zinder Regions alone, farmers have applied FMNR practices on 4.2 million hectares. The findings suggest that the future of agriculture in the Sahel will be largely determined by whether or not low income smallholder farmers will manage to improve soil fertility which will depend on maintaining substantial densities of onfarm trees."},{"index":5,"size":43,"text":"Faidherbia albida improves soil fertility and produces fodder for livestock. Farmers like high on-farm densities of this species as they increase crop yields Keywords: Farmer-Managed Natural Regeneration, Sahel, agricultural intensification, land use change, on-farm tree cover. Payments for environmental services on agricultural land:"},{"index":6,"size":7,"text":"The case of evergreen agriculture in Ethiopia"},{"index":7,"size":7,"text":"Haile K. (haile@merit.unu.edu), Tirivayi N., Tesfaye W."}]},{"head":"UNU-MERIT, Maastricht, Netherlands","index":146,"paragraphs":[{"index":1,"size":125,"text":"Despite the economic and environmental benefits, the uptake of evergreen agriculture by farmers in sub-Saharan Africa remains very low (Garrity et al., 2010;Glover et al., 2012). The households' decision to invest in evergreen agricultural innovation is a sacrifice of their current income for anticipated higher utility from future net income gains. Drawing on the reference-dependent utility model (Köszegi and Rabin, 2006), the lack of uptake of evergreen agriculture by smallholder farmers can be explained by the overemphasis farmers give to the loss in utility as a result of a decline in their reference (i.e. status quo) consumption level. The standard policy intervention in the face of positive environmental spillovers is to introduce incentives so that private individuals benefit from the use of environmentally responsible practices."},{"index":2,"size":98,"text":"In recent years, researchers and policymakers alike have advocated payments for environmental services (PES) as an incentive-based approach to internalizing the positive externalities of resource use decisions. Designing and implementing PES schemes that benefit poor and vulnerable farming households will ensure sustainable land use and Pareto-efficient provision of environmental services (Reed et al., 2015;Börner et al., 2017). The first step should involve understanding which attributes of a PES scheme influence participation of poor farmers in the program. Therefore, eliciting farmers' stated preferences will uncover how they value the attributes of a proposed PES contract before launching the program."},{"index":3,"size":196,"text":"To that end, this study examines farmers' preferences for adopting contractual evergreen agriculture and identifies factors that significantly affect their choice behavior. A discrete choice experiment was conducted with 200 farmers in Ethiopia to elicit their willingness to participate in a hypothetical payment for environmental service (PES) program that incentivizes integrating faidherbia albida (a fertilizer tree) in their mono-cropping farming system. Attributes evaluated are \"payment amount\", \"number of planted trees\", \"payment type\", and \"contract period\". A Generalized Multinomial Logit (G-MNL) and latent-class conditional logit (LCL) models were used in the choice analysis. All the attributes considered in the PES program are statistically significant, and hence provides evidence for the relevance of the attributes that are chosen. As expected, farmers drive higher utility from higher amounts of payments. Farmers also strongly prefer food as the mode of payment than cash. Moreover, low numbers of mandatory planted trees and short-term contract periods are found to be important attributes that positively affect farmers' decisions to take-up a contractual evergreen agriculture. These findings shed light on the design considerations that must be accounted for when implementing PES schemes that promote evergreen agricultural innovations within smallholder farming systems in sub-Saharan Africa."},{"index":4,"size":19,"text":"Keywords: Evergreen agriculture, Payment for environmental service, Discrete choice experiment, Faidherbia albida, Ethiopia.  Lacourt S. (lacourtsimon@gmail.com), Petit Berghem Y."}]},{"head":"Larep, Versailles, France","index":147,"paragraphs":[{"index":1,"size":389,"text":"Agroforestry questions the way separated cultivation practices shape the territory. In  In agricultural areas where crops and trees grow apart, the integration of agroforestry intercropping systems introduce new features in the landscape. These changes may be perceived differently by the residents bounded by a close relation to the landscape and by the tourists who appreciate these features from an external point of view. Mixing trees and crops may also be perceived differently whether agroforestry systems are introduced in intensive or declining agricultural landscapes or depending on their specific design parameters (tree row spacing, species, etc.). The visual impacts of the introduction of these systems in agricultural areas need to be investigated to better understand their desirability in agricultural contexts of intensification and decline. The aims of this study are 1) to assess and compare the visual appreciation of four common agricultural landscapes and six intercropping system designs by residents and non-residents of two contrasted agricultural areas, 2) to determine the influence of tree diversity and row spacing on the visual assessment tree-based intercropping systems, 3) identify social characteristics influencing the visual assessment, and 4) identify some of the reasons underlying the visual appreciation of specific landscapes. Residents and non-residents from two contrasted agricultural areas of Quebec (Canada) were surveyed online using a non-probabilistic method. Respondents rated on a 1-10 scale their visual appreciation of twelve landscapes: six agroforestry scenarios following a complete factorial 2x3 design testing two variables: tree row spacing (two levels, 15 m and 30 m) and tree diversity (three levels: monospecific, mixed tree species and mixed trees and shrubs) and six common rural landscapes (deciduous forest, conifer forest, herbaceous fallow, forage field, wheat field and corn field. A second section captured the reasons underlying their appreciation of five of the landscapes previously rated. In the third section, participants chose, for a given basic landscape, the landscape change they prefer between four options. A fourth section captured the respondent's profiles. Statistical analysis were performed on landscape ratings and were crossed with individual characteristics. Results shed light on the visual appreciation of specific agroforestry intercropping system designs compared to common agricultural landscapes and inform about the reasons underlying these appreciations by residents and tourists. They inform about the desirability of intercropping systems in various agricultural contexts for residents and tourists, thus guiding future landscape planning and design decisions."},{"index":2,"size":9,"text":"Keywords: Visual assessment, Agroforestry intercropping system, Residents, Tourists, Landscapes."},{"index":3,"size":319,"text":"Agroforestry intercropping systems fulfill multiple functions at the landscape level. While the integration of these systems in agricultural landscapes is mostly investigated on the ecological angle, the social context in which they are integrated still needs to be enlightened. Our study used the SWOT-AHP procedure to investigate the factors influencing local stakeholders' (farmers, forestry and farm advisors, local authorities and urban planners) decision to integrate agroforestry intercropping systems in two contrasted agricultural landscapes (very intensive and very extensive) in Quebec (Canada) and their perception of the relative suitability of three system designs (crop-, tree-and landscape aesthetic-oriented). On the 24 influencing factors identified by stakeholders, 22 related to the social sphere, emphasizing the importance of the social context on agroforestry decision-making. The relative value given to the decision factors varies greatly across stakeholders' categories and areas. Agroforestry intercropping systems designed to meet crop production needs or landscape aesthetic purposes are globally perceived as more suitable in both agricultural contexts than the tree-oriented design (fig. 1). However, major differences appear between stakeholder categories, suggesting that consensus may be difficult to reach in a collective decision process. Our results highlight crucial issues for agroforestry system deployment in various agricultural contexts. Keywords: SWOT-AHP, Agroforestry intercropping systems, Agricultural landscapes, Stakeholders, Perceptions. Forest and agriculture landscapes dominate across Southeast Asia. Agricultural systems are highly diverse ranging from traditional swidden and agroforestry, to the more recent intensive industrial oil palm plantations. These management approaches have fabricated distinct fragmented landscapes that could yield significantly varying impacts on biodiversity and ecosystem services. Our systematic styled review compares fragmentation in industrial oil palm (IOP) and smallholder agroforestry (SH) landscapes, and how this influences biodiversity (soil fauna, avifauna, and vegetation) and ecosystem services in Southeast Asia. Two literature searches were carried out capturing fragmentation studies in IOP and SH settings. After devising a selection criteria, we identified relevant studies, assessed the type of landscape metrics used, and synthesized research findings."},{"index":4,"size":179,"text":"After screening 2301 studies, 26 passed our selection criteria; avifauna was the most widely in Indonesia despite being the world's largest oil palm producer. We found too few studies on interactions between ecosystem services and landscape dynamics to draw meaningful comparative findings. Studies in SH systems provided cases of well-connected and diverse forest-agriculture mosaics that successfully supported all biodiversity. In IOP landscapes, we found mixed effects, which depended on the dispersal range of species, their adaptive ability along habitat gradients, and how actors managed forest fragments. Land use research is dominated by land use level comparisons, and rarely do studies measure landscape interactions, which is evident in the lack of studies in our review. Few studies addressed more complex, yet important measures, such as the permeability and pattern of the landscape matrix 1 . Assessing fragmentation processes over time addresses the resilience of landscapes to different agricultural practices 1 , and the critical threshold that determines the recoverability of forests and biodiversity 2 . Understanding these underlying recovery mechanisms contributes to supporting sustainable restoration efforts and agroforestry intensification programs."},{"index":5,"size":63,"text":"The current Southeast Asian trend in which landscapes are moving away from swidden and agroforestry practices to industrial plantations could significantly impact biodiversity and ecosystem health. We recommend the following for future research: i) Greater accountability of landscape metrics in assessing spatial interactions with biodiversity and ecosystem services, particularly in smallholder agroforestry systems, and how this can facilitate integrated management of agricultural landscapes."},{"index":6,"size":396,"text":"ii) Review threshold studies in the context of landscape dynamics to increase our understanding of resilience in fragmented landscapes, and what role this has for restoration efforts. The Iris Garden: an urban agroforestry case study to promote the traditional olive trees-iris landscape in Tuscany Maienza A. 1 (a.maienza@ibimet.cnr.it), Fabrizio U. The Iris Garden of Florence hosts a historical botanical collection of Irises cultivated in an olive grove on the slopes of the hillside area of the town (Fig. 1 ), giving rise to an outstanding Tuscan agroforestry system. The Garden embodies a strong cultural meaning for the city, as the Iris is the symbol of Florence, but also for the rural landscape around it.The Iris pallida Lam., is one of the varieties cultivated in the Garden since 1954, and is \"famous\" for the traditional pharmaceutical and cosmetic uses of its rhizomes. Today, Iris pallida represents a niche production but, in the past, suiting hostile environments (shallow rocky soils on southern slopes), it was widely cultivated among olives trees on the Chianti hills. Starting from the Iris Garden, this work aims to study the supply of ecosystem services of the olive grove-iris agroforestry system. Using a holistic approach, quantitative data gathered from the biodiversity and soil carbon analysis will be integrated with qualitative data from interviews with citizens, tourists, garden managers (the Italian Iris society) and land owners (the Municipality of Florence). The investigation will elicit the environmental characteristics and strengths, weaknesses, opportunities and threats of the Iris Garden contributing to outline preliminary guidelines to promote the Garden and the olive trees-iris intercropping in terms of cultural values, environmental protection, landscape amenities and citizenship well-being.  Agroforestry plays an important role in food security and farmer's resilience to climate change and variability in West Africa and diversity of landscape has been seen to be more resilience to climate change according to the diversity of ecosystem services that they can offer. However agroforestry parkland diversity at landscape level in the climatic zone in Burkina Faso is not well known. Therefore, the mosaic of agroforestry parkland landscape in three climatic zones of Burkina Faso was studied. Thirty (30) farmlands in each climatic zone representing about 35 ha were randomly selected on which systematic woody species inventory and dendrometry data collection was undertaken. Diameter classes' distribution and agroforestry parkland typologies representing their mosaic using Importance Value Index analysis were also done."},{"index":7,"size":427,"text":"The results showed 42, 31 and 34 woody species respectively in Sudanian, Sudan-Sahel and Sahel strict zones with corresponding density of 37, 30 and 35 trees/ha. Agroforestry parklands in Sudan-Sahel zone appeared to be unstable compared with the two others climatic zones. One parkland landscape of Vitellaria paradoxa was observed in the Sudanian zone while three parklands landscape of Vitellaria paradoxa, Parkia biglobosa and Bombax constatum were observed at the given farmland area in the Sudan-Sahel and Multi-parkland landscape of Adansonia digitata, Azadirachta indica ,Balanites aegyptiaca , Faidherbia albida, Lannea microcarpa and Sclerocarya birrea were observed at the same given area of farm in Sahel strict zones. The investigation revealed that the main reason of mixing crop and trees was to diversify the sources of production to secure food security and multi-agroforestry landscape is to cope more with climate variability affecting crop production. Thereby, Multiagroforestry parklands landscape observed in the Sahel strict zone appeared to be the most resilient to climate variability and change and could therefore be advised as a strategy to cope with the adverse effects of climate variability on rural livelihood. Keywords: Parkland typology, woody species, density, smallholders, ecosystem services Keywords: Parkland landscape, woody species, tree density, smallholders. Agroforestry systems (AFS) are multifunctional land use strategies that can be used in forest landscape restoration. The \"Portal da Amazônia\" Territory was established through recent colonization with high rates of deforestation. Currently, 84% of its properties are managed by family farmers. We have mapped 19 rural communities of two counties and surveyed the food and medicinal species cultivated in 44 agroforestry homegardens, identifying those which are commercialized by the families and the main places where they are sold. AFS are not traditional land use systems in this region, they were implemented by the NGO Ouro Verde Institute, with BNDES (National Development Bank)/Amazonia Fund support, aiming to diversify agricultural production in these agroecosystems. We found 131 food species and 151 medicinal plants chosen to be cultivated by the families, with 96 species being already sold in local markets. There are species occupying all strata (trees, shrubs, herbs, lianas and epiphytes), which indicates their potential for the establishment of multiple agroforestry consortia. We found a high number of tree species, both for food (109) and medicinal (36) uses. The results show the potential of AFS to bring back the arboreal component into the properties and to improve food security and income generation to families, which will certainly stimulate their adoption by family farmers and maybe promote the expansion of AFS and forest restoration at landscape scales in Amazonia."},{"index":8,"size":141,"text":"Spatial distribution of rural communities with agroforestry homegardens in two counties, highlighting the deforested areas Keywords: Landscape restoration, Tree species, Homegardens, Family farming, Amazonia. Agroforestry uses (such as grazing, hay cutting and litter raking) were once important parts of forest management and played a major role in ecosystem development through biomass removal. This poster will present unique and comprehensive data on agroforestry uses from 3500 settlements in the Czech Republic from the 16th to the 20th century to show the extent to which these uses were present in preindustrial forests at the landscape scale and how the contemporaries related to them. We will describe the potential drivers behind the distribution of agroforestry uses in the past as well as the drivers for their subsequent decline. Lastly, the poster will illustrate the potential of agroforestry uses in sustainable forestry in the future."},{"index":9,"size":11,"text":"Agroforesty uses in Moravian (eastern Czech Republic) in the 19th century."},{"index":10,"size":477,"text":"Keywords: forest management, traditional uses, litter raking, hay cutting, landscape scale. Anthropogenically developed linear woody features, such as hedgerows, windbreaks, and riparian buffer strips, served a multitude of purposes within agricultural landscapes in the past. Currently, they are of minor importance for farmers in Germany, who are typically not allowed to manage them, due to nature protection regulations. The aim of this study was to classify existing linear woody features within agricultural landscapes and to assess them in relation to relevant ecosystem functions and services, such as production, wind and water protection, habitat provision, and landscape aesthetics. For the classification of woody features, 45 categories were obtained by the combination of general characteristics such as hedgerow type, hedgerow structure and degree of naturalness (Fig. 1). The condition of each ecosystem function was assessed by low, medium, and high for each category according to the literature. The application of this assessment in a study area of 4 km 2 in southern Brandenburg revealed a prevalence of tree dominated woody features and an overall low to medium condition of the assessed ecosystem functions. The assessment method can aid decision making regarding the condition of multiple ecosystem functions under consideration of potential synergies and conflicts between functions. Allowing farmers to utilise the production function of hedgerows is necessary for their rejuvenation and maintenance in a good condition. Visualization as a tool to raise the debate on agroforestry in urban contexts van Dooren N. (noel.vandooren@hvhl.nl), van der Meulen S., Noortman A. Delta Areas and Resources, Van Hall Larenstein, Velp, Netherlands In many parts of the world, agroforestry is a known practice, for diverse motives, including the desire to win back degraded land. In the Netherlands with its focus of highly productive agricultural production, oriented on the global market, agroforestry is a rather unknown practice. Recently, however, the phenomenon receives a lot of attention, also due to the attention for so-called food forests, which can be considered a close-by practice. Reasons for such growing attention can be found in the debate on climate change, for example, and on city-region food systems. As the Netherlands are highly urbanized, and landscape is considered a cultural product, the impact of agroforestry on landscape is of interest, be it negative or positive. We notice a widespread lack of insight what the spatial implications of agroforestry, especially large-scale developments, can be. Therefore, within our larger research program, together with students first attempts were done to visualize agroforestry developments two-dimensionally and three-dimensionally. Especially the combination of multicropping and the need for an efficient system of management and harvesting reveals the lack of best practice in different landscapes. This exercise, therefore, not so much counts as predictable visualization, as well as a visual starting document for debate and knowledge exchange. In that respect, it contributes to the further development of agroforestry as such, and the implementation in local contexts. "}]},{"head":"ABSTRACTS","index":148,"paragraphs":[]},{"head":"Agroforestry adoption","index":149,"paragraphs":[{"index":1,"size":6,"text":"Adopting the future of land use"}]},{"head":"-L15 -Urban and peri-urban agroforestry for food and nutritional security","index":150,"paragraphs":[{"index":1,"size":10,"text":"Permaculture, agroforestry, and homegardens: the urban ticket to nutritional yumminess"},{"index":2,"size":600,"text":"The world has been experiencing unprecedented levels of urbanization in the past few decades, a trend that is expected to continue so that food and nutritional security is emerging as one of the principal concerns in many cities. Another major concern is 'regreening', as, much too often, the conversion of agricultural and forest land to urban land has been done with little or no concern for environmental quality, leading to loss of tree cover and ecosystems services. Developing agroforestry in the urban and peri-urban remaining green spaces, as long as they are not impacted by pollution, may respond to these concerns: combining the production of food and the rehabilitation of a tree and plant cover with its various ecosystem services, it would increase food and nutritional security for the urban poor and reconnect the urban people to nature.This session will explore whether and how agroforestry can contribute to both food security and environmental betterment of cities. cially welcome. Case studies may include aspects related to agroecology, permaculture, agriculture and forestry, in an urban context; they may also cover a wide range of scales from local to global, and any kind of geographic setting. The papers presented for this session will be written-up with a view to publish them as a special issue of an international journal such as Agriculture, Ecosystems and the Environment, Agroforestry Systems or Forests, Trees and Livelihoods, or alternatively, as a stand-alone edited volume.  Uganda faces serious challenges in providing sufficient healthy foods for its growing and urbanizing population. This paper aims to explore the contribution of urban agroforestry homegardens to child nutrition in Kampala. A repeat 24-hour dietary recall including information on food sources was conducted with 49 children (aged 2-5) and 31 of their caretakers (aged 18-49). Dietary Diversity Scores (DDS), Food Variety Scores (FVS) and household food insecurity levels (HFIAS) were calculated and anthropometric measurements taken. A total of 70 edible plant species were recorded in the 49 homegardens. We found a correlation between child P P P ren from wealthier households were more likely to have higher DDS (P=0.007) and fruit intake (P vegetables (Fig. 1). Higher garden agrobiodiversity had no influence on dietary diversity and nutritional status of children during the dry season, but the surveyed children had a generally good nutritional status. During harvest season urban homegardens may contribute more to family nutrition. To ensure a more food secure city, researchers, policy makers and urban planners need to become aware of the potential value of urban homegardens and prioritise them in future development plans. Growing demands from citizens for urban gardening, edible cities, for biodiversity habitats in green spaces, but also the need for residential green areas that provide climate regulation have become apparent in recent years in German and other European cities. Examples from the benefits of urban food forestry projects in the United States and the United Kingdom (Clark & Nicholas, 2013) have led us to investigate the feasibility for implementation of this concept in German cities. Food forests imitate the multi-layered structure of natural woodlands. In contrast to alley cropping systems, they consist mainly of fruit and nut bearing trees and shrubs, as well as a vegetable and herb layer. Through their structural similarity to natural woodlands, ecological and climatic functions (e.g., cooling, soil conservation, biodiversity habitat) may approach the ecological functions of forests with increasing age of the system. Hence food forest enable the production of food with the improvement of multiple ecological functions in urban areas (Clark & Nicholas, 2013), which go beyond short term urban gardening activities with annual species carried out in planting boxes."},{"index":3,"size":105,"text":"To assess the feasibility of the concept of urban food forests we carried out interviews and questionnaires with all relevant authorities at city level and in different quarters of Berlin, Germany. This was accomplished by assessing potential user groups and the response of different urban gardening initiatives towards the concept. Based on this, a series of participatory workshops, bringing together civil society actors, green spaces administration, nature protection agencies and scientists was used for focussed discussing concerning the level of public access, options for coordination between public green spaces management and users duties and options for long term land definition within the public planning regime."},{"index":4,"size":164,"text":"Intermediate results reveal the large array of demands and regulations on different types of urban green spaces in Germany and strong conflicts of interest on green spaces, which seem to be a barrier for the long term access to land for implementing this complex agroforestry system. While civil society actors are articulating demands for long term urban gardening setups and some sort of reliability concerning site availability and agroforestry development options, government authorities are hesitant concerning longer term definitions. This is true, despite of the recognition of the ecological and social benefits that food forests may bring in the long term, as well as the potential benefits of a collaborative management form for urban green spaces in terms of management costs. As any type of agroforestry requires a long term perspective, the development of innovative rules and regulations dealing with long term land guarantees and management responsibilities will be crucial for facilitating the adoption of agroforestry systems such as food forests in urban areas."},{"index":5,"size":11,"text":"Keywords: urban gardening, comunity management, public green spaces, feasibility study, Germany."},{"index":6,"size":95,"text":"L15 Urban AF The favorable environmental conditions together with the ancient agronomic practices, e.g. the irrigation systems introduced by the Arabs, have made the plain surrounding Palermo, known as Conca d'Oro, the unique agriculture landscape famous worldwide. Several tree and vegetable species have spread throughout in time but the new crops, instead of replacing the others, were often integrated exploiting the different heights of the tree canopies. The result was the creation of complex agroecosystems characterized by orchards with several layers of trees (as walnut, loquat, citrus) and empty spaces where the farmers cultivated vegetables."},{"index":7,"size":134,"text":"The grass fed the animals in the stables while manure was returned to the fields. Now the traditional system has changed (simplification, disappearance of animals, abandonment) but new functions, in the meantime, are attributed to these areas: air purification, high quality products, biodiversity conservation, preservation of history, and, recently, training of young farmers. The purpose of this communication is to describe the agroforestry features of today's Conca D'Oro system and that of the recent past and to illustrate its new functions while the city is engulfing its last agricultural areas. It is evident that, without the support and control of the public administration, the green spots left in the Conca D'Oro (one is indicated by the yellow arrow) will disappear and one of the most beautiful landscapes in the world will be lost forever."},{"index":8,"size":69,"text":"Keywords: biodiversity, Citrus orchard, layers of vegetation, agronomic techniques, transmission of culture. Urban agroforestry is largely advocated, as trees in the city provide a number of ecosystem services. In Africa, one of the world's fastest urbanizing regions, they contribute particularly to food production and to maintain the quality of the environment. Nevertheless, little is known on the interplay between management practices and levels of genetic diversity of urban trees."},{"index":9,"size":158,"text":"Our model species, Dacryodes edulis (G. Don) HJ Lam, is a widespread indigenous fruit tree in Central Africa. In Cameroon, it is commonly found in different agroforestry systems (home gardens, agroforests), from the capital Yaoundé to peri-urban and rural areas. This study characterizes tree management practices along an urbanization gradient and the associated distribution of genetic diversity. Using 13 nuclear microsatellites markers and samples from nine study sites along the gradient (three rural villages, three peri-urban towns and three Yaoundé district), we will compare management practices and their effect on the intraspecific genetic diversity. We hypothesize that the genetic diversity could be higher in Yaoundé, with planting material coming from different regions as people settle. This intraspecific diversity could thus be related to seed sourcing strategies still being the dominant planting strategy for this cross-pollinated species. The results will help understand the distribution of cultivated tree genetic diversity, in the context of ongoing domestication of tropical perennial species."},{"index":10,"size":211,"text":"Urban D. edulis tree bearing young fruits (African plums) in the Messa-Carrière district of Yaoundé Keywords: ethnoecology, genetic diversity, indigenous fruit tree species, management practices, urban home gardens. Using participatory research, the World Agroforestry Centre (ICRAF) developed the food tree and crop portfolio approach to enhance the diversity and seasonal availability of nutritious foods in local food systems. These nutritious food portfolios are defined as site-specific combinations of indigenous and exotic food tree species with complementary staple crops, vegetables and pulses that potentially can provide year-round harvest of nutritious foods and, 'gaps', certain nutrient 'gaps' are addressed by mapping the nutritional value of selected species using food composition data. This data plays a key role in linking agriculture to nutrition, particularly the nutrient composition of indigenous and underutilised species, for which such information is often lacking. To address this data and knowledge gap, ICRAF have collated food composition data to support decision-making in the selection of ecologically suitable and nutritionally valuable species for cultivation. This approach supports the mainstreaming of trees and crops rich in micronutrients which can be overlooked in agriculture -nutrition development planning, projects and policies. The portfolios represent a sustainable foodthe diets of rural and urban consumers. The portfolios have been developed in 15 sites across East Africa."},{"index":11,"size":148,"text":"An example of a fruit tree portfolio* for Siaya/Bondo counties, Western Kenya. Ecologically suitable fruits selected based on their complementary months of harvest and their nutritional contribution for target nutrients, vitamins A and C. Nutritional value ratings of beta carotene (vitamin A) and vitamin C and contents are given as +++ (high source), ++ (source), ~ (present, but low, or moderate), blank, white (no source), blank, grey (no data available). Fruits can also be evaluated for other nutrient values (B vitamins, minerals including zinc etc.). Avocado is included as a source of good fat, minerals and vitamin E. Months of harvest are mapped against vitamin-rich fruits are indicated by green-shaded boxes. *This graphic illustrates a fruit tree portfolio, the expanded concept of the food tree and crop portfolio as presented in this abstract is available in further detailed graphics and with additional nutrient mapping of iron and folate."},{"index":12,"size":373,"text":"L15 Urban AF Urban agroforestry is expanding in the tropical countries due to urban densification and expansion, increasing distance with agricultural lands and farms. Whilst urban agroforestry has been registered in the Adaptation to Climate Change Program of the Tonga Island in 2013, it hasn´t fully been explored in the Temperate Climates. This article is part of a PhD research on urban agroforestry. In the frames of a landscape architectural study, I have planned and designed an experimental public forest garden in partnership with the 14th district of Budapest and an NGO cargonomia. Compared to other urban food systems, urban agroforestry is a complex topic which requires research in both biology and sociology. Therefore, it is important to bring together planners and experts in ecology to plan agroforestry in the urban landscape. Through a Landscape Architectural approach this paper explores why agroforestry systems should be planned in the city and how public spaces can be designed with agroecological principals. Further, this article presents steps in planning a public edible forest garden through the case Budapest, the principals behind the community participation, and the first results from the opening on the 11th of November 2018. The conclusion is that the socio-ecological interactions are the basis to implement a new urban land use policy. Key words : Land use policy, urban agroforestry, landscape architecture, forest gardens Potager du Roi is a remarkable garden that fits into a unique urban composition. Since its creation starting in 1678, the site has undergone many changes without ever losing its original structure. Gardens must be continually cultivated and maintained. But some architectural and plant structures of large gardens have a life cycle that is approximately centennial. Potager du Roi was created starting in 1678. The first major restoration occured in the 1780's and the second began in the 1880's. Today, Potager du Roi suffers from a thirty year deficit of sustained investment. This presentation will describe how an agroecological approach, including agroforestry, is being applied to conserve and share the unique and exceptional atmosphere of the garden designed by La Quintinie; to position the site as a living heritage at the heart of contemporary debates and in particular sustainable practices concerning food and health issues in an urban environnement."},{"index":13,"size":46,"text":"Potager du Roi. Historical kitchen garden in an urbanized setting  Results showed high species abundance and high variability in garden structure and composition. Garden size had no significant effect on ecological diversity. Gardeners were most motivated by food production (availability, quality, and known provenance) and aesthetics."},{"index":14,"size":452,"text":"There was no apparent relationship between economic status and gardening objective. All gardeners acknowledged NGO facilitation through seed provision, skills transfer or, particularly relevant given the drought in Cape Town, water harvesting techniques. Policy makers wishing to encourage these practices would do well to explore ways to collaborate with these organisations. Agroforestry development in urban and peri-urban areas may respond to food security and environmental concerns by reconnecting urban people with nature. A study was done to determine diversity of trees in urban croplands and contribution of agroforestry to people's livelihoods in Harare, Zimbabwe. Objectives were to i) identify the tree species used in urban agroforestry ii) determine factors influencing adoption of urban agroforestry and iii) identify the challenges of practicing urban agroforestry. Questionnaires and field surveys were used to collect data. In agroforestry plots, Eucalyptus grandis (24%) was most abundant species, followed by Cajunus cajan (18%), E. resinifera (13%), Faidherbia alibida (9%), Leucaena leucocephala (9%) and Acacia angustisma (6%). The other 13 species were below 3% each. Four exotic and four indigenous fruit trees were used in agroforestry plots although their numbers were low due to reasons of fruit insecurity. Fruit trees need to be close to homesteads to ensure their security. About 50% of urban farmers were motivated to engage in agroforestry mainly for food security although soil fertility (20%) and income generation (13%) were also important. The main challenge affecting adoption of agroforestry in urban areas was the small plot sizes and land tenure. There is need for more education and awareness to increase knowledge on the importance of trees in urban agriculture to facilitate ecosystem restoration while achieving economic gains. Increasing trend of rural-urban migration has caused rapid land-use change in peri-urban areas of the capital city of Kathmandu, Nepal. The paper elaborates the need for change in urban authorities and residents for growing trees in peri-urban areas in the future. Five different study sites representing diverse geophysical and socioeconomic strata were sampled out. Methods included literature review, street/transect walk, comparative interviews between younger and elder people, area estimation and recording of trees/plants, and change analysis based on periodic maps. Results show that eighty percent of the households don't think of growing trees while building their houses, and five percent have opinion of need for trees around but have no cropping due to lack of space or appropriate species. Out of total, 20 percent have green space with some flowers and vines. Households having more than 200 square meters area have home yards, and have planted 1-2 tree species (i.e., more than 5 meters height in maturity). People are more interested in planting religiously important trees such as sandalwood (Santalum album), Elaeocarpus sphaericus, and wood apple (Aegle marmelos)."},{"index":15,"size":30,"text":"Frequency of popularly grown religious tree pairs (Ficus benghalensis & Ficus religiosa) that are now old and hazardous, is rapidly declining mainly due to their large size and root effects."},{"index":16,"size":325,"text":"The number of urban trees are positively correlated with household land size and not correlated with size of public land. Governmental and municipal authorities should have programs for awareness, seedling subsidy or other incentives, and mandatory provision in designing, building and granting completion certificate of new buildings or houses. Factors like population pressure, high demand of small size land, fragmentation of landscape, lack of housing standards and collective action between neighbors, and people's habit of sun basking are not to be ignored by authorities and forgotten by residents in the future. Kampala's municipality plans to 'regreen' its city by planting 500,000 trees. If done well, this can help build climate resiliency and contribute to urban food security. This paper aims to create insights into how trees are valued by local communities in public and private space through scoring and ranking exercises. Fieldwork was conducted in Kampala, Uganda in May-June 2017. Data was collected through 35 semi-structured interviews and one focus group discussion. Preliminary results indicate a higher preference for fruit trees in private space (63%) than in public space (45%) (Fig. 1). A higher number of species was mentioned for public space, 35 versus 19. Aesthetic considerations were the main reason for not wanting more fruit trees in public spaces, followed by the concern that eating fruits from public trees is not permitted. Free seedlings, access to training, and the provision of tools, fertiliser and pesticides are effective incentives for residents to plant more trees in their homegardens. Data on rankings of ecosystem services is currently being analysed and will provide more insight into how the different services are valued by the respondents in public and private space. These results can support urban planners and policy makers when considering urban greening as well as urban food security in both the public and private spaces of Kampala. Since most land in Kampala is privately owned engaging with private land owners is crucial in tackling urban deforestation."},{"index":17,"size":176,"text":"Figure 1. Species ranking scores for preferred fruit and non-fruit species in public and private space in Kampala, Uganda, 2017 (note: only species with ranking minimum of 6 were included in the figure). Homegardens are traditional land use systems located near homesteads that bring together different species of plants and animals. The diversity of these systems are significantly associated with subsistence, and may involve a range of indigenous agroforestry practices. In addition, the agrobiodiversity of homegardens is considered to be a useful source of plant germplasm and plant domestication. The aim of this study was to describe the urban? agroforestry multistrata homegardens of Central Amazonia and its social importance and contribution to agrobiodiversity. The study was carried out in 89 agroforestry farms located in the urban areas of Belterra, Curuá, Oriximiná, Porto de Moz and Santarém municipalities. The homegardens were selected by the non-probabilistic sampling technique, due to the difficulties of access and permission. In each garden, a floristic survey was carried out and each owner was interviewed for location, history/chronology of what? and management practices."},{"index":18,"size":14,"text":"The urban multistrata homegardens of Central Amazonia have an average size of 664 m2."},{"index":19,"size":257,"text":"The age of the gardens? ranged from 01 to 84 years, with a mean age of 23 years. Most gardens are managed with family labor (95%) and the exclusively women managed gardens accounted for 42%. The main management practices used in these systems included pruning, selective cleaning (weeding and thinning) and organic fertilization. The sampled gardens are managed with own internal inputs. Only 15% of the owners raised animals for food, mostly poultry(Gallus gallus domesticus). One hundred and forty five plant species were inventoried, belonging to 63 botanical families. The mean richness of plant species was 11 per garden? and ranged from 2 to 37 species. Asteraceae was the most abundant botanical family (nine species), followed by Lamiaceae and Rutaceae with eight species each. Mangifera indica, Theobroma grandiflorum, Citrus sinensis, Cocos nucifera and Psidium guajava were the most frequent species in these gardens, serving both as a source of food for the family and providing cash income from the sale of surplus production. In the gardens evaluated, most of the production was exclusively for domestic consumption (81%). As for the main uses of plants in the homegardens, food accounted for most (76%), followed by medicinal products (16%), ornamentals (6%), timber (1%) and handicrafts? (1%). Tropical agroforestry multistrata homegardens contribute significantly to food security of most families, especially in places where wage opportunities in formal employment are scarce. Their plant richness shows the potential of these systems to contribute to the conservation of agrobiodiversity as well as to provide better quality of life for the Amazonian urban population."},{"index":20,"size":6,"text":"Keywords: Amazonia, Central Amazonia, multistrata homegarden. "}]},{"head":"ABSTRACTS","index":151,"paragraphs":[]},{"head":"Agroforestry adoption","index":152,"paragraphs":[{"index":1,"size":6,"text":"Adopting the future of land use"}]},{"head":"-L16 -Agroforestry mapping","index":153,"paragraphs":[{"index":1,"size":749,"text":"Is that a forest? Is that a park? No, it's an agroforest! Mapping agroforestry Landscape level mapping of agroforestry systems and related interventions is an important approach for developmental planning at local, regional and national levels, given that the demand for up-to-date geo-spatial information for informed decision making are increasing exponentially. Mapping agencies and effectiveness. Remote sensing, GPS and GIS techniques have been utilized successfully over the years for addressing these concerns. However, new and revolutionary trends are emerging in data capture and analysis. Invariably, Unmanned Aerial Vehicles (UAV) are one of the newest and most innovative tools offering the advantages of utilizing superior reach and dexterity in data collection. This session will expose participants to results on the theories, science, applications, and technology of remote sensing and GIS studies in agroforestry systems. Our aim is to circulate novel/improved methods/ approaches and / or algorithms of landscape level mapping relating to agroforestry systems and interventions to drive informed decision support systems. In this session, we will focus on the new trends in acquiring geospatial data through UAV and applications; Remote Sensing and its applications in agroforestry; Land evaluation in terms of agroforestry land suitability mapping; Modeling and Mapping Agroforestry parameters; and creation of a geospatial information systems to inform effective management of agroforestry systems etc. Special focus and attention will be placed on emerging and revolutionised trends in UAV applications and Lidar and Rader Remote Sensing applications in Agroforestry mapping and monitoring. Against the background of global population growth, agricultural productivity must be increased for achieving long-term food and nutrition security in West Africa. Contributing to address this issue, mango is a major fruit crop grown under various cropping systems in the region. The aim of this study was to test how orchard plant diversity, configuration, and practices affect mango yields from large commercial-based monospecific orchards to agroforestry systems. In thirty orchards of different mango cropping systems in Senegal, we mapped orchard land uses by UAV photogrammetry and object-based image analysis (14 classes) and quantified plant diversity (Patch richness, Shannon diversity, Simpson evenness index). Then individual mango tree characteristics (height, cultivars, crown area, and volume) were extracted from drone canopy height models and combined with a load index (taking into account year and management effects) to inform predictive yield models. The mapping procedure reached an average overall accuracy of 0.89 for classification of plant species and mango cultivars. Yield models reached satisfying accuracy with R² greater than 0.77 when evaluated with actual yield of 60 validation mango trees. Finally, results showed that orchard mango yield is not only driven by planting density and management practices but also by the tree species diversity, highlighting the efficiency of UAVs to inform stakeholders of complex agroforestry landscapes. Agricultural forests are an important resource in the central United States yet little information describing their extent and location is readily available in formats that are convenient for resource professionals and decision makers. National forest inventory and natural resource monitoring programs seldom account for these non-traditional forests in their official statistics. In addition, most satellite-derived datasets are too coarse to accurately depict small or narrow groupings of trees common in agroforestry systems. Recently, the U.S. Department of Agriculture's (USDA) Strategic Framework included a goal of inventory and monitoring of agroforestry practices. To address this goal, the USDA Forest Service's Forest Inventory and Analysis program and the National Agroforestry Center have developed and implemented a remote sensing-based operational land cover mapping process using 1-meter aerial photography. In a secondary mapping process, tree-covered areas are classified as the most likely agroforestry practice represented, with an emphasis on identifying windbreaks and riparian forest buffers. The resulting high-resolution datasets can be combined with other location-specific information in order to understand relationships between agroforestry systems and soil erodibility, water quality and abundance, habitat suitability, and more. This endeavor is the first of its kind in that datasets are being produced at such fine detail for agricultural landscapes and over such a large portion of the central United States. Maps for Nebraska and Kansas have been completed and additional mapping efforts are currently underway in other areas where agriculture is the dominant land use. The land cover map of Kansas discovered more than 1 million acres of tree cover beyond the national forest inventory estimate of traditional forest land, and the ensuing windbreak map details more than 30,000 miles of windbreaks throughout the state. Descriptions of the mapping methodologies and associated results are presented for multiple states in the central U.S."},{"index":2,"size":295,"text":"L16 AF mapping Populus deltoides (Poplar) trees are widely grown on agricultural lands as boundary, block and agrisilviculture systems by farmers in the Indo-gangetic region including Punjab state in India. This species is preferred because of its short rotation and demand of wood for paper, plywood and matchstick industries. These Poplar based agroforestry systems play significant role in sequestration of atmospheric CO2 for a rotation of 6-7 years. In the present study, spatial analysis of Populus deltoides based systems for area, biomass and carbon stock has been done in Punjab using field data and remote sensing techniques. Four districts of Punjab state namely Hoshiarpur, Ludhiana, Rupnagar and Shahid Bhagat Singh Nagar were surveyed during Aug. 2018 and data on age, system, spacing, diameter at breast height and GPS points were collected from farmers' fields. Agroforestry plots were also tracked with the help of GPS, which was used for identification and generation of spectral signature for Poplar species. High resolution LISS IV data (spatial resolution-5.8m) of selected districts was processed and analyzed for mapping of Poplar based systems and estimation of area. Object oriented image classification technique was applied for identification and mapping of trees on farmlands. For this purpose, Object based image analysis (OBIA) module of ERDAS Imagine software was used (ERDAS 2009). Stem and aboveground biomass for Poplar trees of different ages were computed using developed biomass equations (Rizvi et al. 2008, Puri et al. 2002). The total biomass was derived by considering 79% of total biomass as aboveground biomass. Carbon stock (CS) was (kg/ tree). In literature carbon content in poplar wood is estimated to 45.4 percent (Negi et al. 2003). Accordingly per tree biomass and carbon was converted into per ha biomass and carbon after multiplying with number of trees per ha."},{"index":3,"size":119,"text":"Results revealed that tree density ranged from 200 to 1905 trees ha-1 in the four districts. Characterizing agroforestry systems (AFS) at landscape scale is of a great importance for development planning at regional scale in Africa. Therefore, the major constraint to effective AFS mapping with remote sensing is the high diversity within landscapes. To have a robust and representative sample of training data, this study proposes an optimized sampling strategy guided by the AFS functioning and allowing to take into account the landscape diversity. A simple and reproducible approach based on unsupervised classification of remote sensing data and an a priori knowledge on the environment functioning is developed. The study is conducted on AFS of the Senegalese Peanut Basin."},{"index":4,"size":113,"text":"Assuming that AFS landscapes with similar trees and crop cover composition will have similar phenological development, a multiresolution segmentation was performed on Sentinel-2 NDVI time series to obtain homogeneous landscape units. Then for each unit, landscape diversity proxies were derived from various geospatial data sources, namely vegetation productivity and its temporal dynamic, actual evapotranspiration, woody cover rates and soil type. Using a hierarchical clustering, four classes of typical unit of the landscape heterogeneity gradient were obtained. On this basis an optimized sampling plan was produced and used to carry out an inventory campaign of tree biodiversity (figure). The results showed a well-defined landscape diversity gradient, confirmed by the field inventory of tree species."},{"index":5,"size":48,"text":"Landscape heterogeneity gradient divided into four classes and the distribution of tree inventory sites. More than 8000 trees including 41 species have been inventoried covering 213 landscape units distributed accordingly to the weight of each landscape class Keywords: remote sensing, agroforestry system, sampling strategy, landscape heterogeneity, landscape classification. "}]},{"head":"Predicting potential areas across Terai Arc Landscape for the introduction of Poplar based Agroforestry Models","index":154,"paragraphs":[{"index":1,"size":114,"text":"Verma A. K. (amitvermafri@gmail.com), Kaliyathan N. N. Silviculture and Forest Management, Forest Research Institute, Dehradun, Uttarakhand, India Terai Arc Landscape (TAL) ecologically important region of the subcontinent is a mosaic of a variety of land use. Increasing population pressure on forests to meet the increasing demand for fuel, fodder, and timber has introduced the concept of multiple uses of land with multipurpose tree species. Agroforestry has drawn the attention of researchers due to its capacity to reduce poverty and land degradation, improve food security and mitigate climate change. In India Poplar is an important Agroforestry species and plays important roles in the livelihood of agriculture-based populations as well as ecological restoration through carbon sequestration."},{"index":2,"size":138,"text":"However, the progress in promoting Agroforestry is at a slow pace due to the lack of reliable data sets and appropriate tools and techniques to accurately map the potential areas and to have an adequate decision-making system for Agroforestry models. The identification of potential areas is important steps to introduce Poplar based Agroforestry models in the region. The present study has been conducted to identify the potential areas for the occurrence of Poplar in Terai Arc Landscape. MaxEnt ecological niche modeling framework was used to predict the potential areas under Poplar across the TAL landscape. A total of 359 GPS coordinates of presence locations was collected from a field survey and the Auto-correlation test was performed using Diva-GIS. A total of 129 independent species occurrence locations was used for model building with 24 predictor variables including climatic, topographical."},{"index":3,"size":73,"text":"The Area under the Receiving Operator Curve (AUC) was used to evaluate models goodness of fit. Model with the highest AUC value was considered as the best performer. A set of ASCII environmental layers and a csv file of presence location of Poplar were used to produce the probability maps that predict the potential distribution of a species. Habitat suitability classes were categorized into high potential (>0.6), good potential (0.4-0.6), moderate potential (0.2-"},{"index":4,"size":149,"text":"The model output shows that the value of Training AUC was 0.9613 and Test AUC was 0.9024 which are close to 1 and the standard deviation was 0.041. It indicates that the model performed better than random. The potential distribution map predicted in this study shows a close resemblance to the ground situation. This research shows the capability of remote sensing in studying Agroforestry practices and in estimating the prominent factors responsible for its optimal productivity. The ongoing Agroforestry projects can be diverted in the areas of high and good suitability potential as an extension. The use of ancillary data from the field survey in the GIS domain can have enormous ability to map the land for the benefit of rural people even up to the village level. Considering the hilly terrain of the Himalayan region, this model can help in identifying high potential areas for future exploration work."},{"index":5,"size":101,"text":"Keywords: Agroforestry, MaxEnt, Poplar, GIS, TAL. The swidden agriculture practice, a cyclic agroforestry system that presents high ecological heterogeneity, still represents the most used farmers' practice in the SE Asian region, experiencing rapid land-use transitions driven by the conversion of biodiversity-rich ecosystems to monoculture plantations. Increased fragmentation creates mosaic of land cover types difficult to map. Challenges persist for evaluating such matrix configuration using satellite remote sensing. The present study explores feasibility, advantage and inconvenience of UAV technology for the acquisition of geospatial data to better understand, fine-scale agroforestry landscape fragmentation, connectivity and the dynamics of the burning and cropping phase."},{"index":6,"size":105,"text":"The study site is a swidden agriculture forest landscape, north of Kapuas Hulu regency in West Kalimantan, Indonesia. The drone system consisted of a customized SkyWalker fixedwing plane equipped with RGB camera (resolution 7-12 cm). Each flight at 400 m elevation covered around 3000 ha, replicated over 3 years, in the month of October after the burning phase season. Orthophoto mosaics were created using AgiSoft software. Object based image classification (OBIA) was tested with open source software to create a reproducible and automated assessment of landscape, together with an appraisal of the landscape metrics. Ground check and vegetation sampling were performed for each mapped classes."},{"index":7,"size":31,"text":"The results showed that: (1) Up to 25 vegetation classes can be easily interpreted visually, but the low spectral resolution of RGB bands restricted the number of classes used for OBIA;"},{"index":8,"size":205,"text":"(2) The area of swidden agriculture on forest increased only by 2%; (3) Over 80% of swidden fields were transformed from fern savannahs, the rest mainly taken on young fallows; ( 4) From 2016 to 2019, the frequency of swidden fields in the district remained constant; (5) The proportion of very short burning cycle (1 to 3 years) was around 50%, revealing that swidden cycles in this particular area were shortened; (6) Overall, connectivity of old fallows and forest patches was maintained. This particular study represents promising preliminary steps in fully mapping the agroforestry landscape for future monitoring. Local people involvement was critical in mapping their landscape. Integrating ground-based surveys with UAV remote sensing appeared as promising tool essential for achieving cost-efficient wide-scale surveys of agroforestry resources and to monitor changes and long-term sustainability of the system. The ecosystem recovery time following initial slash-and-burn practices may be longer in our study area. Soil impoverishment related to reduction in rotation length may become a serious threat likely to jeopardize the production of goods and services in the long-term. In our study site, the long-term persistence of the swidden agriculture system maybe at stake, if enhanced management of fallows and agroforestry plots (enrichment planting) is not performed."},{"index":9,"size":61,"text":"Keywords: swidden agroforestry, UAV, land use land cover change, communities, Borneo. Agroforestry bridges the gap that often separates agriculture and forestry by creating integrated systems that address both environmental and social-economic objectives. Agroforestry research spans many disciplines and addresses a broad range of outcomes, thus creating an opportunity and need to synthesize the evidence for easier exchange of knowledge and ideas."},{"index":10,"size":96,"text":"Existing research suggests that integrating trees on farms can reduce environmental degradation, diversify agricultural production, increase carbon sequestration, reduce pollution, control runoff, and enhance soil fertility while providing stable incomes and other benefits to human welfare 1 . Although these claims are becoming more widely accepted as the body of agroforestry research increases, systematic understanding of the evidence supporting them remains lacking. To address this research need, we develop a systematic map of the evidence on the impacts of agroforestry practices and interventions on agricultural productivity, ecosystem services, and human well-being published between 2000-2018 2 ."},{"index":11,"size":267,"text":"Our map is global in scope, combining the results from parallel efforts to systematically map available evidence in low-and middle-income countries (L&MICs) and in high-income countries. The systematic map allows users to easily navigate and access available evidence, and it provides an intuitive visualization tool that highlights areas that have been relatively well studied together with research gaps. We provide an overview of the systematic mapping process and results, and show heatmaps, charted with agroforestry practices and interventions on one axis and outcomes on the other, reflecting the number of available studies for each intersection. We also map the distribution of studies conducted within each country geographically. Finally, we present descriptive statistics on the growth rate of evidence over time, research and publication trends, study type distribution, top publication sources, and author institutional affiliations. The results from our L&MICs evidence gap map showed that there is a notable lack of impact evaluation work on agroforestry interventions as well as a lack of studies evaluating social and human well-being impacts of agroforestry. Agroforestry research in L&MICs has focused primarily on productivity, biodiversity, and soil health in tree-crop agrisilvicultural systems. These results are compared with our results for high-income countries. Our dataset will be made available online on an open-access, interactive map server. Users will be able to visualize our results, filter the dataset per our data coding criteria, and automatically interact with the most updated version. The map is intended to serve as a tool for informing policy decisions and developing strategies for future research initiatives, with special relevance in the context of the UN Sustainable Development Goals."},{"index":12,"size":419,"text":"Keywords: Evidence Synthesis, Impact Evaluation, Systematic Map, Agroforestry. Shelterbelt agroforestry systems are an integral part of the Canadian landscape. From 1888 to 2014, over 600 million trees were distributed to farmers across the Canadian Prairie Provinces through the Prairie Shelterbelt Program (PSP) of the Government of Canada. While there are records of trees shipped and their destinations, until now, there has not been an accurate inventory of where, and how many, shelterbelts are still growing, or how many are being removed by farmers for various reasons. The Saskatchewan Shelterbelt Inventory was created by locating and identifying shelterbelts visible on digital airphotos (ca .2008) obtained from the Saskatchewan Geospatial Imagery Collaborative. As the shelterbelts were digitized, a number of characteristics were recorded -type, width, species composition, and condition. Recently, a new method was developed to map removal of planted shelterbelts using object-based classification techniques and a combination of 2016 Sentinel MSI and SAR radar satellite imagery. This method was useful in differentiating very narrow shelterbelts from the surrounding bare soil and crops, aiding in the production of land cover maps across a vast agricultural landscape with an accuracy of 80%. A land-cover change detection analysis from these two successive shelterbelt inventories (2008 digitized and 2016 satellite-based) was used to produce a map of planted shelterbelt removal occurring in the period 2008-2016. Carbon stocks of existing and removed shelterbelts in farm yards or crop fields were estimated using the map-derived shelterbelt lengths, approximate shelterbelt age, and estimated species-specific C sequestration rates. The results showed that shelterbelt tree species could sequester from 1.78 to 6.54 Mg C km-1 yr-1, and that soil C storage in shelterbelts was 2 Mg C ha-1 higher than surrounding crop production fields. The current cumulative shelterbelt length across five soil zones in Saskatchewan is 62,832 km (single-row estimate) with majority, 79%, planted in 1-row, 19% in 2-3 row, and 2% in >3-row design. The cumulative carbon stocks in these shel-9% in coniferous shelterbelts. Approximately 4% of all shelterbelts were removed during the 2008-2016 period, equivalent to 2,491 km and 0.19 Tg C removal, the majority of which were planted in 1-row design (97%), 30-50 years-old, and comprised of shrub (56%) or deciduous (41%) species. In light of a future carbon tax implementation across Canada, shelterbelt retention or removal has grown in importance for balancing carbon emissions in the agricultural sectors. A more focused understanding of shelterbelt removals in Saskatchewan can lead to new socio-economic policies aimed at addressing shelterbelt removal, and promoting future shelterbelt planting and retention."},{"index":13,"size":158,"text":"Keywords: shelter belt inventory, carbon stocks, retention, removal, mapping. Reducing Emissions from Deforestation and Forest Degradation (REDD and REDD+) recommend specific approaches for quantifying and spatializing ecosystem services (ES). In the context of climate change, REDD recommends the mapping of carbon stocks and its sequestration by vegetation cover to implement more appropriate environmental management practices and policies against global warming. Forest carbon mapping is a current and important environmental tool for a better land management as successful implementation of climate change mitigation (Saatchi et al., 2011). This study presents the mapping of carbon sequestration using two different approaches. Firstly, the direct Remote Sensing (DRS) approach using MODIS images (product MOD17) (Running & Zhao, 2015). Secondly, the indirect approach named Combine and Assign (CA) Approach (Goetz et al., 2009). MODIS images allow the accounting of Net Primary Productivity (NPP) which presents the quantity of carbon absorbed by vegetation cover during a period as a key indicator of ecosystem performance."},{"index":14,"size":362,"text":"The CA Approach combines remote sensing and field data in GIS environment to assess the yearly carbon sequestration for each ecozone and the carbon losses by fires in 2010, using the atmospheric flow proposed by Intergovernmental Panel on Climate Change (IPCC). Both CA and DRS mapping approaches show that the forest stands, generally, Pinus pinaster and Eucalyptus stands, in central and coastal areas have the higher CO2 sequestration potential. However, these two species contribute significantly to CO2 emissions comparing to all other species. The comparison between IPCC methodology and the MODIS product (MOD17) used to follow the carbon dynamic in terrestrial ecosystems has demonstrate that IPCC method can be used as a perfect method to validate MOD17 product. The Iberian Dehesa, one of the most widespread silvopastoral systems in Europe (den Herder et al, 2017), have been identified as example of adaptation useful to face the effects of the climate change on Mediterranean grasslands. Although it is known that trees in Mediterranean wood pastures can favor grass growth (López-Carrasco and Gómez, 2009), studies at large spatial and temporal scale are needed since the relationship of competition and facilitation between trees and grass depends on the edaphoclimatic conditions (Rivest et al, 2013). The aim of this study is to evaluate, through the examination of long series of satellite images, the buffering capacity of the trees for the pasture yield variability in Western Spain. This study uses temporal series of Landsat-5 and Landsat-8 data to map different spectral vegetation indices such as Normalized Difference Vegetation Index, Soil-Adjusted Vegetation Index and Enhanced Vegetation Index. The phenology of the grass has been evaluated in dehesas that follow a gradient of structural complexity (tree and shrub cover), which was determined by the combination of Object-Based Image Analysis and Digital Surface Model applied to infrared orthophotographs and LiDAR data. The results show that trees does not reduce grass yield compared to pure grassland areas, but extend the vegetative period and stabilizes the grass yield across years. Using this methodology, we try to determine optimal tree density for different edaphoclimatic regions. A new approach to quantify grazing pressure under Mediterranean pastoral systems Castro M. (marina.castro@ipb.pt), Ameray A., Castro J."}]},{"head":"Mountain Research Centre (CIMO), Polytechnic Institut of Bragança, Bragança, Portugal","index":155,"paragraphs":[{"index":1,"size":219,"text":"Pastoral systems based on grazing itineraries, very common along the Mediterranean region, provides an opportunity to search feeding resources at landscape scale under a silvopastoral system called by San Miguel ( 2004) as \"Mosaic of different land uses within one management unit\". However daily and seasonal movements of flocks bring on different Grazing Pressure (GP) over the landscape. This study presents an approach to modeling sheep GP under a Mediterranean pastoral system in Northeast of Portugal. The pressure of grazing in a given location depends on Distance from the stable to the border of the parish, Distance to the stable, Stocking Density (SD) (sheep/ha) and preferences for land use and land cover (LULC) (Castro et al., 2004). Geoprocessing integrates several geodatabases, a) land use (COS2015), b) parishes boundaries (DGT, 2017), c) stables location (0108_OTSA_2_E), and d) Sentinel-2 data. SD was performed by Multiple Ring Buffer tool and Ordinary kriging. Homogeneous LULC units (Permanent Crops; Annual crops; Forest; Shrubland; Grassland; Waterland) were obtained by Supervised classification algorithms. The COS2015 was used to establish a mask of the urban area and ungrazed forests. The best performing preferences classifier was Ran-. Integrating the LULC grazing and the SD (Weighted Overlay tool) allows to calculate and to map the GP (figure 1). The most common GP in grazing classes is about 4.7 sheep/ha. "}]},{"head":"TOF in Italian traditional Agroforestry systems","index":156,"paragraphs":[{"index":1,"size":276,"text":"Chiocchini F. (francesca.chiocchini@cnr.it), Ciolfi M., Sarti M., Lauteri M., Leonardi L., Cherubini M., Paris P. CNR -IRET, Porano, TR, Italy Background Agroforestry, being grounded in traditional land use practices, has developed as an autonomous science to increase productivity and profitability for the farmers, while ensuring the land use sustainability. Agroforestry systems are widespread in many countries, supporting the coexistence of tree, crop and livestock components. Such complex ecological systems offer a wide range of economic, social and environmental benefits, occurring over a range of spatial and temporal scales. The integrated use of GIS, Remote Sensing and GPS technologies is particularly suited for assessing, mapping and quantifying the intrinsic spatial complexity of these systems. One of the major geospatial issues in Agroforestry is detecting, mapping and estimating the forest component of the systems: scattered trees or linear forest formations located either inside the field or along the field boundaries, also known as Trees Outside Forest (TOF) (FAO 1998(FAO , 2001)). Data on TOF are scarce and the information available is fragmented at regional and national levels (Schnell et al., 2015). Beckschäfer et al. (2017) give an overview of inventory approaches suitable for the science-based assessment of TOF, specifically on agricultural lands. However, up to now there are no guidelines for TOF inventory in agroforestry systems. Aims Traditional tree-based agriculture systems involving different multipurpose trees such as chestnuts (Castanea spp.), oaks (Quercus spp.), and olive (Olea europa), (Eichhorn et al., 2006) are common in Italy and other Mediterranean countries. We investigated the integration of geospatial techniques for TOF inventory in traditional silvoarable systems located in Umbria region (central Italy), where oaks tree hedgerows (THRs) coexist with herbaceous crops."}]},{"head":"Methods","index":157,"paragraphs":[{"index":1,"size":68,"text":"We tested a procedure for the GIS inventory of THRs, through the semiautomatic photo interpretation of high-resolution multispectral Sentinel-2 satellite images and NDVI. Results were compared with GPS field measurements of THRs as control points to assess the ground truth. We also compared THRs picked up by remote sensing products with different spatial resolution (Google Digital Globe, Sentinel-2 and Landsat 8) using the same combination of spectral bands."}]},{"head":"Results and conclusion","index":158,"paragraphs":[{"index":1,"size":98,"text":"The THRs length detected, corresponding to the 14% of the total perimeter of the cultivated fields, fits accurately with the GPS field survey. The THRs' crowns cover the 3% of the total cultivated area, with an incidence of 67 m of linear tree rows for each hectare of cultivated land. We also observed that the THRs' spatial distribution improves the connection between forested patches in the study area, enhancing landscape connectivity. Further development is needed in order to include diverse landscape patterns: the high-resolution Sentinel-2 imagery appear especially suitable for the detection of most TOFs at landscape level. "}]},{"head":"Hedgerow networks mapping and monitoring in metropolitan France","index":159,"paragraphs":[{"index":1,"size":542,"text":"Commagnac L. 1 (loic.commagnac@ign.fr), Sinoquet A. 2 , Morin-Pinaud S. 2 , Benest F. 1   1 Forest ecology unit, IGN, Saint-Médard-en-Jalles, France; 2 Bocage and wildlife unit, ONCFS, Villiers-en-Bois, France \"Bocage\" is a typical Western European landscape consisting in a network of hedgerows surrounding agricultural parcels. Hedgerows have decreased globally in France since the 1950s, in parallel a decline of agricultural wildlife has been demonstrated by the scientific community. ONCFS and IGN are preparing a national survey program on bocages to evaluate and monitor their quantity and their quality (ecosystem approach). This project is divided into three phases: -Create a first geographic layer with French hedgerows, -Edit a new map of bocages in France, -Define and set up a field monitoring on bocages. Current phase, phase I, assumes the mapping of French metropolitan hedgerow network, it will be achieved by combining two pre-existent data sets featuring surface hedgerows: -BD TOPO® from the IGN : VHR aerial imagery with semiautomatic segmentation, -Data from Land Parcel Identification System (LPIS) of the CAP. The resulting layer will then be skeletonized. This geographic information layer will be updated using several innovative methods which will be discussed: -Digital Canopy Height Model (using photogrammetry obtained DSM) to spot hedgerow losses, -Participatory mapping via a web GIS application, -Other resources possibly available. The first project partners are French Ministry for Agriculture and Food and the French Ministry for an Ecological and Solidary Transition. Indeed, the program could help to lead and evaluate both national agroforestry and biodiversity plans. Trees on farms will play an increasingly important role in national contributions to meet global objectives like Aichi target 7 and SDG 2 that ensures sustainably managed agriculture for biodiversity conservation. Meeting these targets relies on accurate and timely monitoring of these systems to measure progress and inform decision making. Currently, measuring contributions to these targets is not straightforward, with indicators such as 'area under sustainable agriculture' leaving out the crucial question of what actually constitutes sustainable agricultural. New satellites from the ESA's Copernicus programme and advances in radar remote sensing have proved useful in estimating biophysical parameters across landscapes, but to date there has been limited application in agroforestry systems. This offers a great opportunity to employ these new technologies to enhance our understanding of these agricultural mosaic landscapes. Using a combination of freely available optical and radar imagery and data on trees, birds, pollinators, natural enemies, soil organisms and land health, this research aims to explore the best approaches for monitoring biodiversity and ecological changes in trees on farms with remote sensing. The ICRAF Sentinel landscape network provides an ideal setting for developing these approaches, with a good dataset on biophysical and socioeconomic metrics in rural landscapes across the tropics. This dataset will allow us to develop models that are scalable across the tropics to accurately predict indicators of agricultural sustainability, including farmland's contribution to habitat connectivity, support for forest and farmland dependent species, and land health. These methods will measure biodiversity in trees on farms, but also monitor ongoing changes such as the spread of agroforestry, growth rates and tree harvesting. This research will provide new approaches for monitoring agroforestry to deliver information to land managers and decision makers to take appropriate action towards more sustainable agricultural production."},{"index":2,"size":8,"text":"Keywords: remote sensing, biodiversity, trees on farms, sustainability. "}]},{"head":"Detection of wasteland by remote sensing at high spatial resolution","index":160,"paragraphs":[{"index":1,"size":8,"text":"Herblot A. (claire.marais-sicre@cesbio.cnes.fr), Marais Sicre C., Demarez V."}]},{"head":"CESBIO, Toulouse, France","index":161,"paragraphs":[{"index":1,"size":75,"text":"Wasteland is defined as an agricultural area with a cultural past (Derioz, 1991), where natural and uncontrolled vegetation have gradually established (MAPAQ). Wastelands, which are islands of biodiversity, have the capacity to support diversified fauna and flora. They allow to maintain ecological continuity and fight against soil erosion. Characterized by three stages of ecological succession (herbaceous, shrubby and tree-lined) these environments may close if they are not maintained which may lead to endemic species disappearance."},{"index":2,"size":123,"text":"Our study site is located in the Pyrénées-Orientales near Perpignan, where the premiums for grubbing-up vines have affected the agricultural economy (Chakir et al., 2006). This region had been severely impacted with 70% of the plots uprooted (Arnal et al., 2013) and wastelands occupied 30% of the agricultural land in 2016 (Association des AFP et GP des Pyrénées-Orientales, 2016). Many problems arise from these wastelands and rehabilitation projects aim to make this land available to agricultural projects and thus meet local food demand. These projects could limit the closure of areas, conserve an agricultural belt, manage these areas and thus limit urban sprawl (UrbaLyon, 2017). In this context, our study aims to detect wastelands using satellite images with high spatial and temporal resolution."},{"index":3,"size":53,"text":"Many studies report the use of multispectral and multi-temporal remote sensing images to map crops, grasslands and even forested areas, but areas with mixed vegetation are still difficult to identify (Genet, 2010 ;Latour, 2017). However, the availability of high spatial (HRS) and temporal resolution satellite images offers new opportunities for detecting these areas."},{"index":4,"size":86,"text":"We implemented a method for mapping wasteland, using a time series of Sentinel-2 images and in situ data for calibration and validation. The methodology is applied in two processing phases. A supervised classification based on a Random Forest algorithm is first used to separate crops, grasslands and woodlands (OA, 0.83; Kappa, 0.87). Then, in a second step, we apply texture parameters on the previously identified pixels as grassland or wooded area, in order to take into account the heterogeneity of the various kinds of wasteland plots."},{"index":5,"size":37,"text":"Taking texture into account allows the detection of different types of wastelands (herbaceous, shrubby and tree-lined) and increases the detection of grasslands. We obtain an F score of 0.80 for herbaceous wastelands and 0.73 for tree-lined wastelands."},{"index":6,"size":6,"text":"Keywords: remote sensing, wasteland, classification, haralick."},{"index":7,"size":180,"text":"Silvopastoral systems (SPS) have been recommended as one of the strategies to mitigate the effects that livestock production systems have on the climate through greenhouse gas emissions. To determine the extent and characteristics of SPS, most research has been focused on tree sampling in pasture areas, using circular plots, transects or a combination of both and subsequently these results are extrapolated to farm and regional level. Although these approaches allow to understand the characteristics of the woody component on the SPS, they usually a) assume homogeneity of the tree characteristics and abundance from plot to farm and regional level, and b) the spatial arrangement of the trees is neglected in the study, which can be considered as key information in order to determine farmer's preferences for tree arrangements. This study aims to fill the gaps identified above by proposing a novel approach that combines field level techniques (plots measurements) with remote sensing information (UAV photographs and satellite imagery). Forty-three farms from the Climate Smart Livestock project executed by FAO, located in the Ecuadorian Amazon region, were used to study SPS."},{"index":8,"size":49,"text":"In each farm, two square plots of 1ha were marked in the pasture areas suggested by the farmers as representative of the total pasture area. Inside the square plots, a circular plot of two crown diameter (Cd) were measured for each tree with diameter at breast height > 5cm."},{"index":9,"size":62,"text":"From May to July 2018, a drone survey was performed on the square plot, using a DJI Mavic Pro. Th and Cd were calculated from the point cloud using the Web Open Drone Map software. Above ground biomass was up-scaled using two different approaches: results from the tree inventory at the plot level followed the following assumptions to upscale the results: plot"},{"index":10,"size":14,"text":"For the information gathered from the drone surveys, the workflow proposed was as follows:"},{"index":11,"size":18,"text":"Keywords: silvopastoral, UAV, remote sensing, biomass, Ecuador. Mantzanas K. (konman@for.auth.gr), Papadimitriou M., Sidiropoulou A., Sklavou P., Chouvardas D."},{"index":12,"size":10,"text":"Forestry and Natural Environment, Aristotle University of Thessaloniki, Thessaloniki, Greece"},{"index":13,"size":201,"text":"One of the most important evergreen tree species is olive (Olea europea L.), found in many regions of Greece. Olive trees are planted mainly to produce table olives and olive oil. The understory could be either natural vegetation grazed by livestock or agricultural cultivation. In the region of Chalkidiki these systems are threatened by abandonment or conversion to intensive monocultures. The aim of the study was to identify olive agroforestry systems in the area and study their characteristics. For this purpose, the European ICT tool of land/use types Corine Land Cover 2012 (CLC -2012) was used followed by onsite visits (Fig. 1). The following systems were distinguished: a) silvoarable systems with trees in rows intercropped with cereals, b) silvoarable systems with scattered trees intercropped with cereals, and c) silvopastoral systems with scattered trees with natural vegetation and grazing. These systems were mainly found in the land cover type 223 (olive groves) of CLC-2012 in the Kassandra and Sithonia peninsulas. The occupation of local population with tourism contributed to the preservation of agroforestry systems, which could be better exploited in the future by adoption of new CAP agri-environmental measures by farmers. Keywords: Corine Land Cover 2012, silvoarable, silvopastoral systems, tree arrangement, understory."},{"index":14,"size":45,"text":"L16 AF mapping In cocoa-based agroforestry systems (CAFS), the cocoa trees are associated with other cultivated plant species at variable densities. There, the spatial distribution of the cultivated plants can be regular, random or aggregated, and their age may vary even in the same species."},{"index":15,"size":91,"text":"Variables of (i) density, (ii) spatial distribution and (iii) age can thus influence the overall productivity of CAFS and its distribution in space. We studied the relationships between these 3 variables and CAFS productivity based on data collected in 34 experimental yield tracking plots placed in agroforestry fields of producers in the Dominican Republic. A mapping of the cultivated plants was carried out on each plot at their installation and harvests of the ripe products of each individual plant were carried out every two weeks over a period of one year."},{"index":16,"size":344,"text":"The first results of this study indicate that optimal CAFS productivity can be maintained along a decreasing density gradient of crops, associated with cocoa tree ageing. In addition, regular and random spatial distribution of all plant species may increase overall productivity. The analysis of the variability of cocoa, fruit, tuber and timber yields allows us to provide recommendations on the most suitable species and the optimal distance between plants to improve overall productivity and therefore the producer's income. The Agroforestry Concessions mechanism in Peru´s Forest Law seeks to formalize tenure of smallholder farms that illegally encroached State forest land. This 40-years lease is conditional to the engagement in conservation of on-farm tree cover and adoption of agroforestry systems through the signing of a contract. Circa 1.2M ha of mosaic forest landscapes of more than 120,000 smallholder farms in the Peruvian Amazon might be of interest of this mechanism with major positive impact on deforestation reduction and restoration of ecosystem services on agricultural land. Strategic to the identification of the interventions to be promoted and of the monitoring of compliance in the long term and at a large scale, is the capacity to map agroforestry and monitor fine-grained land-use changes typical of heterogeneous smallholder land-use mosaics. That requires to address issues related to the recognition of agroforestry mosaics including their intrinsic temporal sequences (i.e fallow rotations) at an adequate spatial and temporal scale, and accuracy level. This study assesses different mapping approaches and techniques; and provides conceptual and technical recommendations to address key challenges in the mapping and large-scale monitoring of agroforestry concessions. A literature review of different experiences in mapping tropical land-use mosaics such as Unmanned Aerial Vehicle (UAV) technology, remote sensing and mixed mapping systems together with farm registry and cadaster systems constitutes the basis for a discussion with users, including land administration officers and remote sensing/ GIS experts. This will consider implications regarding feasibility and costs for large-scale implementation of agroforestry concessions. We evaluate trade-offs between approaches and identify mixed methods to compliment remote sensing classification with UAV-based validation and expert knowledge."},{"index":17,"size":132,"text":"To properly capture local agroforestry practices, a classification system that takes into account differences in spatial arrangements, vertical structure and temporal sequences of landuse mosaics components is needed. Depending of the sensor used, satellite imagery may not provide enough detail to differentiate the mosaic through remote sensing techniques, leading to misclassification errors. To overcome spatial resolution issues, UAV technology has proven to have optimal potential for fine-grained mapping as it provides enough detail to distinguish land-uses at the farm level. However, the large-scale adoption of such technology in terms of costs and logistics, might be prohibitive for local authorities to adopt it and for repeating monitoring activities. This study brings elements to support decision-making in order to appropriately map agroforestry mosaics, and therefore, support the future implementation and facilitation of high-impact policies."},{"index":18,"size":266,"text":"Keywords: mapping, approaches, agroforestry, concessions, smallholder. In Ethiopia, forested areas are decreasing because of increases in cultivation and grazing pressure by livestock. In addition, the illegal logging for firewood also contributes to the forest degradation. However, the combination of agriculture and forestry benefits for increase in biodiversity and decrease in erosion. Therefore, sustainable use of the land should be considered in trees, crop and livestock. From a viewpoint of agroforestry, it is important to map forest areas and quantify tree biomass. Satellite remote sensing is powerful tool for large scale mapping of forests. However, trees with canopy size of a few meters are sparsely distributed in highlands of Northern Ethiopia. It is not easy to detect single trees and estimate tree biomass even by using high spatial resolution satellite images. The objective of this study is to establish a method to estimate trees biomass by structure from motion (SfM) method. Pseudo aerial photographs were taken from a 3-m tripod to estimate and the 3D structure of tree was built (Figure 1). There were good correlations between measured and estimated plant parameters, such as tree height and canopy area. The R 2 values for tree height and canopy area were 0.82 and 0.93, respectively. Tree biomass was estimated by using an allometry equation with tree height and canopy area as parameters. Tree biomass was approximately 4.5 ton ha -1 . The SfM method would be useful for biomass management. Comparison of tree crown area (in sq. m.) on 15 stations (defined by circles of 50 m. radius) by remote sensing (blue), photo-interpretation (orange) and field survey (red)."},{"index":19,"size":25,"text":"Keywords: mapping, parkland, remote sensing, degradation, Burkina Faso. The research and policy pathway to climate-smart cocoa and REDD+ in Ghana Asare R. (rebeccaashleyasare@yahoo.com), Mason J."}]},{"head":"Nature Conservation Research Centre, Accra, Ghana","index":162,"paragraphs":[{"index":1,"size":225,"text":"Research has played a crucial part in the development of climate-smart cocoa (CSC) in Ghana, and in supporting the design and implementation of REDD+. However, we argue that research alone is unlikely to have significant impacts on any sector unless it is purposely linked into an intentional decision process focused on the development of policies and practices. This paper tells the story of how research has played a major role in shaping CSC in Ghana and the pathway that was followed to where it is firmly embedded in policy, in private sector investment, and in practice. Ghana's cocoa production landscape (5.9 million ha) has one of the highest deforestation rates in Africa, at 3.2% per annum and being driven by cocoa expansion, other agriculture, and extractive industries. Efforts to address this situation date back to 2005, when local and international researchers launched a study to to measure the impacts of cocoa intensification on yields, biodiversity and ecosystem services in a cocoa landscape in Ghana. The results were clear and worrying. As management intensity increased, biodiversity and ecosystem services decreased. The results also showed some interesting outliers; farms that had maintained high shade, high carbon stocks and still had high yields-the first indication that there does not have to be an extreme trade-off between increasing yields and maintaining shade to support biodiversity and carbon storage [1]."},{"index":2,"size":230,"text":"Though Ghana was one of Africa's leaders on REDD+, neither the Cocoa Board nor the Forestry Commission was speaking to each other and there was no interest to explore the research implications. In 2011, the Nature Conservation Research Centre, established a CSC working group to reach consensus on the cocoa sector's business-as-usual (BAU) trajectory, and if unsustainable to envision a future \"desired state\" and set a critical pathway to achieve that state. This paper tells the story of how research played a crucial role in informing the BAU assessment and designing the pathway to a sustainable, CSC system. It outlines how intentional actions were taken to create understanding and commitment between the Cocoa Board and the Forestry Commission. It highlights how the two agencies came to realize the opportunity of climate finance and the potential to create a CSC emission reductions (ER) program. It outlines how research directly informed the concept of CSC. It shows how Ghana entered the World Bank Carbon Fund pipeline in 2014 and moved to sign a performance-based ER contract in 2019, while also receiving significant private sector investment thru the industry's Cocoa & Forest Initiative to support implementation of a no-deforestation supply chain. In summary, this case study shows the potential for astounding impact if research and results are firmly rooted in the real-life dialogues and pathways that actually influence policy and practice at scales."},{"index":3,"size":58,"text":"Deforestation and biodiversity loss in agroecosystems are the result of rational choices, not of a lack of awareness. Despite both scientific evidence and traditional knowledge that supports the value of diverse production systems for ecosystem services and resilience, a trend of intensification is apparent across tropical regions. These transitions happen in spite of policies that prohibit such transformations."},{"index":4,"size":164,"text":"We present a participatory modelling study run (1) to understand the drivers of landscape transition and ( 2) to explore the livelihood and environmental impacts of tenure changes in the coffee agroforestry systems of Kodagu (India). The components of the system, actors and resources, and their interactions were defined with stakeholders, following the companion modelling (ComMod) approach. The underlying processes driving the system were validated through expert knowledge and scientific literature. The conceptual model was transformed into a Role Playing Game and validated by 8 workshops with 57 participants. Two scenarios were explored, a No Policy Change as baseline, and a Restitution of Rights where rights to cut the native trees are handed over to farmers. Our results suggest the landscape transition is likely to continue unabated unless there is a change to the current policy framework. However, the Restitution of tree Rights risks speeding up the process rather than reversing it, as slow variables such the differential growth rates between species kick in."},{"index":5,"size":470,"text":"A coffee planter from Kodagu presents his coffee estate after one morning of play. A large part of the world cocoa production is provided by multifunctional agroforestry systems (AFS). Despite their ability to provide a large range of ecosystem services (ES), eg. biodiversity, carbon sequestration, crop production, these systems were however long considered inefficient in terms of cocoa yield and, thus, neglected by agronomists. Our studies are carried out in Cameroon on farmers' cocoa plantations. They are based on 100-year chronosequences and/or a large array of situations, ranging from simple systems to very complex ones. We show that cocoa AFS can reach yields of over 1000 kg ha-1 of marketable cocoa which is in many cases comparable or even better than yields of conventional systems. We found that very long-term sustainability of cocoa AFS could be achieved if the basal area (BA) share of the cacao stand does not exceed 40% of the total BA of the cocoa AFS. Moreover, farmer's management of the different species associated with cocoa trees provides not only continuous cocoa production on the very long-term but also permits interesting combinations of valued products and/or ES. For instance, the combination of expert knowledge and Pareto front algorithms enabled us to shed light on some of the tradeoffs occurring in these systems and to identify clusters of increasing ES provision. Significant differences in associated tree communities and management strategies were identified across these clusters. Furthermore, by combining field observations and historical survey data, we reconstructed the impacts of changes over time on management practices, agroforestry structures and cocoa yields. The long-term trajectories we identified explain the current agroforests structures, with low or high cocoa tree densities, mean basal area per cocoa tree (from 29.4 cm2 to 92.7 cm2), and finally cocoa AFS allows a system balance that can be temporarily broken or redesigned, suggesting the resilient and flexible nature of these complex cocoa agroforests. Despite such results and the increasing recognition of their multifunctionality, cocoa AFS were recently questioned about their putative unsuitability to climate change adaptation. This question appears legitimate and we support that, when necessary, adaptation to climate change in cocoa AFS shall be overcomed by choosing adequate associated species and planting densities. Yet, in order to prevent the possible misuse of this ongoing discussion within the cocoa supply chain, we urge the scientific community to support and keep demonstrating that complex cocoa AFS are valuable, ecofriendly and climate-smart systems. Finally, we argue that these systems should be used to promote the building and establishment of cocoa cropping models that fully include associated flora diversity in order to provide the farmers, the cocoa supply chain and the consumers with sustainable revenue, goods and services. Accounting for biogenic carbon sequestration in product carbon footprints: analysing trade-offs in a coffee agroforestry Birkenberg A. (a.birkenberg@uni-hohenheim.de), Kumeh E. M."}]},{"head":"University of Hohenheim, Stuttgart, Germany","index":163,"paragraphs":[{"index":1,"size":63,"text":"Product carbon footprints are increasingly used to determine and reduce greenhouse gas (GHG) emissions from the agri-food sector and to produce carbon neutral agro-commodities. However, contrary to what is often assumed and desired by consumers, biogenic carbon sequestration in perennial systems, e.g. agroforestry systems, is not accounted for in product carbon footprints, e.g. of shaded coffee (Brandão et al., 2013;Plassmann and Norton, 2017)."},{"index":2,"size":139,"text":"The lack of a precise and harmonized method to undertake the accounting is not compatible with life-cycle assessment principles (Bessou et al., 2013). Notwithstanding, there are valuable reasons why biogenic carbon accounting is worth considering. Accounting for biogenic carbon sequestration in product carbon footprints could reduce offsetting costs, and enable small-scale farmers to participate in carbon neutral value chains too (Birkenberg and Birner, 2018). Further, it could incentivize the integration of shade trees into production systems, which would result in positive environmental effects (Kumar and Nair, 2011). However, before promoting biogenic carbon accounting in product carbon footprints it is of fundamental importance to understand potential risks and trade-offs. This study addresses the knowledge gap regarding trade-offs between farm gross margins and carbon sequestration footprints based on a case study from shaded coffee farms in the highlands of Costa Rica."},{"index":3,"size":92,"text":"Based on a carbon inventory, a biogenic carbon accounting model was used to estimate the development of carbon sequestration footprints in selected coffee farms over a 20-year period. Farmers production costs and revenues were obtained through household surveys of 190 coffee farmers in the study area. A regression model is used to identify the relationship between carbon sequestration footprints and farm gross margins. Furthermore, a sensitivity analysis is used to identify the magnitude of influence of the different variables, i.e. GHG emission ha-1, carbon sequestration ha-1 and yield or gross margins ha-1."},{"index":4,"size":118,"text":"The preliminary results suggest that carbon sequestration footprints of shade grown coffee in Costa Rica are negatively correlated with farm gross margins. Thereby, the magnitude of carbon sequestration is the most influential factor to reduce product carbon footprints. It is expected that further results of this study contribute to a better understanding of potential trade-offs that farmers would face when participating in product carbon footprint schemes which would account for biogenic carbon sequestration of perennials. Further, this study might provide insights on conditions under which coffee agroforestry systems in Costa Rica could bridge the trade-offs and rather create synergies. Finally, implications on how smallholder coffee farmers could participate in increasingly demanded carbon neutral value chains might be generated."},{"index":5,"size":178,"text":"Keywords: product carbon footprints, coffee agroforestry, economic-environmental tradeoffs, climate change mitigation, carbon neutral value chains. Nitrogen-fixing shade trees in coffee agroforestry systems are assumed to provide an alternative nitrogen source for the coffee crop when fertilizer applications are low, but the transfer of nitrogen from shade trees to the coffee crop has not yet been quantified directly. We present a case study for coffee agroforestry systems with Erythrina poeppigiana as a shade tree. The transfer of nitrogen from the N2 fixing tree to coffee plants was measured through a stable isotope pulse and chase experiment. Shade trees that had been labelled with a 15N-enriched nitrate solution, were pruned, and the prunings were subsequently laid out below coffee crops under conventional or organic management. Significant fractions of nitrogen ended up in the coffee plants 5 months after the deposition of 15N labelled prunings on the plantation floor (figure 1). More nitrogen from prunings was found in the soil under organic management than under conventional management. This finding was associated with higher macrofauna abundance, particularly earthworms, in the organic system."},{"index":6,"size":34,"text":"Coppicing of the shade tree and subsequent decomposition of the pruned material was the dominant mechanism for nitrogen transfer to the coffee plant, while other mechanisms only affected coffee plants directly neighbouring the tree."},{"index":7,"size":33,"text":"In conclusion, the pruning of shade trees in coffee agroforestry systems is an important pathway for the transfer of fixed N to the coffee plants and seems to be essential in organic systems."},{"index":8,"size":180,"text":"Figure: Fate of nitrogen from 15N labelled tree prunings: N transfer (% of initial N litter) to the soil and the coffee plant, 5 months after pruning. Data for the organic management. Over the past decades in Northwestern Vietnam, Arabica coffee systems have been moving towards intensified, full sun monocultures that are not long-term sustainable and have negative environmental impacts. As most of the farming systems in this area are on sloping land (approximately 75% of the total farmed area), these systems are associated with very high levels of soil erosion, loss of biodiversity. This, in turn has contributed to declines in agricultural productivity. There is now a need reverse these trends and better integration of agroforestry is one potential option. Indigenous coffee systems often use trees for shade. A survey of 124 farmers from three indigenous groups was conducted in Northwest Vietnam to document the characteristics of these shaded coffee agroforestry systems. This included systematic acquisition of the local knowledge of the ecosystem services and disservices that rural communities associate with the different tree species used within these systems."},{"index":9,"size":210,"text":"Our results show that tree species richness in shaded coffee agroforestry plots was much higher compared to other farming systems in the area (including maize, orchards, and timber plantations). Farmers had in-depth knowledge of environmental benefits of different trees in their systems including their capacity to reduce soil erosion, improve soil fertility, enhance biodiversity and reduce damage from wind and frost. Interestingly farmers had limited knowledge on both how trees affected coffee quality and yield as well as their role in light and nutrient dynamics. The leguminous shade tree species (Leucaena leucocephala) was the highest ranked tree in terms of providing most ecosystem benefits. Nonetheless, farmers' selection of tree species in their shaded coffee systems was more heavily influenced by economic value associated with the intercropped trees. Our survey shows that there were fewer native species in the areas with better road accessibility (in these systems the road is synonymous with the market) despite the recognition of their value to coffee systems. Consequently, Leucaena leucocephala was only maintained in areas away from roads. This study highlights areas where we can target learning to improve the uptake of trees with high environmental value and highlights challenges associated with tree selection as Vietnam attempts to move towards more climate smart agricultural systems."},{"index":10,"size":11,"text":"Keywords: local knowledge, ecosystem service, coffee agroforestry, tree diversity, tree selection."},{"index":11,"size":1,"text":"L17. "}]},{"head":"Background and aim","index":164,"paragraphs":[{"index":1,"size":86,"text":"Highly productive monoculture coffee (Coffea arabica L.) farms have rapidly expanded since the 1990s in Yunnan Province, China. In 2013, in order to initiate a large-scale transition towards more sustainable coffee growing practices, local government in southern Yunnan started distributing free shade tree seedlings to all coffee farmers in their jurisdictions. This study highlights the impact of three of these promoted shade tree species (Cinnamomum camphora, Bishofia javanica and Jacaranda mimosifolia) on soil fertility and coffee production only four years after their distribution to coffee farmers."}]},{"head":"Materials and methods","index":165,"paragraphs":[{"index":1,"size":91,"text":"Soil samples in the 0-20 cm soil layer were tested for chemical composition (soil organic matter, pH, total N, available P, exchangeable K, Ca and Mg), soil communities (free-living nematodes nidase and acid phosphatase) under shade trees (6 replicates per tree species) and in open areas (15 replicates), both in coffee rows and inter-rows, once during the rainy and once during the dry season. Additionally, we characterized root systems and soil water profiles to a depth of 1.2m, monitored litterfall for one year, as well as coffee production for two years."}]},{"head":"Major results","index":166,"paragraphs":[{"index":1,"size":131,"text":"We detected a clear positive impact of all three shade tree species on soil chemical, biological and biochemical fertility, despite the marked effect of 20 years of high mineral fertilizer inputs. In particular, we measured higher pH and soil organic matter; similar or higher soil enzyme activities throughout the year; more abundant fungi communities throughout the year; and more abundant microbial communities during the dry season below shade trees than in open areas. Furthermore, coffee trees shaded by B. javanica and J. mimosifolia yielded as much as open coffee trees. On the other hand, coffee trees shaded by C. camphora yielded less than open coffee trees, most likely as a result of high root competition from this shade tree species. Lastly, shade trees had no visible impact on coffee organoleptic quality."}]},{"head":"Conclusion","index":167,"paragraphs":[{"index":1,"size":26,"text":"These results demonstrate that carefully selected shade trees can rapidly contribute to preserving and/or restoring soil fertility in intensive coffee systems, while maintaining high coffee yield."},{"index":2,"size":17,"text":"Keywords: Arabica coffee, China, PLFA, Soil enzyme, Soil fertility. it is possible to intercrop two ancestral crops?"},{"index":3,"size":105,"text":"Cerdán C. R. 1 (ccerdan@uv.mx), del Amo S. 2 , Hipólito E. 2 , Ramos-Prado J. M. 2 , Ricaño J. The history of the origins of cultivated vanilla suggests that almost the entire stock of cultivated vanilla outside of Mexico is a single genetic individual (clone) 1 . Vanilla is therefore suspected to be a highly susceptible monoculture, and new sources of germplasm (either from wild vanilla or from closely related species) should be introduced through breeding. Although vanilla can be found cultivated through the Tropics, natural populations in southern Mexico -the most critical sources of novel genetic diversity-are on the verge of disappearing."},{"index":4,"size":372,"text":"Traditionally, Mexican vanilla plantations have been managed in highly diversified agroforests, with some indigenous groups being related to its domestication and cultivation by centuries, especially in Southern states (by Totonacas, Mazatecos, Chinantecos and Mayans among others). Profitability of these traditional multistrata agroforestry systems relies on the diversity of incomes obtained through a set of different timber and non-timber species (vanilla representing less than the 7% of the total income). However, three challenges are currently faced by these smallholder vanilla production systems: a) Land Use Change to more profitable alternatives (decades ago to orange monocultures, currently to pastures), b) vanilla trade is monopolized by one company, c) and more recently, abortion in blooming likely due to rainy changes. Because of that, vanilla area has been reduced to less than 700 hectares in the whole Mexico. Simultaneously, cacao is growing there on agroforestry systems since it was introduced more than 2000 years ago. It is well known that original inhabitants were the first to use cacao for 2 . However, Mexico has lost nearly half of its cacao areas during the last decade, resulting in deforestation and the loss of valuable traditional knowledge. There is a need to improve the profitability either cacao and vanilla plantations. Vanilla and cacao can be grown in humid tropics, both from sea level up to an altitude of 1200 m and optimum range is 20-30º C, as well as a minimum of 1800 mm of rain. However, intercropping of these two crops is not a common practice 3 . It is argued a possible competition, either for nutrients and space; by the other side, there are some reports about the existence of agroforestry systems by indigenous groups in the past, which are however currently unknown. Even its common origin and requirements, intercropping of vanilla and cacao has not studied enough. Plots intercropping cacao and vanilla has been stablished 4 years ago in three different states of Southern Mexico in order to study: a) competition between crops, b) adaptation of them in different agro ecological conditions, c) differences in local management practices, c) phenology of tree species used as shade, and d) use of microorganisms to promote plant growth. Preliminary results shown that intercropping is not affecting farm profitability."},{"index":5,"size":7,"text":"Keywords: Conservation, Local knowledge, Co-innovation, Diversification, Performance."},{"index":6,"size":262,"text":"Recent studies based on remote sensing showed a gradual expansion of tree cover over savannah and agricultural land in the forest-savannah transition zone of Cameroon 1 , part of this expansion is actually due to shaded cocoa. Despite unfavourable conditions in herbaceous savannah (low soil fertility, weed competition and risk of bush fire), farmers have proven that afforestation is achievable using cocoa and specific technics to build up an associated tree canopy 2 . Full-grown cocoa agroforestry systems created on savannah (S-cAFS) and in forest (F-cAFS) seem to exhibit comparable multi-strata structure. Nevertheless, previous land uses and related canopy structures may have contrasted impacts on production and other ecosystem services over time. We selected 1 to 70 year-old S-cAFS and F-cAFS, and we used forest and savannah patches as controls 3 . By combining measurements of cocoa production, litter fall and cycling, soil quality, carbon storage and tree species diversity along this age gradient, we showed that those variables in S-and F-cAFS generally tended to comparable levels after several decades. Results also emphasized the ability of S-cAFS to increase most of the ecosystem services (ES) although the time needed to reach levels found in F-cAFS varied strongly amongst variables (Fig 1). Results also showed the positive contribution of associated plants to ES, particularly C storage and nutrient cycling contributing to REDD+ 4 and sustainability of the cropping system. Fruit agroforestry as a suitable candidate for new resilient food systems ? A french case Warlop F. 1 (francois.warlop@grab.fr), Castel L. 2 , Gaspari C. 1 , Fourrié L. 3 , Plessix S. 2"},{"index":7,"size":204,"text":"Because of negative externalities of specialized agricultural systems, diversification has been shown as a relevant tool to improve their resilience. Agroforestry in traditional peasant models is a case-study of a diversification. In 2012, French partners worked on de novo designs of two modern fruit agroforestry systems in southeastern France, with a specific objective of reduction of plant protection inputs, through higher wild/cultivated biodiversity occurrence. One system ('TAB') is oriented on long marketing channels with arable crops, the second ('Durette') is dedicated to short channels with highly diversified vegetables and directly managed by farmers. This long-term research project (funded by French Agricultural Ministry -Ecophytofrom 2012 to 2018, to be continued) has led to useful deliverables. A co-design methodology for innovative agroforestry systems has been thought to involve farmers in design choices, considering scientific objectives together with pragmatism. A multi-criteria assessment tool has been initiated to assess ex ante performance, and has been adapted for ex post assessment. A common methodology has been developed for on-farm performance assessment, based on classical sustainability indicators (picture). Preliminary results have been produced on biodiversity or economic performance and will be further detailed. The following years will be useful to further investigate natural pest control mechanisms, and complete performance assessment."}]},{"head":"Background","index":168,"paragraphs":[{"index":1,"size":44,"text":"The increasing frequency of extreme and variable climate patterns in the future will threaten agricultural productivity in many areas, especially in dryland regions. In rainfed agriculture, to investigate the capability of the agroforestry system under global climate change is essential to achieve sustainable agriculture."}]},{"head":"Aims","index":169,"paragraphs":[{"index":1,"size":28,"text":"This study examines whether intercropping a rain-fed jujube orchard in the Loess Plateau, China with either Brassica napus (JB) or Hemerocallis fulva (JH) is a viable agroforestry system."}]},{"head":"Materials and methods","index":170,"paragraphs":[{"index":1,"size":39,"text":"A portable Time Domain Reflectometry (TDR) system was used to take long-term volumetric measurements. A cryogenic vacuum distillation system was used to extract water from xylem and soil samples. The thermal dissipation method was monitored the tree sap flux."}]},{"head":"Main results","index":171,"paragraphs":[{"index":1,"size":228,"text":"Soil water data collected over four years show that the JB and JH treatments increased soil water during the jujube growth (May-to-October) and dormant (March-to-April) relative to the control. The JB and JH treatments were characterized by a significant increase in soil water at a depth of 0-60 cm, along with a significant increase in average relative extractable water (REW) of 14.68% and 21.18% over four years, respectively. At the inter-row, the B. napus and H. fulva significantly increased the soil water at the depth of 0-60 cm in 2015-2017 and provided average REW gains 11.5% and 3.48%, respectively. The two economic crops significantly decreased soil water at the depth 60-180 cm and resulted in average REW losses 17% and 47.7%, respectively. The agroforestry altered the jujube trees' water sources but its impact depended on soil wetness: compared to monocultures, jujube trees in agroforestry systems generally shifted to deeper water under dry conditions but to shallower water under wet conditions. Complementary water use between jujube trees and crops was observed on most sampling dates, but there was clear evidence of water competition in the shallow layer under relatively wet conditions. The jujube transpiration was higher in the two agroforestry systems than the CC treatment, especially at the jujube critical water requirement stage (June to September). In addition, jujube yields in agroforestry systems were clearly higher than in monoculture."}]},{"head":"Conclusion","index":172,"paragraphs":[{"index":1,"size":71,"text":"The two tested agroforestry systems were directly related to soil water improvements in the jujube orchard. These findings demonstrate that agroforestry is a climate-smart agricultural system and can increase the resilience of semiarid jujube plantations to extreme real-world drought. The presented research demonstrates that agroforestry systems provide an economically feasible way to protect trees during both drought and normal years, and should be seriously considered by farmers who face water limitations."},{"index":2,"size":10,"text":"Keywords: agroforestry, soil water, transpiration, stable isotopes, the Loess Plateau."},{"index":3,"size":198,"text":"The transformation of rainforest into monocultural oil palm plantations has led to dramatic losses in biodiversity and in ecological functioning. To alleviate the negative ecological impacts in existing plantations, designer plantation landscapes have been proposed, in which agroforestry zones are considered to have a positive impact on biodiversity. In 2013, we established a biodiversity enrichment experiment in Indonesia (EFForTS-BEE) with multiple tree species planted in an oil palm monoculture, forming agroforestry plots of varying tree species diversity, composition, and plot size. Two main questions are investigated: is mixed-species tree planting a suitable measure for biodiversity enrichment in oil palm plantations? What are the socio-economic and ecological trade-offs? As the experiment is now well established, we study the experimental response of (a) the environment (soil, micro-climate), (b) plants (tree performance, plant water relations, natural succession, structural complexity), (c) animals (bird, bat and invertebrate communities), (d) micro-organisms (prokaryotes and fungi) and (d) socio-economics (oil-palm yields, benefits from the planted trees, incentive for enrichment planting). Here, we present initial findings resulting from the integration of comprehensive ecological and socio-economic studies from the past five years. These preliminary results contribute to the development of ecologically improved management concepts in oil palm landscapes."},{"index":4,"size":409,"text":"Oil palm plantation enriched with six native tree species used for fruit, wood and latex (EFFoRTS-BEE 2016). Smallholder households in the rural uplands of northern Laos PDR are characterised by high rates of poverty; however, well-managed teak (Tectona grandis) can provide a pathway out of poverty for these households (Newby et al. 2012). The benefits of alley cropping systems have long been recognised in Lao PDR (Hansen and Sodarak 2004), yet examples of their successful adoption are rare. Midgley et al. (2007)  The trials were established using a paired-row configuration, with 2.1m between rows within a pair, and 1.8m between trees along the rows. The distance between adjacent paired-rows was set at 8, 10, 12 and 15 m giving planting densities of 1100, 918, 788 and 650 trees/ha respectively. In each of the 88 trials, two of these spacings were tested, providing a balanced set of comparisons across all trials within a district. The height and diameter at breast height (DBH) of all surviving trees were measured annually. A total 56 of the agroforestry trial sites were regarded as having been 'successful' (20 sites classified as good, 24 average and 12 poor performance). The remaining 32 trials were deemed to be unsuccessful, primarily due to a lack of weed control after the first growing season, which adversely impacted on survival and growth of the teak. The poorest growth and survival of the teak was associated with farmers who did not grow companion crops after the first year, and/or where the trials had been burnt. The most successful companion crops involved the growth of perennial crops (particularly banana, but also fodder crops). Factors impacting on the success or failure of these agroforestry trials are complex, and require further analysis. Nevertheless, some important factors are: farmers did not understand the concept of alley cropping as they had never seen this before, and only understood companion cropping only in terms of the Taungya system; the location in relation to the village (plots further away were less likely to be managed); availability of household labour (often related to the age of the farmers); and geographic location (high elevation sites were unsuccessful). In summary, our experience demonstrates that alley cropping systems involving teak in northern Lao PDR are applicable where farmers have limited land, but sufficient labour; sites are located in proximity to village or other upland fields (to minimise travel and maximise return on labour), and sites are below 800m above sea level."},{"index":5,"size":9,"text":"Keywords: mixed-plantation, Tectona grandis, Non-Timber Forest Products, intercropping, fodder."},{"index":6,"size":52,"text":"L17. Myanmar's Tanintharyi Region is a forest frontier landscape facing rapid rubber and oil palm expansion. In the past two decades, subsistence use of forests, shifting cultivation and traditional mixed betelnut/cashew agroforestry have been largely replaced by more intensive land uses, strongly impacting the supply of ecosystem services (ES) and human well-being."},{"index":7,"size":498,"text":"We investigated the bundles of ES provided by former and current land uses and analyzed the trade-offs for ten ES from the perspective of local land users. Using participatory action research, we conducted four transect walks, 16 focus groups and 27 semi-structured key informant interviews in three villages. Based on a qualitative content analysis, we developed a scoring system from 0 (no supply) to 3 (high supply) and applied it to each land use. We found the highest trade-offs for the conversion of forests to oil palm due to environmental pollution and limited access of local communities to concession areas and potential benefits. On the other hand, the booming rubber expansion offers income from commercial crops as well as fuelwood, climate regulation and even new cultural values. With the additional opportunity to include poultry production, rubber agroforestry provides most of the locally demanded ES. Nevertheless, disturbed water flows might cause future problems. We conclude that both remaining forests and new rubber agroforestry can contribute to a sustainable landscape development and human well-being. In Africa, the personal self is greatly influenced by and is in close interaction with both the human and natural environment. In the past, conservation in Africa was greatly influenced by its close interaction with both the belief and knowledge systems. There was always a linguistic expression, a category of knowledge, a practical use, a religious meaning or a role in ritual, which gave vitality to the conservation and protection of natural resources. Local community conservation of the shea trees, was therefore governed by a complex mix of traditions, customs, taboos, rituals and legends handed down from generation to generation and are neither found in written form, nor organized and structured in ways accessible to science. However, despite the value of traditional and cultural practices, their inclusion in national conservation policies has not been pragmatic. This paper aims to show the value of past traditional and cultural practices in the conservation of shea trees in Uganda. Data were collected through 15 focus group discussions, 41 key informant interviews and 300 semi-structured interviews across three farming systems of the shea tree parklands of Uganda. The results indicated that pre-current shea tree conservation can be traced back to the value system and traditional practices which can be broken down into seven broad levels: (i) the use of taboos, (ii) folklore and legends, (iii) local bye-laws, (iv) the sanctity of the elders, (v) the authority of traditional chiefs, (vi) traditional songs, and (vii) depth of integration into tradition, culture and custom. These have, however, been eroded over time, threatening the conservation of shea trees in Uganda. Given the diversity of traditional conservation practices, it is imperative that the people need to be active participants in conservation decisions, and traditional knowledge has to be accepted and/or regularised as a component of conservation. Conservation does not need to undermine the traditional wisdom base; rather traditional knowledge can offer lessons and complement contemporary methods to produce an acceptable and working conservation framework."},{"index":8,"size":10,"text":"Keywords: shea tree, Vitellaria paradoxa, conservation, traditional practices, traditional knowledge."},{"index":9,"size":1,"text":"L17. "}]},{"head":"Benefits and tradeoffs of integrated sheep vineyard systems in California","index":173,"paragraphs":[{"index":1,"size":194,"text":"Gaudin A. 1 (agaudin@ucdavis.edu), Brewer K. 1 , Patzec L. 2 , Tiffany S. 3 , Ryschawy J. California hosts one of the most valuable, diverse and intensive cropping systems in the world. Several rounds of intensification and chronic irrigation water shortages have incentivized highly specialized crop and livestock enterprises and scientific research and technological development tailored to simplified systems. The broader aim of our work is to study ecosystem services provided by livestock reintegration into perennial cropping systems and their potential to offset external inputs, mitigate climate change and provide an effective adaptive strategy to impending shifts in resource availability in California. We propose to take the specific example of Integrated Sheep Vineyard Systems in Northern California (ISVS), a growing agroforestry system. Although this practice is gaining popularity among growers, no impact assessments have been conducted and benefits and tradeoffs associated with sheep integration remain unclear. We will present preliminary results of an interdisciplinary project assessing how and to what extent sheep integration impacts multiple ecosystem services and in turn the economic and environmental sustainability of vineyard production systems. We will also present leverages available for wider adoption of such systems in California."},{"index":2,"size":56,"text":"Many of the socio-economic and environmental issues of rubber plantations are linked to their monocrop nature. Agroforestry systems (AFS) associating permanently crops or other trees to rubber are widely believed to offer a favourable alternative, not only able to diversify the source of income for farmers but also to limit the negative environmental impacts of plantations."},{"index":3,"size":395,"text":"However, despite such good reputation, in Thailand, the first rubber producing country, rubber AFS are estimated to cover less than 5% of the surface area, mainly in the south zone. Within Heveadapt, a multidisciplinary project on the adaptation of rubber smallholders to global changes, we assessed the existing systems in a representative zone (Phattalung Province) of the main rubber producing area (South) and evaluated their actual impact on the farms economy and on soil quality. Only few rubber farmers had permanent AFS and none of them in all their rubber plots. The 3 main systems in southern Thailand were fruit trees/rubber, vegetable/rubber, timber trees/ rubber. Complex systems mixing several associated species also exist. The density of rubber trees was always the same as in the monocrop, safeguarding the latex yield. The fruit tree/rubber association provided the best trade-off between return to land and to labour. Timber provided a labour-saving alternative with high but late income. Simulations showed that, thanks to their flexibility and a higher gross margin, the AFS actually provided a higher resilience of the farms when the price of rubber fall. The effects of AFS on soil biological and physico-chemical properties were not that clear. Actually, agricultural practices (weeding, fertilization) tended to vary more between farms than between the AFS and monocrop plots. Therefore, the heterogeneity was high within each system. The age of the plantation also had a greater effect than the kind of system. However, differences between systems increased with age and traits linked to carbon transformation indicated more active processes in fruit tree/rubber than in monocrop. Nevertheless, the actual vegetation soil cover was the most important factor influencing soil quality and weeds sometimes covered more the soil in monocrop plots than in AFS. We showed that current AFS originated from individual pioneer initiatives that spread in a second step through farmers-to-farmers networks. Social motivations and family consumption prevailed at the beginning, but diversification of the source of income is now the main reason to adopt AFS. The change in the attitude of official institutions, mainly the Rubber Authority of Thailand, now promoting AFS, was also important. Such basis, with existing networks, knowledgeable leaders and institutional support, paves the way for the development of regional innovation platforms offering channels (meetings, social medias, trainings) to share the available information necessary to scale-up the rubber AFS from a marginal to a widespread system."},{"index":4,"size":25,"text":"Keywords: Hevea, Sustainability, Diversification, Soil quality, Innovation. Farmer's perceptions of the effects of some preserved trees in cocoa and coffee agroforests in Togo (West Africa)"},{"index":5,"size":443,"text":"Adden A. K. 1 (ayiadden@gmail.com), Fontondji K. J. 2 , Fare Y. A survey conducted in the forest zone in Togo nearby 317 cocoa and coffee producers, allowed to identify appreciated and unappreciated trees by them in the cocoa and coffee agroforests, then the main raisons for this discrimination. In coffee agroforests, the first trees species appreciated and able to be conserved by farmers remain Erythrophleum suaveolens (76,2%), Khaya grandifoliola (76,1%), Albizia adianthifolia (72,3%), Milicia excelsa (68,4%), Albizia zygia (56,1%), Terminalia ivoiriensis (40,1%) and Terminalia superba (40,1%). In cocoa agroforests, farmers prefer Milicia excelsa (65,2%), Albizia adianthifolia (56,5%), Terminalia ivoiriensis (52,2%), Terminalia superba (52,2%) and Khaya grandifoliola (39,1%). The main raisons evocated by the producers were linked to the trees shade quality (95%), the soil fertility and conservation improvment (93%) and the timber tree quality provided (92%). The unappreciated trees in coffee agroforests were Cola chlamydantha (89%), Cola nitida (89%), Ceiba pentadra (88%), Milicia excelsa (86%),Bombax costatum (79%) and Mangifera indica (77%) while in the cocoa agroforests it remained Bombax costatum (93%), Cola nitida (91%), Anogeisus leicarpus (88%), Cola chlamydantha (87%) and Glyricidia sepium (80%), because these trees in the orchards, depleted and hardened the soil (89%), provised bad tree shade (78%) and invaded the agroforests (75%). More informations is capitalised for the best orientation of the phytogenetic ressources conservation and dissemination strategies in the production area for enhancing sustainable cocoa and coffee production in Togo. In Central America, smallholder coffee farmers rely on low input agroforestry systems (AFS) while experiencing increased pressure from climate change and social inequality. In order to increase the sustainability of these systems and to guide farmers along agroecological transition pathways, participatory approaches are needed. However, methods for the co-design process of such complex AFS are still scarce. Here, we present a practical approach based on game sessions and backcasting for the development of sustainable farming systems, together with the smallholder communities. We organized five game sessions and one backcasting workshop with farmer communities, technicians, researchers and municipality officials in La Dalia, Nicaragua. Through the game sessions we managed to highlight the key factors that allow or impede successful coordination among farmers to diversify their systems and develop organic and/or low input agriculture. Furthermore, using backcasting, we shared the outcomes from the game sessions among the communities and co-designed new farming systems highlighting major economic, social and environmental benefits and barriers. Through combining game and backcasting sessions, we were able to describe the current system and co-construct a desirable future vision towards agrological transition. We envision a wide range of relevant applications of this method in agriculture and beyond to facilitate stakeholders to collaboratively initiate processes of change."},{"index":6,"size":287,"text":"Illustration that combine RESORTES game sessions describing current situation and backcasting approach, showing how targets are chosen and pathways are then subsequently developed for achieving those targets. One third of the world's cocoa (Theobroma cacao L.) grows in monocultures in Ivory Coast, which are threatened by degraded soils and vulnerability to climate change. Cocoa agroforestry systems have the potential to provide various ecological benefits. However, making them economically feasible at larger scales remains a challenge. In this study, we assessed critical success factors for the establishment (in 2014) of Fredy's Plantation, a unique largescale mechanized dynamic agroforestry system under organic management located at a marginal site for cocoa production in central Ivory Coast. Major parts of the site had previously been under 30 years of intensive pineapple production. Using a pairwise comparison of six plots each in high-and low-tree vigour areas, we assessed physicochemical soil properties and meteorological stand parameters, as well as growth and survival rate of cocoa trees. We observed a decrease of the daily temperature amplitude (difference Tmax -Tmin) in high-tree vigour areas (denser shade canopy), which correlated with enhanced cocoa tree growth and survival rate. Furthermore, survival of cocoa trees correlated with increased soil fertility (higher organic C and N), lower bulk density and higher water holding capacity (Figure 1). Applying large amounts of biomass through regular pruning may be a key factor for the regeneration of impaired soil health on marginal lands in order to increase the productivity of cocoa-based dynamic agroforestry systems. The role of the herbaceous community in ecosystem service provisioning in coffee agroforestry systems Archibald S. 1 (sarah.archibald@mail.utoronto.ca), Isaac M. E 21 Geography, University of Toronto, Toronto, Ontario, Canada; 2 Geography, Environmental Science, University of Toronto Scarborough, Toron, Canada"},{"index":7,"size":540,"text":"The effects of diversifying shade-tree composition in coffee agroforestry systems has been explored in depth, showing many benefits to overall land productivity, farmer livelihoods, and biodiversity conservation (Tscharntke et al. 2011). However, the role of the herbaceous community (HC) in contributing to agroecosystem processes and ecosystem services in coffee agroforestry systems are poorly understood. My research aims to provide key insights on the function of HC on ecosystem services using social and ecological research approaches. I implemented a functional trait-based approach to measure plant functional diversity -functional richness, evenness and divergence -of the HC on 15 organic coffee agroforestry farms (Figure 1). This was paired with in-depth producer interviews to document the management and the perception of the HC using a cognitive mapping approach (see Isaac et al. 2009). My research found that both soil carbon and nitrogen increased with higher HC functional richness. Cognitive maps were diverse in their number of variables, indicating that there are many pathways to promote HC as a way to increase ecosystem services while reducing farmer labour in coffee agroforestry systems. This research aims to contribute to the growing field of agroecology, functional-trait ecology, and HC research. I aim to provide timely and essential information to support farmers interested in transitioning to low/no-chemical coffee agroforestry systems.  Emerging challenges to farming drives farming systems to have three strategies; intensification options optimizing resources and technological innovations, firm diversification orchestrating interdependencies among sectoral boundaries, and transition to new system and trajectories. The intensification in the coffee system is the process to specialize in coffee using new varieties and practices while the second option is diversification to complementary enterprises to adapt challenges. The trajectory shift emphasis on how new sectoral systems (dairy sector) emerges, and its link with the previous system (coffee) in terms of impact pathway. In the multi-level perspective however, there is no simple cause effect relationship drives transitions rather systems change is enacted by various types of actors. This paper, therefore, presents (1) how the transition from coffee to dairy based farming system is taking place? ( 2) How the different actors in the innovation system of transition contribute to the learning and innovation process? ( 3) What contributes the transition from intensified coffee based to dairy based farming system on household food security? Our data collection consists of household survey (120) for household specific data, focus group discussions (9 FGDs) and stakeholders' interview. The results revealed, coffee production declined by 65% in the last 30 years, and the trend is straight. The dairy on contrary is in opposite visualizing sharp increase in volume of production and price. In line to this, innovation process and actors' interaction to adapt to climate change differs for the coffee and dairy. Actors in the coffee are limited, the system is highly centralized with limited options to farmers to process and market their product while the dairy sector is informally controlled by demand based business, comparatively numerous actors with limited government intervention, various options to marketing. The strong correlation between farm performance and socio-institutional variables, stakeholder interaction suggests the need for the establishment and strengthening of local institutions that have capacity to break the farmers' capital constraint to invest in climate smart agriculture which is beneficial to sustain systems."},{"index":8,"size":10,"text":"Keywords: Climate Change, Coffee agroforestry, Climate Smart Agriculture, Innovation, Transition."}]},{"head":"L17.P.07","index":174,"paragraphs":[{"index":1,"size":12,"text":"Forest coffee in Ethiopia: understanding and developing a specific Ayerbe D. (delphineayerbe@hotmail.com)"},{"index":2,"size":3,"text":"Belco, Palaiseau, France"},{"index":3,"size":73,"text":"The Anfilo Coffee Forest in western Ethiopia is an ancient heritage forest where coffee has been cultivated for centuries. Coffee is grown under various ancient species of trees originating from primary forests. This specific type of production gives local harvests a more complex range of aromas of interest to consumers. However, the system is now under threat from recent developments, in particular a growing population, land pressure and the development of cash crops."},{"index":4,"size":120,"text":"In our lecture, we will analyze the specific features of this type of land use to understand how it works and how it might be developed in such a way as to make it sustainable. To do this, we propose describing the coffee forests of Anfilo, which employ a specific type of highly localized farming technique. We will then explore our case study in relation to global trends in favor of promoting and defending agroforestry coffee. Finally, we will consider ways of developing such production, which despite low yields is of a remarkable quality, in order to prevent this culture system specific to the coffee-growing regions of western Ethiopia from disappearing and to make it more beneficial for local farmers."},{"index":5,"size":405,"text":"Keywords: Coffee, Forest, Ethiopia. In West Africa, most of farmers regard trees as an integral part of the cultivated system. They maintain traditional farming systems in which trees spared during clearing are scattered over the fields. Agroforestry has been practiced for several centuries and provides wood and nonwood products, from which households derive an essential part for their food security (Kouakou et al., 2017). In these fragmented agricultural landscapes, these agroforestry systems (AFS) maintain connectivity between different habitats and provide excellent refuge for biodiversity (Asare et al.,2014;Smith Dumont et al., 2014). Moreover, socially, trees are precious land markers and constitute an important part of family heritage (Camara et al., 2009). Furthermore, several studies have shown that AFS sequester more or less carbon depending on their level of complexity and contribute to the mitigation of climate change (Somarriba et al., 2013). Since two decades, there has been a diversification of crops in the Ivorian Sudanian zone and a large increase of cashew trees (Anacardium occidentale)in this area. This crop has become the main perennial one of the Ivorian savanna zone. Côte d'Ivoire is also the main African producer of cashew nuts with around 50% of African production. However, this extension of cultivated areas in cashew trees is to the detriment of existing traditional AFS dedicated either to food crops or to the conservation of local biodiversity. The expansion of orchards also leads to a reorganization of social relations, particularly through renegotiation of land rights. The increase in cashew orchards is therefore a threat of traditional AFS making some agroforestry parks, sources of greenhouse gases. Despite the extend of human pressures and constraints to biodiversity conservation, a lack of data and information on the spatial-temporal dynamics of land use, the potential of ecosystem services of traditional AFS compared to cashew trees and the impact of climate change on the evolution of these systems remains. Moreover, the factors of the establishment of these traditional AFS, and their suppression or maintenance by the farmers are still poorly known in the Ivorian Sudanian zone. In view of the need of scientific data on the Ivorian Sudanian zone, it is important to adopt a multidisciplinary and integrative approach that allows, on the one hand, a better understanding of the dynamics of the vegetation cover of the zone, to predict their future evolution in a context of climate change and, the other hand, to establish alternative models of management of these AFS."},{"index":6,"size":13,"text":"Keywords: Sudanian zone, traditional agroforestry systems, cashew trees, fragmented agricultural landscapes, family farming."}]},{"head":"L17.P.09","index":175,"paragraphs":[{"index":1,"size":175,"text":"Blaser W. J. 1 (wilma.blaser@usys.ethz.ch), Oppong J. Meeting demands for agricultural production while maintaining ecosystem services, mitigating and adapting to climate change, and conserving biodiversity will be a defining challenge of this century. Crop production in agroforests is being widely implemented with the expectation that it can simultaneously meet each of these goals. But trade-offs are inherent to agroforestry and so unless implemented with levels of canopy-cover that optimise these trade-offs, this effort in climate-smart, sustainable intensification may simply compromise both production and ecosystem services. By combining simultaneous measurements of production, soil fertility, disease, climate variables, carbon storage, and species diversity along a shade-tree cover gradient, here we show that low-to-intermediate shade cocoa agroforests in West Africa do not compromise production, while creating benefits for climate adaptation, climate mitigation, and biodiversity (Fig 1). As shade-tree cover increases above approximately 30%, agroforests become increasingly less likely to generate win-win scenarios. Our results demonstrate that agroforests cannot simultaneously maximise production, climate, and sustainability goals but might optimise the trade-off between these goals at low-to-intermediate levels of cover."},{"index":2,"size":56,"text":"Figure 1 Optimizing shade levels in agroforests. Agroforests with ~30% cover are ideal for optimizing the trade-off between the costs (red) and benefits (blue) for yield and the provisioning of ecosystem services such as climate adaptation, climate mitigation and biodiversity along a gradient of shadetree cover, relative to paired monocultures. Blaser et al., Nature Sustainability (2018)."},{"index":3,"size":157,"text":"Keywords: agricultural production, climate adaptation and mitigation, biodiversity conservation, shade-tree cover, trade-offs. Many studies have measured biodiversity loss across the coffee intensification gradient; some studies have shown, with contradictory results, the trade-offs between biodiversity loss and coffee production increments. Plot assessments of tree diversity, soil conservation, carbon sequestration and coffee production are lacking. We characterized the structure, productivity, diversity, soil conservation and carbon sequestration of 40 coffee agroforestry systems in two different areas in Northern Nicaragua. Coffee management, environmental conditions and soils properties were also characterized to better understand the trade-offs among services within the plots and their dependence on the local environment. These agroforestry systems were chosen to maximize contrasts in terms of biophysical context, botanical composition and management practices. Results (preliminary) showed significant differences in the vegetation structure that enabled us to identify main clusters: CAFS with dense and diverse overstorey canopy, CAFS with high Musa density and CAFS with low density of overstorey canopy."},{"index":4,"size":92,"text":"Changes in vegetation structure reflected differences in farmers' strategies but did not affect the overall coffee yield or the conservation of soils. Coffee yields had strong variations among the plots, and this was mainly related to the amount of fertilizer applied. Neither carbon sequestered, soil conserved nor tree diversity have a significant negative relationship with coffee productivity. However, coffee yields were low comparing with other coffee areas in the region. These results open new perspectives to improve coffee agroforestry systems' structural complexity and their relative ecosystem services without affecting their overall productivity."},{"index":5,"size":36,"text":"Further investigations and a more stratified sampling to get a good grasp of the whole range of variability (in highly productive areas with less shade canopy) are needed to fully understand the mechanisms involved in trade-offs."},{"index":6,"size":90,"text":"Keywords: Performance, Management, Multivariate analysis, Ecological intensification. For centuries, millions of hectares of tropical forests have been cleared and replaced by commercial plantations of tea, coffee and cardamom in biodiversity rich Western Ghats of India. Many of these plantations have been already abandoned or are in the verge of abandonment due to various socio-economic and legal issues including dwindling profits and market factors and change in legal and policy frameworks. Such abandoned areas provide opportunities for restoring diverse economically important local forest species which support the community needs and livelihoods."},{"index":7,"size":350,"text":"We studied tea plantations in Agasthyamalai region in south India where about 55% of plantations are under various levels of abandonment. Our aim was to understand the factors associated with the establishment of native plant species in abandoned plantations, especially how shade trees in plantations can enhance local biodiversity in context of birds/mammals and seed inputs from neighbouring forests. Seven permanently marked, 10 × 10-m plots were laid along a linear transect from forests to tea plantations in both managed and abandoned conditions to assess the seasonal seed inputs. Transact plots were laid at distance from 0 m (forest edge), and towards forest edge to interior of the plantation transact at distance of 25 m, 60 m and 95 m, respectively. Nested 1x1 m subplots were laid at four corners to assess the soil seed bank and dispersal syndrome. The species richness and seed density in the plantations were assessed using seed banks. We found out that forest proximity to tea plantations is critical for native species to colonise the plantations. Nearly 92% of the seeds are animal-dispersed, even then seeds do not move more than 60-95 m from the forest edge, which significantly restricts species' colonisation inside the plantations. Most of the species that reach the tea plantation are early successional species dispersed by small birds while large-seeded species dispersed by hornbills and pigeons are not established in the plantations. Further, in managed plantations restoration can be facilitated by retaining shade trees in the tea landscape. Presence of shade trees is increased native species richness by 3 times and seed density by 3-30 times compared with plantations without shade trees. Further, distance to forests influenced seed arrival in plantation without shade trees and plot 95m from the forest did not have any seeds in them. No such effect was seen in the plantations with shade trees. In general density of shade trees have strong influences on seed arrival which can negate the forest proximity effect and enhance natural forest colonisation. Results of the study have direct relevance in strategizing ecological restoration of degraded areas in this globally important landscape."},{"index":8,"size":9,"text":"Keywords: Tea plantation, Abandonment, Shade tree, Seed input, Restoraiton."}]},{"head":"Introduction","index":176,"paragraphs":[{"index":1,"size":74,"text":"Most cocoa in Indonesia is grown in agroforestry systems providing permanent canopy cover which protects the soil (Smiley and Kroschel, 2010). Despite this, yields are constrained by declining soil fertility (Hartemink 2005;Jagoret et al., 2011). Although soil organic matter (SOM) levels tend to increase during the development of cocoa trees, they remain low. In Indonesia, producers have therefore asked for more information on the effect of organic matter additions on SOM and cocoa production."}]},{"head":"Methodology","index":177,"paragraphs":[{"index":1,"size":68,"text":"In response, a three-year research project has been developed to determine the relationship between organic matter additions, soil fertility and cocoa production. Because the long-term effects of organic additions cannot be determined in three years, a modelling approach is being used with additional field measurements in Sulawesi, home to about half of Indonesian cocoa production. This paper briefly describes the current progress regarding the modelling of the system."}]},{"head":"Results","index":178,"paragraphs":[{"index":1,"size":178,"text":"After establishing the above objectives, the next step was to determine the main criteria for the proposed model. There is a need to model both the impact of organic matter additions on soil properties and the resulting effects on cocoa yield. An example of a cocoa growth and production model is CASE2 (Zuidema & Leffelaar, 2002). Inputs such as litterfall, dead roots and branches will then serve as inputs for a SOM dynamics model. Examples of potential soil organic matter models include TAO and MOMOS. The TAO model can be used to describe the transformation of added organic matter in soil. MOMOS is a process-based model for carbon and nitrogen transfers in SOM (Pansu et al. 2004). To evaluate the impact on cocoa production, these soil changes will be fed back into the cocoa growth model. The effects of locally available amendments such as compost and manure are being included in the study through different scenarios. The planned results include validated simulations of the effects of organic addition on long-term SOM stocks and the consequences for cocoa production."},{"index":2,"size":10,"text":"Keywords: cocoa production, soil organic matter, modelling, organic amendments, agroforestry."},{"index":3,"size":54,"text":"Plant species selection and spacing regimes are two of major challenges to design a successful agroforestry system to maintain high nutritional security. Cocoa is considered an important cash crops worldwide. The cocoa trees are usually planted with shade trees. However, it is important that neighbouring trees would not negatively affect nutrient concentrations of crops."},{"index":4,"size":298,"text":"In this study, two shade trees were chosen as shade trees for cocoa trees including Gliricidia sepium and Canarium indicum. Canarium trees also produce canarium nut which are highly nutritious. This study was undertaken in Papua New Guinea, 8 years after agroforestry system establishment. This study aimed to investigate the nutrient concentrations of cocoa beans and canarium nuts planted under different spacing regimes. Coffee based agroforestry (CAF) is been promoted as a conservation friendly land use system with immense potential to conserve native tree species. In the western ghats, these coffee based agroforestry farms have proven to harbor over 250 species of tree. Recent trends in cultivation practices and policy changes has motivated the farming community to increase productivity of coffee through intensification of tree management. Intensification comes at a cost to the numerous ecosystem services provided by the system including biodiversity conservation services. The present study builds upon the baseline data collected on tree species across 11 farms of western ghats in 2008 as part of CAFNET project. The farms were revisited in 2017 and the results show all attributes that promote biodiversity conservation have a declining trend. The density of trees reduced from 420 trees ha-1 to 274 tree ha-1. Species richness reduced from 100 to 76 tree species, canopy cover reduced from 59 to 46 per cent and most importantly the study documents that native tree species are being gradually replaced by exotic tree Grevillea robusta which has increased from 19 to 29 per cent of all tree found in the CAF farms. These trends ascertain Grevillea robusta as the most dominant tree in the system. This dynamics has numerous practical implications for the future of CAF system as a conservation friendly land use system, as the trade-offs between biodiversity conservation and coffee production widen."},{"index":5,"size":12,"text":"Species accumulation curve for 2008 and 2017 in coffee based agroforesty farms."},{"index":6,"size":22,"text":"Keywords: Coffee based agroforestry, western ghats, biodiversity conservation, Grevillea robusta, dynamics. Developping sustainable cocoa production in a damaged country: challenges and opportunities."},{"index":7,"size":6,"text":"Laigle I. (idaline.laigle@gmail.com), Le Heurt G."},{"index":8,"size":6,"text":"La finca brava SAS, Bucaramanga, Colombia"},{"index":9,"size":212,"text":"Colombia produces less than 1% of the world cocoa total production while presenting similar environmental conditions than Ecuador known for its high quality cocoa. Colombia is just going out from years of drugs trafficking war. Therefore, it presents today great opportunities to developp a cocoa production on good foundation. We have the ambition to develop and structure the production of a sutainable and ethic high quality cocoa. However, its yet complex socio-political situation lead to several challenges. We will present how we will overcome these challenges thanks to agroforestry and collaborative transnational teamwork. Cocoa agroforests have demonstrated high potential for sustainable cocoa production. However, knowledge about cocoa production in Colombia is scarce because of the situation of conflict that avoided scientific research. We will then undertake studies to determine best agroforestry practices for biodiversity, cocoa quality and productivity. We will provide information and support to often undereducated producers. To motivate them in the long term it is crucial to adapt these practices to their counstraints and objectives by involving them in decision making. Practices should also improve their wealth by including economic valuable tree species and giving them access to certification. Finally, we will boost a sustainable market by creating strong associations between Colombian producers and chocolate makers from Belgium and France."},{"index":10,"size":24,"text":"Conceptual map of the project. The economical dimension is in red, the environmental one is in green, and the human one is in blue."},{"index":11,"size":201,"text":"Keywords: Cocoa, sustainable, colombia, human dimension. Colombia produces less than 1% of the world cocoa total production while presenting similar environmental conditions than Ecuador which is famous for its high quality cocoa. Colombia is a very new market all in all as it is just going out from years of war for drugs trafficking, which make the challenges very interesting from a social and cultural perspective point. Furthermore the very high positionning of its coffee worlwide show us that the Country has succeeded to overcome various barrieres in the past in terms of international trade conditions and specifications. Therefore, it presents today great opportunities to developp a cocoa production on good foundation. Based on these observations and after a long journey of first-hand investigation we have the ambition to develop and structure the production of a sutainable and ethic high quality cocoa. However, the lack of knowledge and know how about cocoa production and its yet complex socio-political situation lead to several challenges to overcome, and we have identified three main ones. We aim to offer a new model of colaboration and practices within the colombian cocoa value chain thanks to agroforestery and collaborative transnational teamwork. The challenges are as follow:"},{"index":12,"size":75,"text":"1: The asymetry of information that can be resolved by solid and perrenial associations between colombian producers and french, belgium chocolate makers. 2: The lack of formation and discipline of the producers that can be overcomed by new educating system based on different methodologies that have been proved functionning in other sector as in the coffee industry in Colombia, and by involving the producers through the all process with more participation and critical decision making."},{"index":13,"size":204,"text":"3: Colombia being now able to design and mold its new economic path thanks to the very recent Peace agreement (2017) gives us an opportunity to fill the gaps in terms of investigation and research (specially in the agriculture sector). Since there has been no investigation towards the effects of several agroforestry practices on biodiversity, quality and productivity of cocoa plantations in the past, we are determined to bring scientific and empirical insights to the developpment of its cocoa sector as a whole. And to secure a smooth transition to a new way of growing and living for the producers we have ensured the integration of an expert team that would have the objective to coach them through this cultural transformation process with conflicts resolution protocoles and psichosocial plans to mitigate any kind of reluctant behaviors in other words, to avoid any tensions emerging from these new social and economical alternatives offered to the producers. Integrating them as much as possible into the definition of what should be the next steps for them once the project is over should garantee a continuity to our actions and allow them to decide with assertivness of their futur, socially, economically and as individuals and/or as a group."},{"index":14,"size":7,"text":"Keywords: empowerment, cacao, agroforestery, asociativity, social transformation. "}]},{"head":"Shade and pollination benefits within Ghanaian smallholder agroforestry:","index":179,"paragraphs":[{"index":1,"size":5,"text":"Maguire-Rajpaul V. (victoria.maguirerajpaul@ouce.ox.ac.uk), Morel A."},{"index":2,"size":217,"text":"Environmental Change Institute, University of Oxford, Oxford, United Kingdom Smallholders in Ghana grow almost one quarter of the world's cocoa. Yet, intense cultivation has deforested Ghana's tropical south. As cocoa's natural habitat is in rainforests' lower storey, shade is essential for cocoa's continued supply to the global chocolate industry. Accordingly, agronomic officers who promote 'climate-smart' cocoa in our interviews aim to instruct farmers to maintain 16-18 shade trees per hectare. But in practice, few farmers receive this agroforestry recommendation, and fewer can maintain such shade tree density. This presentation elucidates socio-economic obstacles that impede smallholders from practicising their desired agroforestry. Shade and pollination play important roles for cocoa yields and thus, farmer livelihoods. Theombroma cacao L. is strictly entomophilius whereby cocoa's fruiting depends on pollinating insects. We set up pollinator traps at 108 cocoa trees on 36 farms over 3 years to decipher how insect-mediated cocoa pollination: 1) depends on habitats in immediately surrounding forests; and 2) was affected by 2015-16's El Niño drought. We monitored interactions between forest biomass and pollinator abundance, and height from forest floor to understand agroforestry's cocoa-pollinating benefits, if any. Rather than Ceratopogonidae, we found a higher abundance of Cecidomyiidae. Our analysis suggests that pollination-enhancing techniques by farmers could boost cocoa yields and thus incomes, which could lower pressure on remaining forest."},{"index":3,"size":211,"text":"L17 Perennial crops AF   In Sri Lanka, homegardens constitute a majority of the country's total annual crop and timber production. Despite Sri Lankan homegardens are considered desirable and sustainable landuse systems, the scientific evidence of its role for food security is not yet totally clear. By synthesising articles from scientific databases we investigated the links between homegardens and food security, in terms of quantifying homegarden products or ecosystem services, and identifying whether the characteristics of food security are assessed as direct-or indirect impacts, synergies or trade-offs. The indirect effects are the most commonly assessed impacts in the literature. These services are described as adaptation to climate change or a variety of ecosystem services such as increased carbon uptake, increased rainfall infiltration capacity and reduced soil erosion; all relevant characteristic for food production and sustainable food security. Our findings show that correlation between food security and ecosystem services is a fruitful way to assess synergies and trade-offs of these multifunctional land-use systems. However, many studies are descriptive and only provide location-specific information on single research focuses such as plant species, yield and management. Our data suggest a higher degree of inclusiveness of relevant stakeholders aligned with system approaches and long-term assessments would generate greater output of homegardens in terms of food security."},{"index":4,"size":122,"text":"Keywords: agroforestry, Sri Lanka, trees, crops, landscape. Coffee production has been threatened by increasing climate variability. Shaded coffee has been suggested as a promising strategy to cope with the effects of global climate changes. However, potential competition for water between coffee and shade trees and lower coffee yields under shade are among the main constraints of coffee agroforestry. Most advantages attributed to agroforestry are focused on ecological issues; little is published on ecological and economic aspects combined. This investigation analyzed and compared ecological and economic performance of unshaded arabica coffee (NS) and shaded (AFS) by a mixture of evergreen Simarouba glauca DC. and deciduous Tabebuia rosea Bertol. Both tree species are widely utilized for timber and other products but are poorly studied."},{"index":5,"size":106,"text":"The study was carried out during 2012 and 2013, in a 12-year old agroforestry experiment in sub-optimal coffee growing conditions (27 0 C mean annual temperature, 455 m altitude and 1470 mm annual rainfall) in Masatepe, Nicaragua. Water consumption by soil evaporation and coffee and tree transpiration was measured by using weighing lysimeters and the stem heat balance sap flow method, respectively. Coffee production over the 10-year period prior to the study was used to determine coffee economic performance. Timber production from four shade trees of each species in the study site was measured and results were extrapolated for the whole plot by using population density."},{"index":6,"size":340,"text":"The AFS system was a more efficient water user than NS. Shade trees had the effect of reducing by 31% water loss from soil evaporation compared to NS, which represented more water available for coffee. Transpiration was greater in AFS plots; however, most of the water was transpired by coffee rather than by shade trees or evaporated from the soil. Temporal complementarity in water use between coffee and shade tree was observed with higher shade tree water consumption in the wet season contrasted with greater water use by coffee in the dry. Contrasting precipitation patterns in the two consecutive years of the study demonstrated competition for water only by the end of the very dry season in 2013. Evergreen shade tree characteristics seemed to be more suitable as coffee shade compared to deciduous in such environmental conditions. Coffee production in AFS was 18% lower than NS from data averaged over 10 years. However, the lower coffee yield in AFS was compensated by greater productivity of the whole system. By the end of the experiment, 13-year old shade trees produced 125 m 3 ha -1 of timber from Simarouba glauca and 98.5 m 3 ha -1 from Tabebuia rosea (US$173 per m 3 local price). Further income could be derived from the firewood extracted over time. Therefore, both ecological and economic aspects showed advantages compared to the no-shade system, which suggests agroforestry with timber trees as an attractive system of land use for farmers in the sub optimal coffee growing conditions studied. Insetting is a way for chocolate makers to compensate their carbon emissions by financing the plantation of trees in supplying cocoa farms. It appears as a new way to finance agroforestry but also to create a link with producers and secure cocoa supply. However, whether insetting contributes to reduce smallholders' vulnerability and increase their fidelity is an empirical question that has to be addressed. A survey has been conducted in Peru (100 producers, 3 focus groups) to assess the benefits of the insetting programs and the challenges that remain."},{"index":7,"size":75,"text":"Results show that the partnership developed through the insetting program contributes to alleviate some difficulties preventing farmers to adopt agroforestry practices. However the implementation can be tricky and complex. Since insetting programs are based on a tripartite model dissociating the wood and the cocoa component, the planting of trees alone does not increase farmers' loyalty. In addition, an inadequate implementation might not impact farmers' vulnerability and could therefore lead to a negative vision of agroforestry."},{"index":8,"size":29,"text":"Insetting can be a viable financing solution for agroforestry dissemination but cannot be dissociated from an holistic approach of the farm focusing on a joint management of the crops."},{"index":9,"size":27,"text":"Alleviating poverty in rural cocoa communities requires also to break out of the carbon paradigm and to turn towards bottom-up approaches favouring social considerations and midterm visions."},{"index":10,"size":17,"text":"1: Games during focus groups ; 2: a cocoa farmer Keywords: Cocoa, Agroforestry, Insetting, Vulnerability, Contract farming."}]},{"head":"Background","index":180,"paragraphs":[{"index":1,"size":49,"text":"Agroforestry systems (AFs), where agricultural and livestock crops are associated with woody plants, are known as sustainable systems, that conserve biodiversity and improve the provision of ecosystem services without compromising productivity. This work focuses mainly on cacao AFs, which have been related to different ecosystem services in tropical regions."},{"index":2,"size":80,"text":"Especially, our study focuses on the ability of the cacao AFs to improve soil ecosystem services in the Colombian Amazon region. We focused on soil ecosystems ecosystem services in the Colombian Amazonia because: of the social importance of cacao production system in the study region, specifically within the post conflict context; the lack of knowledge on the capacity of cacao AFs to offer soil ecosystem services in the study zone and its capacity in restoring ecosystem services in degraded soils."}]},{"head":"Aim","index":181,"paragraphs":[{"index":1,"size":34,"text":"The objective of our work was to evaluate the soil quality in different cacao agroforestry systems in the Colombian Amazonia, and to compare these evaluated soil quality of soil quality in Forest and Pasture."}]},{"head":"Material and methods","index":182,"paragraphs":[{"index":1,"size":102,"text":"The study was conducted at the Macagual Amazon Research Center, located west of the Colombian Amazon. We evaluated soil quality in four types of AFs Cacao, presenting different establishment, composition and structural characteristics; but also in a plot of native forest composed of characteristic species of the area, and in a plot of pasture composed of grasses. In the different plot of each land use, we evaluated the diversity of macrofauna, the morphology of aggregate, the physical properties and the soil chemistry. We summarized these variables in a General Indicator of Soil Quality GISQ, characterizing soil quality in the different land uses."}]},{"head":"Major results and Conclusion","index":183,"paragraphs":[{"index":1,"size":66,"text":"It was found that the level of intensification among land uses (Bosque>AFs>Pasture) affects the decrease of the macrofauna populations, which was related to soil compaction (physical properties). Chemical fertility improved with the establishment of AFs influenced by the application of amendments and organic fertilizers. When establishing agroforestry systems from pasture areas at a certain level of degradation, the GISQ scale was found to increase by 42%."},{"index":2,"size":20,"text":"Our results indicate that AFs practices can definitely be used as a restoration strategy, for the recovery of degraded areas."},{"index":3,"size":417,"text":"There is evidence that not all woody species have the same function in ecosystems and that this is related to their plant functional traits and the abundance of these traits in the community. In order to contribute with functional knowledge to the design of agroforestry systems for cacao, plant functional traits of woody species, specific leaf area (SLA), total height (TH), penetration resistance (PR), leaf nitrogen concentration (LNC) and leaf phosphorus concentration (LPC) were measured according to Pérez-Harguindeguy et al. (2013) y Cornelissen et al. (2013) for five common woody species found within a range of cacao production systems in Santander (Colombia). A variation range of the woody species along an axis of resource acquisition and competitiveness, represented by species with less trunk hardness (higher PR) and high diameter at breast height was identified. In the opposite side, species with less foliar phosphorus concentration and diameter at breast height and higher trunk hardness (lower PR). Albizia guachapele present higher SLA, followed by Cedrela odorata and Cordia gerascanthus. In this sense and according to global ecological findings about SLA and its correlations these species have morphological traits for high photosynthetic rates. Erythrina fusca was the most different species according to its traits variation in a PCA. In the cacao region of Santander, these species had the higher potential for a photosynthetic answer given its less investment in wood structure or penetration resistance. The woody species that in cacao agroecosystems of Santander are more usually found: C. odorata, C. gerascanthus, E. fusca, A. guachapele and Schizolobium parahyba were explained by 57% of the trait variation in a PCA. At the same time, it is important to mention that the presence of the five common woody species in the region are also evidence that farmers had been slightly driving the woody species selection by given more attention to plant traits related to fast growth that can offer shade and companion and conserve the cacao crop productivity (Figure 1). The diameter at breast height as a common woody species measurement should be accompanied by the determination of SLA and other plant functional traits that contribute bridging knowledge to improve the design for multifunctional agroforestry systems that integrate the functional tree biodiversity in cacao production systems. The VALAB initiative (Integrated Valorization of the Agrobiodiversity Ecosystem in the Guadeloupe Forest) is led by the union of vanilla producers of Guadeloupe (SYAPROVAG), a special look has therefore been devoted to the cultivation of this orchid strongly represented in agroforestry systems enhancing the guadeloupean undergrowth."},{"index":4,"size":120,"text":"A qualitative survey was conducted among the region's vanilla producers to better understand their productive strategies. The technical practices are described and the technical and economic conditions of their implementation are characterized. Cultivation techniques remain traditional, a legacy of old know-how without mechanization or synthesis inputs, and are very demanding quantitatively and qualitatively in terms of labor (for closure, sizing of hanging ends, pollination, scarification, drying, ripening, etc.). These techniques, not always mastered, cause large differences between plots, the climate creating in addition interannual productive variations. Today, Guadeloupean vanilla production does not cover local demand (tourism, gastronomy, cosmetics...). The challenge is to improve technical control and, more generally, reduce the vulnerability of cropping systems implemented in particular by their diversification."},{"index":5,"size":9,"text":"Keywords: Vanilla, cropping systems, technical management, Guadeloupe, economic indicators."},{"index":6,"size":78,"text":"L17 Perennial crops AF Although not fully demonstrated, one can assume that the collapse of biodiversity linked with 'monoculture-like' systems does contribute to negatives externalities such as fertility loss, increasing pressure from weeds, pests and diseases (for instance pests switching to the mono-crop because of the disappearance of their original host trees in natural forest). Finally these environmental externalities are re-internalized. Producers who use these 'monoculture-like' systems are frequently hit by rocketing maintenance costs and additional replanting costs."},{"index":7,"size":113,"text":"One can thus assume that systems favouring certain forms of diversification and biodiversity make ecological and economic sense, and result in better cocoa sustainability in all senses of the term, including farmers' revenues and patrimony. Under these assumptions, what are the barriers to 'biodiversity-friendly cocoa'? What conditions are needed to make biodiversity-friendly cocoa' production a mainstream business? Are research and extension services able to offer technical alternatives to smallholders? Are these alternatives really economically efficient in the short term and can they be adopted by farmers? Besides a review of the literature, the method is based on small samples of cocoa farms (40 to 100) surveyed between the late 1990s and the mid-2010s."},{"index":8,"size":99,"text":"One possible option would be to combine certification of biodiversity-friendly cocoa and that of timber trees owned, planted and regenerated by smallholders (a kind of PSE). This double certification could reduce costs and perhaps serve a springboard for timber-cocoa systems. However, in the long term, the most elegant and widely-applicable solution would be to contribute to an institutional environment in which farmers would wish to regenerate and plant timber trees themselves. To achieve this goal, the first condition is to 'allow' farmers full access to timber markets, which implies they would receive the full market price for their timber."}]},{"head":"L17.P.29 case of banana and cacao systems in Talamanca","index":184,"paragraphs":[{"index":1,"size":167,"text":"Salazar-Diaz R. 1 (risalazar@tec.ac.cr), Tixier P. To improve the management of complex agroforestry systems, it is crucial to understand how plants interact. However, in such complex systems, methods to disentangling plant interactions are lacking.The aim of this study was to address the questions: how the spatial structure of the plant community affects yields? We present an original individual-based statistical approach that allows the assessment of interactions in highly complex agroforestry systems. We applied our methodology in 19 plots in farmer fields in Talamanca, Costa Rica to analyse the effect of the structure of the plant community in the neighborhood of each individual cacao tree and banana plant on their yield. We found that the distance at which other trees alters the yield of banana or cacao was greater for fruit or wood trees than cacao trees or banana plants. Interestingly, higher strata trees had a smaller effect than lower strata trees, suggesting that moderate densities of tall trees could be compatible with high banana and cacao production."},{"index":2,"size":310,"text":"On an applied perspective, our results suggest that productivity could be maximized by a reasonably number of plant species, and then we proposed new direction to organize fields in order to maximize the production of cash crops while providing supplementary income for farmers and ecosystem services. The complete linear model predicted about 60% of the variance of the average response of the potential yield to the neighboring plant assemblage. Trees after the forests: agroforestry (re)adoption in a « post-forest » context. The case of ivorian cocoa  Université Jean Moulin Lyon 3 and CIRAD,Lyon and Montpellier,France Ivory Coast, producing 40% of world cocoa beans, has known wide conversion of forests into nearly monoculture systems under the progression of cocoa pionneer fronts. At the start of the XXIth century, it was considered that 90% of ivoirian cocoa orchard was grown in full sun conditions. However, cocoa producers are nowadays facing with a new environmental situation that could lead to the re-introduction of companion trees in their fields. Forest cover has almost completely disappeared, monocultures are showing their limits and recent climatic evolutions are less suitable to the crop. The conjunction of these different elements has led to a « structural blockage » (Leonard and Oswald, 1996) that could induce changes (innovative or not) in the way farmers grow cocoa. This presentation, based on botanic inventories, interviews and diachronic mappings , analyses farmer's agroforestry practices at environmental and socio-political data crossroads. Results of 220 hectares botanic inventories will be presented to describe the structure of cocoa systems and illustrate which kind of « agroforests » farmers can (or desire to) re-built after years of monocropping. Then, environmental services (biodiversity, carbon storage, timber production) these light agroforests provide have been assessed. Finally, the drivers and constraints for present and future agroforestry are studied at landscape-level through geographic and diachronic studies in Divo and Soubré."},{"index":3,"size":189,"text":"Short-term damage by ash deposits interacts with long-term soil fertility benefits. The eruption of Mt Kelud in 2014 affected a long-term study landscape. Soil organic carbon (SOC), soil texture, bulk density, porosity and macroporosity and soil infiltration had been quantified in 2007-2008 (before eruption/BE). Repeat measurements were made in 2017-2018 (after eruption/AE) in several land uses systems (LUS), including: Remnant Forest (RF), Complex Agroforestry (CAF), Simple Agroforestry (SF) and Crop Field (CF). Soil texture changed from loam to sandy loam, with soil bulk density decreasing from 0.98 g.cm-3 (BE) to 0.95 g.cm3 (AE) and no significant difference in SOC. Porosity increased from 46.5% (BE) to 55.2% (AE) and macroporosity from 3.8% to 4.8%. However, water infiltration decreased dramatically as volcanic ash created a 'cemented' hydrophobic layer on the soil. The highest soil infiltration among LUS were in RF (1 cm.hour-1) which were 50 times lower compared to condition before eruption, with the lowest were in CF (0.1 cm.hour-1). However, among the agricultural LUS, CAF provided fastest infiltration (0.7 cm.hour-1) followed by SAF (0.5 cm.hour-1). Slow soil infiltration increased surface runoff and increased dry season water shortages in the area."},{"index":4,"size":163,"text":"Countering the worst short-term effects of ash deposits agroforestry was more resilient than monoculture crop systems. Differential tree survival showed the benefit of tree diversity in CAF, supporting human resilience. Keywords: Agroforestry, Resilience, Volcanic ash, infiltration, macroporosity. The forest floor interfaces between above-ground and below-ground ecosystem processes like water retention, nutrient cycling and carbon sequestration. The agroforest floor condition has received little attention. We reviewed the results of a long-term experiment in Masatepe, Nicaragua, with a five-month dry season at an altitude of 450 meters comparing 4 tree treatments (2-species combinations of leguminous and non-leguminous deciduous and evergreen) and two intensities of organic and conventional coffee management to identify variables in the agroforest floor status (Haggar et al 2011). The 3-hectare experimental site initially was a patchwork of old coffee with highly variable tree and shade, avocado and weedy fallow. First-year botanical composition under all ground cover management treatments was annual grasses and annual and perennial broadleafs. O layer status was not recorded. "}]},{"head":"Materiels and methods","index":185,"paragraphs":[{"index":1,"size":47,"text":"We studied a network of 12 plots (31m x 31m) in which we identified pest attacks, diseases, shading rate, the presence of weeds, and soil conservation. And then we measured the growth (height, diameter or circumference of the collar) and the production (crop yield) of each plant."}]},{"head":"Results and discussion","index":186,"paragraphs":[{"index":1,"size":62,"text":"Characterization: The first results showed that a success rate of 95% among young cocoa trees and almost 100% with banana. The shade trees have too a good pass ration towards 80%. The annual crops excepted yam, banana, peanut and pepper, have been negatively affected by lack of the rain. All of the plants are healthy and the weeds have been well controlled."},{"index":2,"size":9,"text":"Only few attacks on cocoa leaves have been observed."},{"index":3,"size":151,"text":"Growth performance: Almost cocoa trees of the 12 plots presented good growth according to the measures of the average height and average circumference taken on February 2018 (Period 1, P1) and on August 2018 (Period 2, P2). We recorded an average of 6 cm on P1 vs 10 cm on P2 for circumference. The shade trees also recorded a good growth. As trees have only recently been planted and because the trees are comparatively slow growing, the full effects of the trees on the cocoa will take time to develop. By the time banana trees offer shade to the young cocoa trees with an average height of 250 cm. Production performance: We expected to have as first results the production of all annual crops but we recorded only yam, banana and pepper production. The others have suffered from dryness. Yam's production is estimated after harvesting between 15 and 20 tons ha-1."}]},{"head":"Cocoa harvesting will occur later Conclusion","index":187,"paragraphs":[{"index":1,"size":90,"text":"The evaluation of the global performance of an AFS is crucial because it allows to determine an optimal AFS for all farmers. So our research approach permitted us to take into account all of the elements of the AFS designed with farmers. But further, economic, environmental and social performances will be included to complete the study that needed a long time. The potential of shade-grown coffee to contribute to the protection of coffee yield quantity and quality Wagner S. (sigrun.k.wagner@stu.mmu.ac.uk) Science and the Environment, Manchester Metropolitan Univerersity, Manchester, United Kingdom"},{"index":2,"size":160,"text":"Coffee, an important agricultural export commodity, supports many small-scale farmers. Tanzania, Africa's fourth largest coffee producer aims to improve coffee production 1 . Climate change however, poses a significant threat to coffee production 2 . Shade trees might be an adaptation strategy because, depending on the context, research shows improved coffee quality, and bean size when shade trees are present 3 . On the other hand, shading increases berry borer infestation and high shade density reduces yield 45 . The aim of this study is to evaluate the effect of shade density on coffee yield and quality at Mt. Kilimanjaro. The 80 studied plots in commercial coffee plantations (coffee and shade trees) and homegardens (diverse, including bananas and other crops beside coffee and shade trees) cover a range of shade density (0-99%). The total number of berries per plant are counted to estimate yield. Red berries are harvested, weighed and opened to record single beans (pea berries) and bean quality."},{"index":3,"size":11,"text":"Correlations and regressions between shade density and response variables are calculated."},{"index":4,"size":42,"text":"Coffee plantations have a higher yield and higher average berry weight than homegardens, but the effect of shade density is not significantly different between the two systems (Figure 1). The results show that shade trees can improve coffee quality, especially in homegardens."},{"index":5,"size":201,"text":"It is critical to find the right shade tree species and density for optimal balance between yield loss and improved quality. The cultivation of cocoa is a commodity of great importance worldwide. In Mexico, cocoa is grown in the states of Tabasco and Chiapas in agroforestry systems since pre-Hispanic times, more than 2,500 years ago. The Mayans grew cocoa under the canopy of great trees in the rain forests. This has been an ancestral practice that is still preserved. However, crops such as sugar cane and oil palm as well as livestock activity have gradually decreased the area previously devoted to cocoa cultivation in both States. Despite this decline, farmers keep small portions of the cacao agroforestry systems to maintain the floristic diversity that accompanies them. This practice seems to be a successful contribution to food security. In order to know the management practices used by farmers in the agroforestry cocoa systems and the diversity of products they harvest, a non-probabilistic sampling was carried out in the states of Tabasco and Chiapas, 19 plots were sampled in Chiapas and 37 in Tabasco. Quadrants of 20 x 50 m2 were established and all individuals with DBH ³ 5 were identified and measured."},{"index":6,"size":307,"text":"A survey to 56 farmers was applied and informal interviews were conducted to the wives of the farmers or a family member. It was found that the farmers have different shapes, sizes and distribution of land. Great producers (38% of the farmers) own a land over 8.5±5.4 ha average, they only cultivate 33% of their production units with cocoa, in the rest, 67%, they cultivate either sugarcane, or raise livestock, or both; differently than the small holders (62% of the framers) with a land 2±1.03 ha average cultivate just cocoa. In both cases, major and small holders obtain a wide variety of products for self-consumption and local market from their cocoa agroforestry systems. They associate to cacao, timber, spicies and fruit trees. The farmers obtain incomes from the sale of other products associated to the cultivation of cocoa: fine woods obtained from trees such as Cedrela odorata, Swietenia macrophylla and Tabebuia rosea among others; fruits of trees, such as Pouteria sapota, Citrus sinensis, Citrus sp., Citrus limon, among many others and crops of shrub species such as Zea mays, Phaseolus vulgaris, Manihot esculenta, Ipomea batatas, Colocasia esculenta, Cucurbita sp. and Calatea lutea. The management practices employed by cocoa small-holders have allowed them to conserve these agroforestry systems, obtain income from the local market by selling a great variety of products grown in this system as well as satisfying their own food needs. The wide floristic diversity in these agroecosystems constitutes a bank of germplasm that could favor the increase of agroforestry plantations associated with the cultivation of cocoa; therefore, small farmers could contribute to food security. Integrated results are presented from a PhD research whereby the effects of tree row presence on soil characteristics, biodiversity and crop yield were simultaneously quantified near boundary planted tree rows and near tree rows in young alley cropping fields in Belgium."}]},{"head":"Keywords","index":188,"paragraphs":[{"index":1,"size":126,"text":"We assessed the effect of tree row presence on SOC, total N, P, K, Mg, Na, Ca and pH in the plough layer of the experimental fields. Although no effects were observed near the young tree rows, significantly increased SOC and soil nutrient concentrations were observed near the boundary planted tree rows. The noted increase of these soil variables was strongly related to the distance from the tree row, resulting in considerable spatial gradients. In addition, the magnitude of the observed effects differed according to tree species and the increase in SOC, total N, K, and Na near the poplar rows was related to the size of the trees, indicating a continuous evolution in SOC and soil nutrient status of the agroforestry system as trees mature."},{"index":2,"size":46,"text":"The main causal factor was assumed to be the input of carbon and nutrients in the top soil layer through tree litter, in particular tree leaves, and to a lesser extent via nutrient enriched throughfall water and a potentially reduced nutrient uptake of the arable crops."},{"index":3,"size":81,"text":"Next, the effect of tree row presence on the activity-density and diversity of two types of macro-detrivorous arthropods (woodlice and millipedes) and two types of carnivorous arthropods (carabids and rove beetles) was assessed. Strongly increased activity-density values and diversity of the macro-detritivoreous arthropods were detected in silvoarable fields. Near the (larger) boundary planted trees, these effects extended into the neighboring arable zone. Contrasting gradients in abundance were observed for carabids and rove beetles, with increased activity-density values in the arable zone."},{"index":4,"size":160,"text":"Finally, the influence of tree rows on yield and quality of key western European arable crops was quantified. Tree size, crop type and distance to the trees were main determinants of the crop yield and quality in the silvoarable fields. While effects on crop yield were limited for all crops near young tree rows, substantial yield reductions were observed near mature trees, in particular for maize and potato. Effects on crop quality were limited for all crops under study, with substantial effects only arising near the oldest tree rows. To optimize the provisioning service of agroforestry systems, the cultivation of winter cereals may be advisable over maize and potato towards the end of the lifecycle of the tree component. In addition, poplar trees should be harvested when they reach their target diameter for industrial processing. If tree rows are preserved for the delivery of other ecosystem services, however, substantial impacts on crop yield and quality should be taken into account. "}]},{"head":"Shade improves physiological performance and grain yield in barley cultivars in central Spain","index":189,"paragraphs":[{"index":1,"size":335,"text":"Arenas-Corraliza M. G. (garenascorraliza@unex.es), López-Díaz M. L., Juárez E., Moreno G. INDEHESA, University of Extremadura, Plasencia, Cáceres, Spain Selections programs to grow cereals under tree shade are needed to establish successful agroforestry systems in order to cope with the reduction of crop yields as a consequence of climate change (Zhao, 2017). A greenhouse trial with three levels of photosynthetically active radiation (0 %, 10 % and 50 % of shade) was performed in central Spain to assess the influence of the solar radiation in the yield and the physiological mechanisms of winter wheat and barley. Nine cultivars of each species, widely used in the area, were studied. Most of barley cultivars showed higher grain yields in the 50 % shade treatment compared to those with higher light availability. In the same way, the ratio of photoprotective pigments (carotenoids)/ total chlorophyll was lower in 50 % shade in both species, especially for barley, showing a less need to photoprotection. The acclimation of barley to lower radiation was confirmed by barley grown in 50 % shade, which had a lower light saturation point in terms of electron transport rate compared to barley grown in 10 % and 0 % of shade respectively, while no adaptation was found in wheat. These findings are remarkable since all cultivars studied were selected originally to full light conditions. Therefore, our results prove the potential of barley cultivars to be intercropped in agroforestry systems in Mediterranean countries where recent early heat events had detrimental effects on cereal crops cultivated in open fields (Arenas-Corraliza et al 2018). In the Mediterranean region, durum wheat productivity is mainly affected by heat stress and drought and this situation is expected to intensify in the near future (Moriondo et al. 2007). Is-it possible to mitigate such stress by cultivating durum wheat in olive orchards? Durum wheat was sown for 3 years, at INRA Mauguio (South of France), in 3 conditions: a yearly pruned olive orchard (AF), a never pruned olive orchard (AF+), and in open field (C)."},{"index":2,"size":407,"text":"The average yield was reduced in AF (-43%) and AF+ (-83%), with % reduction in line with literature (Artru et al. 2017;Dufour et al. 2013), but this reduction varied greatly according to the cultivar. Despite a similar sowing density, final density was higher (+22%) in AF treatment than in C. The most affected component was the number of grains/spike (-37% in AF, -62% in AF+), then the number of spikes/plant (-32% in AF); the TGW was higher in AF compared to C (+12%). Harvest index was 6% higher in AF treatment compared to C. Plant height and spike length were significantly decreased in the two AF treatments, whereas the distance between the flag leaf and the spike was greater in AF compared to C. A wide genetic variability was observed: modern pure lines reached higher yield and yield components, compared to populations and ancient pure lines in C; but in AF treatment populations reached higher yield than modern and ancient pure lines. These data conduct to frame ideotypes needed to implement an AF-oriented breeding program. Trees are usually eliminated in field due their possible competition with crops for water and nutrients. Our work aimed to investigate how to manage S. senegal trees to optimize their association with crops. A field trial was conducted under natural conditions in a S. senegal plantation 10 years old. Investigations were conducted during two years to evaluate the effect of S. senegal trees management on gum arabic yield, associated cowpea yield, soil mycorrhizal fungi spores density and enzymes activities reflecting soil fertility such as fluorescein diacetate (FDA), acid phosphatase and dehydrogenase. Four treatments of pruning were applicated (control, shoots, roots, shoots and roots pruning) and tapped in november. Soil samples were collected during dry and wet seasons at 0-25 cm layer. Cowpeas were sown at the beginning of rainy season in rows 0.5 m apart. Results showed that shoots pruning significantly increased gum arabic while a negative effect of roots pruning was noted. The presence of S. senegal increased soil fertility and cowpea yield. Any significant effect of treatments was noted on pods yield during the first year. However, shoots pruning, shoot and roots pruning increased significantly pods yield during the second year. Shoots and roots pruning seemed to decrease FDA and spores density depending on the season. Our results showed that shoots and roots pruning increased the positive effect on soil fertility and the association of S. senegal with annual crops."},{"index":3,"size":290,"text":"Effect of S. senegal tree management on cowpea production Keywords: S. senegal, trees pruning, soil fertility, crops, Agroforestry. In the Brazilian subtropics, the inclusion of animals during the winter seasons together with the annually cultivated summer pastures like corn is an attractive alternative to utilize the vast unproductive expanses of land during this season (MORAES et al., 2014). Besides, including trees for wood production in integrated crop-livestock systems (ICLS) offers benefits, like the diversification of the producers' income sources. However, any alterations in the solar radiation, either in quality or quantity, will affect the yield of the crops in the woody ICLS, a phenomenon especially observed in the C 4 grasses, like corn (PENG et al., 2009). As this culture is crucially important, and the aim is to encourage the use of woody ICLS in the Brazilian subtropics, the likely losses need to be quantified. Therefore, the objective of this study was to assess the influence exerted by two different types of ICLS, crop-livestock only (CL) or crop-livestock-tree (CLT), and the residual effect of two N supply levels (90 and 180 kg N/ha, N90 and N180, respectively, added to the winter pastures), on corn yield (CY). Adopting the complete randomized block design, the four treatments (CL N90, CL N180, CLT N90 and CLT N180) included three replicates. In 2006, following the 14 x 3 m spacing (238 trees/ha) the trees (eucalyptus, pink pepper and silver oak) were planted in the same rows running crosswise in relation to the slope, in 6 out of the 12 plots. While the corn (Balu 280 Pro, 0.80 m spacing) was implemented during summer of 2017/2018, under the no-tillage system, cattle grazing on the annual pasture was done during the prior winter, in both ICLS."},{"index":4,"size":221,"text":"After applying 400 kg/ha of NPK as the base fertilization in the 10-30-30 formulation, cover fertilization was done at 51 days post planting, using a single dose of 270 kg/ha of urea. At 185 days post sowing, the CY was recorded in 5 m of maize line per plot, and corrected to 13% of the moisture content. Analyses of variance was done to test the effect of block (degrees with the treeless system (9722 ± 492.7 kg/ha), the CY value was significantly (P in the CLT (-27%), regardless of N level. Eleven years post tree planting, and after some thinning (currently with 40 trees/ha of eucalyptus), the shading value was 35%. This restriction of solar energy available acted as the determinant for the finding recorded. It is notable that the CY in the CLT system was extrapolated to hectares to analyze the CY per se. However, corn occupied 85.7% of the area, with the remaining 14.3% being taken up by the trees. Thus, the real CY achieved in 1 ha of this association of corn plus trees would be 6070 kg/ha (-38%). The challenge is to determine which are the acceptable levels of tree competition during the entire period of tree development. Agroforestry impacts tomatoes production in a vegetable organic alley cropping temperate system Béral C. (beral@agroof.net), Martin-Chave A., Liagre F."}]},{"head":"AGROOF, Anduze, France","index":190,"paragraphs":[{"index":1,"size":183,"text":"In organic vegetable crop systems, agroforestry is identified as a possible solution for a better economic and climatic resilience of farms. However, few references exist on the response of vegetable crops under trees. This study was conducted in southern France, in a 20-year-old agroforestry system where hybrid walnut at 100 stems.ha-1 were intercropped with organic vegetables crops. We assessed the growth, development, production and commercial quality of tomatoes in different canopy openness (CO) treatments (AF ++ with 22.9 to 27.2% CO ; AF + with 32.8 to 39.4% CO ; AF-with 40.6 to 47.2% CO ; CONTROL with 96% CO). We found that for the two most shaded treatments tomatoes had a significantly delayed growth than in AF-and CONTROL. The first flowering and harvest appeared on average 15 days later in AF ++ and AF+. Moreover, the global production period was significantly reduced in AF++ and AF+ compared to AF-and CONTROL which produce an average of 20 days more. The total production was significantly higher in CONTROL (697.5±42.9 g.plant-1) than in AF- (449,5±42.3 g.plant-1), than in AF+ (253.1±41.8 g.plant-1) and AF++ (212.4±41.8 g.plant-1)."},{"index":2,"size":48,"text":"When excluding waste, average yield is similar between AF-and CONTROL. The global commercial quality of fruits was superior in AF-than in CONTROL. To conclude, trees can induce strong competition on tomatoes, but pruning management appears to be an interesting lever to reduce this competition while producing woody biomass."},{"index":3,"size":23,"text":"Average total production (a) and average yield (b) of tomatoes in the different canopy openness treat-Keywords: Alley crops, Tomato, Canopy openess, Organic cropping."},{"index":4,"size":162,"text":"In the Canadian prairies agriculture production is typically a monoculture, dominated by small grains and oilseeds. In 2017 canola was planted on 5 million hectares in Saskatchewan, surpassing wheat as the most widely planted crop in Canada. This crop is one of the highestyielding and most profitable and also one of most expensive and input-intensive for producers. Within this landscape, shelterbelts, and other natural areas, are scattered throughout providing ecological goods and services. In this study, the effect of natural and planted shelterbelts on canola yield was compared over two years in 15 canola fields, 5 with naturally occurring trees, 5 with a row of planted trees and 5 without any trees. In each field RGB and multispectral sensors were used to collect a variety of variables, such as elevation, slope and micro topography as well as vegetation indices, such as NDVI, EVI, SAVI in order to determine whether there was a relationship with canola yield. This data is currently being analysed."},{"index":5,"size":217,"text":"Canola field with natural shelterbelt in prairie landscape Keywords: Agroforestry, Shelterbelt, Canola Yield, Prairies, Canada. Olive-based agroforestry with annual crops is wide spread in Northern Morocco and more generally in the Mediterranean, but poor information is available on their functioning in the context of increasing aridity. In order to evaluate the changes in tree-crop interactions due to water shortage, we assessed the productivity of both a cereal (durum wheat) and a legume (faba bean) species intercropped with olive trees under three contrasting levels of water availability in an experimental trial in Morocco during 2017-2018. Water availability treatments were determined by adding different amounts of irrigation water to precipitation (P) during the determine final grain yield at harvest. Water dynamics was also monitored each two weeks. Crops under olive trees were compared to full sun crops as control. Aboveground biomass and grain yield of both crops were significantly lower under olive trees than in full sun control (up to 27% yield reduction for durum wheat and 38% for faba bean). Indeed, strong reductions in number of grain per m2 explained observed yield reductions. Our results suggest that competition for light under olive trees is intense and prevails under Mediterranean subhumid conditions (experienced in 2017/2018) but trees could have beneficial impacts on crop water efficiency in a drier future."},{"index":6,"size":18,"text":"Olive-based agroforestry system: durum wheat intercropped with olive trees Keywords: agroforestry, annual crops, olive tree, interactions, water gradient."}]},{"head":"L18.P.01","index":191,"paragraphs":[{"index":1,"size":168,"text":"Is it possible to mix olive trees and crops efficiently? Setting from the rich diversity of agroforestry in Morocco Amassaghrou A. 1 (amassaghrou.asmae@gmail.com), Bouaziz A. 1 , Daoui K. 2 , Barkaoui K. 3 , Belhouchette H. Agroforestry in Morocco is an ancient traditional practice; however there is no study on its performances and limits.The objectives of this work, based on surveys was to characterize the diversity of associations, practices, and to evaluate the efficiency of agroforestry. 72 surveys were conducted in Moulay Driss Zerhoun (Meknes, Morocco). Cereals and legumes are the main intercropping crops with olive tree, the analysis of collected data shows there was a significant difference between soft wheat and barley grain yield in agroforestry and full sun crops: we recorded a reduction of 57% of soft wheat grain yield in agroforestry versus full sun crops, and a decreasing of 42% of barley grain yield. However, there was no significant difference between grain yield of agroforestry and full sun for faba bean, lens and chickpea."},{"index":2,"size":169,"text":"The land equivalent ratio shows that the association with faba bean is the most important with a ratio of 1.6 , 1.5 for lens, 1.4 for chickpea ,1.2 for barley and 1.1 for soft wheat. Since the association with legumes is promising, and to understand interactions, two experiments were carried out during two years: 2016 and 2017 under 25-year old olive tree and two agricultural witnesses in the same years. The first year of experimentation experienced a water deficit, at this year the grain yield was not significantly different in agroforestry and pure crops; however we recorded a low yield in both agroforestry and full sun. In 2017, there was a highly significant difference between faba bean, and lens grain yield in agroforestry and full sun crops we recorded a reduction of 72% of faba bean grain yield in agroforestry and 47% for lens, however there was no significant difference between chickpea grain yield. Results are variable from one year to another; further studies are needed to confirm results."},{"index":3,"size":5,"text":"Keywords: Efficiency, olive, legumes, cereals."}]},{"head":"Is it possible to mix olive trees and crops efficiently? Setting from the rich diversity of agroforestry in Morocco","index":192,"paragraphs":[{"index":1,"size":149,"text":"Amassaghrou A. 1 (amassaghrou.asmae@gmail.com), Bouaziz A. 1 , Daoui K. 2 , Barkaoui K. 3 , Belhouchette H. Agroforestry in Morocco is an ancient traditional practice; however there is no study on its performances and limits.The objectives of this work, based on surveys was to characterize the diversity of associations, practices, and to evaluate the efficiency of agroforestry. 72 surveys were conducted in Moulay Driss Zerhoun (Meknes, Morocco). Cereals and legumes are the main intercropping crops with olive tree, the analysis of collected data shows there was a significant difference between soft wheat and barley grain yield in agroforestry and full sun crops: we recorded a reduction of 57% of soft wheat grain yield in agroforestry versus full sun crops, and a decreasing of 42% of barley grain yield. However, there was no significant difference between grain yield of agroforestry and full sun for faba bean, lens and chickpea."},{"index":2,"size":169,"text":"The land equivalent ratio shows that the association with faba bean is the most important with a ratio of 1.6 , 1.5 for lens, 1.4 for chickpea ,1.2 for barley and 1.1 for soft wheat. Since the association with legumes is promising, and to understand interactions, two experiments were carried out during two years: 2016 and 2017 under 25-year old olive tree and two agricultural witnesses in the same years. The first year of experimentation experienced a water deficit, at this year the grain yield was not significantly different in agroforestry and pure crops; however we recorded a low yield in both agroforestry and full sun. In 2017, there was a highly significant difference between faba bean, and lens grain yield in agroforestry and full sun crops we recorded a reduction of 72% of faba bean grain yield in agroforestry and 47% for lens, however there was no significant difference between chickpea grain yield. Results are variable from one year to another; further studies are needed to confirm results."},{"index":3,"size":5,"text":"Keywords: Efficiency, olive, legumes, cereals."},{"index":4,"size":255,"text":"As the current agricultural practices in the Hauts-de-France region result in soil erosion, nitrate leaching and a decline in biodiversity, agroforestry systems (AFs) may be an alternative to conciliate productivity with lower environmental impact (Dupraz and Liagre, 2008). We set up the first AF experimental site to study its agro-economic and environmental performance in local agro-pedoclimatic conditions. The experimental site was established in autumn 2018 on an 18-ha plot in Ramecourt on a deep luvic cambisol with a silt loam texture developed on a flint clay. Due to a high silt content (73% silt) and a low organic matter content (2%), as well as a slope of 8%, the plot is highly affected by channel erosion. Modalities with or without nitrogen-fixing trees in AF treatment are compared with sole-crop (CC) and pure-forest control (FC) plots (Figure 1A) according to a randomised block design with 3 replicates. Tall trees in rows are intercalated with 9 species of shrubs (Figure 1B) and will be intercropped in AFs by sugar beet, potato, wheat, barley and flax. The tree density is 50 and 430 trees ha-1 for AFs and FC respectively, and the average size of the microplots is 0.9 ha. Using this experimental approach, we hypothesised that AFs should limit soil erosion, restore soil fertility and biodiversity, improve natural-resource use efficiency and water quality, reduce inputs and increase farmers' incomes.  Parkland is a land use system in which woody perennial species are grown in with annual crops or livestock and are the most widespread systems in the Sahel."},{"index":5,"size":675,"text":"Water scarcity contributes to the poverty of around one-third of the world's people.Despite many benefits, tree planting in dry regions is often discouraged by concerns that trees reduce water availability and crop yield. The aim of the research was to contribute to understanding the interaction in the tree-crop , and the impact of tree on the groundwater recharge. We developed and tested an optimum tree cover theory in which groundwater recharge is maximized at an intermediate tree density and crop yield. We found that complementary irrigation, nitrogen and phosphorous are not limit factor for crop yield. However, crown pruning has had a very significant increasing sorghum yield. Thereby suggesting that light is the limiting factor. Results, based on groundwater budgets calibrated with measurements of drainage and transpiration in parkland, demonstrate that groundwater recharge was maximised at intermediate tree densities. In contrast to the prevailing view, we therefore find that moderate tree cover can increase groundwater recharge, and that tree planting and various tree management options can improve groundwater resources. These results suggest that they are likely to be common in the seasonally dry tropics offering potential for widespread tree establishment and increased benefits for hundreds of millions of people In Senegal, Agricultural production system is dominated by rainfed farming and one alternative for sustainable production is the combination of woody-farming. Introduction of new species with high value-added on farming land might be one of those solutions for a sustainable and diversify agricultural production. Cashew having which plays large part in the Senegalese agricultural sector, could be part of the species with high agroforestry potential has yet to be properly evaluated. The objective of this work is to contribute to the assessment of agroforestry potential of emerging species by examining the influence of crown length of Anacardium occidentale L. on Arachis hypogaea L yields. To do this, 1.5 ha of cashew tree plot has been chosen then divided in 3 lots of 0.5 ha. In each lot, three single tree type of 6 m, 9 m et 12 m have been chosen. Three off-cover control plots of cashew were delineated. Agronomic characteristics of Arachis hypogaea were evaluated. Results reveal that association peanut and cashew trees within less than 6m of crown length give best peanut yield. The maximum yield (676.51 kg ha-1) was recorded for trees having 6m of crown length compared to controls (399.58 kg ha-1). The management of the crown cashew tree is essential to optimize peanut yield. The broadening of the range of species associated with cashew would help to consolidate agroforestry potential of the species Herbaceous vegetation of sylvoarable tree rows contributes significantly to soil carbon storage (Cardinael et al. 2015). However, its impact on soil organisms and fertility is poorly studied. It could especially play a significant role in young systems in which the tree influence is limited. We hypothesized that due to the herbaceous vegetation, soil chemical and biological fertility is increased in tree rows and close to them (at 1 m). We sampled two 10 year-old wheat alley-cropping sites of South-West France in spring 2017. We defined three positions: in the herbaceous vegetation of the tree row, at 1m from the tree row and in the middle of the crop alley. In each position, we determined macrofauna density, microbial biomass and respiration and soil C, N and P content. Soil organic carbon and available phosphorus contents were higher in the tree row than in the middle of the crop alley. However, we did not find higher values close to the tree row. Microbial biomass and respiration were higher in the tree row compared to the closest position in the crop alley only, indicating that positions close to the tree row did not benefit from the higher microbial growth and activity observed in the tree row. Soil macrofauna presented different patterns between sites and was more abundant in the tree row than in the crop alley in one site only, especially for saprophages and predators. In addition, some specific taxa of soil macrofauna were present only in the tree rows."},{"index":6,"size":28,"text":"Mean values of microbial biomass carbon with the fumigation-extraction method and basal respiration (in presence of water only) with the MicrorespTM method for each position and each site."},{"index":7,"size":219,"text":"Different letters indicate significantly different values between positions after one-way analyses of variance for both sites together with factor site as a random factor. The herbaceous vegetation in agroforestry tree rows is a poorly studied potential trophic resource and habitat for soil organisms. This could enhance nutrients turnover (Porazinska et al., 2003), and thus be beneficial for the crop. We studied soil macrofauna density, soil microbial biomass and soil organic carbon in a 22 year-old organic market gardening plot with walnut trees, located in the South of France. We hypothesized that 1) the herbaceous strip impacts soil organism development and that 2) soil organism development also varies with tree management. Three treatments were studied: no trees in the herbaceous strip, lightlypruned trees and heavily-pruned trees. Three positions were sampled: in the herbaceous strip, at 1 m from the herbaceous strip and at 2 m from the herbaceous strip. Sampling was carried out in April, June and November 2018. The first results for the Spring and Summer seasons demonstrate that the heavy pruning treatment presented the highest microbial biomass, and soil carbon content was higher in treatments with trees. However, macrofauna density did not vary according to the pruning treatment. Macrofauna density was increased in the herbaceous strip compared to the crop alley in all treatments, but not microbial biomass."},{"index":8,"size":34,"text":"Our first results suggested different impacts of trees and herbaceous vegetation: a stronger effect of the herbaceous vegetation for macrofauna density, and a stronger effect of the pruning of the tree for microbial biomass."},{"index":9,"size":10,"text":"Mean macrofauna density for each position and each pruning treatment."},{"index":10,"size":87,"text":"Error bars represent standard deviation . Agroforestry (AF) is often define as \"an ecologically-based land management system, that maintains ecosystem diversity and processes contributing to long-term sustainability and environmental quality\". But surprisingly in Europe and especially in France, AF is mainly implemented by conventional farmers, using chemical herbicides, pesticides and mineral fertilizers. Therefore, although «sold» as enhancing biodiversity of plants and insects, AF is managed by intensive methods known to kill such biodiversity! This paradox interrogates the capacity of organic farming to well address stakes of agroforestry."},{"index":11,"size":102,"text":"In France, organic AF knows a shy development and concerns mainly systems mixing fruit trees and vegetables or crops. Therefore, the understorey crops must be adapted to organic conditions and also to fruit trees association. But nowadays, there is no variety, registered in the french or european catalogue, cumulating these two criteria. For arable crops, to be register, a variety must be distinct, uniform and stable and is generally evaluated, for its value for cultivation and use, in conventional environments. In France, there are only 3 varieties bred in and for organic farming and registered (1 durum wheat and 2 soft wheat)."},{"index":12,"size":81,"text":"The demand for varieties presenting traits well adapted both to organic and to AF is increasing. But the question is : «Is-it the same ideotype that is required for both? « Because herbicides and fungicides are prohibited and organic fertilizers are expensive, organic farming requires varieties adapted to weed competition (e.g. for cereals: early sowing to tolerate mechanical weed control, emergence seedling vigor, numerous tillers, high plant height, competitive roots), diseases resistance, and resources (water, N, P) use efficiency (deep roots)."},{"index":13,"size":246,"text":"In Agroforestry systems, the presence of trees imposes to consider others important traits like the duration of the cycle, namely to be compatible with the fruit tree phenology (for instance cereals can be sown in olive orchards only after olive harvesting, so late sowing is targeted), the tolerance to shade (horizontal leaf orientation, low leaf area index), the underground competition (superficial roots to avoid competition with tree roots), the ability to bear some adverse conditions like excess of humidity. Some of the traits are common between organic and agroforestry needs but some others like phenology, roots architecture, etc. may differ. These differences must be seen as highly challenging for plant breeding. The proposal is to focus on a new merging concept : OrgAgroforestry ( a contraction of Organic Agroforestry) that will strengthen the sustainability of AF and will help to reconsider ecological plant breeding through participatory approaches (Ecobreeding). The involvement of a great diversity of actors (farmers, processors, consumers, researchers, etc) to breed adapted varieties will renew the way to envision agroforestry and definitely enhance biodiversity. Faidherbia albida is an important tree species in the parkland agroforestry system of Ethiopia, as it can improve carbon (C) sequestration and crop production. However, C sequestration and the effects of tree pruning and fertiliser on crop growth, have not been extensively studied in these parklands. Carbon sequestration in this system was estimated by harvesting F. albida trees above-ground and by taking soil samples under and beyond the tree canopies."},{"index":14,"size":65,"text":"A field experiment containing three levels of tree pruning as main plots, and application of recommended rates of N and P fertilisers as sub-plots, was conducted for two years (Dilla et al. 2019 Agroforestry Systems, in press). Trees stored about 2 t C ha-1 in their above-ground biomass and 34 t C ha-1 more in soil (0-80 cm depth) under trees than in crop-only areas."},{"index":15,"size":270,"text":"Carbon storage in trees was low due to sparse tree density (5.80 ha-1) but could be increased by encouraging farmers to protect planted seedlings or natural regeneration. Biomass and yield of maize were higher (56%) under the 2-6 m radius of tree canopies compared to crop-only plots in both growing seasons, regardless of pruning and fertiliser levels. Fertilisation further increased yields (14.8%) under tree canopies compared to crop-only plots both years, but more so in 2016 (Fig A central goal of agroforestry practices is to ensure productivity, profitability while maintaining ecosystems sustainability. Alley cropping is one of the most popular agroforestry system practiced around the world for triumphing ecological and economic benefits. Traditionally smallholder farmers of Bangladesh grow vegetables in between the alleys of fruit and timber yielding trees for income generation. Previous researches focused on identifying tree-crop combination only in terms of production but the profitability of the system along with the nutritional quality of the crops produced remain unknown. We conducted field experiments in the alleys of eight years old litchi orchard and recorded data of different parameters. The results revealed that the fruit yield of tomato was significantly higher in sole cropping (27.08 t/ ha) than of alley cropping (15.33 t/ha). But benefit-cost ratio (BCR) of litchi tomato based alley cropping system (4.20) was maximum than sole cropping (2.25). In case of quality parameters, total soluble solids (TSS), ascorbic acid and lycopene content was significantly higher in alley cropping while pH and color values of fruit were higher in sole cropping. In alley cropping, tomato plants received 40-50% total light which indicates partial shade improved fruit quality."},{"index":16,"size":261,"text":"The findings from this study are valuable for the farmers and policymakers as litchi-tomato alley cropping system ensures production upholding nutritional quality and profitability. Traditional low input farming system relies on trees and shrubs to sustain soil fertility. One of the approaches is to adopt hedgerow tree planting, having trees of certain attributes capable of giving benefits to the cash (in our study Zea mays) or targeted crops. Trees with nitrogen fixing ability and fast returning biomass are of beneficial. Six nitrogen fixing trees i.e. Gliricidia sepium, Parkia speciosa, Azadirachta excelsa, Paraserianthes falcataria, Acacia mangium and Leucaena leucocephala were screened for their potentials to fix nitrogen and to produce high biomass. Stable isotope nitrogen technique was adopted with two reference non-fixing trees which were Hopea odorata and Khaya ivorensis. Each tree was planted within a plastic sheet lined inside 6m by 6m trench with 1m ditch and covered back with the same soil. 15 N was applied as labelled ammonium sulphate of 10% atom excess. Data collection was concluded at 30 months. For evaluating hedgerow trees contribution, G. sepium was selected based on its proven ability to withstand frequent pruning. Results show that A. mangium and P. falcataria were able to fix above 80% N. These two species also contributed high biomass (Table 1). We did not find significant improvement in soil fertility from N-fixing tree planting but corn yield (cash crop) was significantly improved by having hedgerow N-fixing tree and applied with its pruning and root biomass. The significant increase in yield was also seen in the second corn crop."},{"index":17,"size":108,"text":"L18 Annual crops AF   Effects of agroforestry systems on microclimate and water availability as determinants for sustainable soil productivity Majaura M. (majaura@b-tu.de), Böhm C., Freese D. Soil Protection and Recultivation, BTU Cottbus-Senftenberg, Cottbus, Germany Recent studies have shown that hedgerows in short rotation alley cropping systems (SRACS) can improve the microclimate in adjacent crop alleys through, e.g., a reduction of daytime temperature, wind speed and evaporation (Kanzler et al. 2018). Improved microclimatic conditions may positively affect crop yields by increasing the availability of water for the crop. However, studies that examine the interdependencies between microclimate changes caused by hedgerows in SRACS, water availability and crop yields are rare."},{"index":18,"size":402,"text":"In a poplar SRACS, we investigate with high spatial and temporal resolution if changes in microclimate affect water availability for two crops and crop yields. For this purpose, we use stationary weather stations installed in a transect and mobile sensors in four strips running parallel to the stationary transect at different distances from tree strips (Fig. 1) and in a monoculture. At all measuring points air temperature, air humidity and Piché evaporation will be continuously determined. In addition, wind speed, global radiation and precipitation will be measured at the stationary weather stations. Furthermore, transpiration of crops will be determined at different times close to all microclimate points. Subsequent crop yield sampling will then enable us to determine the degree to which tree strips in ACS influence microclimate and water availability for crops at different distances from tree strips and how these relate to small-scale changes in crop yield. Silvoarable systems can reduce impacts of agricultural practice and increase agroecosystems services in the Mediterranean [1]. Nonetheless, farmers are reluctant to implement agroforestry systems because of the potential loss of gross production due to: (i) the reduction of arable surface and (ii) the risk of lower crop yield due to the competition for resources with trees [2]. The aims of this study are: (i) to assess the productivity of soybean in an alley-cropping system (AF) and (ii) to determine soybean productivity and feed value according to the position in the alley (A-West, B-MidWest, C-Centre, D-MidEast, E-East). The experiment is located in Pisa (Italy) 3 m a.s.l. on a loam to clay-loam soil with 7.6 pH. Rows of short rotation coppice (2yrs cut cycle) poplar are spaced 13,5m and N-S oriented. Soybean was sown the 12 June 2018 with 50 seed m-2. During the soybean growth period, rainfall was 90 mm and the mean temperature was 22.9 °C. The harvest biomass and grain yield of soybean were higher in C respect all the other positions in the alley. The grain yield ranged from A to C (55 and 247 g m-2). Overall, the yield components declined according to the tree distance and light availability, showing a higher reduction in A and B position respect to D and E (Fig. 1). The harvest index ranged from 0.40 to 0.47 in A and D respectively. Further analysis will assess the effect of tree presence as light availability and soil water competition on crop yield and nutritive value.  "}]},{"head":"Soil fertility variation under dominant agroforestry practices common","index":193,"paragraphs":[{"index":1,"size":353,"text":"Nyaga J. (J.Nyaga@cgiar.org), Barrios E., Muthuri C., Öborn I., Sinclair F. World Agroforestry Centre, Nairobi, Kenya In sub-Saharan Africa, smallholder farmers remain the dominant source of food production and over the past years, integration of tree into cropping systems has become a common practice. A major constraint that is associated with such practice is on how to minimize competition and favor complementarities plus facilitative interactions among trees and associated crops in these simultaneous agroforestry systems. To overcome this constraint, our study evaluated the effect of spatial arrangement of dominant tree species (Calliandra calothyrsus, Sesbania sesban, Grevillea robusta, Eucalyptus spp, Croton macrostachyus and Markhamia lutea) on soil nutrient availability and whether this differential impact explains maize productivity in smallholder farms. Results showed that both S. sesban and C. macrostachyus have highest turnover rate of plant residues while Eucalyptus spp and G. robusta recorded lowest rate compared to the rest of evaluated tree species. The nutrient concentrations decreased with an increase in distance from tree trunk and increase in soil depth under S. sesban. The amount of total carbon (Total C), total nitrogen (Total N), exchangeable bases (ExBas), calcium (Ca), potassium (K), phosphorus sorption index (PSI) and available phosphorus (available P) in the soil decreased with an increase in depth into soil under all dominant tree species. The observation was attributed to direct inputs of soil nutrients under the tree from aboveground residues and possible depletion from uptake by tree roots. However, soil pH significantly increased with increase in soil depth under C. calothyrsus and G. robusta. Maize production was found to be adapted to Zone B (zone of root and light competition) under C. calothyrsus which the study attributed to improved soil nutrient under the tree as a result of leguminous nature. Maize production under Eucalyptus spp treatments was higher at Zone D (open cropped areas that are relatively free from the interference of trees) which highlights high competition for nutrients, water and light under the tree. In conclusion, dominant tree species in smallholder farms were found to differently influence the spatial distribution of soil nutrient which explains their differential impact on maize yield."},{"index":2,"size":11,"text":"Keywords: Tree species, Nutrient availability, Maize productivity, Agroforestry systems, smallholders farms."},{"index":3,"size":216,"text":"Calculations of nutrient fluxes in integrated crop-livestock systems (ICLS) can furnish basic information about sustainability of those systems (Carvalho et al., 2010). We evaluated the influence of two levels of N fertilization (90 and 180 kg N ha-1) and two ICLS, with (159 trees ha-1, Eucalyptus dunnii + Grevillea robusta) and without trees, on the release rate of N-P-K-S from decomposing corn straw. Both ICLS integrated corn during the warm season and beef cattle grazing on pasture during the cool season. The experimental design was a randomized complete block with three replicates and with four treatments (i.e. two ICLS crossed with two N levels). Litter decomposition and nutrient release were assessed with litter bags placed at the soil surface during the subsequent growth of black oat/ryegrass pasture. During 90 days of decomposition, no changes in N-P-K-S release dynamics (i.e. on the decomposition rates and active fractions) were observed between treatments. However, total N-P-K-S released from summer residues (Figure 1) and potentially available to the subsequent pasture depended on the initial N-P-K-S level of residues and on the quantity of plant residues, which was signifiintensified to reduce the shading level to below 41% and avoid losses to soil cover, which in turn will maximize benefits from nutrient cycling, since important amounts of N-P-K-S are cycled (Figure 1)."},{"index":4,"size":613,"text":"Total Nitrogen (N), Phosphorus (P), Potassium (K) and Sulfur (S) released from corn straw to Lolium multiflorum + Avena strigosa pasture, as affected by treatments, during litter-bag exposure in a field experiment. CL, crop-livestock and CLT, crop-livestock-trees systems; 90 and 180 kg N/ha, N90 and N180, respectively. Faidherbia albida is an important agroforestry tree species known for its reverse phenology which makes it compatible with most crops. The management of F. albida varies from region to region; some retain part of the branches and some pollard full canopy, the later is common in Mojo for fencing purpose. The study was conducted in Mojo, Ethiopia from 2016 to 2017. The area is known for its erratic rainfall and frequent drought which adversely affect crop productivity. The main objective of this study was to investigate the impact of pollarding F. albida on water relation of the tree and wheat productivity under non-pollarded and pollarded trees. Six trees with similar size were selected of which three trees were pollarded as per farmers' practice and the other three were kept un-pollarded. Tree sap volume was measured using heat ratio method (ICT International Pvt. Ltd, Australia). Cambial growth was measured using electronic dendrometer (Ecomatik Muenchner, Munich, Germany), soil moisture was measured using profile probe (PR2 Delta-T device, Cambridge, England) from different depth classes (10-100cm); wheat aboveground biomass and grain yield were recorded under non-pollarded and pollarded F. albida. For most of the parameters, there were significant differences between the two tree managements. Sap volume declined when the tree was pollarded and during leaf shading from non-pollarded one mainly around the onset of the main rainy season (June-July). The highest monthly sap volume was 4590L (153L day -1 ) for non-pollarded compared to 403L (13.4L day -1 ) for pollarded F. albida, during the dry season (January-March) in each year. Cambial dynamics of pollarded trees reduced up to 96% due to pollarding effect compared to non-pollarded ones. As a result, pollarding reduces the tree annual trunk growth up to 78%. The average soil moisture percentage under non-pollarded F. albida was higher compared to under pollarded trees across similar depth classes. The highest aboveground biomass was 4.1 t ha -1 and 3.5 t ha -1 at 1m distance under non-pollarded and pollarded F. albida tree respectively. Similarly the highest grain yield obtained under non-pollarded and pollarded F. albida was 4 t ha -1 and 2.3 t ha -1 respectively. Despite higher sap volume and sap flow rate was recorded from non-pollarded F. albida, aboveground biomass and grain yield obtained under pollarded F. albida decreased by 14% and 42%, respectively. The study indicates pollarding the branches of F. albida not only reduced the cambium increment but also reduces complementarily effect of tree-crop interaction. To optimize the benefits of F. albida -wheat interactions, the study suggests to raise awareness of farmers and motivate them to reduce pollarding. The effect of distance from olive row on soil fertility in olive orchards with different intercropping crops in Morocco Zayani I. 1 (zayaniinass@gmail.com), Bouhafa K. 2 , Ammari M. 1 , Ben Allal L. Agroforestry is a set of agricultural practices whose coherence is based on the use of ecological processes and the valorization of agro-biodiversity. It is often a question of combining one or more woody species with annual crops to obtain a mixed farming system, managed in the long term to produce and protect the environment. These cropping systems are an integral part of traditional Mediterranean and also Moroccan agriculture including systems based on olive trees. This work aims to study the effect of distance from the olive tree on soil fertility at different intercrops in comparison with the olive tree in monoculture."},{"index":5,"size":130,"text":"The study was done in an olive orchard conducted in rainfed conditions owned by a farmer in the Saiss region of Morocco. The orchard is planted at a density of 12*10 m² where the trees (Moroccan picholine) are old than 22 years. Three annual crops (fababean, spring chickpea and lentil) are cultivated as intercropping crops with olive tree in the study area. Soil samples were taken from the 0-30 cm layer in the different plots in the olive orchard. These samples were the subject of soil physico-chemical characterization. After harvesting annual crops in June 2018, soil samples were taken from the 0-30 cm layer at different distances from the olive rows (0, 1, 2, 6, 10, 11, 12m). These samples were subjected to chemical analyzes to determine their fertility levels."},{"index":6,"size":205,"text":"The soils studied are calcareous with neutral pH and electrical conductivity. According to the distances studied the results showed that in the different annual crops parcels the soil organic matter content was important near the olive trees (0 and 12m) but it decreased in the uncultivated band (between 0-2m and 10-12m) then it increases inside the plot until reaching a high value at the mid-distance of the olive row. The results of this study are in agreement with several studies that contribute to the increase of soil organic matter returns to intercropping systems, due to the above-ground biomass residues of associated trees and intercrops and the in situ decomposition of their roots. For nitrate levels in the fababean and lentil plots, initial soil characterization recorded higher values than post-harvest analyzes. This may be due to the character of atmospheric nitrogen fixation related to legumes that have already been installed during the first sampling period. The results of variance analyzes, performed by the SPSS software, showed that soil parameters, have not been affected by the distance from the olive row for all the systems studied. On the other hand, for the olive tree in monoculture, the distance from the olive row affected the soil phosphorus contents."},{"index":7,"size":20,"text":"The soil parameters measured in the different intercropping systems give different results relating to the effect of the distance studied."},{"index":8,"size":235,"text":"Keywords: agroforestry, olive tree, soil fertility, legume, Morocco. When the trees and livestock dance together: getting a rural renaissance through sylvopastoralism Silvopastoral systems were and still are common all around the world. While traditional ones dominate large agricultural landscapes in less productive soils and/or climate, different new silvopastoral schemes emerged in the last decades to improve the forage autonomy of extensive pastures and to cope different environmental issues associated to livestock farming. The selection of the abstracts for this session will try to cover this geographical distribution and to demonstrate the relevance of these systems for livestock farmers and the provision of public ecosystem services. Both fundamental and applied research results are encouraged to be presented. The abstracts submitted for oral presentation should refer to work carried out in topics dealing to one or more of the following elements: tree, animal or pasture, and their inter actions. planting/maintaining trees (and/or shrubs) on pastures are also welcome. encourage to be proposed for a poster presentation, although the description of innovative silvopastoral systems and practices can be also proposed for oral presentation. Results should be clearly stated in the abstract submitted. Some examples of topics of interest are: tree-pasture management and interaction, improved pastures for shading conditions, woody forage banks, animal and welfare, tree regeneration monitoring and promotion, control of nutrient leaching and greenhouse gases emission, carbon sequestration, silvopastoralism for the adaptation and mitigation of climate change."},{"index":9,"size":476,"text":"Oak savannahs are a cultural icon of California and the most important rangeland type in California's $4 billion beef cattle industry. In past decades, California ranchers have often removed or ignored oak trees on their rangeland (Huntsinger et al. 2010), but they are now increasingly recognizing the need to actively manage oaks for multiple benefits (Oviedo et al. 2017). One benefit of mature trees is reducing cattle heat stress by providing shade. Studies in tropical Latin America (e.g., Mitloehner and Laube 2003) have quantified this benefit, but few field studies have been conducted in the US (Sharrow 2000), and none have been done in California to our knowledge. The issue of cattle heat stress becomes more pressing under climate change. By 2040-2069, daily maximum temperatures in California's inland foothills are predicted to increase by 3°C (5.4°F). We conducted this field study (29 Aug -3 Oct 2018) to investigate whether oak canopy cover could be an important climate adaptation tool in California rangelands. Our study sites were three grazed regional parks (Vargas, Pleasanton Ridge, and Brushy Peak) along a 50-km transect (121.8W, 37.6N). We designated three plots per park, and in each plot, we used a pair of radiation-shielded loggers (Hobo 8K Pendant Temp, Onset Corp) at 1 m height to measure air temperature under a large mature live oak (Quercus agrifolia) and in an open field 20 m away. We also collected temperature data with a pair of \"black globes\" (hollow black metal balls with sensors inside) that incorporate effects of solar radiation and wind, as a proxy for animal heat stress. Our paired sensors showed that Q. agrifolia canopies have a major cooling effect. Midday (10a to 4p) air temperatures averaged 4.5°C (8.2°F) cooler under the canopies. The effect varied between our nine plots (range: 3.1 to 6.3°C), with higher wind speeds reducing the canopy/ field difference while tree size had no effect. Midday black globe temperatures showed an even larger difference of 10.2°C (18.3°F). We translated these data into a livestock heat stress index (Dahlen and Stoltenow 2012), assuming 30% RH. Compared to under an oak canopy, open fields were 2.4 times more likely to reach the \"Alert\" threshold (29.4°C / 85°F) and 12.7 times more likely to reach the \"Danger\" threshold (32.8°C / 91°F). Open fields reached the \"Emergency\" threshold (37.8°C / 100°F) for an average of 1 hour per day, whereas this threshold was never reached under any tree canopy. These results suggest that maintaining and increasing mature oak trees on open rangeland could help California ranchers protect their herds from climate variability and future warming. Future work could examine a wider geographical area, more species of oaks, and animal behavior. It is already clear that cattle \"vote with their feet,\" congregating under trees on hot days. Quantifying this important benefit of oaks can help inform management strategies in grazed oak woodlands."}]},{"head":"L19_O.02","index":194,"paragraphs":[]},{"head":"Morus alba and Leucaena leucocephala for livestock feeding in Western Africa","index":195,"paragraphs":[{"index":1,"size":477,"text":"Sib O. 1 (sibollo84@yahoo.fr), González-García E. 2 , Bougouma-Yaméogo V. 3 , Blanchard M. 4 , Navarro M. 5 , Vall E. 61 CIRDES, Bobo-Dioulasso, Burkina Faso; 2 INRA, Montpellier, France; 3 University Nazi Boni, Bobo-Dioulasso, Burkina Faso; 4 CIRAD, Hanoi, Vietnam; 5 University of Matanzas, Matanzas, Cuba; 6 CIRAD,  Montpellier, France   To feed dairy cattle in West African farms, livestock keepers usually combine the availability of natural resources, crops residues and other more or less locally available alternative feed resources. However, despite such strategies the herds nutritional requirements are rarely covered. Among the consequences of such often and unpredictable feeding unbalances are the low production level and calvings seasonality. Thus, this study was intended to design, in partnership with livestock keepers, an innovative forage system that has never been tested under the West African context. The proposed low-input intensive forage production technology, rely on establishing high-density Woody forage banks (WFB). The potentialities of WFB for sustainable forage production, as well as the establishment feasibility under real farm conditions and the effects on the dairy cows production performance was also evaluated. During 18 consecutive months, we monitored the agronomic performance of two widely recognized woody fodder species (one leguminous: leucaena, Leucaena leucocephala; and one non-leguminous: mulberry, Morus alba), planted at high-density (20000 plants/ha) for the first time in 3 different sites of western Burkina Faso for intensive forage production. Three WFB have been established in 2016 using the «step-by-step» co-design method (Vall et al., 2016). At the first standardization cut, 13 months after planting date (PD), the heights of leucaena and mulberry plants were respectively 183.4±20.4 cm and 153±5.3 cm and lower than reported results ranging from 200 to 300 cm (Wencomo et al., 2009;Martín et al., 2014). These performances were affected by soil quality, termite attacks, drought and agronomic practices such as mulching, shallower planting bed. The high forage yield per ha as well as the nutrithe potential interest of this forage technology for contribution to the farm forage authonomy in this region while improving animal performance. However, special attention must be deserved for adjusting agronomic practices to factors like soil properties, drought, termite attack and fires. The cumulative biomass production over 3 harvests (PD+13, PD+15 and PD+18 months) was 8.2±2.6 t DM/ha and 1.8±2.3 t DM/ha respectively for leucaena and mulberry versus 15 t DM/ha and 10-12 t DM/ha for leucaena and mulberry respectively reported (González-García et al., 2009;Martín et al., 2014). The economic feasibility indicated that production cost of 1 kg of forage has been estimated at 152 franc of the African financial community (FCFA), which could be more competitive if the forage bank is «self-made» (46 FCFA). These results demonstrated the potentialities and feasibility of establishing, with a low-input approach, high-density WFB under the harsh conditions of Burkina Faso, a potential alternative to enhance farms forage autonomy and dairy production for livestock keepers. "}]},{"head":"Background","index":196,"paragraphs":[{"index":1,"size":42,"text":"Silvopastoral stakeholders need to ensure the system resilience through the increasing of pasture availability and the assessing of appropriate stocking rate (Camilli et al., 2018). Annual legumes are a key feature for the improvement of low quality native pastures in these systems."},{"index":2,"size":48,"text":"One of the most critical factor controlling silvopasture productivity, along with other factors (competition for soil resources, different microbiota, higher mineral N in the soil beneath trees, ets.), is the competition for light, and light interception affects the growth and development of understorey herbaceous vegetation in various ways."}]},{"head":"Aims","index":197,"paragraphs":[{"index":1,"size":26,"text":"The main objective was to assess the adaptability and the factors responsible for better adaptation to shade of different legume species in a Mediterranean silvopastoral system."}]},{"head":"Materials and methods","index":198,"paragraphs":[{"index":1,"size":65,"text":"The experimental site was located within a scattered tree cork oak silvopastoral systems at In the spring of the second year, after the first self-reseeding, the ISPAAM mixture showed high contribution of L. rigidum and T. subterraneum cv Campeda to floristical composition. Among Fertiprado legumes, only O. sativus showed a high coverage in the second year probably because of its very low level of hardseededness."}]},{"head":"Conclusions","index":199,"paragraphs":[{"index":1,"size":522,"text":"The openness of scattered trees in the studied silvopastoral system restricted the difference in the levels of light transmission between shaded plots and not shaded plots. However, the most shade-adapted species for the use in legume-rich pastures were T. subterraneum cv Campeda (ISPAAM mixture), T. vesiculosum and O. sativus (Fertiprado mixture) and shading reduced the productivity of the legume-rich mixtures of 70%-90%. Pastures are among the main land use types in the world. In Brazil they occupy 20% of productive area, although half of them are somehow degraded. In \"Portal da Amazonia\" Territory (MT) the implementation of agroforestry systems (AFS) has been encouraged by social movements and NGOs, with support of universities and research centers. In the past decade, more than 1,000 families have adopted AFS and, among them, silvopastoral systems (SPS). The Family Agriculture Resilience Research Program was structured in 2015 to support these projects, having SPS among their research lines. Research projects and governance structure were supported by Instituto Ouro Verde using resources from the Amazon Fund/ BNDES and University of Exeter. We have been working with participatory mapping to locate tree species of interest to farmers that can be incorporated into production systems, aiming to improve the quality of soil and forage, to identify species which leaves or fruits can be used as nutritional supplements and propose arrangements with different species that guarantee greater biodiversity and financial return in the short and long term. Research lines are updated every year, including new species and discussing results with communities for adjustments to existing production systems and planning new ones. So far, results have shown that among desirable characteristics for the species, according to farmers, are tree growth and their potential uses in the property, absence of toxicity or danger to animals and positive influence on pastures, especially in the dry season. Among the species indicated by farmers, Handroanthus serratifolius contributed to higher protein contents of forage plants, raising crude protein level from 3% to 5%. Apeiba tibourbou Aubl influenced soil fertility in shaded areas, especially increasing potassium levels from 116 to 298 mg dm-3. Main effects of trees on pasture were observed in the dry period, while the effects on soil fertility were potentialized in the rainy period. Fruits of Samanea tubulosa, leaves of Maclura tinctoria and different Inga species showed high percentage of crude protein (15,9%, 12,0% and 12,3%, respectively), being able to be used as supplements for dairy cows. Studies have also assessed the behavior of these animals in shaded pastures, showing that they respond positively to shading conditions when there is good distribution of forage supply, increasing rumination period and reducing laziness. However, when shading is not well distributed this effect can be reduced or even eliminated. We emphasize the importance of the articulation between research, extension and support for SPS planting, with the direct involvement of family farmers in this process. This experience shows that research can be used as a tool for innovation and transformation of production systems in different scales of action, thus paving the way for enhancing resilience of family farming in an Amazonian agricultural frontier Keywords: Amazonia, participatory research, family farmer, pasture."},{"index":2,"size":198,"text":"Unmanaged woodland grazing can cause timber degradation, diminished regeneration, habitat loss, soil erosion and water quality impacts. Nevertheless, farmers in Wisconsin, USA use woodlands for grazing to meet management objectives, and for property tax benefits. To evaluate promise of silvopasture in this landscape, we conducted three related studies: First, we interviewed 18 farmers about how they use and value their woodlands. Interviewees commonly valued woodlands for pasture, timber, fuel, hunting, aesthetics, and lifestyle benefits. Diverse perspectives emerged regarding management motivations and objectives, which suggested four types of perspectives toward farm woodlands: incidental owner, practical manager, working naturalist, and ecocentric member. We distinguished these types via instrumental or intrinsic values, as well as active or passive management of woodlands. Second, we measured soil compaction and vegetation biodiversity across a gradient of cattle grazing intensities, confirming the direct relation between intensity and negative impacts on woodland ecology, but pointing out potential management strategies to reduce impacts. Third, we established silvopasture via overstory and brush thinning in degraded oak woodland on three farms. In paired experiments with/out rotational beef grazing, preliminary results indicate that canopy thinning and broadcast seeding improved forages, native understory establishment was poor, and adaptive management improved outcomes."},{"index":3,"size":17,"text":"A typology of perspectives on use and value of farm woods in the Driftless Area of Wisconsin."},{"index":4,"size":174,"text":"Perspectives were defined via qualitative analysis of in-depth interviews. The overlapping ovals represent the indiscrete nature of perspectives. An attributional LCA was carried out on the milk production system. Enteric fermentation was found to be the largest contributor to global warming potential (56%), followed by imported feed (20%). The environmental burden per litre of milk was calculated to be 1.08 kg CO2e/L; quite low because most of the electricity is generated from an anaerobic digester that also reduces manure management emissions. A second, hypothetical attributional LCA was carried out to approximate the environmental impact of the system without live fences -i.e. where it was assumed that reduced shading may increase heat stress in animals and thus reduce milk yield by 11%, based on a previous study (Villanueva et al. 2014). Live fences were found to have a positive effect, reducing environmental burdens by 8% to 9% per litre of milk produced. The LCA will be recalculated once all sampled living fences have been remeasured to allow for off-setting due to rate of C sequestration."},{"index":5,"size":9,"text":"Keywords: Dairy, Living fences, Life cycle analysis, C off-setting."}]},{"head":"Introduction","index":200,"paragraphs":[{"index":1,"size":14,"text":"In temperate regions, farmers often report that free ranging cows use trees as fodder."},{"index":2,"size":65,"text":"Available literature shows that different tree species are very interesting in terms of nutritional value for ruminants because of high levels of protein and especially macro and micro elements (Rahmann 2004;Luske et al. 2017). The objective of this study was to investigate the effect of soil type (clay and sand) and seasonal variation on the nutritional quality of three common tree species in the Netherlands."}]},{"head":"Materials and methods","index":201,"paragraphs":[{"index":1,"size":69,"text":"At 10 Dutch organic dairy farms (five on sandy and five on clay soils) tree leaf samples were collected from Fraxinus excelsior, alder Alnus glutinosa and basket willow Salix viminalis in June, July and September of 2013. The samples were analysed in the laboratory for a set of parameters. The data was analysed with a split-split plot design (Genstat 13.3) to test for differences in nutritional values (Table 1)."}]},{"head":"Results [insert Table 1] Discussion and conclusion","index":202,"paragraphs":[{"index":1,"size":79,"text":"Tree species is the most important factor to take into account when introducing three dimensional grazing with fodder trees or shrubs (Luske & van Eekeren 2017). A. glutinosa is interesting because of high CP and Cu concentrations in the leaves. F. excelsior leaves had the highest digestibility (DOMD) and Ca concentration. S. viminalis is very interesting for livestock when there is a shortage of micro elements like Zn and Se but less when there is a shortage of Cu."},{"index":2,"size":47,"text":"Table 1. Nutritional values of tree leaves per species and measured at three sampling periods. The Group differences based on the LSD's are indicated with a, b and c's. Significant interactions were found between species, sampling period and/or soil type for DOMD, Ca, S, Zn and Se."},{"index":3,"size":109,"text":"The Valab project (Integrated Ecosystemic value-enhancement of the Guadeloupian Forest Agrobiodiversity) is a participatory action research, that has developed at the initiative of the Agricultural Union of Vanilla Producers of Guadeloupe (Syaprovag) and within the framework of a European Innovation Partnership. In the exploratory phase of the project, we studied the constraints or motivations to setting up livestock units within agroforestry systems in the private forests of Guadeloupe. This aims to identify the locks that might hinder the development of this activity, or on the contrary the potential to be encouraged. To establish a diagnosis of the current situation and practices, 70 stakeholders (among them 48 farmers) were interviewed."},{"index":4,"size":172,"text":"All the breeders interviewed (37) mention economic motivations for sales and/or self-consumption. The valuation of their land is another reason given, so animals are used to limit the bushes while fertilizing the soil. However, in 25% of cases, they are concerned about production costs and question the profitability of this animal sub-activity. Many breeders (36%) give importance to their activity in the construction of their identity, whether it is through a desire to perpetuate traditions or to maintain family activities. A strong commitment is observed for «body involvement» among 44% of breeders who like to spend time taking care of their animals or for physical activity. At the opposite, 36% report that this occupation is difficult and hard. For 44% of the informants the development of his breeding activity also depends on the relationships they have with their colleagues and family or even on the links between them and their animals. Finally 31 % of them reported how they suffer from dog's attacks from the vicinity as well as from praedial larceny."},{"index":5,"size":128,"text":"The main constraints identified are natural constraints (61% of cases), including topography, climate and predators. On the other hand, 28% notify their motivations for environmental protection. The second most important constraint is of a technical nature for 44% of farmers. Very often, this is associated with the complexity of their work schedule resulting from the mixed nature of those farming systems that count with multiple units. Others ask for more technical references or support services. Regulation and the role of institutions are also among the obstacles identified by 36% of the farmers who felt constrained by norms or disappointed by state organizations. Further development of this work involves the analysis of the set of actors within this very complex socio-technical system of agricultural activities within the Guadeloupian undergrowth."},{"index":6,"size":871,"text":"Keywords: constraints, motivation, livestock farming, agroforestry, humid tropic. Silvopastures provide distinct ecosystems services and are a multiple-income enterprise for land managers benefiting from the integration of trees, livestock, and forages. The objectives were to: 1) characterize light environment and forage productivity, and 2) determine a mitigation (MIT) parameter [ability to reduce air temperature and thermal-humidity index (THI)], as a function of tree-species in silvopasture vs. open-pasture. The silvopasture, established in 2007 as an alley-cropping system, consisted of three tree-species (Pinus palustris, PP; Pinus taeda, PT; and Quercus pagoda, QP) and two alley-widths (Fig. 1). Understory forage was a mixture of big bluestem (Andropogon gerardi), gamagrass (Tripsacum dactyloides), indiangrass (Sorghastrum nutants), and switchgrass (Pannicum virgatum). Light environment under the trees was ~40% compared to the alley pasture and it was not different among tree-species during summer but different during winter. Forage dry matter yield was lower by ~35% for QP and PT (~5 Mg ha-1) at the 3.5-m south sampling location compared to PP (8 Mg ha-1) but there was no difference at the center of the alley (~11 Mg ha-1). All the tree species were able to provide a significant MIT during daylight hours with greater impact during summer months (June, July and August). The three different species showed a different ability in MIT; QP showed the strongest MIT, which was significantly larger compared to PP and PT, which in turn showed similar values. Bumper harvests of honeylocust (Gleditsia triacanthos L.) pods on some isolated trees often draw attention of farmers and researchers on the value of this tree as a potential fodder producer for ruminants (Detwiller 1947, Dupraz andNewmann, 1994). In vivo digestibility studies of the pods provided encouraging results with sheep (Foroughbakhch et al, 2006). In 1988, an orchard was established with 16 grafted varieties that were identified by a survey of honeylocust trees in Southern France. The orchard includes a variety selected in the USA (Millwood variety). Pod production was monitored since plantation. Alternate bearing is a distinctive trait of all cultivars, but high year production are not synchronised between all varieties. Growing a mixture of different cultivars would therefore allow a sustained pod production. Measured yields are small, as the local site conditions are harsh. The tree size has remained almost the same for the last 20 years, indicating a severe water shortage at the site. Better soil conditions could easily induce higher yields, but the extrapolation of extraordinary heavy harvest from isolated trees is definitely not advisable. The adoption of honeylocust fodder trees by farmers rely on the availability of grafted trees at a reasonable cost, and this proves to be the limiting factor for adoption at the moment.   A better understanding of tree pruning and pollarding on the fodder quality of woody leaves may be helpful for the conception and the management of livestock agroforestry systems (Dufour et al., 2018;Emile et al., 2017). In this study we compared the nutritive value of pollard and high stem tree leaves across seasons in three species (common ash, white mulberry and paulownia). Leaves were collected on high stem and winter pollard trees grown on the same site. All samples were analysed for 1/ ash, crude protein (CP), and fibre (NDF) contents, and 2/ enzymatic digestibility (Aufrère, 1982, adapted to the DAISY Incubator). The three-way ANOVA shows a significant effect of species, season and management on all the variables. Common ash and white mulberry exhibit a better fodder quality than Paulownia: higher leaves CP content, digestibility and lower NDF content. Leaves ash content was 50% and 30% higher for white mulberry than for common ash and paulownia, respectively. There was a strong interaction species by management for all variables but particularly high for CP and ash content. Leaves CP content decreased from June to October (146 to 131 g kg-1 DM). In conclusion, the three species have a sufficient digestibility and CP content to be including in the diet of ruminants whatever the season and the tree management. Silvopastoralism is an activity that integrates silvicultural production and animal production, based on grazing, on the same land. In this study, we evaluated the effects of pig activity in a natural forest of Quercus faginea (Vitoria-Gasteiz, Northern Spain). A stocking rate of 8 pigs/ ha with two different pig breeds (an autochthonous and endangered Euskal Txerria breed, and a mixed breed) were considered. The experimental design consisted of three plots divided according to the breeds (1 ha) and three control plots without animals (0.5 ha). The experiment lasted two productive cycles of approximately five months each (June17-October17 and December17-April18) and samplings were taken at the beginning and at the end of both cycles. Each subplot was set up for proper animal management with shelters, water points and feeders, all which became points of concentration for pig activity. Soil compaction, one of the most damaging effects of grazing, was closely analysed. Twenty sampling points were defined in each subplot and control plots. As an indicator of soil compaction, resistance to soil penetration was measured with a digital penetrometer (0-60 cm). Two replicas were recorded and averaged with 0-10; 10-20; 20-30; 30-40; 40-50 and 50-60 cm depth ranges. ANOVAs were applied, taking into account the effect of treatments of pig breeds and controls."},{"index":7,"size":403,"text":"In addition, in relation to distance to points of concentration of pig activity, transects of 16 points each were defined to measure resistance to soil penetration with a manual penetrometer (0-10 cm) after the first and second pig cycle. In general, the observed values do not kPa) regardless of the time the samples were taken in the cycle. No differences were detected at the level of soil compaction at the end of the second cycle between the two different breeds, or with the control. Although, in the duration of this study, the effect of resistance to soil penetration was not significant a tendency of greater soil compaction was observed in the plots with pig activity. The effect of pig activity showed spatial variability within the plots while the distance to points of concentration to pig activity was also a significant effect, higher compaction and bare soil coverage were both observed with less distance. High values were eventually recorded with manual penetrometer (0-10 cm) near activity points, after two pig cycles. The obtained results show a complex production system that requires an adequate and adaptive management plan in order to guarantee the sustainability of pig activity under trees of natural forest. A simple crossover design was used to analyse the variables of each experiment. In experi-Leucaena -Tanzania (T4) (7,4 l/v/d; 12,8 and 3,9% for total solids and fat, respectively). In in T4 (14%). The total and the commercial timber volume of E. camaldulensis was 59,2 and 31,2 m3, respectively when considering 16,1 m and 14,4 cm as total height and diameter at breast height, respectively. According to commercial volume information it can be expected among 900 and 1200 wooden poles for fencing (2,1 m length) for different uses in the farms or between farm sells. For carbon stock aerial biomass, the reserve was estimated as 12,6 tC/ha with fixation rates of 2,1 tC/ha/yr. Tanzania -Leucaena -E. camaldulensis was identified as a silvopastoril system that increase the saleable yield, and the total solids of milk compared with the predominant open grass (Bothriochloa pertusa) in the colombian dry caribbean region, that has shown a milk production of 4,4 y 3,9 l/v/d and total solids of 12.2 y 12.9% at the early and mid lactation stage for dual purpose cows, respectively. This system also represents an opportunity to contribute to mitigation from carbon fixation rates of 2, 10 tC/ha/yr at the cattle production system and farm level. "}]},{"head":"Keywords","index":203,"paragraphs":[]},{"head":"Keywords","index":204,"paragraphs":[]},{"head":"Allometric equations and reforestation guidelines of Maclura tinctoria an important multi-purpose tree of Latin America","index":205,"paragraphs":[{"index":1,"size":282,"text":"Montes I. 1 (irene.montes@12tree.de), Montagnini F. 2 , Ashton M. As reforestation and restoration processes gain momentum across the world native tree species are being established for production, conservation and restoration purposes in agricultural landscapes. One such tree with promise is dinde [Maclura tinctoria (L.) D. Don ex Steud]; a multi-purpose, Neotropical tree species that is being widely introduced on to silvo-pastoral farms of the coffee axis region in the Latin American Andes. No formal studies have been made that examine its potential for reforestation. Unlike exotic species, technology for the introduction of native species in ranchlands is scarce, and markets and wood-processing techniques are often insufficient. It has therefore become imperative to generate information and disseminate appropriate management practices for native species that can be integrated into reforestation and rehabilitation strategies across Latin American landscapes (Piotto et al. 2004;Calle et al. 2012). In this study we aim to measure and define the relationships between age, bole size (dbh), tree height, and crown size of planted dinde trees for the development of spacing guidelines at time of planting and for thinning. We also sought to identify whether tree growth is influenced by various measures of soil fertility. We studied these relationships on dinde trees planted at twelve silvo-pastoral farms in the central Andean foothills of Colombia. Our results are the first to show dinde has comparable growth to other native and exotic trees used for reforestation in Latin America. Strong relationships exist for tree age and diameter at breast height (DBH) with crown size and height. Based on these relationships we developed spacing and thinning guidelines for timber production in plantation and silvo-pastoral circumstances. Soils were generally fertile but varied between farms."},{"index":2,"size":71,"text":"Growth varied with soil primarily related to pH and calcium, and secondly to soil nitrogen and organic matter. Our results provide preliminary information for the forester and/or the farmer on expected growth and size relationships for given ages in relation to soil fertility for planted trees. As more trees are planted on a wider array of soils and providing a greater diversity of ages further studies are necessary for refining guidelines."},{"index":3,"size":130,"text":"Agroforestry could play several functions in ruminant production systems, but at present it constitutes only a minor part of ruminant husbandry in Northern Europe. Ruminant livestock farmers need more scientific and practical knowledge for the implementation of agroforestry systems. During meetings held in France, the Netherlands and UK in 2014 in the framework of the AgForward project, the expectations and questions of farmers related to agroforestry were collected. They identified the need for more data on the nutritive value of tree leaves, as well as information on methods to protect young trees from ruminants and on the spatial arrangement of trees in the paddock. Other demands were more country-specific. In the Netherlands for example, dairy farmers were preferentially interested in the health benefits for cows and the effect on soil."},{"index":4,"size":78,"text":"To answer these multiple demands, several studies were implemented in these three countries (Table 1) and gave first promising results. However, to promote agroforestry in ruminant production systems several knowledge gaps still remain, such as the proportion that tree biomass could play in the diet, the presence of antinutritional compounds, the effects of nutritive value of tree leaves on the health and production, and the role of trees on ruminant welfare, especially in the case of climate change. "}]},{"head":"Introduction","index":206,"paragraphs":[{"index":1,"size":59,"text":"Despite the multiple functions offered by trees to livestock farmers (e.g. source of forage, animal welfare, litter, fuel wood, timber), agroforestry systems constitute a minor part of ruminant husbandry in Northern Europe. Before adopting agroforestry, farmers need more information on the methods to protect young trees from ruminants, and on the spatial organization of trees to address multiple purposes."},{"index":2,"size":31,"text":"To answer these demands, an agroforestry paddock was co-designed with farmers, researchers, technical institute engineers and extension agents in 2014. This paper presents the agroforestry paddock and gives its first results."}]},{"head":"Materials and methods","index":207,"paragraphs":[{"index":1,"size":182,"text":"The agroforestry paddock (3 ha) was implemented in February 2015 on the innovative mixed crop -dairy cattle system of INRA in Lusignan (Vienne, France), which integrates also other agroforestry practices (Novak et al., 2016). To save fossil energy and water, forage resources are preferentially grazed. Fodder trees were planted to be browsed by cattle but also to provide wood chips. Two types of pruning techniques will be tested: pollards of Morus alba and Alnus cordata, and coppices of Salix caprea, Ulmus minor, Robinia pseudoacacia and Alnus incana. High stem trees (Pyrus communis, Gleditsia triacanthos, Sorbus domestica) were also planted, mixed in various layouts with pollards and coppices. Three spatial organizations of trees are tested with single, double or triple-row sets, with an inter-row spacing of 20 m. To restrict the browsing of the young trees by cattle, seven types of tree protections were compared: single or double line of electric fence, electric fencing tape, metal or plastic fences, olfactory repellents and a barrier tape. Another option was to exclude the paddock from grazing and to mow the grassland during the first years."}]},{"head":"Major results","index":208,"paragraphs":[{"index":1,"size":83,"text":"After two years, the most efficient protections were the following: electric fence, electric fencing tape and metal fence. Electric fence and electric fencing tape are quickly installed and facilitate the mechanical control of the vegetation although they are relatively expensive. Metal fence is cheaper and offers the opportunity to be used as trellis for climbing fodder plants. However, it needs more time to be installed and it complicates the control of the vegetation on the tree rows. The olfactory repellents did not work."},{"index":2,"size":57,"text":"When considered relative to the number of tree seedlings, double and triple row sets are more economical and time saving for their implementation and maintenance. They also open more opportunities for different tree uses compared to single rows. However, the available grazing area is more reduced, and will only be recovered when the trees will be browsed."}]},{"head":"Conclusion","index":209,"paragraphs":[{"index":1,"size":39,"text":"The collaborative design gave promising layouts for integrating multipurpose trees in a paddock grazed by cattle, and for using them as an aerial browsed fodder. We acknowledge the support of EU through the AGFORWARD FP7 research project (contract 613520)."},{"index":2,"size":247,"text":"L19 Silvopastoralism The valonia oak forest in Western Greece is one of the biggest and oldest in the Balkan Peninsula. It is mostly used nowadays for livestock raising of freely grazing sheep and less goats, rending it an important silvopastoral system. Under the framework of the AGFORWARD project, we investigated this system. The area can be characterized as hilly to semimountainous with trees extending from an altitude of 0-580 m, mostly on shallow to very shallow soil of limestone origin. The climate of the region is typical Mediterranean with mean participation of 938.5 mm and mean annual temperature 16.8 C. Even if the environmental conditions are favorable for organic matter accumulation and decomposition, soil litter is absent due to wind and water erosion. Quercus ithaburensis subsp macrolepis dominate in the area with old aged trees of 500 years old (mean age 200-250 years) and 4 m bh diameter, mean height ranging from 6.4-11.5 m at a density of 32-204 trees/ha. Most stands are uneven aged even if they appear as evenaged due to the old age of the trees, from a silvicultural point of view. A major problem is the lack of a management scheme applied in the area. This resulted to intense illegal logging and land use switch to agriculture or brush encroachment, and other problems caused by humans. The system provides numerous ecosystem services such as eco-friendly dyes, high quality dairy products, medicinal plants and contributes to biodiversity with its diverse flora and fauna species."},{"index":3,"size":469,"text":"Planting and managing native fodder trees and shrubs on degraded lands offers a promising approach to establishing resilient silvopastoral systems (SPS) in the semiarid Caatinga region of Brazil (Pinheiro & Nair, 2018). Although several examples of such successful smallholder initiatives are available, their experience is seldom known or recognized by outsiders. The objective of the present work is to describe such a success story of a progressive smallholder farmer, Eduardo Emídio, in his 24 ha-farm in the municipality of Barreiros, in Bacia do Jacuípe region, Bahia state, Brazil, and assess the extent of improvements brought about in landquality and productivity through his innovation. His initiatives included high-density planting of cactus (Opuntia ficus-indica) and enclosing the area to keep off animals, broadcasting seeds of native fodder trees (mainly Caesalpinia pyramidalis) and adding a few tree seedlings, and managing the buffelgrass (Pennisetum ciliare (L.) Link syn. Cenchrus ciliaris (L.)) covers. Manure was applied at the rate of ca. 1kg per m 2 annually. By replicating this SPS model in plots six times on the 24-ha farm, the farmer could maintain a total herd of 110 goats and 40 cows, and substantially increase his profitability, such that it was hailed as a model farm by the local farmers and organizations. We collected some on-farm biophysical productivity data from a non-recovered area, an extensively degraded pasture (DP), and two closed SPS areas, one with 3-year-old trees (SPS 3) and the other with 17-year-old trees. The DP and the SPS were compared in terms of percent soil cover, mulch cover on land, and stand density and species composition of trees; total biomass productivity and the biophysical water storage in SPS 17 were also estimated. The DP, which the farmer described as the least deforested area on the farm, had a shrub/tree density of 462 per ha and a total of 18 tree species, compared with the corresponding values of Sardinian landscapes have evolved through millennia as a response to the environmental as strategies to maximize production of multiple goods and ecosystem services (Zapata et al., 2014). Cereal and fodder crops or semi-natural grass-herbs communities are mixed with a sparse tree cover mostly dominated by oak trees such as holm oak, cork oak, downy oak. These landscapes are common in Spain and Portugal, where they are respectively called Dehesa and Montado, but are also spread in other areas such as Sardinia in Italy, where they cover about 113.000 ha, 4.7% of the regional surface and 9.8% of the total agricultural land (Camarda et al., 2015). Sardinian Meriagos, often tilled and sown with annual species for the grazing and hay production, are mainly dominated by cork oak or wild olive, with tree densities ranging from 7 to 250 ha -1 and are generally concentrated in the hilly areas of the North and the Center of Island."},{"index":4,"size":221,"text":"Others agro-silvo-pastoral systems of Sardinia are Mediterranean maquis with more or less dense shrubs and a combination of cereals, forage crops and natural pastures. Livestock graze usually for the whole year, sometimes in mixed grazing systems with sheep, goats and beef cattle, using different feed resources such as herbaceous species, shrubs and trees. The grazing activity involves private, public silvo-pastoral areas and common lands. Meriagos wooded grasslands have emerged from a continuous selection of both the woody and grass vegetation operated by traditional agro-silvo-pastoral activities practiced over centuries. They are used as a forage suppliers and provide ecosystem services such as climate regulation, carbon sinks (Seddaiu et al., 2013), control of water flow, soil erosion regulation and pollination (Bagella et al., 2013). Scattered trees in Mediterranean's Meriagos (Seddaiu et al., 2018). Traditional land uses still persist in these agro-silvo-pastoral systems, but depopulation and consequent abandonment represent a real threat. As antioxidant capacity and the content of plant secondary metabolites ascertained in the legume-based swards could potentially affect the nutritional properties of forage, their variations caused by contrasting light intensities thus represent a particular benefit, which must be exploited as an additional service from agroforestry. Our results provide new insights into the effects of light intensity on plant secondary metabolites from legume based swards, underlining the important functions provided by agroforestry systems."},{"index":5,"size":713,"text":"In plant species, genetic and morphological variability are considered the basis for their adaptation and ability to respond to challenges and threats (Govindaraj et al., 2015). Tithonia diversifolia, a shrub of the family Asteraceae, is considered a forage species of great importance due to its chemical composition, productive performance, and adaptation (Mauricio et al., 2017, Mauricio et al., 2018). According to different studies, silvopastoral systems with T. diversifoliacan replace commercial feeds (15% DM basis) in a total mixed ration diet fed to dairy cows without any change in total intake (18.7 kg MS/ day), milk yield (22.9 kg/day) and composition; an alternative resource like T. diversifolia might can provide important economic saving for farmers (Ribeiro et al.,2016). On the other hand, comparing animal production in systems with T. diversifolia(5,000 shrubs/ha, alley crop) and monoculture systems whit Brachiaria or Urochloa, the daily milk production per cow is 8% higher than the conventional system, and the stocking rate and milk production (ha/year) are higher 32.1% and 36.6% respectively, in addition to greater production of solids in milk (Rivera et al.,2015). The objective of this work was to determine the diversity of T. diversifolia in Colombia and Mexico, as well as to recognize its social, productivity and economic potential for bovine systems. Molecular markers were used to determine genetic diversity, and chemical characteristics and morphologies were analyzed with multivariate statistics and non-parametric statistics were used to analyze the economic and social variables. The materials presented differences in their crude protein (CP) (29.4% ± Sheep and goats are one of the most important livelihood capitals of wayuu indigenous communities in La Guajira, Colombia. These populations are being affected by the effect of climatic variability on the availability of forage for animal feed. The present study assessed the biomass production and resprouting capacity of four native forage species during two contrasting periods (rain and drought). A total homogenization pruning at two meters of height was performed for individuals of the species Prosopis juliflora, Tabebuia chrysanta, Phitecellobium dulce and Capparis odoratissima; in trees with a diameter at breast height (DBH) between 5 and 20 cm. Monthly counting, marking and recording of sprouts was carried out during each contrasting period (three months for rain season and three months for drought season). At the end of each period the regrowths were harvested and stems). In the rainy period P. juliflora and T. chrysanta had the highest sprouting capacity with 114.5 and 113 sprouting / tree respectively, followed by P. dulce and C. odoratissima with 86 and 3.5 sprouting / tree. However, the dry season influenced significantly the production of sprouts in these species, being the exception of P. juliflora with 214 sprouts / tree. There were differences in the production of edible biomass between the species. For the first period, the T. chrysanta and P. juliflora species showed higher value with 356.5 and 222.57 g/DM/tree respectively. while in the second period P. juliflora presented a better response to drought with a production of 503.7 g/DM/tree; followed by T. chrysanta with 7.63 g/MS/tree. With respect to the leaf -stem relationship, the species with the best relation correspond to T. chrysanta with 1.48, followed by P. dulce with 1.21 and P. juliflora 1.06. It was not possible to estimate this relationship for C. odoratissima due to the low production of sprouts during the development of the investigation. The fractionation analysis of the biomass in the thin and thick components showed that the P. dulce species assigns a percentage of total biomass for the edible biomass fraction with 98.27%, followed by P. juliflora and T. chrysanta with 95.21 % and 85.26% respectively, while for C. odoratissima the fine fraction of the leaf is the most important. As a conclusion it can be said that the species P. juliflora behaves in an effective way in its ability to regrow and produce biomass in relation to the other species of the study for the two assessed periods. In this sense, it is necessary further research about the effect of frequent pruning on the survival of P. juliflora and also to propose the inclusion of silviculture management practices, such as tree pruning, into the animal feeding strategies of wayuu communities. The species C. odoratissima showed the lowest capacity for regrowth and biomass production for the assessed periods."},{"index":6,"size":8,"text":"Keywords: Animal nutrition, forages, small ruminants, dry topic."},{"index":7,"size":443,"text":"Agroforestry planning requires reliable information on the species to be used. Different tree species of Inga have been successfully employed in different agroforestry and silvopastoral systems because of their rapid growth, tolerance to poor soils and beneficial effects for soil fertility, as well as providing shade, firewood and food. Here we present results of digestibility and nutritional assessments of five Inga species used in agroforestry and silvopastoral systems in Northern Mato Grosso region, Brazil. These species were sampled in family farmers' properties that participate in the Sementes do Portal project, coordinated by Instituto Ouro Verde. Sampling the species (I. edulis I. laurina I. macrophylla, I. nobilis I. pilosula adult trees, avoiding sampling two trees less than 50 meters apart. These trees were planted in homegardens or agroforestry systems, except I. nobilis, which grows spontaneously in wet areas. For each tree, we measured the diameter at breast height (DBH), total height and crown area, and visually estimated crown density using a five-point scale. Leaves of each tree were collected for determining dry matter, mineral matter, ethereal extract, crude protein and fibers. All species exhibited basal branching, usually below 2 m, which is useful for direct feeding on trees. I. edulis and I. laurina were the largest, with average DBH of 61.1 and 33.2 cm and crown areas of 102.4 and 77.7 m2, respectively. Most of the trees had an intermediate crown density, which would allow the development of pasture under the canopy, except I. macrophylla, which provides deeper shade, and is therefore better suited to control weeds. All species have high protein content, exceeding 10% of dry mass. Despite the fiber content of Inga leaves was similar to other tropical forage plants, digestibility was much lower (ca. 20%).Nutritionally, I. edulis and I. macrophylla stand out, as values of mineral matter and crude protein are significantly superior to others and with significantly lower fiber content, yet still not ideal for animal nutrition. To confirm that the leaves of these species are not useful as forage, specific tests for lignin are still required. Regardless, fruits of these species have nutritional qualities for both animals and people, being the pulp rich in carbohydrates and the seeds valued as natural purgative. This study provides important information for agroforestry and silvo-pastoral system designs, such as size and crown density of adult trees for five Inga species, as well as the nutritional quality of the leaves, although future studies are still needed to confirm leaves digestibility and to incorporate the fruits of these species into analyses. Further silvicultural studies are also welcome, since few Inga species have been used yet in agroforestry or silvopastoral systems. The wonders of agroforestry's biophysics"}]},{"head":"-L20 -Agroforestry and agroecology: opportunities and challenges","index":210,"paragraphs":[{"index":1,"size":110,"text":"Agroforestry and agroecology: the key divisions in the growing Land Use Army (organic, biodynamic, permaculture etc.), applying ecological principles and practices to the design and management of agroecosystems, and integrating the long-term protection of natural resources as an element of food, fuel and ging more complex systems, relying on diversity within the system to deliver ecosystem services such as pest control and maintaining fertility. However, there are challenges to managing agroforestry systems with an agroeco logical approach, particularly with regards competition for limited resources such as nutrients, and weed control within the tree rows. This session will explore the opportunities and challenges that combining agroforestry and agroecological farming can generate. "}]},{"head":"L20_O.01","index":211,"paragraphs":[{"index":1,"size":933,"text":"The 10 Elements of Agroecology: Guiding the transition to sustainable food and agricultural systems Barrios E. (edmundo.barrios@fao.org), Bicksler A., Siliprandi E., Batello C., Brathwaite R. Food and Agriculture Organization -FAO, Rome, Italy Agroecology is an integrated approach that simultaneously applies ecological and social concepts and principles to the design and management of food and agricultural systems. It seeks to optimize the interactions between plants, animals, humans and the environment while considering the social aspects that need to be addressed for a sustainable and fair food system. Agroforestry is considered a realization of the promise of an agroecological approach. The 10 Elements of Agroecology emanated from a FAO consultative process, expert reviews and regional seminars, and include: diversity, co-creation and sharing of knowledge, synergies, efficiency, resilience, recycling, human and social values, culture and food traditions, responsible governance, circular and solidarity economy. As an analytical tool, the 10 Elements can help countries to operationalize agroecology and promote agroforestry by linking increased biodiversity and the use of local and co-created knowledge to build relevance, credibility and legitimacy, with agroecosystem redesign that enhances synergies, efficiencies and resilience, and helping to enhance governance while developing a circular and solidarity economy. By identifying important properties of agroecological systems and approaches, as well as key enabling environment conditions, the 10 Elements constitute a guide for policy makers, practitioners and stakeholders in planning and evaluating transitions aiming at sustainable food and agricultural systems. Agroforestry systems in the Talamanca region in Costa Rica are particularly interesting because their vertical and horizontal organization is particularly diverse. Plant diversity was separated by different functional groups of the plant communities. This helped to better understanding the rules that govern the production in multi-strata systems. The aim of this study was to address the question, how plant diversity influences the global productivity of agroforestry systems? Plants in nine plots of 100 m² in each of 20 fields were classified into five groups (banana, cacao, other fruits, timber, and firewood), and diversity was assessed by the Shannon-Wiener index. A global evaluation of the productivity of these systems was possible with the estimation of the production of each plant during 1 year. This production was converted into income according to local market prices. While we observed a global positive effect of plant diversity on global income. When considering the functional group separately, there was a positive effect of plant diversity for higher strata groups (other fruits, firewood, and timber) and a negative effect for lower strata groups (banana and cacao). This suggested that complementarity between plants was stronger than competition for those plants occupying the higher strata of the canopy but that competition was stronger than complementarity for plants occupying the lower strata of the canopy. Agroecological benefits realized by small farmers adopting tree-based farming Bedare G. (ganeshbedare@gmail.com), Daniel J., Sawant Y. Agriculture, BAIF Development Research Foundation, Pune, Maharashtra, India Trees are commonly found on farmland in India, but intensive agroforestry is not often practiced. BAIF Development Research Foundation, a non-government organization engaged in rural development, introduced tree-based farming among small farmers about 30 years ago. It has grown into a major land-based development programme over the years, covering about 80,000 ha in 11 states of India. The socio-economic benefits of this agroforestry model, locally known as the wadi system, are well documented (Sohani 2014, Indian Farming, ICAR, 33-35;Sawant et al, 2016, National conference on Forestry in India, HFRI, 26). It comprises of fruit trees, annual crops and fast-growing multi-purpose trees. Besides the easily measured socio-economic gains such as farm income and reduced distress migration, the wadi system brings in many agroecological benefits. As these benefits have not yet been scientifically examined, the study reported here is an attempt towards understanding the agroecological aspects of this system. The location of this study is villages around Jawhar in Maharashtra state of India and the mango and cashew trees were about 15 years old. Information was collected by interviewing 30 farmers with a questionnaire. The study revealed increased biological activity in the farms adopting the wadi system. This increase was seen in the biodiversity of birds and insect as well as soil organisms. Farmers attributed many ecological benefits to this increase in biodiversity, but it was not always possible to find direct relationships. Reduced pest incidence as a result of birds feeding on them was a major benefit, but some farmers also found the birds feeding on fruits and intercropped grain crops. More than 95% of the farmers felt the interaction among the birds, insects, reptiles and crops to be positive. A major ecological benefit of tree-based farming is the reduction in deforestation in the neighborhood of the farms in the study as fuelwood and fodder are produced in the farm itself. In some cases, this has resulted in moderated flow of rainwater and more ground water recharge. Reduction in soil erosion is another benefit that in turn improved biological activity of soil. In general, interventions aimed at building a sustainable farm production system resulted in a more favorable ecosystem on farms practicing wadi system. Improved soil fertility and the favorable conditions under the tree canopies provided a better environment for weed growth. Plants that were few in number earlier have now become serious weeds and some new weeds have also been observed. Although the ecological benefits of the wadi system far outweigh the negatives, there are instances where farmers have not fully realized the potential because of unsustainable practices such as excessive use of water and agrochemicals. This emphasizes the need for adopting appropriate practices in order to sustain the gains. Keywords: Wadi system, Agroecology, Biodiversity, Deforestation, Soil erosion."},{"index":2,"size":418,"text":"Mountains cover almost a quarter of the earth's surface. Both urban and rural areas depend on mountains for essential ecosystem services such as fresh water, crops and highvalue products. Mountainscapes are storehouses of natural and cultural diversity; they are on the frontlines of global change, and can provide insights and solutions to global problems. Multi-functionality of mountainscapes depends on intertwined and interdependent five pillars of biological diversity which includes microbes, plants, fungi, invertebrates and vertebrates, which are the result of hundreds of millions of years of evolution. Agroforestry could be a potential innovative solution for addressing mountain challenges such as climate change and restoring functionality to mountain ecosystems, especially if we seek new, innovative ways of linking the use of trees with positive feedback models aimed at supporting the five pillars of diversity. Agroforestry is broadly defined by the FAO as the use of trees in agricultural systems, however, given the changes imposed on agricultural systems over the past two decades, perhaps it is time to redefine this concept. It is time to think about the goals and drivers behind the use of trees, what are the overall benefits to be gained by incorporating trees into a social-ecologicalsystem, beyond C capture or shading. Trees function as complex ecosystems, acting as reservoirs of biodiversity, providing feedback loops into the broader ecosystem, furthermore, these effects are unique to a given tree species. Therefore we need to first understand the complexities of a given tree species and the effects it has on the surrounding ecosystem before we decide on its use. An integrated approach towards agriculture is now more commonplace than in the past, and in light of this, we should rethink how trees fit into these integrated systems. What roles should the trees be playing, especially in environments where there remains a delicate balance between human activities and nature. With this in mind, I would like to propose the following steps for restoring mountainscapes for a better future: a) selecting superior species based on local social-ecological systems; b) developing vertical communities with tree-shrub-grass layers, as well as the above-below ground interaction of roots, mycorrhiza and soil microbes; c) Integrated system with tree-crop-livestock; and d) Biomass-based circular economy & society. The sustainability of agroforestry systems largely depends on incorporating business models that use new technologies to restore landscapes and recycle biomass, which benefit farming communities while generating sustainable profits and protecting the environment. We are carrying out research into new plants/crops/ fungi that can thrive in the face of global change."},{"index":3,"size":187,"text":"Keywords: Trees, mountainscapes, biological diversity, integrated system, circular economy. In this study we investigate trade-off and bundle formation among ecosystem services (ES) in Mediterranean woody crop systems. Therefore, we selected frequently tilled almond monocultures which are known to be associated to reduced ecosystem service potential. We capacity to improve regulating and supporting ES. We measured indicators related to carbon stock, pollination and biodiversity and relate these to provisioning of almonds to assessed whether ES bundles or trade-offs emerge. We found that pollination indicators form an ES bundle with almond provisioning (Fig. 1 c-d). Plant species richness was significantly negatively correlated with almond provisioning (Fig. 1, f). This suggests that maintaining understory vegetation results in a trade-off for almond provisioning. Our results also suggest that tradeoffs and synergies might be management specific, as GM was better capable of enhancing both food provisioning and understory plant diversity in comparison to the other treatments. Soil organic carbon (SOC) and insect species richness were not correlated to almond production. To conclude, this study shows that agroecological management in almond orchards may be an efficient tool to enhance carbon stock and biodiversity."},{"index":4,"size":9,"text":"Keywords: Ecosystem services, trade-offs and bundles, Mediterranean, almonds, Spain."},{"index":5,"size":222,"text":"Canada contributes significantly to world food production, but this has not occurred without environmental costs. The fragmentations of the agro-ecosystem and associated habitat destruction for monoculture production have contributed to a loss of flora and fauna diversity. Producers often regard field boundary habitats as a non-productive land that potentially limits crop production. We hypothesized that non-crop areas provide a mixture of habitats that contributes to the diversity and dynamics of the agro-ecosystem, with net positive impacts on adjacent crops. To test this hypothesis we: 1. spatially analyzed the extent and distribution of field boundary habitat influences on in-field variability using precision agriculture approaches, such as micro scale in-field measurements of soil moisture, above-and below-ground biodiversity, insect pests, pathogens and weeds, crop metrics from UAV-based sensors; and 2. quantified the benefits of conserving non-crop areas on crop yield and quality. We collected data from 15 sites representing one of two field boundary habitat types in the black soil zones of Saskatchewan, Canada: planted shelterbelt (Figure 1), natural hedgerow, and open field with no field boundary habitat. The data is currently being analyzed. The intent is to provide science-based information on the functioning and value of field boundary habitats and the extent of their influence into adjacent field crops. Potential for using biochar in resource-limited agroforestry systems Nair V. (vdn@ufl.edu), Nair P., Freitas A."}]},{"head":"University of Florida, Gainesville, FL, United States","index":212,"paragraphs":[{"index":1,"size":421,"text":"One of the major expectations from agroforestry systems (AFS) is to maximize the use of locally available and environment-friendly resources instead of harmful and resourcedepleting chemical inputs. In this context, the use of biochar from locally available farm materials to substitute, and complement to some extent, the use of synthetic products holds promise. A meta-analysis of studies on biochar use in agriculture from 1850 to 2011 showed that 50% of cases reported positive effects, 20% no effect and 30% negative effects on crop yields (Maddox, 2013). Wide differences in nutrient availability exist among biochar produced from plant-and animal-based materials (Table 1) and could result in variable crop-yields when biochar is used as a nutrient source. Biochar produced from mixed feedstocks (feedstock refers to the materials used for biochar production) would be an option to optimize the amount of biochar to be land-applied to maintain soil fertility (Nair et al., 2017). For example, both plant-and animal-based \"waste products\" are often available in AFS in many parts of the world. Application of biochar within tree-rows or its use as a nutrient source in other AFS is yet another, relatively unexplored opportunity. Developing appropriate techniques for biochar use will be a win-win situation in terms of crop-yield increase and waste disposal for smallholder farmers particularly in developing countries. Modern agroforestry emerged in the 70's as an answer to the disappearance of tropical rainforests. To improve land management, it was felt necessary to combine crops, trees and animals and apply management practices compatible with the cultural patterns of the local population. Yet, today's agroforestry relies often on simplified associations of one crop and one tree species. Such associations ignore the \"forest dimension\" of agroforestry and fail to restore forest-like ecosystems and promote local cultural values. I argue that between the 2 extremes of \"forest gardening\" and a simplified two-plant association, there is a continuum of multilayer agroforestry options with environmental attributes close to natural ecosystems, management features compatible with existing practices and productive qualities comparable if not better than simplified associations. I provide examples from Indonesia (multistrata agroforests in Sumatra), Egypt (multilayer agriculture in the Nile Delta), Cameroon (cocoa agroforests near Yaoundé) and Bangladesh (agroforestry gardens near Rajsahi). They show that multilayer agroforestry has a range of sustainability attributes and performs well for soil carbon sequestration and climate change mitigation. If agroforestry is to play its role to address environmental and climate change challenges and diversify land-based commodities, it needs to learn from complex agroforestry associations and recommend them as viable alternatives to industrial agriculture."},{"index":2,"size":309,"text":"Knowledge of tree water use can inform water requirements of interacting components and best bet management options for farmers. The objective of the study was to assess the daily water use patterns of mature Cordia africana and Albizia coriaria trees at different times of the year. This study deployed 6 sapflow meters on stems of 3 selected trees each of C. africana and A. coriaria. We measured the daily sapflow of these two species using the heat ratio method (HRM). The two species show contrasting patterns of seasonal water use across leaf shedding stages characterized by episodes of reverse flow in A. coriaria. This is an indication that the two species may have different water-use strategies. C. africana generally used 12% more water than A. coriaria on a standardized daily basis. There was a significant main effect of the interaction between tree species and season on daily water use. The consistent and predictable leaf fall in A. coriaria may be beneficial for planning farming activities among smallholders. This knowledge is useful in facilitating development of appropriate tree management regimes for optimal utilization of soil water. Managing on-farm trees can be a powerful means of controlling tree water use in agroforestry system. For example, canopy pruning can reduce the water demand of the tree component and may result in recharge in the croprooting zone, while prolonging the period of intercropping. Background Slash-and-burn agriculture or Shifting cultivation or Jhum cultivation, a form of traditional agroforestry system constitutes the basic subsistence of livelihood among rural masses throughout the tropical areas. Despite its environmental impact, this practice has been continued adopting as a sole agricultural resource for the hill community residing in tough topography. Shortening of fallow length of Jhum cycle in one hand and supporting the inclining population in the other is challenging concern for co-existence between agriculture and hill forest ecosystem."}]},{"head":"Aims","index":213,"paragraphs":[{"index":1,"size":125,"text":"The present investigation aimed on comparative assessment of pre-burnt forest litter (PBFL) and their burning effect on soil quality index (SQI) at different fallow length viz. Agroforestry appears as a way of diversifying farms in the European context. These practices are, however, only emerging in northeastern France. There are a multitude of reasons why farmers venture or do not venture into agroforestry practices. The general tendency is that farmers consider investing into agroforestry if have concrete production, environmental and/ or socioeconomic performance indicators for their specific regional conditions. The overall objective of our project is to evaluate the potential of alley cropping agroforestry plantations at the scale of the French Grand-Est region, based on indicators and to simulate agroforestry deployment scenarios at the territory scale."},{"index":2,"size":53,"text":"The impact of introducing trees into agricultural plots is assessed at 3 scales: 1) detailed analysis of biophysical processes at a well-experimented site, 2) analysis of a subset of processes at the plot scale at 6 plantations and 3) an agro-environmental and socioeconomic assessment of deployment scenarios at the scale of the territory."},{"index":3,"size":123,"text":"Monitoring at the 6 plantations has just began, while the pilot site is monitored in terms of production and soil functioning since 5 years. The site is composed of 2 mixtures (poplar/ alfalfa and alder/cereals) and corresponding monocultures. During the first years, agroforestry plots were less productive than monoculture plots (shown for the trees on the figure below) because of an intense competition between species. However, this trend is currently changing. Trees alone contribute 9% of total N addition in AFS in India (Fig. 1). Thus, BNF tree species can contribute a significant role in N-cycling in agro-ecological systems. Multi-scale assessment of the impact of tree hedgerows on wheat root microbiota : organic vs. conventional farming Ricono C. (claire.ricono@univ-rennes1.fr), Mony C., Vandenkoornhuyse P."}]},{"head":"ECOBIO, Rennes, France","index":214,"paragraphs":[{"index":1,"size":467,"text":"Agricultural intensification (i.e. landscape homogenization, intensive agriculture) induced a huge loss of biodiversity in agroecosystems, including microorganisms community. Symbiotic microorganisms are key functional group due to their action favoring plant nutrition and protection (1). Loss of biodiversity can reduce these functions and promote parasitic behavior evolution (2) leading to lower plant's performance. This work will address the impact of tree hedges in agricultural landscapes, supposing that they constitute a microorganisms biodiversity refuge, and will analyze the consequences of agricultural practices on soil and wheat roots microbial community. We hypothesized that presence of hedgerows and organic farming act as adventices plant sources and dispersal vector in crops, leading to a more diverse and efficient symbiotic microorganisms pool. The microbial community assessment will be done by mass-sequencing approaches. For each sampling time-point, we will performed soil and wheat roots sampling, floristic surveys, measures of wheat production and health. Data will be analysed under an innovative view of microbial landscape ecology. Two independent gradients of tree hedgerows density and % of organic farming will be used to study microorganisms community at landscape and parcels scale (Figure 1). This work is expected to provide a new understanding for a more sustainable agriculture by stimulating a biodiversity promoting the fertility ecological service. Conventional, intensively managed coffee monocultures are environmentally damaging. The use of shade trees and organic management are welcome options to reduce coffee physiological stress, reduce synthetic inputs and restore soil biological balance. However, whether the effects of shade trees on soil functioning would be similar for different coffee management practices should be investigated. Here, we measured soil total C and N, inorganic N, Olsen P, pH, biomass produced in bioassay, nematode and microarthropod communities under three shade types (unshaded coffee, shaded with Terminalia amazonia, and shaded with Erythrina poepiggiana) combined with two management practices (organic and conventional) in a 17year old experimental coffee plantation in Turrialba (Costa Rica). Under conventional management, soil nutrient availability and fauna densities were higher under shade, regardless of the shade tree species (Fig 1). Under organic management, only Erythrina, a heavily pruned, N 2 -fixing species, had increased soil nutrient availability and fauna density, while Terminalia shade had a null or negative impact. Soil N availability was linked to bacteria-feeding nematodes while soil P availability was more linked to detritivorous microarthropods. Higher fertility was recorded in soil with balanced foodwebs. This study highlights the importance of the choice of shade tree species for soil fertility in low input systems, more so than in fertilized systems. Redundancy analysis of soil biogeochemical parameters (in red) constrained by nematode and microarthropod communities (in black). Nema: nematodes; Detri: oribatid mites and collembola; Sh: Shannon Index; B-f: bacterial-feeding nematodes; F-f: fungal-feeding nematodes; Om + Ca: omnivorous and carnivorous nematodes; Surf. Coll: \"surface-living\" collembola; Soil. Coll: \"soil-living\" collembola; Orib: oribatid mites."},{"index":2,"size":543,"text":"Keywords: Management practices, Shade type, Soil fertility, Soil food web, coffee. Associating shade trees to cocoa plantations supply many services to farmers, yet their contrasting impacts on soil fertility in relation to their traits remains little understood (Blaser et al., 2017) , NH 4 + , Olsen P, pH, bioassay and cocoa yield. Shade tree -cocoa association increased total litterfall for all the species without impacting on cocoa yield. Further, litter N was higher with Albizia, while litter P and Ca were higher with Milicia and Ceiba and litter pH was lower with Canarium and Dacryodes. Soil properties were not impacted by Canarium and Dacryodes, while Albizia, Milicia and Ceiba increased soil inorganic N and P content and bioassays (Fig 1). Finally, soil pH and total C and N content increased under Milicia and Ceiba, leading to the highest increase in soil fertility. Multiple regression models suggested a critical role of litter Ca to improve soil fertility in such systems. Using shade trees like Milicia or Ceiba with high Ca cycling should thus be advised to farmers to improve their system. Agroforestry systems play a very important role in reducing wind speed, improving soil structure, increasing biodiversity and carbon sequestration. One of the beneficial microbiota that have a symbiotic association with most of the plants in agroforestry is arbuscular mycorrhizal fungi (AMF). The diversity of AMF can be a critical factor in enhancing both the productivity and the diversity of plants in ecosystems, and the plants in the ecosystem also strongly influence the occurrence of these fungi. However, very few studies have been carried out on the impact of mycorrhization on walnut trees with associated crops. The integration of a vegetative cover in intercrop in walnut plantations is an innovative practice, still little developed. Although cover crops are widely used in conservation agriculture or organic farming, there is little knowledge on the impact of cover crops on native mycorrhizal fungi. This mycorrhizal approach is reinforced in this study by the presence of crops in the walnut trees (maize mainly) during the first years of growth. Our study focused on the natural mycorrhization and the ecosystem services rendered two important crops in South-western France: maize and walnut. In June of 2017 and 2018, root and rhizosphere soil samples of walnut trees were collected from the agroforestry plots in Dordogne and the experimental station of Creysse (South-western France) to evaluate the relationships between different cropping systems and AMF communities. Six modalities (Walnut in Conventional farming, Walnut in Organic farming, Walnut with vegetal cover, Walnut and maize in agroforestry, Maize in direct sowing with seeds untreated and Maize in direct sowing with seeds treated) and three types of parameters (technical itineraries, biological and physicochemical indicators) are studied. Our results showed a higher mycorrhizal colonization in walnut trees in organic farming in comparison with those in conventional farming. The highest percentage of total AMF colonization was recorded for walnut trees (34%) in the presence of faba bean. These findings showed the great role played by vegetation cover in the enhancement of mycorrhizal colonization of plants. The establishment of plots of mycorrhizal communities on walnuts with intercrop maize culture would be a very beneficial model to study the transfer of arbuscular mycorrhizal fungi from walnut trees to maize."},{"index":3,"size":10,"text":"Keywords: arbuscular mycorrhizal fungi, agroforestry, walnut, cover crops, organic farming."}]},{"head":"L20.P.16","index":215,"paragraphs":[{"index":1,"size":500,"text":"Use of uncomposted woodchip as a soil improver in arable and horticultural soils Westaway S. 1 (sally.w@organicresearchcentre.com), Smith J. 1 , Rousseau A. Repeated applications of composted material lead to long term improvements in soil organic matter (SOM), soil water retention and improved nutrient status. The application of uncomposted, ramial, woodchip to cultivated soils also has significant potential benefits. A long-term study in the US (Free, 1971) showed positive results in terms of soil biological activity and SOM. Research by Caron et al (1998) confirms these findings and recommends using smaller diameter material, chipped green without leaves. Few studies have followed up on these findings. This requirement for smaller material makes agroforestry systems based on short rotation coppice and boundary hedgerows ideal for ramial woodchip production. This paper reports on the first-year results from trials comparing the addition of uncomposted and composted woodchip produced from agroforestry systems as a soil improver. The trials aim to increase the sustainability of farm systems by linking hedgerow management with soil improvement, providing an economic incentive for management of on-farm woody resources. First year results have shown no significant differences between ramial woodchip and compost in terms of soil biology, soil chemistry or crop parameters (ley biomass and spring barley yields). Where two years data were available, we saw an increase in available P, K, Mg, SOM and biological activity in both the ramial and composted woodchip. The trials will be monitored over the coming years to confirm these results. In Ethiopia trees on farms have big potential as sources of germplasm and for improving livelihood through ecosystem services. However, shortage of sufficient number of plus trees and selection of 'wrong' plus trees may be an impediment in realizing their potential. Tree breeding and quality tree seed production are expensive ventures, in terms of capital and knowledge. Therefore, planning and implementation of tree improvement with resource poor farmers needs to be less complex and cheaper. The seed source, procurement and possibilities for improvement of two prioritized farm trees Cordia africana and Faidherbia albida were assessed in the framework of provision of adequate tree seed portfolio for forest landscape restoration in Ethiopia. Standard methodologies were followed for: seed source description, estimation of number of trees, seed crop production and possibilities for improvement. Mean tree seed production, for both species, varies between 10 -107 kg/ha depending on number of trees per ha. Farm trees are the most common source of seed for the formal tree-seed market, and the farmers, individually or collectively, are major suppliers. There is big potential for tree improvement and quality tree seed production through the establishment of Breeding Seedling Orchards (BSO) as evidenced by C. africana. Similarly, there are fertile grounds to improve F. albida in the same pattern. BSO is a new model of tree improvement in Ethiopia. This approach can further be developed and have additional impact on the provision of quality tree seed in Ethiopia, if farm households can participate through maintaining of best quality trees on their farms."},{"index":2,"size":8,"text":"Keywords: farm trees, tree improvement, BSO, tree seed."},{"index":3,"size":734,"text":"L21 AF Germplasm Uruguay, a traditional livestock country, experienced since the nineteens an authentic forestry boom, based on commercial plantations of fast growing exotic species. Almost two decades later, a policy for the establishment of agroforestry systems in the country was launched by the government and fairly adopted by small and medium-sized producers. As an innovation back-up for the smooth application of this process, INIA Forestry Department developed a research program on multipurpose forest trees domestication. This work presents some of its mayor developments. The first step was the identification of promising native and exotic species through wide stakeholders consultations, followed by seed sources procurement and a germplasm bank establishment. The requirements for a successful nursery planting production of the main identified species (Figure 1) and the establishment of a national provenances and progenies tests network constituted the additional knowledge accumulated for a smooth transition to the diversification of forest species and the agroforestry systems shaping in the country. These actions and results configured the first systematic effort on native multipurpose species domestication registered in the country, highlighting the importance of forest genetic resources, the impact of its adequate transfer in the country and the need for more transdisciplinary studies and interinstitutional networks.  Stereospermum suaveolens DC, Litsea monopetala (Roxb) Pers. Holarrhena pubescens and Mangifera sylvatica Roxb. grown in wild in tropical forests of Bangladesh are valued for their fruit, timber and medicine. However, they are gradually eroding from forests due to deforestation, illegal harvesting, and inadequate knowledge about their uses. This study aims to assist in preserving these species and investigated their uses and domestication potentiality through seed and leafy cuttings from mother tree species with the effects of different IBA (indole-3-butyric acid, 0, 0. Agroforestry having high potential for simultaneously meeting three important objectives: protecting & stabilizing ecosystems; high economic productivity; ensuring better livelihood security. It is an option to increase tree cover in meeting the targets of SDGs and Nationally Determined Contribution for climate change action of India. India's livestock sector is one of the largest of the world with significant role in supplementing family income in rural areas. However, fodder availability is a big challenge and at the end of rainy season, animals suffer due to lack of protein rich diet. Under rainfed conditions farmers either feed their animals with the low-quality hay or travel long distances to gather fodder. In such circumstance agroforestry play an important role as fodder trees are able to withstand the drought and provide a solution. The AICRP on Agroforestry initiated research on fodder trees and identified important species in different agro-climatic regions of the country and evaluated. However, limited efforts have been made for fodder tree improvement through management and breeding. Most indigenous fodder trees not even gone through simple selection for plus trees, though, importance of quality seeds or vegetative propagation has been realized for improving the productivity. Management, agronomic features and nutritive value of these trees are being worked out so that the production and use of feed can be more efficient. The studies indicate that improvement programme for fodder trees is very tedious compared to crops. In India, so far for fodder trees, germplasm collection and breeding has been done on few species and results indicate the quality of green fodder mainly depends on the voluntary intake by the livestock and availability of protein, energy, minerals & vitamins to the animal. The low dry matter intake appears to be a limiting factor in energy supply from tree leaves and low digestibility of leaves is possibly due to high lignin and tannin content. Tannins also bind proteins and thereby lower their digestibility and also adversely affect calcium use. About 60% of fodder trees evaluated contain > 50% total digestible nutrients on a dry matter basis; 40% of trees than 55% TDN are better energy source. The season wise nutritive value of fodder trees and ranking for their nutritive value & palatability and complete value chain for tree fodder meal has been developed which is relatively cheaper compared to other feeds. The integration of fodder trees through site specific agroforestry systems have shown potential to supply nutritious fodder and conserve natural resources. Silvipasture system on an average cycle of 10 yr can generate 120 mandays/ha/yr employment with B:Cratio of 1.5 to 2.1 indicating viability of these systems. Thus fodder tree based agroforestry systems may play an important role in reducing the fodder shortage problem."},{"index":4,"size":38,"text":"Baobab (Adansonia digitata) is an iconic African fruit tree of high nutritional importance due to high nutrient and anti-oxidant contents but remains neglected and undomesticated. For its domestication and improvement, ICRAF is establishing a field genebank representing Africa."},{"index":5,"size":608,"text":"The first batch of seedlings was established using seeds from ~165 individual trees from four countries (Zambia, Mali, Kenya and Tanzania) representing 17 provenances. DNA was extracted and used to generate 138 high quality DArT-SNP markers (from 4,617 SNPs) from 320 half-sib accessions. Using MicroSatelliteAnalyzer (MSA4.05), Nei's chord genetic distance was estimated and Neighbour Joining (NJ) tree was drawn using PHYLIP3.695 (Figure 1). The genetic distance data was bootstrapped for 100 times in MSA followed by drawing NJ trees and a consensus tree generated using PHYLIP. The phenetic trees were visualised and edited by FigTree v1.4.3. The data indicated very strong population structure with very good bootstrap support for three distinct genepools-Zambian (Zambia, four provenances), Malian (Mali, five provenances) and East African (Kenya-two provenances; Tanzania-six provenances). Zambian populations had the highest genetic diversity followed by Malian and the least diverse were the East African populations. This data is being used to establish core collection of 100 accessions with highest genetic diversity and 17 forced selections to ensure representation from all the populations (Figure 1).  Cedrela odorata is a tree species with a high commercial value that has been negatively affected by overexploiting to such an extent, that it is now rarely present in natural forests and is mainly associated with agroforestry and other agricultural systems. The populations of C. odorata are becoming increasingly isolated in a matrix of different land use systems which impedes their connectivity and influences their genetic variability. In the present investigation, the genetic diversity of populations of C. odorata in the Nicaragua-Honduras Sentinel Landscape was studied with the objective to identify potential resources of germplasm for forest restoration and conservation circa situm. Samples of 164 individuals were fingerprinted with 10 SSR loci. The results showed significant differences in population structure among three genetic clusters (Fig. 1a), where clusters A and B showed high diversity and allelic richness, whereas cluster C presented low genetic diversity. Furthermore, the patterns of genetic diversity showed close relations to the phenological status and altitude a.s.l. of the sampled trees. From the conservation point of view, cluster A (high in genetic diversity and clearly geographically defined, Fig. 1b) can be considered an important source of germplasm. However, there is still a lack of deeper understanding of the cause of genetic differences among subpopulations from a small area with relatively homogeneous environmental and topographic characteristics.  With EcoAF, download a group of concrete farm parcels, place if needed the polygons of main soil types, then play with possible futures! You can choose whatever combinations of lines, straight or broken or in spots, around or inside the field, decide where to plant trees, shrubs and grasses, in hedges or placed points, the species/varieties and the quality of the bundles of plants. The growth will depend on further choices on how you intend to manage the bundle of plants, the plantation, then all the components during their life. A further development will include simplified crop/animal productions, and the possible impact of the growth of trees and shrubs on them. Each simulation will include variability and aleas. 2D and 3D graphic interfaces and visualizations, at once and delayed datasheets let compare the consequences of different choices. The EcoAF module is developed in French and English on CAPSIS (Computer-Aided Projection of Strategies In Silviculture ; http://www.inra.fr/capsis), with the aims to be user-friendly and transparent about the degree of reliability of parameters. Its conception and evolution take into account the need of advisors in agroforestry. We illustrate some consequences of genetic and silvicultural choices: plant an ordinary or improved variety, densify or not the plantation, take great care or not of the young plants while planting etc."}]},{"head":"3D visualizations","index":216,"paragraphs":[{"index":1,"size":285,"text":"Keywords: simulation, genetic, agroforestry, farm, economy. Imagine waking up one day and cannot get a cup of your preferred coffee, tea or chocolate bar. It may not be easy to relate this issue to agroforestry but think of the tree crops in the farmers' fields being destroyed and cannot be replaced! Almost 90% of the of economically important tropical tree crops such as cocoa, tea, coffee, palm oil, mangoes etc. are produced by small holder farmers who own an average of less than two hectares of land. Breeding is important to maintain the quality and production of these tree crops and relies heavily on the maintenance of the species diversity. However, in most countries breeding and improvement of these species, rely on the diversity collected and selected over years. Most of these species' diversity has been lost due to deforestation, degradation and destruction of natural habitats, including clearing for urban centres, settlement and farming, logging, forest fires, overexploitation and unsustainable harvest, natural disasters and climate change. It is therefore important to safeguard these national collections. However, maintaining these collections has several challenges such as limited funding and intermediate/recalcitrant seed (can only be maintained as field, suspension cultures or cryopreservation). It is therefore important to address how these national collections can be secured. Continued breeding will require promoting diversity exchange across the countries. However, germplasm exchange for commercially important species is limited due to national rivalry. Where they exist, international collections (such as cocoa and coffee collection in CATIE) are easily accessible to breeders. This paper explores the challenges relating to conservation of high value tree genetic resources and proposes options to facilitate their conservation and use Keywords: Tree genetic resources, Conservation, Tree improvement, Tree breeding."},{"index":2,"size":275,"text":"Imagine waking up one day and not getting a cup of your preferred coffee, tea or cocoa because the tree crops in the farmers'fields and in the forest are vulnerable and cannot be replaced! Almost 90% of the of economically important tropical tree crops such as cocoa, tea, coffee, palm oil, mangoes etc. are produced by small holder farmers who own an average less than two hectares of land. Breeding is important to maintain the quality and production of these tree crops and relies heavily on the long-term maintenance of the species diversity. In many countries, the breeding and improvement of these species rely on the diversity currently conserved ex situ that has been selected over years. Much of these species' diversity is being lost due to deforestation, degradation and destruction of natural habitats, including clearing for urban settlement or farming, forest fires, unsustainable harvest, natural disasters and climate change. It is therefore important to safeguard and expand these nationally based ex situ collections. However, maintaining these collections has many operational and technical challenges, such as limited funding and intermediate/recalcitrant seed, that require actions to secure their long-term conservation and use. Continued breeding will depend upon greater diversity exchange across the countries. However, international germplasm exchange for commercially important species has been limited due to unclear national access and benefit sharing policy. Where they exist, international collections (such as cocoa and coffee collection in CATIE) can be more easily accessible to users. This paper explores the challenges of conservation of high value tree genetic resources and proposes options to facilitate their global conservation and use Keywords: breeding, commercially important, conservation, germplasm sharing, tree genetic resources."},{"index":3,"size":132,"text":"L21 AF Germplasm Griffonia simplicifolia is a legume native to the west coast of sub-Saharan Africa with a seed rich in fatty acid and also known to be the most abundant natural source of 5-hydroxytryptophan (5-HTP). 5-HTP is a natural precursor of serotonin, a neurotransmitter secreted by the brain and involved, among other things, in the regulation of mood. In Togo, this plant is used as a medicine. Indeed, the leaves of the plant are eaten like vegetables; while the various organs of the plant are exploited by traditional healers for the manufacture of traditional medicines involved in the treatment of a variety of ailments. The seed of Griffonia simplicifolia, which is very rich in fatty acids, is a potential source for the production of lipids which can be used in nutrition."},{"index":4,"size":238,"text":"The overall objective of this study is to promote the agroforestry culture of the Griffonia simplicifolia plant with a view to food security and the fight against poverty in rural area of Togo. More specifically, it involves: to make the phytochemical screening of the leaves and the seed of Griffonia simplicifolia; to isolate some molecules with interesting bioactivities from these organs; to perform a physico-chemical characterization and to determine the nutritional factors of the mentioned organs and the oil extracted from the Griffonia simplicifolia seed. 5-HTP was quantified by High Performance Liquid Chromatography (HPLC) analysis. After hexanic extraction with Sohxlet, the extraction yield and physicochemical characteristics of the oil were determined. The results show that Griffonia Simplicifolia seed of Togo contains a 5-HTP with content of 90.24 ± 4.00 mg/g of powder and an oil yield of 25.25 ± 0.30%. The phytochemical test revealed the presence of alkaloids, tannins and flavonoids. Biochemical analyzes show that Griffonia Simplicifolia seed is rich in rare amino acids, necessary for the proper functioning of the human body. The physico-chemical characteristics obtained show that Griffonia simplicifolia oil from Togo is rich in micronutrients. The obtained results then justify the use of the plant as a medical food in Togo. However, for a better conservation of the biodiversity of this plant species, it is important to promote the cultivation of this plant with many advantages, but which is consumed until now by the picking."},{"index":5,"size":80,"text":"Keywords: Griffonia simplicifolia, phytochemical composition, nutritional values, agroforestry culture, biodiversity conservation. Son tra (Docynia indica (Wal.) Decne) is found in the high-elevation mountainous areas, above 1000 masl, in China, Bhutan, India, Myanmar, Nepal, Pakistan, Thailand and Northern Vietnam. Analysis of Son tra fruit showed that it contains polyphenol is with antioxidant properties that benefit human health. Son tra has been used prominently in the reforestation program of Vietnam. The area of plantation has expanded rapidly, using unimproved local seed sources."},{"index":6,"size":225,"text":"Breeding to improve fruit value could therefore contribute to the livelihoods of farmers and fruit processers in the mountainous area in Vietnam. The potential to convert existing unimproved plantations by top-working with scion material from selected clones was confirmed in field trials. Dominant trees were selected based on their fruit yield and fruit morphology. Scion material from 11 selected trees was grafted onto seedling rootstocks and the growth and fruit yield in trials was monitored. Fruit quality of 11 selected clones and eight unselected control trees was evaluated by a panel of 19 experienced farmers and fruit traders. The farmers and buyers' assessment indicated that there was clear significant difference between genotypes in their sale price, fruit size, fruit attractive, sweetness, sourness but not acerbity. There was a strong correlation between estimated price and fresh fruit attractiveness.11 clonal seedlings from Tuan Giao population planted in the trials in Tuan Giao district, Dien Bien province had shown the quick growth and early bearing fruit at 3rd year. The average fruit yield at year 5 was 21.9 kg per tree twice that of seedling trees which typically yield 11 kg per tree at year 7. 36 plus trees were selected based on fruit's yield and quality. From selected trees, the grafted seedlings were produced and on-going tested in three provinces, Dien Bien, Son La and Yen Bai."},{"index":7,"size":195,"text":"Further selection of Son tra plus trees should be led by farmers based on market demands in order to reach the highest value. Research to rank and select the best clones on their market value nutritional value, pest and disease resistance, is recommended for profitable expansion of Son tra growing.  (1888-1903), Norman Ross (1904-1941), John Walker (1942-1946), Bill Cram (1947-1974), Gordon Howe (1975-1980), William Schroeder (1981-2010) and Raju Soolanayakanahally (2011-present). Improvement efforts touched many genera and species but focused primarily on the genera of trees (Populus, Salix, Fraxinus, Quercus, Larix, Pinus, Picea) and shrubs (Hippophae, Shepherdia, Prunus, Caragana). During the 100+ years the Program encompassed species introductions and testing, plant exploration, classical breeding and selection, ex situ conservation and genomics. To date, the breeding efforts have changed the landscape and quality of life for thousands of prairie people by protecting 50,000 farmyards and one million hectares of farmland by distribution of >700 million trees and shrubs. Selected examples of the tree breeding program outcomes, and their potential applications for shelterbelts, biomass and bioenergy, limiting nutrient enrichment of riparian ecosystems, value added biochar and bio-products prospects, and tree species resilience to climate change will be discussed."},{"index":8,"size":18,"text":"Staff and students working on agroforestry research, development and tree distribution at Indian Head, Saskatchewan, Canada (photo 2011)."},{"index":9,"size":11,"text":"Keywords: tree improvement, ex situ conservation, genetic diversity, progeny test, bioproducts."},{"index":10,"size":301,"text":"Malnutrition is key issue for people living in Eastern of Chad. Indeed, nutrition of people from this zone is poor in iodine, vitamin A, protein and iron, which are key nutrients. In the framework of the building-resilience-and-adaptation-climate-extremes-and-disasters (BRACED) programme, high-value indigenous tree species of tropical Africa including Balanites aegyptiaca were enrolled in a domestication programme aiming at increasing and securing fruit and seed production while conserving genetic resources. This domestication matched intraspecific variability in required nutrients for human nutrition to the needs of subsistence farmers. We sampled 24 fruits in each of the surveyed 51 trees occurring in wild stands in Goz-Beida (Eastern Chad) and determined whether the species could be genetically improved for fruit/ seed production. Highly (P in fruit mass, seed crude protein and iron. Iodine was found in the seeds of one surveyed tree, and traces of vitamin A were observed in the seeds of all surveyed trees. Moderate and positive relationships (r weak relationships were observed between other fruit traits (r seed traits and between fruit size traits and seed traits. Application of independent culling method to the set of traits retained for selection allowed the sampling of 6 'plus trees' for breeding in the study site, with expected responses to selection amounting to 1.42 g, 2.41% and 0.084 mg/100 g for fruit mass, seed crude protein content seed iron content, respectively, representing a potential increase of 22.33%, 89.26% and 1.45% in the selected traits in the first-generation breeding population. Adoption of tree planting being a key option to alleviate nutritional in a context of climate change, our results highlight among-trees variation in desired characteristics for subsistence farmers, principal actors and beneficiaries of tree domestication. Genetic resources conservation may capitalize on these findings. How diverse is tree planting by farmers in the Central Plateau of Burkina Faso?"},{"index":11,"size":29,"text":"Valette M. 1 (michel.valette88@gmail.com), Vinceti B. 2 , Traoré D. 3   1 Bioversity international, Kuala Lumpur, Selangor, Malaysia; 2 Bioversity international, Rome, Italy, 3 Association tiipaalga, Ouagadougou, Burkina Faso"},{"index":12,"size":78,"text":"Burkina Faso is actively engaged in implementing actions aimed at containing environmental degradation and strengthening sustainable use of natural resources. Restoring forest landscapes not only tackles desertification but also some major environmental problems, notably climate change and loss of biodiversity. With strategic planting of trees that are useful to local people, restoration can also bring benefits such as increased food security and income generation. An adequate supply of high-quality forest reproductive material is critical in assisting this effort."},{"index":13,"size":56,"text":"Between 2017 and 2018, we carried out a survey to assess tree planting practices adopted by ring with a local association tiipaalga, supported by this in the establishment of small fenced plots (fencing excludes grazing and encroaching and foster natural regeneration of indigenous posed to the sustainable tree management practices promoted by the association); group 3"},{"index":14,"size":390,"text":"For each farmer, we recorded the diversity of tree species planted, the proportion of exotics, planting densities and seed sources used. Significant differences in the types of species planted were found between farmers of group 1 and other groups. Within fenced plots, a greater diversity of tree species and a larger representation of indigenous trees (including important food tree species) was found. Overall a diverse set of tree species was planted, but only a handful of were planted in large numbers. Better access to diverse seed sources and farmers greater technical knowledge of seed propagation resulted to be positively correlated with a greater diversity of tree species planted and a larger representation of indigenous tree species. Overall, 47% of the seed used was obtained through autonomous collection by farmers in surroundings. When harvesting their own seeds, farmers seemed to privilege as seed sources those individual mother trees with an interesting phenotype but tended to disregard collection criteria that ensured appropriate diversity in the seed lot. Access to formal sources of seed was constrained by a high seed price and limited diversity in tree species available. This study highlights the importance of promoting a combination of approaches to tree planting in order to ensure the conservation of a greater tree diversity in the landscape. Capacity building initiatives promoting adequate seed collection practices among farmers would also play a crucial role in supporting forest restoration. Finally, the study indicates that the formal tree seed sector needs to take steps to accommodate farmers needs and demands to enable a scaling up of tree planting efforts across the country. Keywords: germplasm, seed supply, fences, tree planting, Burkina Faso. The millet head miner, Heliocheilus albipunctella (Lepidoptera, Noctuidae), is a major constraint to millet production in sub-Saharan Africa. In the absence of any insecticide application by farmers, millet production relies on pest regulation by natural enemies [1]. However, the continued delivery of such ecosystem service is threatened by biodiversity loss due to simplification of land uses in agricultural landscapes. A better understanding of factors driving natural pest control is a major challenge for designing sustainable cropping systems [2]. The objective of the present study was to assess the association between canopy openness in traditional tree-crop agroforestry systems, richness and abundance of birds and bats, and their role in the natural regulation of the millet head miner."},{"index":15,"size":850,"text":"Ten study sites were selected in a 50 km² area in the Peanut basin in Senegal. In each site, a couple of millet fields were selected according to canopy openness and tree species richness. Monitoring of birds and bats, pest regulation and crop damage was carried out. Nine insectivorous bird and bat species were observed and their predator status confirmed by direct observation or DNA analysis on feces. Egg infestation of panicles was greater in open reduced when birds had access to panicles. Further research is needed to better understand relationships between trees, food webs and biological control. In complex coffee-based agroforestry, quantifying interactions within the agrosystem that impact on coffee disease regulation and on coffee yield is a major stake to design sustainable cropping systems. To this end, we analyzed the interaction network between shade trees, coffee trees (Catimor variety), coffee foliar diseases complex (CFDC; majority of Mycena citricolor) and soil characteristics. The system is characterized by 40 variables measured in 60 plots spread on three farms (monitored for 2 years) in Nicaragua. We used Partial Least Square Path Modeling (PLSPM) to study the network interaction. We built 6 blocks with the more significant variables of each component: shade trees (shade percentage, species), soil (Cation Exchange Capacity, P), CFDC (incidence, severity), coffee trees age and size, coffee growth and coffee yield. The second part of the PLSPM was performed between blocks. Shade trees, mostly the shade percentage, had direct positive effects on CFDC and soil quality, and negative effects on coffee growth and yield. Shade had also an indirect negative effect on coffee trees by increasing CFDC, which impedes coffee growth and yield. Soil variables being negatively related to CFDC, shade had an indirect effect on coffee trees. Reducing excessive shade cover seems to be a solution to enhance positive impacts of shade trees on coffee yield. Overall, shade management requires an analysis of trade-offs between soil quality, diseases regulation and yield gains. Keywords: disease regulation, ecological process, trade-off, structural equation modeling. Coffee berry disease (CBD) is widespread in Africa and has been responsible for massive yield losses of Coffea arabica. Shade trees are one of the promoted strategies to control CBD because they are supposed to reduce disease dispersal through rainsplash 1 . Nevertheless, data collected over two consecutive years in West Cameroon showed that shade did not necessarily reduce the disease incidence and could even increase it. The objective of our study was to determine the epidemiological mechanisms and environmental covariates involved in the differences between epidemics observed under shade and full sun cropping systems. For this purpose, we developed a Susceptible -Exposed -Infectious -Removed (SEIR) model, some of the parameters being function of environmental covariates. This model was combined with a probabilistic model of observation via a mechanisticstatistical approach and parameters were estimated in a Bayesian framework. According to our model, temperature and relative humidity were the main environmental variables explaining differences in disease transmission between shade and full sun. Our results show that shade treatment exhibits antagonistic effects on epidemiological mechanisms, notably it reduces disease transmission but also the latency period. This suggests that depending on the local climatic conditions, one specific mechanism may be fostered, thereby explaining the variability in shade efficacy described in the literature. Crop losses caused by pests and diseases threaten the food security and income of thousands of families worldwide. In Latin America and the Caribbean, coffee losses have caused severe crises since 2012. Most of coffee farmers manage diverse types of coffee agroforestry systems (CAF); therefore, it is important to know: what shade canopy and management characteristics are able to reduce coffee losses due to pests and diseases, but also provide other ecosystem services such as provisioning, maintenance of soil fertility and carbon sequestration? We worked with two-year data of 61 coffee plots in Costa Rica: firstly, we estimated primary yield losses and secondary yield losses; secondly, we assessed the relationships (trade-offs) between yield losses and indicators of the other ecosystem services; finally, we identified the CAF which had the lowest losses and provided high levels of agroforestry products, soil fertility and carbon sequestration. We identified six CAF as the most promising ones for reducing losses while providing other ecosystem services. One of these systems was a simple CAF; three were medium diversified CAF; and two were highly diversified and dense CAF. For each of these CAF, we described the structure and composition of their shade canopies, management and costs, and the levels of ecosystem services they provide (see  Keywords: Design, Yield, Shade, Soil, Carbon. Pests and diseases affect considerably cacao production. Agroforestry systems, in comparison with monocultures, can provide some pest and disease regulating services, i.e., complex systems can encourage natural enemies and prevent outbreaks. However, some pests and diseases might be favoured by higher air humidity, and less aeration and light. The capacity of agroforestry systems to regulate pests and diseases might highly depend on their management. Without good management practices, differences between systems are often observed. Management of agroforestry systems can be quite poor due to lack of resources of the farmers, economic profitability or knowledge."},{"index":16,"size":30,"text":"Here we compare the incidence of pests and diseases in different cacao production systems. Data were collected between 2015 and 2017 in a long-term trial established in Bolivia in 2009."},{"index":17,"size":190,"text":"Five different production systems are compared: monoculture and agroforestry systems both under organic and conventional farming and one successional agroforestry system without external inputs. Four replications were established in a randomised block design. Each plot measued 48×48 m, with a net plot of 24×32 m. Pest and disease control do not differ between systems, and it relies on preventive measures, i.e., regular tree pruning and fortnight removal of infested pods, but no external inputs are used. Frosty pod rot (Moniliophthora roreri) was monitored all-year round every two weeks. Infected pods were registered and cut to avoid the spread of the spores. At harvest (every two weeks), the incidence of other pests and diseases was registered. Incidence of pests and diseases at tree level was also monitored, i.e., witches broom (M. perniciosa) on vegetative tissue, stem borers and cacao mirids. Across systems, only about 14% of the pods were affected. About 70% of the infested pods were affected by frosty pod rot, followed by witches' broom, black pod rot (Phytophthora spp) and pods eaten by birds or mammals. At tree level, very few trees were registered with any pest or disease."},{"index":18,"size":105,"text":"The percentage of pods affected by pests and diseases did not differ between production systems, with the exception of a slightly significant higher incidence (3% above) in the successional agroforestry system. In this system there were also more pods eaten by birds or small mammals, indicating that this system supports their presence but, at the same time, it can cause more yield losses (trade-off between biodiversity and production). However, the pod losses caused by these animals were still low. At tree level, significantly higher incidence of witches' broom was registered in the monocultures, while no differences were detected for the stem borers and cacao mirids."},{"index":19,"size":38,"text":"In conclusion, our results show that under no external inputs for controlling pests and diseases, low and no significant differences of pest and disease incidence were observed between monocultures and agroforestry systems when good management practices were applied."},{"index":20,"size":578,"text":"Keywords: management practices, organic farming, Bolivia, monocultures. In southern Cameroon, citrus trees are usually planted in complex cocoa-based agroforests by smallholder producers. The health and the productivity of trees are generally jeopardized by a host of pests and diseases, for which the environmental conditions of the system are critical drivers. An evaluation of the intensity of citrus dieback diseases in three shading conditions and various spatial organization of citrus trees was carried out in 26 cocoa fields in four sites. A net plot of 2500 m 2 comprising a minimum of 12 citrus trees was mapped, associated vegetation was characterized, and spatial structure of citrus trees described using the Ripley's method. Disease intensity on the organs attacked was evaluated using a scale varying from 1 to 4. ANOVA and a comparison of means was performed. Results showed that 98.1 % of citrus trees were infested with pests, mostly mealybugs and mites on leaves. High rates of dieback on citrus trees (76.36 % to 100 %) were recorded. The intensity of citrus trees dieback under shade was significantly low (2.22±1.02 a ), as compared to those under moderate shade (2.52±1.12 b ) and cocoa/citrus (2.55±1.13 b ). Citrus trees in aggregate and random spatial structure showed a high intensity of dieback (2.88±0.88 b ; and 2.63±1.17 b respectively), as compared to those with a regular spatial structure (1.72±0.84 a ). The involvement of structural features of agroforestry system to reduce significantly dieback on citrus trees was demonstrated. Faidherbia albida is an agroforestry species whose agro ecological and socioeconomic roles have been proven in several studies in arid and semi-arid areas. For a long time, anthropogenic pressures and droughts were considered the main threats to Faidherbia albida, which is associated with annual crop in Parkland resources in Niger. Diseases with considerable mortalities and whose identification of causal agents is in progress are studied in the context of agro sylvo pastoral system. The disease damage would not allow leaves formation nor the fruiting on tree, and thereafter would reduce the litter fall and soil fertility, which is of great concern for rural communities. The objective of this study is to evaluate the level of disease attack on F. albida trees in the southern Sahelian western part of Niger. A radial sampling with a distance of 1.2 km, leaving from the center of the large villages towards the bush following the four geographical directions was carried out. On each of the four (4) transects per village, square plots of 50 m x 50 m with 300 m equidistance were installed. The measurements concerned dendrometric parameters, new natural regeneration, observations on the incidence and the severity of the disease. The results revealed a list of 12 adult woody species with an alpha diversity of 1.33 bits. The stand is almost mono-specific with a beta diversity of 0.37, dominated by F. albida, the specific contribution was 77.65%, while the density value was of 26.5 individuals / ha and the structure was bell-shaped. Observations revealed an incidence of the disease of 18.87% and a mortality of 5.66%. The most affected parts of the tree were 53.77% branches and 38.68% trunks. The main component analysis showed that large diameter trees were the most heavily attacked. This decline of F. albida, observed only in this south western Niger, is a serious threat to the survival of rural communities. These results can be applied to guide Parkland management strategies to better define and control disease in the area."},{"index":21,"size":14,"text":"Resistant phenotypes selected could be also used to rehabilitate the infested parkland in Niger."},{"index":22,"size":696,"text":"Cultivation of indigenous fruit trees baobab (Adansonia digitata) and marula (Sclerocarya birrea) plays a pivotal role in providing key nutrients and income for smallholders and enhancing diversification of agroforestry systems in the drylands of South Saharan Africa. Tree decline associated with stem cankers and canopy dieback is increasingly observed impacting baobab and marula in domestication trials and farms in Kenya, but little is known about the disease occurrence and associated pathogens. We evaluated incidence and severity in the field, isolated and characterized fungi in family Botryosphaeriaceae through comparisons to baobab, marula and additional agroforestry trees Vachellia xanthophloea and Calodendrum capense .We identified nine taxa belonging to genera Lasiodiplodia, Neofusicoccum and Dothiorella, co-occurring in both symptomatic and asymptomatic plant material. Seedlings inoculated with isolates of L. pseudotheobromae, L. theobromae and N. parvum showed similar symptoms but with various degree of pathogenicity. These findings suggest that Botryosphaeriaceae spp. may occur as endophytes and act as a disease complex, with the potential of infecting a wide range of trees in Eastern Kenya. We plan to further investigate ecology and impact of this potential threat to agroforestry systems in the African drylands, and lay ground for developing mitigation strategies. Keywords: Adansonia digitata, Sclerocarya birrea, tree decline, Botryosphaeriaceae, African drylands. The role of functional leaf traits in pathogenic transmission in agroforestry systems Gagliardi S. 1 (stephanie.gagliardi@mail.utoronto.ca), Isaac M. E. 1 , Avelino J. Variation of plant functional traits may predict ecosystem function 1 , yet there is little work linking functional traits of crops and service trees, their interactions, and processes in agroforestry systems 2 , specifically the transmission of pathogens. Focusing on coffee as a model, we explore how multi-species functional traits adjust abiotic processes that affect the dispersal and persistence of coffee leaf rust (CLR) 3 . We hypothesize that shade tree canopy and leaf traits will mediate CLR transmission via abiotic modifications and that key coffee functional leaf traits will suppress CLR under different agroforestry systems. This study was conducted in CATIE's coffee agroforestry research trial in Costa Rica. Throughfall kinetic energy under diverse shade tree canopies was modified by shade tree composition, canopy characteristics (e.g. crown base height; CBH) and functional leaf traits (e.g. specific leaf area; SLA). Certain shade tree traits such as canopy depth, CBH and SLA also related to trends in plant-level CLR incidence (Figure 1). CLR tended to favour certain coffee leaf functional traits, where coffee plants with low mean leaf nitrogen concentration and high mean SLA had higher plantlevel CLR incidence. These results suggest that managing the functional leaf trait variation of shade trees and targeting key coffee functional leaf traits can change the persistence of CLR, thus improving our understanding of alternative resistance measures available in agroforestry.  The coffee berry borer (CBB) is one of the main pests affecting coffee production leading to significant yield losses. Pest control service within agroforestry systems (AF) results from complex biotic and abiotic interacting components. Factors explaining regulation of the CBB can interact with each other and have potential antagonistic effects. This explains many contradictory results for studies focusing on the impact of few factors on a single response variable. This is particularly true with the effect of shade on the CBB (Morris et al, 2018). This factor can directly affect CBB development but also indirectly by affecting the community of natural enemies. Studying this pest-regulation service requires therefore a systemic approach. Here we developed structural equation models describing the interactions within these systems. Using data from three complex AF in Nicaragua and from an experimental farm in Costa Rica, we assessed the effects of environmental conditions and agricultural practices on the CBB, and on the diversity and abundance of predaceous ants (Fig 1). The area occupied by coffee-associated trees, the thermal amplitude and the shade were negatively related to CBB. Ant diversity and abundance were negatively related to coffee density, and positively related to CBB. While our results on a systemic scale confirm the potential of AF to provide a pest control and interesting management alternatives, it also reveals the difficulty of studying this service. Very severe coffee rust (Hemileia vastatrix) epidemics of an intensity never seen before have hit Central America from 2012."},{"index":23,"size":76,"text":"This study aimed at identifying management factors that hampered coffee rust development in Nicaragua and at learning about how producers understood these epidemics. Twenty nine pairs of coffee-based agroforestry plots (a pair was one plot severely hit and another one slightly hit in the same location) from the municipalities of Jinotega, Tuma-La Dalia and San Ramón were characterized for their management, including shade, and coffee rust impact, and their owners interviewed for studying their perception (2)."},{"index":24,"size":105,"text":"The main drivers of these coffee rust epidemics were meteorological (1). In these propitious weather conditions for rust, some producers avoided intense epidemics and losses. According to field measurements, shade did not make the difference, contrary to timely applications of fungicides and fertilizers. However, interviewed producers mentioned that shade affected rust (Figure ); but this was the only controversial effect mentioned. Interestingly, this controverse also exists in scientific literature. Producers were well aware and agreed, in general, about practices to control rust. Although producers knew how to fight rust, they did not implement the required management to control this disease, mainly due to economic difficulties."},{"index":25,"size":19,"text":"To our knowledge, this is the first time that the development of severe outbreaks is related to economic drivers."},{"index":26,"size":225,"text":"To cope with nutrient depletion in poor soils, agronomic strategies have been set up in West Africa by combining traditional annual crops with local shrubs, such as Guiera senegalensis or Piliostigma reticulatum, which contribute significantly to improve soil fertility. These shrubs are traditionally cut to provide fodder to livestock and let the aerial parts of associated crops, such as millet or sorghum, growing freely. The objective of this study was to evaluate the effect of the management mode of Guiera and Piliostigma in association with millet and sorghum, respectively, on the dynamics and phenology of shrub roots and the agronomic performances of cereals. An experiment was conducted under natural conditions in Senegal where 6 shrubs of Guiera, already well established for several decades, were chosen. Nine young Guiera plants were transplanted to characterize juvenile stage. A millet crop has been established per pouch in and near each shrubbery. A similar experiment was installed in Burkina Faso at the same time where 12 shrubs of Piliostigma, 6 aged of several decades and 6 transplanted juveniles, were associated or not with sorghum. In both situations, half of the shrubs were coppiced, the other left intact as a control object. Rhizotrons of 1x1m were placed 20cm from each shrub in a vertical position, allowing observation of the roots of the shrubs and cereals between 0 and 1m deep."},{"index":27,"size":186,"text":"The results showed the positive impacts of the shrubs on the aerial phenology of millet and sorghum (earlier heading, flowering and maturation), their growth (millet four times larger, 1.5 times more leaves, 1.8 times more tillers) and their yield (3.8 times more spikes, 3 times more spike biomass and straw). The root dynamics of shrubs are stalled over the rainy season with a very pronounced seasonal variation in all root categories: higher elongation rates in the wet season compared to the dry one. This seasonal variation was observed in both young 1 to 3 year-old plants (0.62 cm/day in the rainy season and 0.36 cm/d in the dry season) and old (0.15 cm/d and 0.13 cm/d respectively the same year). On the other hand, shrub coppicing did not show any significant depressive effect on the average rate of elongation of their roots. However, a 1-month root-growth stop was observed for Guiera 1.5 months after cutting, a condition that did not exist in uncut shrubs. In addition, these growth stops correspond exactly to the peak of cereal root growth, a phenomenon observed for the 3 consecutive years."},{"index":28,"size":134,"text":"The coppice management of the shrubs has a positive influence on the phenology, the agro-morphological parameters and yield of millet and sorghum through a better conservation of the physicochemical and biological properties of the soil as well as a good complementarity of root growth providing benefits and sustainability to cereal shrub intercropping in the context of climate change with strong drought constraints. Landslides can be destructive for any vegetation or people in its path. In the context of a broad evaluation of agroforestry role in maintaining/restoring watershed functions in the humid tropics, we tested two hypotheses: (1) Differences in the distribution of tree roots between species in coffee agroforestry systems can be used to reduce landslide risks, (2) Shear strength of soil increases with root length density in the topsoil, regardless of plant species."},{"index":29,"size":405,"text":"Root systems of about 570 5-year old trees belonging to 114 species commonly found in agroforestry systems were observed across 5 landscapes (Figure 1). The Index of Root Anchoring (IRA) and the Index of Root Binding (IRB) were calculated as S Dv2 /dbh2 and as S Dh2 /dbh2, respectively, where dbh is tree diameter at breast height, Dv and Dh are the High IRA values (>1.0) were observed in non-pruned coffee, Artocarpus elasticus, Parkia speciosa and Durio zibethinus. The common shade trees in coffee agroforestry system incl. Gliricidia sepium and Calliandra calothyrsus, have low IRA values, indicating little 'soil anchoring'. Where root length density (Lrv) in the topsoil is less than 1 cm cm-3 shear strength largely depends on texture; for Lrv > 1 we can expect shear strength to be > 1.5 kg m-2 regardless of texture. In conclusion, a mix of tree species with deep roots and grasses with intense fine roots will provide the highest river bank stability. Root interactions between cash crops and neighbouring trees remain a major gap of knowledge. Both cacao and coffee are important cash crops and are usually planted under shade trees to optimise their yield. Ideal shade trees would develop their root systems below the cacao and coffee root zones, minimizing plant competition for nutrient uptake in the soil layers. However, assessment of root development in soil remains highly challenging. Destructive excavation provides root biomass and root morphology data. However, the abundance of fine roots of an individual plant species in a mixed-species plantation remains unknown because it is difficult to identify the species of fine roots that are present. We used DNA meta-barcoding to determine the presence and abundance of fine roots of each species in the soil profile to a depth of 80 cm. We assessed two plantations at 9 years after the establishment of cacao and coffee with an overstorey of canarium trees. We also examined soil and foliar nutrient concentrations including total nitrogen (TN), phosphorus (P) and potassium (K), and depth, whereas canarium had higher fine-root abundance at 30-80 cm depth. Stepwise re-tion in cacao and coffee. Foliar TN was higher in cacao and coffee than in canarium and foliar K did not differ significantly between cacao, coffee and canarium. Our study indicated that canarium could be a suitable shade tree for cacao and coffee. DNA metabarcoding allowed us to develop a deeper understanding of root development through the tropical soil profile."},{"index":30,"size":755,"text":"Keywords: nitrogen isotope composition, soil fertility, agroforestry, canarium, rbcL gene. In dry ecosystems where silvo-pasture is the common farming system, seedling growth and survival are limited by access to moisture and nutrients. Arbuscular mycorrhizal (AM) fungi are known to increase seedling establishment and survival through enhancement of nutrient and moisture availability. Arbuscular mycorrhizal fungi are regular component of rhizosphere micro-flora in natural ecosystem and are necessary for sustainable plant soil systems by establishing symbiotic associations with most land plants and form mycorrhizae. Keeping in view the importance of these environment friendly micro-organisms and understanding how mycorrhizas operate in natural systems helps to improving the quality of plants in our gardens and landscapes while minimizing the need for fertilizer and water. We used a greenhouse experiment to determine the interactive effect of AM, water deficit and soil fertility on the biomass, growth, nutrient availability, and root colonization of seedlings of Commiphora myrrh, tree species that dominate large areas of dry forest in the Horn of Africa. A full factorial design was used: with and without AM, top and subsoil, and four levels of water deficit. AM increased the biomass of Commiphora myrrh seedlings. AM increased the allocation of biomass to shoots in C. myrrh seedlings. The seedlings had higher nutrient levels when mycorrhizal under water deficit conditions. C. myrrh seedlings responded positively to decreased moisture deficit. Rich soil condition favoured the growth of the seedlings. Colonization increased with decreased moisture in C. Myrrh seedlings. Rich soil positively affected colonization of the species. AM increased the biomass growth of C. myrrh seedlings through increased nutrient levels and colonization. The increased performance of mycorrhizal plants indicates that mycorrhiza is a major component of the adaptive strategy of seedlings in the dry deciduous ecosystem. For successful rehabilitation efforts, seedlings need to be mycorrhizal. Inoculating seedlings with AM in the nursery enables to increase survival, growth and escape browsing in the field where grazing is a major problem in an agro-pastoral system. Swamp forests of Pterocarpus officinalis (jacq.) form remarkable monodominant forest stands growing on temporarily or permanently flooded soils in mangrove hinterland areas, along rivers and in wet depressions in the mountains of the Caribbean and Guiana regions. In Guadeloupe, smallholder farmers traditionally cultivate flooded Taro (Colocasia esculenta (L.) Schott) monocultures under the canopy of P. officinalis stands in the swamp forests. Taro corms and unrolled leaves are commonly consumed in Guadeloupe. The understorey culture of Taro is conducted without pesticides and fertilizers, which could be partly due to the net input of nitrogen into the soil by P. officinalis through its ability to fix atmospheric nitrogen. Furthermore, the mycorrhizal networks could favor the transfer of fixed nitrogen from P. officinalis to the intercropped Taro. Taro cultivation is conducted during the dry season to facilitate their planting between mature Pterocarpus trees and their harvest when the marshy soils are dewatered. The sampling of roots and leaves on Taro and two cohorts of P. officinalis (mature trees and seedlings) were made during the dry season in two swamp forest sites located at Gosier (approx. 0.1 ha in area) and Belle-Plaine (approx. 0.5 ha in area) in the island of Grande-Terre, Guadeloupe. The arbuscular mycorrhizal (AM) fungal community was compared between Taro and two cohorts of Pterocarpus, by using pyrosequencing of partial 18S rDNA gene. We also compared natural abundance of 13C and 15N contents in leaves of the two cohorts of Pterocarpus, Taro and surrounding non-nitrogen-fixing plant species, in order to estimate what proportions of N and C were transferred to Taro. Of the 210,676 sequences, 37,631 sequences were assigned to a total of 215 OTUs belonging to the orders of Glomerales, Paraglomerales, Archeosporales and Diversisporales. A low AM fungal community membership was observed between P. officinalis and C. esculenta. However, certain AM fungal community taxa overlapped between both plants, notably predominant Funneliformis OTUs, suggesting a potential common AM network. The isotopic analyses did not show any direct link between the mycorrhizal status of both associated species and the transfer of N and C between P. officinalis and Taro. The proportion of N derived from atmospheric fixation in P. officinalis varied according to the study site, from about 80 to 95% in adult trees and from 50 to 80% in young seedlings while we estimated that 35% of fixed N was transferred from Pterocarpus seedlings to Taro in mixed stands of both species. The implementation of experiments under controlled conditions are needed to demonstrate the possible role of mycorrhizal networks in the transfer of nutrients between P. officinalis and Taro."}]},{"head":"Background and aims","index":217,"paragraphs":[{"index":1,"size":69,"text":"Most studies on root development are based on root images analysis with rhizotrons sources to study root turnover, which essential for understanding ecosystem carbon and nutrient cycling on large situation including agroforestry system. Yet extracting data from field root images requires intensive effort and was large time consuming even with semi automatic root software drawing. Our aim was to develop real automatic root drawing model capacity using machine-learning capacity."}]},{"head":"Methods and results","index":218,"paragraphs":[{"index":1,"size":594,"text":"Images are renamed and re-organized in the proper structure for the convenience of training and testing process. We apply CNN (Convolution neural network) in field roots images segmentation, by training the neural network using pairs of one image of roots and one ground-truth image which was drawn by human for determining the position of roots. After the training process, the model is able to convert images of roots to outputs similar to groundtruth images created by human with a valuable accuracy. We use cross validation to control the result form the model. After being process, these output images will be used to compute the length and diameter of the plant-roots using IJ_Rhizo open software it is freely available from (www.plant-image-analysis.org/ software/IJ_Rhizo) Conclusions For now, AutoRootDraw© has reached the capacity to identify, draw and analyse roots using the predictions of the network. We expect to provide a portable version to run the model. Solitary and boundary trees in parks, gardens as well as in agroforestry alley cropping stands are exposed to action of environmental abiotic factors more than trees growing within a group formation e.g. inside the forest stand and short rotation coppice plantations. Each part of these edge or solitary trees is otherwise affected concerning various sides of the crown. When from the densely overgrown stand side, the trees create own microclimate, towards an opened space they are not protected. On the exposed side they suffer less from spatial competition by neighboring trees and they have more space for development of crown and root systems. This process begins from the edge trees which create the buffering zone. The external factors gradient is being decreased by ecotone, which alleviates the abiotic influence. However, inside the forest, the competition for nutrients, water and solar radiation exists. The goal of the work was to compare the physiological activity of the semi-solitary and solitary tree along with the investigation of the irregular morphological differences. The research was performed in the Michovka research area of the Silva Tarouca Research European Ash Fraxinus excelsior cv. Atlas which grows on the agroforestry plantation edge and solitary hybrid Poplar Populs maximoviczii × Populus × berolinensis clone NE-49, which were in 200 m distance to each other (Weger and Bubeník, 2012). The field measurements were performed on both trees using Electrical resistivity tomography (ERT), as well as Dipole electromagnetic profiling, Gas exchange measurements, Sap flow sensors, Stem decay investigation by non -destructive acoustic testing, along with biometrical parameters investigation. The ERT measurement were performed using the Wenner -Schlumberger electrode configuration with the spacing of 30 cm and two profiles for each tree in NS and EW directions. With CMDExplorer, we investigated the soil apparent resistivity changes in three depths in distance roughly up to 7 m from the trees (Mareš et al. 2004, Hagrey, 2007). Gas exchange measurement were used for the evaluation of net photosynthetic rate (Pn) in the bottom part of the crown. Each hour, the measurement was repeated on random leaves for each geographical direction. Sap flow sensor was placed on northern side of each tree breast height, the Early morning Pn started about the same time in both trees, however, the increase in Pn was faster in solitary tree upon sunrise. The solitary tree terminated the photosynthetic activity earlier than the semi -solitary one. In case of the solitary tree, root system is fully developed and it creates uniform circle -like shape. However, in semi -solitary tree root system is congregated in an unoccupied area and shows tendency to grow towards south in triangle shape in this particular study. "}]},{"head":"Do agroforestry models overestimate photosynthesis and RUE of understory crops?","index":219,"paragraphs":[{"index":1,"size":395,"text":"Rosati A. 1 (rosatiadolfo@gmail.com), Wolz K. 2 , Murphy L. 3 , Ponti L. 4 , Gold M. The light distribution under trees and available for understory crops has been examined with biophysical agroforestry models of various levels of complexity (for a review see Malézieux et al., 2009). No model, however, predicts the exact light pattern available under the trees in each point in time and space, as this would require detailed knowledge of the spatial arrangement of leaves and large computing effort (Lamanda et al. 2008). By averaging in time and/ or space, the light predicted by models is less variable than in reality. Under variable light, photosynthesis (and crop growth) is reduced compared to more uniform light (Poorter et al., 2016;Vialet-Chabrand et al., 2017). Here, we tested whether using the more uniform light patterns estimated with models significantly affects the estimation of photosynthesis and radiation use efficiency compared to using measured light patterns. We measured the light pattern using PAR photosensors every minute for several days in 24 positions under chestnut orchard canopies of various ages and tree spacings. We also created a spatially explicit, ray-tracing canopy light model and used it to estimate the light pattern under the trees at a one-minute resolution. We then compared the measured and modeled light patterns at the minute scale, as well as with half-hourly, hourly, and daily averages. Finally, we used the measured, modeled, minutely, and averaged light patterns to estimate the daily photosynthesis of an understory wheat leaf using its photosynthetic light response curve. Despite calibrating tree porosity in the model to yield the same daily light total as measured with the sensors, the modeled light patterns under the tree canopies differed substantially from the measured one, being much more uniform. This was due to the fact that the model assumes a canopy of uniform porosity, while, in reality, sun rays pass through a complex heterogeneous canopy. Using the more uniform modeled light overestimated daily photosynthesis by about 40%, even when calculating photosynthesis using the light patter at a minute scale. Averaging light in time increased the overestimation even further. We conclude that, by predicting overly uniform sub-canopy light patterns, current agroforestry models likely overestimate photosynthesis and radiation use efficiency of understory crops. Finding ways to account for the actual variability in light patterns under trees could improve model predictions of understory crop performance."},{"index":2,"size":169,"text":"Agroforestry systems (AFS) are complex to model mainly due to the high spatial variability induced by the shade trees. Recently, the microclimate and light heterogeneity issue in AFS has been addressed using the 3D ecophysiological process-based model MAESPA (Charbonnier et al., 2013;Vezy et al., 2018). MAESPA surpassed the classical sun/shade dichotomy in AFS (Charbonnier et al., 2014) and provided continuous maps of e.g. available light, light-use-efficiency and canopy temperature within Coffea Agroforestry Systems (CAS). A step further was to design a crop model for Coffea grown under agroforestry that would benefit from this continuum to estimate ecosystem services on the long term and under climate change scenarios. We designed DynA_Cof, a new process-based growth and yield model to compute plot-scale net and gross primary productivity, carbon allocation, growth, yield, energy, and water balance of CAS according to shade tree species and management, while accounting for fine-scale spatial effects using MAESPA metamodels (Figure 1). DynA_Cof satisfactorily simu-C m -2 d -1 on 1562 days) and the -1 -2 d -1"},{"index":3,"size":40,"text":"-2 d -1 ) compared to measurements from an eddy-flux tower in Aquiares (Costa Rica) and also the NPP for above and below-ground organs, coffee bean yield and shade tree wood production compared to a comprehensive database from this site."},{"index":4,"size":224,"text":"Detailed DynACof model workflow. The air temperature is recomputed within the shade tree layer and Coffea layer canopy, and above soil surface using a series of resistances. The precipitation interception, evaporation and throughfall are all computed at plot scale. Carbon-related computations are coloured in green, energy-related in orange, and water-related in blue. Black arrows represent the interactions between layers, grey arrows the interactions within a layer, and white the retro-actions. VPD: vapor pressure deficit, PPT: precipitations, T: gross primary productivity, APAR: absorbed photosynthetically active radiation, Ev: evaporation, SWC: soil water content, H: sensible heat, Rn: net radiation, Q: heat storage. In order to describe underlying biophysical mechanisms, process-based plant growth models often contain an excessive number of parameters when only considering the accuracy of the model outputs. Regarding their influence on the model output, parameters of complex nonlinear plant growth models interact in ways that cannot be easily predicted based upon their roles in the component submodels describing biophysical processes. Consequently, parameter estimation in complex nonlinear plant growth models is often challenged by lack of a means to interpret the relative importance of parameters. In multi-crop models such as for agroforestry, increased model complexity due to interactions between crops and lack of data for novel crop combinations in varying environments further exacerbate the difficulties of discerning which parameters are important for estimation (Young 2012)."}]},{"head":"L24 Modelling","index":220,"paragraphs":[{"index":1,"size":25,"text":"Our approach is based upon foundational system identification theory (Sjöberg et al. 1995, Ljung 1999) applied to a class of deterministic process-based predictive growth models."},{"index":2,"size":94,"text":"We evaluate the Hessian of the quadratic cost function to determine the relative importance of parameters to its curvature. Subject to a list of model requirements, the Hessian can be computed given input-output data and an estimated location in the parameter space provided by prior research into underlying biophysical processes and expert knowledge. Although system identification for plant growth models may be overlooked due to an assumed lack of data, this investigation illustrates that an input-driven predictive growth model can be parameterized using only environmental inputs and size data that are straightforward to collect."},{"index":3,"size":174,"text":"The analysis method is presented as a procedure for determining a ranking of parameter importance that can be used by model developers to provide end users with guidance for parameter estimation given real data for novel crops and crop combinations. The procedure arrives at a reduced-order parameter space within which parameters can be uniquely identified entirely from input-output data. The procedure prioritizes (and allows the user to pick for identification) the parameters that will have the most impact on improving output prediction. Furthermore, when successful, reduced model outputs closely follow the outputs of the original system (with any feasible parameterization) when driven by any input in the input class. The procedure is demonstrated on the well-known Yield-SAFE predictive agroforestry growth model (van der Werf et al. 2007, Palma et al. 2017). The advantages of an input-output system identification approach may also carry over into field trial design or model structure revisions. Further, because model parameterization relies only on readily accessible model outputs, relatively low-tech data collection strategies may streamline approaches to on-farm participatory research."},{"index":4,"size":35,"text":"Keywords: plant growth modeling, system identification, process-based models, reducedorder parameter space.  Cutting through the complexity of biophysical models: Seeing the forest for the trees Huth N. 1 (Neil.Huth@csiro.au), Holzworth D. 1 , Smethurst P. 2"},{"index":5,"size":228,"text":"1 Agriculture and Food, CSIRO, Toowoomba, Qld, Australia; 2 Land and Water, CSIRO, Hobart, Tas,  Australia   Modern farming systems models have built upon many years of work to develop robust, fit for purpose models for systems such as those incorporating agroforestry. However, these models have many parameters whose impact is not always known. Furthermore, agroforestry systems have many complex interactions that makes the value of different possible interventions difficult to identify. Modern statistical and software approaches allow such issues to be untangled. Global Sensitivity Analysis has previously been used to inform plant breeding for different environments through ranking the value of individual plant traits for different geographical regions (Casadebaig et al, 2016). Similar approaches have been used to identify effective management options for minimising environmental impacts of oil palm whilst maintaining crop yields (Pardon et al, 2017). These approaches have been formalised within the APSIM Next Generation modelling framework (Holzworth et al, 2014) in a way that makes these techniques accessible for the farming systems modelling community. APSIM provides a user interface that assists the user through the process of defining their analysis, ensuring efficient and effective sampling, and highlighting the impact of climate variability on the results of the sensitivity analysis. This functionality, and the availability of modern high performance computing capabilities will assist modellers in understanding hidden relationships within their models and the opportunities they provide."},{"index":6,"size":39,"text":"In this paper, we demonstrate how these different sensitivity analysis techniques can be used to prioritise parameter optimisation or further research efforts such as targeted management interventions, beneficial Gene X Environment interactions or synergistic relationships within complex agroforestry systems."},{"index":7,"size":26,"text":"Keywords: APSIM, Sensitivity Analysis, Biophysical Modelling, Farming Systems Analysis. What are the impacts of tree shade on the absorption of light by grapevine within alley-cropped vineyards?"},{"index":8,"size":451,"text":"Grimaldi J. 1 (juliette.grimaldi@inra.fr), Wang Y. 2 , Chavanon E. 2 , Lauret N. 2 , Guilleux J. 2 , Bustillo V. 2 , Houet T. Within modern agroforestry vineyards, light depletion from trees may impact both grape yield and berry quality for wine making. To target this question an alley-cropped vineyard was selected in Lagardere in South-Western France, under humid-continental climate. Based on drone-borne RGB and DSM images of this vineyard, several 3D numeric mock-ups of alley-cropped vinerows and their monocropped references were built [1]. Their radiative budgets were simulated in the photosynthetically active radiations (PAR) wavelengths using the 3D radiative budget model DART [2,3,4]. Simulations were run from April-15th (grapevine budburst) to September-12th (grapevine harvest) considering the succession of sunny and cloudy skies recorded at Lagardere in 2016. According to our simulations, (i) under clear sky conditions, grapevine rows falling inside the shade of trees absorbed 20% to 40% of the PAR that is absorbed in full sun, depending on the tree leaf density, while (ii) under overcast conditions, no shade pattern appeared as most of the light irradiance is diffuse. Over the whole simulated time period, alley-cropped grapevine rows absorbed 90% to 85% of the cumulated PAR that is absorbed under monocropped arrangements, depending on tree heights. This very new approach led to encouraging results in regards to agroforestry practices for grapevine cultivation and shall in the future be widened to other climatic contexts and vegetation arrangements. Agroforestry systems, even simple ones such as two-strata alley cropping systems, present almost infinite possibilities for the design of the system combined with the crop and tree management options. Simulation models can be useful tools to quickly test a large number of combinations in order to test only the most promising systems in the field. Here, we tested the effect of tree root and branch pruning in an alley cropping system with hybrid walnut in the Mediterranean climate, with two contrasting dates of sowing of durum wheat. The results showed that branch pruning (removal of 50% of the branches) had a much stronger effect than root pruning (pruning at 1m depth, 2m from the tree line) not only on crop yield, but also on soil water content. These effects depended on the date of sowing and soil depth: branch pruning increased yield with the normal date of sowing (November), but decreased it when sowing of the crop was delayed until December, and increased deep soil water content but decreased topsoil water content. A field experiment with the same treatments (but not all combinations) showed the same patterns of crop yield, but pointed to possible improvement of the model concerning tree water extraction. Keywords: modelling, root pruning, branch pruning, crop yield, competition.   "}]},{"head":"Results","index":221,"paragraphs":[{"index":1,"size":29,"text":"Substantial increases in total UK carbon storage are modelled from agroforestry vs. mono-cropping over an 80-year term, particularly in aboveground stocks. Rising atmospheric carbon dioxide levels increase this gain."}]},{"head":"Conclusion","index":222,"paragraphs":[{"index":1,"size":46,"text":"The results support agroforestry on UK cropping land as an option for significant carbon removal, though long-term sequestration depends crucially on the fate of above-ground carbon stocks. Improving soils mapping and topography in the model could identify UK regions with highest potential for soil carbon sequestration. "}]},{"head":"Background","index":223,"paragraphs":[{"index":1,"size":110,"text":"European policies are encouraging the development of agricultural practices such as agroforestry, which are promoting both provisioning and regulating ecosystem services. To help decision support, there is a need to develop tools able to evaluate the environmental, economic and social impacts of converting existing agricultural land to agroforestry. The MAELIA platform (Multi-Agents for Environmental norms Impact Assessment http://maelia-platform. inra.fr/) has been developed to handle interactions between agricultural activities, agricultural landscape dynamics and the management of natural resources at the landscape level. MAE-LIA is currently able to simulate the development, yield, gross margins, and workload of arable crops and grasslands and their interactions with water, nitrogen and carbon dynamics in soils."}]},{"head":"Objectives","index":224,"paragraphs":[{"index":1,"size":36,"text":"The aim of this work is to extend the functionalities of MAELIA a) to simulate growth of trees and their biophysical interactions with intercropping crops and grasslands, and b) to implement management strategies in agroforestry systems."}]},{"head":"Methods","index":225,"paragraphs":[{"index":1,"size":202,"text":"Growth of trees and their temporal and spatial interactions with crops regarding competition for light and water will be implemented into MAELIA at a daily time step. A light response curve will be adopted to simulate carbon assimilation, which will also be regulated by water availability (Granier et al., 2007) and temperature (Sitch et al., 2003). Allometric relationships will be used to allocate biomass in trees and hence describe tree growth. Water dynamics in the soil-plant-atmosphere system will be described similar to the BILJOU water balance model (Granier et al., 1999), considering competition between plants for soil water. Light under the canopy will be simulated by implementing the CanSPART radiative transfer model (Haverd et al., 2012). Information on management strategies in agroforestry systems will be collected to parameterize the decision rules that allow simulating the dynamics of technical operations applied by farmers (Murgue et al., 2016). These data will also be used to parameterize the economic module of MAELIA. Calibration and validation of the platform will be performed using 1) an in-depth analysis of biophysical processes from an instrumented experimental site, and 2) data on a subset of processes from 6 other field sites to encompass diverse pedoclimatic conditions and plant associations."}]},{"head":"Expected results and perspectives","index":226,"paragraphs":[{"index":1,"size":69,"text":"Robust representation and simulation of plant growth and water fluxes in temperate agroforestry systems are expected from MAELIA after implementation of the above biophysical processes. The environmental and socio-economic impacts of scenarios regarding introduction of alley cropping systems in a French temperate region will then be assessed. Ongoing developments in MAELIA will allow in the future to address further issues related to carbon and nutrient cycling in agroforestry systems."},{"index":2,"size":104,"text":"Data from field observations acquired in partnership with several categories of actors (foresters, farmers, breeders, etc.) as part of agroforestry experiments have been accumulating for many years now. The management and reuse of this data is made difficult by the multiplicity of media and formats used and by the diversity of the actors and their language. In addition, agroforestry studies require systemic approaches to better understand for example, how to better manage a site in response to climate change, pests and soil pollution. This necessity can only be tackled by linking up with other fields of knowledge such as climatology, zoology or soil science."},{"index":3,"size":60,"text":"To help the agroforestry community in the exploitation and sharing of their data, and in order to report on the evolution and effectiveness of the developments they have performed, we propose as a first objective, to set up a knowledge model (an ontology) dedicated to agroforestry. This ontology will serve as the basis for capitalizing and sharing data in agroforestry."},{"index":4,"size":55,"text":"A second objective is to link agroforestry data with other data sets from diverse knowledge areas concerning the environment and regional territories. For example, an agroforester should have the opportunity to easily compare the selling price of standing timber in his/her region for different tree species that they wish to plant on a given site."},{"index":5,"size":141,"text":"The dual challenge of sharing and interconnecting data in agroforestry brings us closer to what is currently practiced within the \"semantic web\" with different tools and methods to promote the sharing of open and linked data sources. Semantic web technologies provide standard procedures for describing and accessing resources on the web. The linked data is exploited and enriched by technologies such as RDF, SPARQL, OWL and SKOS. We reuse semantic web standards and exploit a range of terminological ontologies to provide an open and flexible knowledge model that can reflect the complexity of data already collected in agroforestry. This new model will be able to connect to other knowledge models already present on the Web. Agroforestry expertise linked to other expert areas on the web will facilitate the creation of decision support tools and thus provide new solutions to agroforestry practice."},{"index":6,"size":422,"text":"Keywords: agroforestry, structural modelage, ontology, semantic web. Nonetheless, large scale agricultural modelling tools have focused on the most economically important crops in the world and have yet to represent the variety and complexity of agricultural systems prevalent in many low-latitude countries. Subsistence and semi-subsistence cropping systems, involving multiple cropping management practices, are central to securing food to small farmers in these regions, and have yet to be taken into account in climate impacts assessments. Furthermore, the agricultural sector in low-income countries represents the biggest share of the national economy but remains one of the most vulnerable and exposed sectors to the effects of climate change, and urgently needs tailored scientific information to support the identification of sustainable, productive, equitable and resilient land use and agricultural management options. Designed to better inform vulnerability assessments and adaptation planning targeted at small low input cropping systems in the tropics and sub-tropics, this work will present an extension of the global agro-ecosystem model PEGASUS (Predicting Ecosystems Goods and Services Using Simulations) in order to simulate the productivity of crop-tree inter-cropping systems and implication for ecosystem services at the landscape and potential feedback to the climate system, taking into account the physiology of traditional and indigenous crops and trees. Short rotation coppice (SRC) systems are excellent tools for managing treated, nutrient-rich, domestic wastewater residuals, soil carbon, and providing economically viable sources of sustainable wood fibre. However, SRC systems are complex, with numerous interactions between climate, nutrient inputs, soil physicochemical properties, crop establishment and growth, bioenergy, carbon offset credits, environmental regulations, and economics. A method is thus required to simulate such interactions. This paper proposes \"WISDOM\", a comprehensive decision-support model for SRC systems. WISDOM can be used to aid stakeholders and decision-makers in long-term planning for environmentally-and economically-sustainable SRC plantations. It can also be used to identify how alternative management decisions affect system behavior -biomass growth, soil properties, and economic returns, for example -through the development of \"what-if\" scenarios. Model validity was tested with eight years of historical data from a case study in Alberta, Canada. For instance, statistical test results between simulated and observed values using the Nash-Sutcliffe efficiency were 0.98, 0.90, 0.86, and 0.68 for biomass production, tree height, soil electrical conductivity, and irrigation application, respectively. Additionally, three different climate and nine yield-harvest economic scenarios were run to predict different aspects of SRC system and project life cycle assessment outcomes 20 years into the future. The dark side of agroforestry: Modelling shadow projections based on 3D data Morhart C. (christopher.morhart@iww.uni-freiburg.de), Rosskopf E., Nahm M., Kahle H.-P."}]},{"head":"Keywords","index":227,"paragraphs":[{"index":1,"size":66,"text":"Chair of Forest Growth, Albert-Ludwigs-University Freiburg, Freiburg, Germany Background Agroforestry systems (AFS) represent complex landuse systems as they imply the cultivation of trees and agricultural crops. Since supply with radiation energy is fundamental for the growth of trees as well as of crops, estimations of the spatial and temporal variation of solar irradiation available at different parts of AFS are of particular interest regarding optimized management."}]},{"head":"Materials and Methods","index":228,"paragraphs":[{"index":1,"size":60,"text":"We use 3D point cloud data of single trees collected with a terrestrial laser scanner to develop vector-based models of these trees. To model the shadow cast by the trees and to quantify the resulting loss of solar radiation energy on the ground, we use factual weather data of solar irradiance, obtained from the German Meteorological Service (Deutscher Wetterdienst, DWD)."}]},{"head":"Results","index":229,"paragraphs":[{"index":1,"size":48,"text":"The novelty of this approach is to use 3D data of trees to compute shadow projections at increased temporal and spacial resolution. The model provides shadow projections in time intervals of 10 min for a raster grid of 10 cm x 10 cm cell size (see Fig. 1)."}]},{"head":"Conclusion","index":230,"paragraphs":[{"index":1,"size":177,"text":"Using factual climate data enables us to model the radiation regime around a given tree in a realistic manner. The derived results can help to plan AFS more efficiently and to optimize their planting design, taking the expected light reduction into account for choosing the best tree/ crop combinations and spatial arrangements. In the last decade, the Yield-SAFE model has been used to estimate long term-productivity of silvoarable systems. However, new challenges have arisen and the model has been improved in order to capture new components of the agro-ecosystem dynamics. This paper summarizes four areas of new developments with the EcoYield-SAFE model which can be categorized into: 1) Improved availability of climate inputs using the CliPick tool; 2) improved description of the microclimate experienced by crops, pasture and livestock within the tree canopy, 3) the addition of new outputs to enable prediction of the carrying capacity of a grass understorey and the impact of agroforestry systems, where appropriate, on fruit and bark production (e.g. cork), and 4) the integration of a soil carbon module adapted from RothC."},{"index":2,"size":29,"text":"The improvement of the model kept its simplistic concept and tried to keep the algorithms as simple and general as possible to ease the calibration for a wider audience."},{"index":3,"size":287,"text":"Example of assessment of tree effects on pasture production during a year in a mature agroforestry system (montado) in southern Portugal with 50 tree/ha, while considering tree influence on microclimate and 0.7 livestock units/ha energy demand. Note the increase number of days with available energy for grazing Keywords: Ecosystem approach, livestock, energy, provisioning ecosystem services, regulating ecosystem services. Silvoarable practices are a type of agroforestry systems that allows combining a crop with a Woody component. Tree layout designs considering distribution but also density modify the productivity of both components. Yield safe was used to compare two tree densities of a Pinus radiate stand considering the productivity of the tree and of wheat. Low initial tree density (600 trees ha-1) aiming at high value timber production was compared with high initial density (1333 trees ha-1) aiming at to produce a higher volume per hectare. Two different thinning were programmed being the first the extraction of 20% of the trees in years 10, 15 and 20 and the second a 20 and a 10% in years 10 and 15. Stand volume was reduced when low tree density were implemented compared with high tree density, while the contrary happened with the tree volume and diameter. Tree diameter was higher when 20:20:20 thinning program was carried out in both tree densities, being the effect more noticeable when low tree density was evaluated. Wheat maximum production peak was found in the third year being the reduction of wheat production more steadily in high densities than in low densities as expected. However, in all treatment's wheat production was negligible from the 7th year of the simulation. Thinning increased wheat production but the tree density selected is too high to make the seeding profitable."},{"index":4,"size":182,"text":"Keywords: Silvoarable, density, thinning, volume, yield. Faidherbia albida is an N-fixing tree native to many countries across a wide range of sub-Saharan Africa, including Ethiopia. Several researchers recorded higher concentrations of C under tree canopies than in adjacent crop-only areas, and speculated that differences were due to a tree effect. Conversely, others indicate that natural regeneration of trees was favoured on pre-existing fertile microsites. To quantify potential influences on soil C, we simulated five decades of a Faidherbia-maize parkland system in the Central Rift Valley of Ethiopia. Soil C was measured in 2015, and maize yield in 2015 and 2016. Simulations were conducted with the APSIM Agroforestry model. Soil parameters were tuned to achieve a good fit of soil C and maize grain yield in the crop-only treatment. Factorial combinations of zero or high annual additions of tree litter and manure were simulated. Soil C (0-20 cm) increased under trees without litter or manure additions, explaining 0-45% of observed increases in the three radial tree zones (Fig. 1). High litter inputs explained a further 25-80% increase, with a further contribution from manure."},{"index":5,"size":275,"text":"As high manure and litter input rates simulated were higher than could be expected in this heavily pollarded and low-stocked system, we suspect that the tree-effect is due to a combination of these and other previously hypothesised mechanisms. This simulation approach appears useful, but better quantification of actual pools and fluxes of C is needed.  Demand for predictability of wood, food and livelihood outcomes of agroforestry options prompts a need to incorporate trees into plot-scale-biophysical and farm-scale livelihood models. The ICRAF project 'Scaling Trees for Food Security' aims to develop and apply this capability, and make it available for further use. The APSIM modelling framework was chosen for plot-scale-biophysical modelling because of its use in various contexts of food production around the world. However, this model lacked a two dimensional capability that could grow adjacent crops and trees interacting above-and below-ground. In two phases, the project is developing and applying this capability using the APSIM Next Generation framework. Phase 1 involved a proxy tree model used in linear (tree row) or circular (single tree or parkland) configurations in which tree behaviour in relation to competition for light, water and nutrients was user-defined. Phase 2 involves replacing the tree proxy with 'active' tree options that respond to environment, management and genotype. Eucalyptus, gliricidia and oil palm are the tree models currently available, along with wheat, maize, potato and several other crop or pasture models. During phase 1, adequate simulations in a range of contexts were achieved: Gliricidia-Maize (Kenya and Malawi; Fig. 1), Faidherbia-Maize (Ethiopia) and Eucalyptus-Wheat (Australia). We are now proceeding to release the proxy model for public use, and to develop the active tree capability.  "}]},{"head":"Background","index":231,"paragraphs":[{"index":1,"size":100,"text":"In the current context of adaptation to and mitigation of climate change, water use in agriculture is a critical issue. Specifically in relation to water use, agroforest systems are considered as a sustainable strategy, as the presence of shade trees above crops induces adequate microclimatic conditions that result in an improved water use status. Indeed the presence of shade trees reduces soil evaporation through a reduction in radiation, wind speed, temperature and an increase in air humidity. Therefore, understand and predict water use in agroforest systems is of a key importance when assessing the environmental impacts of agroforestry practices nowadays."}]},{"head":"Aim","index":232,"paragraphs":[{"index":1,"size":65,"text":"The aim of this study is to quantify, compare and model sap flow of cacao trees growing under different shade intensities and its relationship with the microclimatic characteristics generated by these shade intensities. The work is applied to cacao agroforests in the Colombian Amazonia, giving the importance of cacao cropping systems in the world in general, and especially in Colombia within its post conflict context."}]},{"head":"Material and Methods","index":233,"paragraphs":[{"index":1,"size":98,"text":"For that purpose, we measured sap flow in three plots with different shade intensities in agroforest systems in the Colombian Amazonia, at the Macagual Center of Investigation -University of Amazonia. We used Sap Flow Meter sensors set up in three random cacao trees in each plot. The sap flow measures was recorded during two weeks within the dry season, with a data recording system that stored a measure every 10 minutes. Shade trees composition and structure were characterized in each plot, along with environmental variables related to sap flow variation, mainly: radiation, humidity, temperature, and vapor pressure deficit."},{"index":2,"size":44,"text":"We then built a mixed linear model that predicted sap flow as a function of the climatic variables measured, and we assessed its predictions compared to the measured values of sap flow using the best (AIC/BIC) models for sap flow and a validation dataset."}]},{"head":"Major results and Conclusions","index":234,"paragraphs":[{"index":1,"size":131,"text":"The statistical model we built was able to simulate sap flow variations in each plot during the day, but also sap flow variation between the plots. We simulated real situations of hydrological behavior specific to the cultivation of cocoa under different agroforestry arrangements. Particularly, it predicted the hydraulic redistribution of cacao trees in agroforestry arrangements, as well as nocturnal transpiration in monocultures under the environmental conditions, that we put in evidence for the first time in the region of the Colombian Amazonia. In this sense, hydraulic redistribution may play a fundamental role in the water balance of the cacao plant. This model could be an useful tool for managing and predicting cacao tree water use as a function of the microclimatic conditions in the different agroforest systems in the Colombian Amazonia."},{"index":2,"size":373,"text":"L24 Modelling The use of crop models is motivated by the prediction of crop production under climate change and for the evaluation of climate risk adaptation strategies. Therefore, in the present study the performance of DSSAT 4.6 was evaluated in a cropping system involving integrated soil fertility management options that are being promoted as ways of adapting agricultural systems to improve both crop yield and carbon sequestration on highly degraded soils encountered throughout middle Côte d'Ivoire. Experimental data encompassed two seasons in the Guinea savanna zone. Residues from the preceding vegetation were left to dry on plots like mulch on an experimental design that comprised the following treatments: (i) herbaceous savanna-maize, (ii)10 year-old of the shrub Chromolaena odorata fallow-maize (iii) 1 or 2 year-old Lalab pupureus stand-rotation, (iv) the legume L. pupureus -maize rotation; (v) continuous maize crop fertilized with urea; (vi) continuous maize crop fertilized with triple superphosphate; (vii) continuous maize crop, fertilized with both urea and triple superphosphate (TSP); (viii) continuous maize cultivation. The model's sensitivity analysis was run to figure out how uncertainty of stable organic carbon (SOM3) can generate variation in the prediction of soil organic carbon (SOC) dynamics during the monitoring period of two years, within the first soil layer and to estimate the most suitable value. The observed variations were of 0.05 % in total SOC within the short-term and acceptable dynamics of changes were obtained for 0.80% of SOM3. The DSSAT model was calibrated using data from the 2007-2008 season and validated against independent data sets of yield of 2008-2009 to 2011-2012 cropping seasons. After the default values for SOM3 used in the model was substituted by the estimated one from sensitivity analysis, the model predicted average maize yields of 1 454 kg ha-1 across the sites versus an observed average value of 1 736 kg ha-1, R2 of 0.72 and RMSE of 597 kg ha-1. The impact of fallow residues and cropping sequence on maize yield was simulated and compared to conventional fertilizer and control data using historical climate scenarios over 12 years. Improving soil fertility through conservation agriculture cannot maintain grain yield in the same way as conventional urea inputs, although there is better yield stability against high climate variability according to our results."},{"index":3,"size":110,"text":"The agricultural sector in the Philippines is the major stakeholder in food production, and is dominated by smallholder farmers in the upland farming communities. Can the farmerproducers consume their own produce? Is food available and accessible among them? Can the production systems produce food enough for households and community? Can these production systems withstand climate change? These are the basic questions that were addressed by the study in the three upland farming communities in Luzon, Philippines, involving 215 farmer-respondents. The food security potentials of different production systems were analyzed based on food stability, availability, accessibility, and utilization. Each variable was measured through several indicators. The corresponding mean scores are scaled"},{"index":4,"size":74,"text":"2) means the opposite or highly available, stable, accessible, or utilized. A mean score in between (1-1.49) means moderate indicators. The food security status in the study sites were then computed by adding up the scores in each of the four measures/indicators divided by the total number of indicators (4). The food security score was measured using the following scale: (7.00 -8.00 high level of food security; 6.00 -6.99 moderate level of food security;"},{"index":5,"size":108,"text":"in the three communities were small-income earners, as their estimated annual farm income ranges from PHP 10,000-20,000. Landholdings were small-farm size ranged from 1 to 3 ha, although 70 percent of the farmers owned the land they tilled. Most of the farms had a topography ranging from rolling to steep slope, which was prone to soil erosion. Furthermore, the areas, which were mostly rainfed, were vulnerable to changing rainfall patterns brought about by climate change. Four types of production systems were present in the upland communities-monocropping, relay cropping, multiple cropping, and agroforesty. Around 64 percent adopted agroforestry planted with a combination of short, medium, and long terms crops."},{"index":6,"size":123,"text":"Results revealed that farm households engaged in agroforestry had the highest food mean score (1.82) in terms of food availability (year-round availability of food in the household); food stability or the capacity of the farming system to withstand natural calamities (1.58); food utilization (1.94, or the consumption of the farmers' produce within and outside the community; and food accessibility or farmers' ability to access basic food items either in their own backyard or nearby markets (1.53). The smallholder farmers engaged in agroforestry production systems have the highest food security score of 7.14 based on the four indicators. Therefore, this paper argues that the practice of agroforestry provides potentials for ensuring food security of smallholder farmers in the upland farming communities in the Philippines."},{"index":7,"size":11,"text":"Keywords: food availability, food accessibility, food utilization, food stability, smallholder farmers."},{"index":8,"size":319,"text":"L25 Open session Since the Constitutional Court Decision (CCD) was enacted in 2012, customary forest are no longer part of state forest, yet the rights forests. Customary forest can be owned by indigenous people through mechanism established by the government. In Indonesia, agroforestry practices also happen in customary forests or communal forests managed by indigenous peoples. This practice runs from generation to generation and is still ongoing in several regions in Indonesia. As a province with the densest population, West Java still has indigenous community, known as \"Kampung Naga\" village which maintains communal forests known as hutan larangan (taboo forest). In East Nusa Tenggara, Indonesia's southernmost province, there is \"Mollo People\" that still have traditional territories called suf. In both regions, traditional agroforestry practices are still carried out with different patterns. Agroforestry practices are carried out not only through traditional agroforestry systems (vegetables-perennial crops) in communal forest areas but also silvo pastur (forest crops-cattle) in the state forest area. Until now, the agricultural products obtained are still sufficient to meet household needs, which if there is residual harvest will be sold to the nearest market. The results of perennials are taken to meet the needs of communal needs of building materials without any compensation of money. PAFERN has implemented training programs on various aspects of agroforestry farm and enterprise development; collaborative agroforestry research and extension projects; provided technical assistance in the establishment, documentation, monitoring and evaluation of agroforestry demonstration farms/projects; organized policy forum and national and international agroforestry congresses of various themes relevant to the pressing issues and concerns in sustainable development; and in so doing, was able to directly reach-out partner communities, along with concerned local government and non-government institutions. PAFERN finds it important to have a venue for sharing recent and innovative agroforestry development initiatives, particularly prospects and challenges in addressing food security, ecological stability, poverty and cross-cutting issues in agroforestry promotion and development in the Philippines."},{"index":9,"size":187,"text":"Apart from the aforementioned activities, one major role of PAFERN is on agroforestry curriculum development. This is very important to keep abreast of the current state of agroforestry education in the country, hence contribute towards advancement of agroforestry science and practice and in bridging the science-policy gap. Given its humble beginnings and experiences, PAFERN continue to draw inspiration from the active participation and strong commitment of its member institutions, sharing the mutual goal of promoting agroforestry for sustainable development. In Europe, agroforestry systems are considered as a way to maintain higher levels of biodiversity and to produce greater biomass than conventional systems. Compared to monoculture, agroforestry systems may also enhance soil microbial functioning by increasing soil organic matter (SOM) content through the deposition of tree leaf litter, fine roots and crop residues. Short-and medium-term changes in SOM pools could alter both the diversity of microbial communities and their ability to synthesize several classes of enzymes that are the proximate agents of SOM decomposition. Studies focusing on soil microbial communities and on related ecological functions (such as carbon and nutrient cycling) in temperate agroforestry systems are still scarce."},{"index":10,"size":31,"text":"The hypothesis of our study is that the quantity and the quality of organic matter inputs in agroforestry may increase microbial biomass and the decomposition of SOM compared to agricultural systems."},{"index":11,"size":119,"text":"The study site is located on an agricultural field of the experimental farm of La Bouzule, in north-eastern France. Experimental plots have been installed during spring 2014 and associate nitrogen-fixing species (alder, alfalfa) to non-fixing species (poplar, cereals or perennial ryegrass). Agroforestry plots (poplar / alfalfa association, alder / cereals or perennial ryegrass association) are adjacent to agricultural control plots (pure alfalfa, pure cereals or perennial ryegrass). Alfalfa was sown in 2014 at the same time of poplar planting. For the second association, the rotation was spring wheat-wheat-triticale-ryegrass in the control plots. This pilot site is monitored in terms of biomass production and soil functioning since 4 years. An initial soil characterization (physico-chemical parameters) was performed in spring 2014."},{"index":12,"size":183,"text":"In 2015, 2016 and 2018, we investigated soil microbial biomass C and N (MBC and MBN), extractible organic C and N (EOC and EON) pools, inorganic N content and several enzyme activities related to C, N, S and P cycles. Soil samples were collected in the 0-15 cm layer, in the middle of inter-rows of each plot, which is repeated according to a three-block design. The initial characterization in 2014 showed a gradient of texture and organic carbon content along the three blocks. A significant effect of sampling date was observed on microbial parameters suggesting notably a strong influence of climatic conditions. After 4 years, the microbial biomass N was found to be significantly higher in agroforestry plots compared to agricultural plots with a stronger effect in alfalfa as inter-row crop compared to cereal-ryegrass. Concerning enzyme activities, we did not observe any significant difference at these early steps between agroforestry and agricultural systems. However, trends in differentiation can be observed for some N-cycling enzymes and suggest that potentially higher activities could be measured in agroforestry compared to agricultural plots in the next future."},{"index":13,"size":129,"text":"Keywords: Microbial communities, Enzyme activities, Soil organic matter, N-fixing species, Temperate systems. In the past decade, the depth, breadth and pace of agroforestry progress has accelerated. The USDA Natural Resources Conservation Service formally recognized temperate agroforestry practices in their Environmental Quality Incentives Program (EQIP) cost share programming helping promote agroforestry through national policy. An agroforestry knowledge infrastructure began to take share in the form of regional agroforestry working groups, the establishment of formally recognized online graduate certificate and MS degree programs, and the creation of numerous extended duration training programs designed to train educators and landowners. Importantly, both the NGO sector and the private sector started to engage with landowners about agroforestry, including formation of multiple specialty crop and livestock cooperatives supported by increasingly robust financial decision support tools."},{"index":14,"size":100,"text":"The future: Looking forward to 2050, a rapid expansion of agroforestry practices will be deployed on the US agricultural landscape. The agroforestry knowledge infrastructure will have matured to support a tipping point of rapid growth and development. The private sector will heavily invest and engage with landowners to deploy diversified agroforestry practices across the temperate zone landscape. Nurture capital will fund long-term perennial-based agroforestry practices. A trained cadre of \"Professionally Certified Agroforesters\" will work with landowners adopting agroforestry. Finally, an \"Agroforestry Certified\" label will gain market and consumer recognition and landowners will receive a price premium for \"Agroforestry Certified\" products."},{"index":15,"size":120,"text":"Keywords: Knowledge Infrastructure, History, Science, Education, Tipping Point. Of the non-Annex 1 countries, around a third incorporated Agroforestry in their NDCs pledges as a strategic climate change mitigation and adaptation measure. To prove compliance by 2030, readiness of national MRV systems in reporting it is a must. Yet countries struggle in incorporating the Agroforestry component, ultimately jeopardizing the attractiveness of these set of practices for countries to prioritize. We present the case of Peru as emblematic for Latin American countries challenged by Agroforestry incorporation in the MRV. In 2015, Peru iNDCs reported 3 Agroforestry measures with an estimated contribution up to 2.07 GgCO2e (55% of iNDCs pledge). So far, no upgrade to the MRV system was promoted to include Agroforestry."},{"index":16,"size":17,"text":"It is urgent to understand what are the gaps to support the definition of a readiness roadmap."},{"index":17,"size":310,"text":"The study first examines technical, infrastructural, legal and institutional gaps in relation to the IPCC guidelines for MRV. We consider agroforestry definitions in use, their alignment and actual capacity to include existing practices. We focus on the availability of activity data and emission factors including advancements in mapping, potential sources of quantitative information, the data format and their suitability for MRV purposes. Finally, we interview key actors from national reporting teams. As it is, the measuring/monitoring of Agroforestry in Peru presents key interconnected challenges in the classification, quantification and mapping, so Tier 2 or 3 activity data are lacking. Preliminary exploration on use of Remote Sensing Technologies and of IPCC classification-based land use change maps shows that the heterogeneity of the practices and the nature of the main crop are the main challenge in separating Agroforestry from forest or secondary vegetation, preventing activity data generation. This entails that IPCC guidelines gets applied and Agroforestry is reported as a generic perennial crop, downing its mitigation potential to the one of the associated crop. Aside technical barriers, not counting with an adopted legal definition of agroforestry prevents the construction of a consistent framework to assess and consistently integrate information from different sources. Agricultural statistics on perennial crops used as data source, if not simply outdated, present uncertain accuracy and do not refer to the tree component associated to the perennial crops. Lastly, Peru separate reporting structure (LULUCF and Agriculture) creates trans-sectorial challenges if Agroforestry contribution, generated concurrently by both sectors, has to be accounted. To address these topics and institutional challenges and to prove the attractiveness of mitigation through Agroforestry, these findings set the basis for a forthright dialogue among scientists, policy makers and governmental technical teams, supporting the definition of key building blocks of a MRV roadmap for Agroforestry inclusion where improvements are strategically prioritized Keywords: MRV, iNDCs, readiness, Peru, gaps."}]},{"head":"Agroforestry is a free, almost universally adaptative way to improve global food security, pollute less and mitigate climate change.","index":235,"paragraphs":[{"index":1,"size":6,"text":"There is no patent on agroforestry."}]},{"head":"Make our planet treed again!","index":236,"paragraphs":[{"index":1,"size":3,"text":"https://agroforestry2019.cirad.fr @Agroforest2019 #Agroforestry2019"}]}],"figures":[{"text":" -Bogota, Colombia: Agroforestry for conservation: mitigating climate change in the Colombian Amazon • LANG Rong -Stuttgart, Germany: Converting natural forest to rubber plantations affects soil • MENICHETTI Lorenzo -Uppsala, Sweden: A nonlinear method to estimate the agroforestry sequestration potentia • MORENO Gerardo -Plasencia, Spain: Carbon sequestration of Iberian dehesas offsets emissions of their livestock • GUILLOT Esther -Montpellier, France: Soil quality is improved in a Mediterranean agroforestry system compared to a conventional cropping system • MOSQUERA-LOSADA Maria -Lugo, Spain: Effect of the land use on the carbon storage in the soil fractions in the South of Portugal 4 "},{"text":"Figure 1 . Figure 1. Annual carbon (C) budget of the effect of hedgerows on the C balance of livestock-grazed (G) pasture on free-draining soils. Annual soil respiration (SR) rates were calculated for pasture and vity. "},{"text":"Figure 1 . Figure 1.Impact of shade in carbon storage in total biomass and necromass (a) and fixation rate in total biomass (b) in coffee plantations in three municipalities of Cundinamarca, Colombia. Error bars correspond to standard error. "},{"text":"Figure 1 . Figure 1. Implementing agroforestry on the 8.9 percent of European farmland with the highest deficit in ecosystem services would compensate up to 43 percent of European agricultural GHG emissions. "},{"text":"Fig. 1 . Fig. 1. Predicted organic carbon in aboveground biomass and soil (0-20 cm) in Kerala agroecosystems under four scenarios modeled with CENTURY, a process-based model. 1) Under the 'Change in Crop System' scenario, both diversity and management were varied. 'Mixed' systems contain annuals and trees. A '++' indicates additions of manure and irrigation water and '00' indicates no additions. 2) Under the 'Difference in Soil Type' scenario, the sand fraction was varied from 0.1 to 0.7 in the 'Mixed, ++' system. 3) Under 'Increase in Temperature', minimum and maximum temperatureswere increased above the current 20-y means, as indicated, also in the 'Mixed ++' system. 4) The effect of 'Change in Species' of trees was simulated by increasing the production capacity and tissue lignin contents in the 'Trees 00' system. Species 'C' is the default tree (LUQD) in CENTURY. "},{"text":"Figure 1 : Figure 1: Comparison of mean SOC content (Mg C ha -1) between riparian buffer systems (RBS) and respective adjacent agricultural fields in each site sampled at 0 -30 cm depth in Grand River watershed, waterloo region, Ontario in 2017-2018. (MDC -Mature deciduous clay, MCC-Mature coniferous clay, YDC-Young deciduous clay, YCC-Young coniferous clay, MDL-Mature deciduous loam, MCL-Mature coniferous loam, YDL-Young deciduous loam and YCL-Young coniferous loam).With in a site, means followed by the same letter are not significantly different according to a Tukey's "},{"text":"Figure 1 : Figure 1: Cocoa next to shade tree (left panel) and coordinated trait variation in cocoa roots described by principal component axis scores (right panel). "},{"text":"Figure 1 . Figure 1. Coffee yields under monoculture and agroforestry systems in current and future climate change scenarios at: a) Wonago b) Limu Kosa sites in Ethiopia "},{"text":"Figure 1 . Figure 1. Photo taken in the AF treatment showing the position of two PAR (Photosynthetically active radiation) sensors (black circle), of the anemometer (red) and of the four tensiometers (blue). "},{"text":"Figure 1 . Figure 1. Comparison of adaptation and mitigation indicators in the three most dominant coffee production systems in Líbano, Tolima -Colombia. "},{"text":"Figure 1 : Figure 1: The network of forest shelterbelts in Braila County (shelterbelts -green line, boundary of county -red line, boundary of commune -yellow line) "},{"text":"Figure 1 : Figure 1: Distribution of trees (Y axis: number of individuals) by diameter class "},{"text":" Components litter fall proportion (A), Mean total litter fall per species (B) and litter fall dynamics during year (C) of the three agroforestry species (1) and Chemical composition of compost of sorghum residue and litter fall (LF) of three woody species in agroforestry systems, Burkina Faso (2) Background Farmer-managed natural regeneration (FMNR) is a low-cost restoration technique promoted widely amongst smallholders in the parkland agroforestry systems of the Sahelian drylands. However we know little of what vegetation regenerates naturally, how people manage it and what restoration benefits can be derived. Aims We aim to understand the woody regeneration dynamics and their drivers in agroforestry landscapes. Specifically we assess the state of FMNR, what are the environmental and human drivers of regeneration, and what are the consequences for the restoration of important functions and for climate change resilience. "},{"text":" A 15-year-old A. senegal plot was harvested in 2011.It produced 1200 kg/ha of gum arabic for 8 years (750 €/ha) and 40 m3/ha of fuel-wood for 15 years (1100 €/ ha) (D'Andous et al., 2013). Aims: After A. senegal were harvested, we studied the evolution of chemical soil properties and the production of successive crops. Mat. & methods: On sandy ferruginous acidic soil, rainfall 1000 mm/year, the farmer planted successive crops of maize, cotton and groundnuts (2011-2013). In 2011 & 2015, the soil was analyzed (composite) on 2 plots of 12 x12 m after A. senegal control plots continuously cultivated (Cc). "},{"text":"Figure 1 . Figure 1. Typology of the forms of restoration observed in the Northeastern region of Pará "},{"text":"Figure 1 . Figure 1. Carbon stock and biodiversity index (Shannon-wiener index) in different land use systems of Indonesia (Primary data from Konawe plus published data fromHenry et al., 2009;Mandal et al., 2013; Markum et al., 2013; Kendom, 2013; Natalia et al., 2016; Kurniawan, 2018; Prayogo, 2018)     "},{"text":"Fig: Fig: WEMs trading in the market (a) Lentinula edodes,(b) Schizophllum commune, (c) Auricularia delicate "},{"text":"Figure 1 : Figure 1: Systems diversity indexes and relative frequency of soil engineers. "},{"text":"Forestry and Biodiversity Department, Tripura University, Agartala, Tripura, India    Traditional agroforestry systems have been widely practiced by the people of Northeast India since time immemorial. A study has been conducted in different states of Northeast India to understand the structure, biodiversity value and management of traditional agroforestry systems. The study revealed that the systems have potential to preserve biodiversity in the region. Different plant species grown in these multistoried systems are confounded by the livelihood requirements and traditional knowledge. Deb etal (2014) reported 93 species from traditional agroforestry systems. The stratification in agroforestry is based on light requirement of plants, soil qualities and also by seeing the commercial value of the particular species. The farmers of the traditional agroforests can categorize the plants indigenously on the basis of light requirement. The most prevalent agroforestry systems in the region are Agri-horti-silvi-pisciculture, Agri-horti-silviculture and Horti-silvi-pastoral systems. It was observed that the plants have been distributed contagiously in most of the systems. "},{"text":"Figure 1 : Figure 1: Study design and the hypothesis that species diversity (H) decreased from urban to rural areas. "},{"text":"Figure 1 : Figure 1: Forest belts for growth and development of wild species and for protection of agricultural crops "},{"text":"Figure 1 . Figure 1. Correlation of FDA enzyme activity and the number of years from the last tillage and humus content "},{"text":" Rigorous long-term scientific studies confirming environmental benefits from the use of agroforestry (AF) practices are limited and thus restricts the adoption of AF practices. The objective was to examine the effects of AF and bioenergy crops on nonpoint source pollution (NPSP) on row-crop watersheds. Three watersheds in a paired watershed design were established in 1991 at the Greenley Research Center of University of Missouri, USA (Fig.1). Treatments of oak trees+grass buffers on AF and grass buffers (GB only) on GB were established in 1997. Bioenergy crops (grass and legume) were established in between buffers of AF and GB watersheds in 2012. Water samples were analyzed for sediment, total nitrogen (TN) and total phosphorus (TP). Results indicated that treatments reduced the number of runoff events, runoff volume, sediment, TN, and TP on AF and GB watersheds compared to the row crop watershed. During 2012-2018, treatment watersheds generated two runoff events and row crop watershed generated four events annually. Average sediment loss for row crop and treatment watersheds were 11 and 5 kg ha-1 yr-1. Treatment watersheds reduced sediment, TN, and TP losses by 54, 42, and 46% compared to the row crop watershed. Results suggest that establishment of AF, GB, and bioenergy crops help reduce NPSP to water bodies. These treatments could be established on contours and strategic locations of row crop watersheds to improve economic benefits, land value and environmental quality. "},{"text":"Figure 1 . Figure 1. Grass waterways (black wide), 0.5 m interval contour lines (black thin), and grass buffers (gray) on the GB watershed and oak trees+grass buffers (gray) on the AF watershed. The inset map shows approximate location of the Greenley Memorial Research Center in Missouri. "},{"text":"Fig 1 ( Fig 1 (a). Non-metric multidimensional scaling (NMDS) ordination plots (2D) of taxonomic dissimilarity (Bray-Curtis) at the level of genus for bacterial communities. Results of PERMANOVA on Bray-Curtis distance (based on 9999 permutations) is shown. Fig1(b). Comparison of nosZ gene abundance and "},{"text":"1 ; 2 in Poland sustainable? Case study of beef cattle farmBorek R. 1 (rborek@iung.pulawy.pl),Wawer R. 2   Dpt. of of Soil Science, Extensive silvopastoral systems, using wooded or abandoned lands can be an alternative for small and medium-sized farms. It offers animals protection, delivers high-quality beef (the case of beef cattle farming) and woody biomass at the same time. We present here financial and environmental effects of silvopastoral beef cattle farm. The case study is 200 ha organic farm in Beskid Mountains, and situated in very diversified landscape, consisting of open and wooded grasslands and forest of different age. Grasslands are planted partly with hedgerows and fruit trees. Beef cattle is kept in rotational system of field use, involving grazing and mowing. Wood is harvested for heating of farm buildings as well as for sale to local buyers. In order to assess cost effectiveness of land use, FarmSAFE spreadsheet model has been used to compare net margins, net present values, infinite net present values, equivalent annual values and labour requirements for forestry, pasture and silvopastoral systems. The adaptation of locally relevant silvopastoral systems is explored by analysis to examine resource use efficiency. Two spatial regional scenarios are assessed in aspect of their environmental and economic influence in the farms. GIS tools are used to carry out analysis. For environmental assessment spatial indicators of erosion risk, soil hydrology, landscape diversity and micro-climate were applied.Keywords: Silvopasture, profitability, Land use efficiency, Landscape, Ecosystem services. "},{"text":"Fig. 1 Fig. 1 Responses of stakeholders calculated as average weighted scores of each item (blue bars) and mean of the average weighted scores of items category (red bars) "},{"text":" Syntropic agroforestry seeks self-sufficiency and independence from external inputs, producing biomass within the system through service-plants. The study evaluated biomass quantity and cost-benefit in a citrus agroforestry. Management and ecological features were registered in Jan-Oct, 2017. Dry biomass was measured and extrapolated. Management practices were assessed using PDCA. Time-motion study and management costs were combined with biomass weight and translated into monetary costs of tons/ha. Calibration based on seasonality-productivity-intensity was used to calculate system average production along 20 years life-cycle. Components, densities, arrangements, costs and canopy covering are shown in figure1. Annual dry-biomass weight and calibration are shown in figure2. Results showed annual production of 25.78 ton/ha of dry biomass, twice superior to the natural deposition in semideciduous seasonal forests in Brazil. Banana was the most cost-effective, due to the easy management and decomposition of its biomass. Grass shows similar cost but occupies 2.5 times more area. Eucalyptus is the most expensive, due to time-consuming apical-pruning and expensive machinery. Qualitative features of biomass are object of ongoing studies. Understanding service-plants and their comparable productive indicators, will help regenerative agroforestry to prevail over monoculture-chemical based plantations, while giving necessary tools to spread large-scale agroforestry models worldwide. "},{"text":"Figure 1 : Figure 1: Webcorky online tool available at http://www.isa.ulisboa.pt/proj/webcorky/ "},{"text":"L10. 1 AF in practice 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L10.1_O.05Benefits of practicing agroforestry -a case study from IndiaSurendra S. (sks105@rediffmail.com)    SocilaStudies, Shemford School, Dehradun, Uttaraknand, India     "},{"text":"Figure 1 . Figure 1. Effect of treatment on tree height growth in woodland development stages/stands: a: stage 1; b: stage 2; c: stage 3. "},{"text":"Fig 1 . Fig 1. Moringa plants (14 months old) growing with Phaseolus vulgaris in an arid location in Tunisia "},{"text":" Syntropic agroforestry in Fazenda da Toca is seeking best cost-benefit and less carbon-demanding model for system self-sufficiency in biomass. Study evaluated pros & cons of apical annual pruning for biomass deposition in E. urograndis, while conducting a PDCA for improvements. Operational costs were evaluated (Jan-Oct 2017), and 3 main operations were monitored weekly: (1) biomass pruning, (2) gridding and (3) distribution. Standardized unit was tree canopy harvested at 6 m height (68.3 Kg and 35% humidity). Several compartmentalized time-motion studies were conducted with PDCAs being severely tested. For apical pruning 3 main modalities and arrangements were tested. For biomass gridding and distribution (combined) 4 modalities were tested independently. Further information is shown in figure1. PDCA process responded for a cost reduction of 43.2%. Process unit was US$ 1.57/tree (3.4 min), representing US$ 0.07/Kg of biomass grinded and distributed. Apical pruning accounted for 34.72% and grinding for 65.27%. Arrangement necessary to fulfill a constant production for 100 ha was 2 tractors (4x4 25 hp), one tower, 1 grinder, 2 chainsaws and 7 workers. Qualitative features of biomass, other sources and adapted machinery are object of ongoing tests. Process is still expensive. It's mandatory to develop better machinery to reduce risks and costs. Lignified material provided by Eucalyptus represents an excellent soil cover and nutrition material for tropical agroforestry systems.(A) Apical pruning operation in the eucalyptus test area with one branch left per tree; (B and C) Tractor tower used in the operation; (D) Tree-top pruned and (E) Cost-benefit comparison of 3 different sources of biomass used in Fazenda da Toca "},{"text":"Figure 1 : Figure 1: Diameter at Breast Height growth per day of pollards (brown) and control trees (green) as a function of time. The bars indicate ± standard error "},{"text":"Figure 1 . Figure 1. Tree diameter increment (cork+wood) pattern during two consecutive years after performing understory management alternatives (UMA) operations. "},{"text":"Figure : Figure: Main oil palm agroforestry systems developed by smallholders in the Allada region (Southern Benin). Oil palm tree associated with: A (top-left), Pineapple; B (top-right), Tomato; C (bottom-left), Maize; D (bottom-right), Cassava. The annual crops are maintained no longer than the immature period of the trees. © H. Koussihouèdé "},{"text":"Fig. 1 Fig.1 Location and overview of the agroforestry Long Term Experiment (LTE) in Pisa, Italy "},{"text":"Figure 1 . Figure 1. Yield safe understory production (DM and %) simulation in four scenarios. WH: Wheat; GR: Grassland "},{"text":"The Sierra Mountains of Central Argentina: Afforestations in Argentina converted some areas in silvopasture. Major benefits include: (i) Decreased flash flooding through increased precipitation infiltration (ii) Rapid improvements of soil health by OM and nutrient deposition(iii) increase rural employment (iv) Production diversification. (v) Higher stocking capacities than treeless areas (v) Silvopasture provides shelter for livestock during extreme weather events (vi) Improved silvopasture rotational grazing increases animal performance and health and plant richness. Central New York: Livestock farms in New York are typically a mix of pasture and forest. Major benefits of silvopasture are: (i) Control tool of invasive forest plants (ii) Increase farmland use and diversification leading to a greater viability. (iii) Soil health improvement (iv) Improved water infiltration in soils (v) Reduced extreme weather events livestock exposure and animal confination (vi) Greater forage drought resilience(vii) Reduced pest issues (viii) Greater resilience. Galicia: Silvopasture benefits in Galicia are (i) Feeding animals during shortage feed periods (ii) Increasing short, medium and long term productivity (iii)Reducing fire risk and GHG emissions (iv) Increasing biodiversity (v) Reducing water contamination in agricultural lands (vi) Improving soil water infiltration (vii) Improves landscape beauty (viii) Increasing productivity, rural development and community resilience. "},{"text":"Figure 1 . Figure 1. Silvopasture plots in Galicia, Central Argentina and New York "},{"text":"L 'Ecole Nationale des Eaux et Forêt/The National School of Water and Forests of Cameroon (ENEF) and Virginia Tech University's Department of Forest Resources and Environmental Conservation (FREC) are improving agroforestry science and community collaboration skills among ENEF students while protecting the Mbalmayo Forest Reserve. The reserve contains important wetland and forest habitat, and the ENEF teaching, training, and research forest. It also plays a critical role in regional water quality, wildlife, and farmer livelihoods, but degradative agriculture threatens its integrity. Previous efforts to manage the ENEF teaching forest and promote wetland conservation were top-down, forest-centered, and ultimately rejected by local farmers. Collaborative conservation and action research focused on agroforestry better balances student education, farmer buy-in, and environmental health. Through a combination of classroom and field-based interaction, students and farmers are gaining first-hand knowledge needed to work together in a transparent and scientific manner. This includes scientific research methodology and analysis, water quality and sediment monitoring, novel community engagement and citizen science techniques, site selection, and agroforestry technology design and management. Student/farmer interactions are studied using narrative-and activity-based methods, and field plantings and monitoring systems track impacts. Keywords: Education, Mixed Methods. "},{"text":"Figure 1 : Figure 1: Network of \"friction points\" between orchard and market gardening management practices.chard management practices. Node size is proportional to the number of interactions in which they are involved. Edges thickness is proportional to the intensity of the interaction between two nodes (number of occurrence among farmers). "},{"text":" French hedges? The power of the local agroforestry associationsMagnin L. (leo.magnin@ens-lyon.fr)     "},{"text":" The 2015 Paris Agreement provides a landmark global commitment to tackle one of the biggest challenges of our time: to keep global temperature rise below 2 degrees, or even more to limit to 1.5 degrees. Countries reflect their commitments to critical target in their Nationally Determined Contributions (NDCs); mitigation actions in land use, land-use change and forestry are referenced in 83 percent of the NDCs. Reducing Emissions from Deforestation and forest Degradation (REDD+) has been a feature of negotiations in the UN Framework Convention on Climate Change since 2007. Through REDD+, countries have made considerable progress in their thinking and national planning of how agriculture, forestry and other land-use (AFOLU) sectors can contribute to mitigate climate change; some have embedded their REDD+ national strategies as part of their NDCs. After years dedicated to the \"readiness phase\", focused on strengthening technical capacities, constructing national plans, reference levels, safeguards, and national monitoring systems, government and stakeholders are now piloting the implementation of their REDD+ strategies at different levels. During the readiness phase, the importance of fostering synergies between agriculture and forestry was recognized and agroforestry became a relevant action in several strategies. Agroforestry has the potential to contribute both to climate change mitigation (by enhancing, managing and conserving carbon stock and by contributing to reducing deforestation and forest degradation) and adaptation (for example by increasing the resilience of communities to shocks). The significance of trees on agricultural land for carbon sequestration was estimated globally to 45,3 PgC (45,3 GtC) or 21.4 tC ha-1. Examples of agroforestry contributions to recover and conserve carbon stocks, are found across the world, for example in the Amazonas, in indigenous communities in Panama (reforestation of degraded lands combining native timber and fruit trees) or in Côte d'Ivoire, where cocoa production funded and combined with other solutions effectively prevented deforestation. "},{"text":"Fifure 1 : Non-symmetric correspondence analysis on the references made by stakeholders to different types of agroforestry systems.Keywords: policyscape, policy instrument, Mediteranean landscape, agroforestry, protected area. muwimbabazi@gmail.com), Kiyingi I., Agaba H., Kisekka R., Ntakimanye A., Kabonesa B.,Musiimenta S., Galabuzi C.Forestry Resources Research Institute, NARO, Kampala, UgandaAlmost one-fifth of global carbon emissions come from land use changes, largely attributed to deforestation in tropical countries. Deforestation and degradation of tropical forests have gained attention due to increased momentum on global climate change negotiations. "},{"text":"Figure 1 : Figure 1: classification of agroforestry farms in the Nijmegen area "},{"text":"Figure 1 . Figure 1. Harvesting hazel hedgerow with tree shears, Elm Farm, Berkshire, UK 2014 "},{"text":" Evolution of incomes according to a gradient of density and diversity of plants associated with cocoa trees in AFS: CI for cocoa income, OPI for other products income, VDC for value of domestic consumption and GI for global income. Keywords: Cocoa-based Agroforestry system, Diversity of associated plants, Density of associated plants, Economic performances. "},{"text":"Figure 1 . Figure 1. Radar chart of food security indices of household types for seven livelihood scenarios "},{"text":"Fig 1 : Fig 1: Only those smallholders receiving permanent technical assistance and support from project or agro-industries succeeded in adopting selected oil palm tenera types. Before plantation oil palm development, family farms used their own planting material from local dura type oil palms. Many smallholders were not aware that to participate fully in the new oil palm developments they had to purchase selected seeds from selected seeds suppliers. "},{"text":"Figure 1 . Figure 1. Maps showing the current land use (A) and the planned land use (B) in a farm in Carchi,Ecuador. The maps are part of an integrated farm planning exercise, developed to promote sustainable land management options. The farm plan changed from currently having two land use types (forest and pastures), to a more complex arrangement, including silvopastures, agroforestry plantations and restoration of riparian vegetation, in addition to forest conservation. "},{"text":" 's training tool set to encourage the use of agricultural practices supporting biodiversity conservation in Israel. We used mixed model of qualitative and quantitative methods, in 3 stages: (1) Content analysis for mapping the social marketing environment: The farmers, The agricultural practices, and the training tool itself. (2) Development of an online training tool. (3) A field research to evaluate the training tool, together with a farmer association. Stage 1 identified that farmers lack practical knowledge on biodiversity in agriculture, they lack normative information and interpersonal communication on the subject. Stage 2 was able to create an online training tool. Stage 3 identified that farmers consume training content on diverse characteristics (82%) and not only scientific knowledge. They are much more attracted to normative information (45%), and value interpersonal communication (33%) when choosing new practices. Therefore, we concluded that when perusing the assimilation of new agricultural practices, we should work on multiple communication channels, such as social marketing can develop. Keywords: Agricultural practices, Biodiversity conservation, Social marketing, Social norms. "},{"text":" Adoption of intercropping by a farmer in Bena. Coloured bars indicate the operations performed by the project staff and the farmer. "},{"text":"Figure 1 : Figure 1: Limpopo Province map showing visited timber based mixed farms/agroforestry systems in red dots (ARC -ISCW, 2017) "},{"text":" Develop a unique agroforestry qualification program in each European country. It was coordinated by AgroSup Dijon, France. Thirteen partners from ten different countries participated in the program by contributing a wide range of knowledge, experiences and ideas. Within the framework of the Agrof MM project, European stakeholders were trained based on a general format (Core content) that differentiated based on the location. The training contained lectures, examples and a field trip. Interestingly, the priorities of the participants differed depending on their educational level and their age. European stakeholders were satisfied by the training format and stressed the need and willingness for interaction with other farmers and experts (Fig 1). "},{"text":"Fig 1 . Fig 1. Suggestions by stakeholders for the training "},{"text":" the reasons for small-scale farmers to implement agroforestry in north-eastern BrazilSagastuy M. (machisagas@hotmail.com)    Environmental Sciences, Gothenburg University, Göteborg, Västergötland, Sweden "},{"text":" However, several forestry or agro-forestry initiatives mitigate this worrying diagnosis, including initiatives that are politically-based, project-based, community-based, or initiated by individuals to generate several types of ecosystem services from trees. By promoting other types of services (like watershed regulation or carbon sequestration), initiatives should be federated and supported by water, wood, energy, agro-industrial or carbon value chains, and adapted to the main limiting factors, especially fire risk. Former dynamics of a Highland forest landscape: Fiadanana (Upper Matsiatra, 1957 to 1991). Reduction and fragmentation of forest habitats and shrubs, expansion of exotic reforestation of fire-tolerant trees Keywords: Madagascar, Deforestation, Ecosystem services, Agroforestry, Practices. "},{"text":"Figure 1 : Figure 1: a) Average net financial benefit of biomass production in € ha-1 a-1 of 11 cases study regions in biogeographical regions, b) Net ecosystem service value in € ha-1 a-1 of 11 cases study regions in biogeographical regions "},{"text":" Firstly agroforestry is part of those agricultures generating landscapes which are at the core of a renewal of the scenery. Between modernity and tradition, agroforestry redraws and recomposes lines, reorganizes plots, in moving or creating lines it replaces boundaries at different scales. Secondly we choose to use audiovisual aids in three interwoven work registers and questionings: -the life trajectories and social conceptions of farmers producing agroforestry landscapes, focusing on their motivations and feelings in order to understand the signification of their actions in landscape -those partices, technical actions and activities that solidify their purposes -the aesthetics of agroforestry shapes and landscapes, here we questions the shapes ans traces, the powerful marks of agroforestry in the local settings. The result is a movie produced at CNRS 5193 Lisst-Dynamiques rurales research team, in partnership with Arbres et Paysages d'Autan, supported by the Fondation de France and the French Ministry for Ecology.agroforestry landscape: drone view Keywords: agroforestry landscape, movie search, agroecological transition, agroforestry farmers. "},{"text":" ) and holm oak (Quercus ilex L.) forests and agroforestry systems in mainland Portugal. NDVI, a good proxy for forest health and productivity monitoring, was calculated between 1984 and 2017 using Landsat-5 TM and Landsat-7 ETM+ imagery. TM values were adjusted to those of ETM+. The spatiotemporal trend analysis was performed only with the July and August NDVI values, in order to minimize the spectral contribution of understory vegetation and its phenological variability, and thus focus on the tree layer. Signs and significance of trends were obtained with the Contextual Mann-Kendall test and their slope with the Theil-Sen estimator(Neeti, 2011). MODIS NDVI time series and data from long-term forest inventory plots located in oak woodlands allowed validating the methodology and results. Thirty percent of the Portuguese oak woodlands area reveal significant decreasing trends. During the development of the methodology, Google Earth Engine platform proved to be a powerful tool, allowing to assess the productivity of oak woodlands and other types of forests.Graphical abstract. A. Contextual Mann-Kendall significant NDVI trends for cork and holm oak areas in Portugal (1984-2017). B. Example of the Landsat and MODIS July-August NDVI time series (1984-2017) for one study site, with Theil-Sen linear regression estimate and Pettit's change-point for the Landsat trend. C. Total area and proportion of the areas with significant increasing and decreasing NDVI trends per land cover class. "},{"text":" France, until the creation of the Forest Code in 1827, the farmer took advantage of the wood close to the cultures and practiced silvopastoralism. According to JH Von Thünen's «ring-shaped» land-use model in 1826: Urbs / Hortus/ Ager / Saltus / Silva, the territorial building was based on this complementarity and the city lived on external resources. This system has lost its complexity with a specialized modern agriculture, reducing the importance of Hortus and Saltus in the territory organization. Today, legal planning documents divide French territory into 'Areas' (U: Urban, AU: Urban Reserve, A: Agricultural, N: Natural). If it is agreed that the farmer is a landscape creator, his practice is not considered as constitutive part of land development. The specialization of agriculture makes him a resource producer more than landscape producer. In a context of climate change and major crises, France since 2015 pledges on an agroecological project and planners and local actors are asked to start the territorial transition. If agroforestry proposes a hybrid solution for complementary and sustainable resources, can it also be a hybrid solution of planning, a new way of shaping the territory? The landscape architect must integrate new agricultural models to prepare the territorial transition, to find a complementarity between Urbs and Ager by productive landscape, the return of Hortus and Saltus?Territorial patterns, from Van Thünen rings to modern Agroecology Keywords: Landscape, Productive landscape, Territorial transition, Hybridation. "},{"text":"Fig. 1 . Fig. 1. Relative priority scores given to the three agroforestry intercropping system designs (crop design, forestry design and landscape design) by all stakeholders and each stakeholder category (farmers, farm advisors, foresters, landscape planners and local authorities) in the agricultural intensification landscape (up) and the agricultural decline landscape (down). "},{"text":"Figure 1 . Figure 1. The iris cultivation in the Iris Garden of Florence (picture from http://societaitalianairis.com) "},{"text":"Figure 1 . Figure 1. Condition of ecosystem functions according to hedgerow type: tree hedgerow (TH), predominantly tree hedgerow (PTH), equal proportion of trees and shrubs (EPTSH), predominantly shrub hedgerow (PSH), shrub hedgerow (SH); hedgerow structure: closed (C), with small gaps (SG),with big gaps (BG); and degree of naturalness: near natural (NN), mixed (M), exotic(E)     "},{"text":"Figure 1 Figure 1 Proportion of food groups and their sources of the unique food items consumed by the 49 children during a repeat 24-hour recall in Kampala (Uganda) 2015, taken during dry season. "},{"text":" Despite increasing focus on OLU and trees outside forests, trees in private spaces in cities remain understudied. Urban planners and policy makers need to be able to build resilience and sustainability into all aspects of urban management plans. Home gardens could prove attractive tools for policy development and implementation.They have been shown to support climate change resilience, combat natural resource constraints and address food insecurity however most literature focuses on Asia or rural locations. The present study examined 26 home gardens in the Cape Flats, South Africa in 2017 through semi-structured interviews and direct observation working with three local NGOs. Case studies are presented with data on (1) garden structure and composition and (2) values derived from home gardening, and (3) challenges. "},{"text":"Figure 1 Figure 1 Large, mature garden with mixed trees and clearly zoned areas "},{"text":"Figure . Figure. Mango orchard mapping: (a) UAV-acquired RGB orthomosaic; (b) land use map; (c) Canopy Height Model (in meter); (d) mango cultivar yield map (in kg per tree). UTM coordinates system (zone 28N); Datum WGS84. "},{"text":"Figure 1 : Figure 1: Cover of olive agroforestry systems according to Corine Land Cover 2012 land use types. "},{"text":"Figure 1 . Figure 1. 3D structure of Acacia etbaica Schweinf. by SfM method. "},{"text":"Figure 1 : Figure 1: Time (years) needed for cocoa agroforests set up after savannah (S-cAFS) to reach the same values as cocoa agroforests set up after forest (F-cAFS) in term of carbon storage, tree species diversity, cocoa production, litterfall, litter cycling and soil features. These values, displayed on the right side of each bar correspond to a convergence point of each variable for both systems along the age gradient. The initial values for S-cAFS at 0 or 5 years according to the variable, are expressed in % of this convergent reference. "},{"text":"Figure 1 : Figure 1: Correlations between temperature amplitude (difference Tmax -Tmin) during the day and growth rate (upper left panel) and survival rate (lower left panel) of cocoa trees, as well as between organic C (upper middle panel), total N (upper right panel), bulk density (lower middle panel) and water holding capacity (lower right panel) and survival rate of cocoa trees. "},{"text":"Figure 1 . Figure 1. Herbaceous community sampling plot in an organic coffee agroforestry systems in the Turrialba Valley of Costa Rica. "},{"text":"Objective The BREEDCAFS project plans to test F1 hybrids of Coffea arabica -high yielding, stress resistant and adapted to agroforestry -in coffee producing countries, such as Vietnam. Materials Several F1 hybrids (provided as in vitro plantlets, Fig.A) were sent from Agristart (USA) to Hanoi where they were acclimatized (Fig.B). Then, these plants were sent to NOMAFSI greenhouses (Mai Son, Son La province) where they were transferred in plastic bags to speed-up their development (Fig.C).MethodsIn order to study the responses of these F1 hybrids to abiotic stresses, a field experiment was set-up in the NOMAFSI station by planting these hybrids, as well as local varieties (i.e. catimor), under shade and full-sun conditions (Fig.D). In 2019, controlled irrigation and water withdrawal system (mimicking drought periods) will be implemented, therefore permitting to monitor regularly physiological traits (water status, photosynthetic efficiency, stomatal conductance, etc.) and molecular (transcriptomic) of hybrids and control plants. In order to test the responses of F1 hybrids to environmental conditions and farmers' management, twelve smallholder farms were also selected in the NW provinces of Son La and Dien Bien Phu to set-up the farmers' field trials under different altitudes (ranging from 600 to 1100m) and agroforestry systems (Figs.E-F). These trials were planted in June 2018 and should produce their first and significant production in 2021. http://www.breedcafs.eu Keywords: Coffea arabica, F1 hybrid, agroforestry, Vietnam. "},{"text":"Figure 1 . Figure 1. The agriculture land resiliency and recovery in response to volcanic eruption depending on the plant and soil management by the farmer. "},{"text":"Figure 1 : Figure 1: Effect of shade density on coffee yield (a), and quality parameters (b-d). Number of ber- "},{"text":"Figure 1 . Figure 1. Principal component analysis (PCA; left) with variable loadings, and discriminant analysis (DA; right) for the 3 durum wheat genetic profiles considered in the study (ancient pure lines (PL), populations and modern well-known pure line (PL) varieties) within C, AF and AF+ treatments. "},{"text":"Figure 1 : Figure 1 : Schematic representation of the experimental design (A) and an example of a plantation scheme (B). "},{"text":" Colocasia esculenta L. Schott (taro) plant is basically a collection of long-stemmed leaves which grows from the swollen stem/corm underground. It is the fourteenth most consumed vegetable worldwide. The most important feature of taro is its good adaptability, resistant to different diseases and high productivity in different areas. Taro plant can fit well with different tree crops and agroforestry systems. Taro in an agroforestry system will not only increase the supply of vegetable crops but also raise the green cover. The present study focus on the vegetative growth and yield of Colocasia esculenta under poplar based agroforestry system and open condition. Comparative performance of ten Colocasia esculenta germplasm, i.e., PA-12, PA-16, PA-18, PA-29, PA-33, PA-49, PA-56, PA-60, PA-63 and PA-73 were evaluated using Factorial Randomized Block Design with three replications. The results of the study revealed that germplasm PA-16 performed well under poplar based agroforestry system and gave highest yield (262.34 g/plant) per plant and (145.74 q/ha) per hectare. Whereas, germplasm PA-12 performed well in open system and gave highest yield (655.19 g/plant) per plant and (364.10 q/ha) per hectare. The physico-chemical property of soil for pH, electrical conductivity, organic carbon, available soil nitrogen, available soil phosphorus and available soil potassium were also analyzed, which were better under poplar based agroforestry system as compared to open farming system. "},{"text":"Fig. 1 - Fig.1 -Yield component data of soybean cultivated in an alley cropping system. "},{"text":" The orchard of grafted honeylocust trees established in 1988 at Melgueil (Montpellier, France) was monitored for almost 30 years for pods production.Plant species are classified into families on the basis of common morphological characteristics. The objective was to describe the diversity of leaves biochemical characteristics in woody species within and between botanical families. Leaves crude protein (CP) content and enzymatic digestibility of dry matter (ED,Aufrère, 1982, adapted to the DAISY Incubator) were determined on 153 leaves samples from 30 tree species belonging to 7 families(Emile  et al., 2017), with at least 2 species per family. The relationship between ED and CP content (Figure1) shows a wide diversity within and between botanical families.The variability of ED and CP within families was dependent on the family. Species belonging to the Moraceae, Betulaceae, Fabaceae and Caprifoliacea families exhibited high leaves CP content, with mean values of 171, 168, 164 and 160 g kg-1 DM, respectively. ED was highest for Moraceae and Caprifofoliaceae (min of 74%) and lowest for Fabaceae (max of 60%). ED of Betulaceae varied widely, from 41 to 77%. Most of the species belonging to Rosaceae, Oleaceae and Fagaceae exhibited moderate leaves CP content with mean values around 130 g kg-1 DM. ED was rather good for Rosaceae and Oleaceae (62 to 87%) and varied in a large extent for Fagaceae (43 to 76%). The results revealed clear leaves biochemical characteristics similarities across species within the same botanical family. "},{"text":"Figure 1 Figure 1 Relationship between the enzymatic digestibility of dry matter (%) and crude protein content (g kg-1 DM) in the leaves of 30 woody species collected in August aggregated into botanical families. "},{"text":" to improve production: Case of tropical agroforestry Salazar-Diaz R. (risalazar@tec.ac.cr) ITCR, Cartago, Costa Rica "},{"text":"Figure 1 . Figure 1. Planted shelterbelt within the prairie agro-ecosystem in Canada "},{"text":"Fig. 1 Fig. 1 Daily average sapflow in A. coriaria and C. africana over a 10 month period. Rainfall events indicate the early wet season (April to June) and the start of the late wet season (August to November) "},{"text":" Time course of poplar and alder heights in the monoculture and agroforestry plantations, and statistics (2-way ANOVA) at the end of 2018 Keywords: N2 fixation, Alley cropping, Biophysics, Socioeconomics, Agroforestry potential. Agroforestry systems (AFS) act as a source and sink of reactive nitrogen (N) in N-cycling in agro-ecological systems. Tree species, soil and climatic conditions, age of plantations, treecrop combinations etc. are the major governing factors for N-cycling under AFS (Nair et al. 2009). The AFS can maintain or even restore reactive N through biological nitrogen fixation (BNF) (13-500 kg/ha/yr), deep N capture, reducing volatilization losses by leaf litter and number of other cycling mechanisms. Based on agroforestry data of eight Indian states (Punjab, Haryana, Uttar Pradesh, Bihar, West Bengal, Gujarat, Rajasthan, and Tamil Nadu), 1.5 BNF trees/ha have been calculated (Ajit et al., 2016). On the basis of N-fixation potential of BNF trees such as L. leucocephala, D. sissoo, A. nilotica, P. cineraria, G. sepium etc., it has been estimated that about 7.46 kg N/ha/year/tree can be fixed and at country level trees can add N upto 0.250 Tg/yr (BNF-0.195 Tg + litter fall-0.055 Tg) in 17.45 m ha agroforestry area (Ram et al., 2014). The total reactive nitrogen addition through various sources (synthetic N fertilizers -2.07 Tg, legume crops-0.115 Tg, irrigation and rainfall-0.285 Tg, manures and crop residues-0.174 Tg and trees-0.250 Tg) has been worked out 2.894 Tg/yr in agroforestry systems of the country. "},{"text":"Fig. 1 :Figure 1 : Fig.1: Reactive N contribution (%) from different sources in AFS in India "},{"text":"Fig 1 . Fig 1.Redundancy analysis of soil biogeochemical parameters (in red) constrained by nematode and microarthropod communities (in black). Nema: nematodes; Detri: oribatid mites and collembola; Sh: Shannon Index; B-f: bacterial-feeding nematodes; F-f: fungal-feeding nematodes; Om + Ca: omnivorous and carnivorous nematodes; Surf. Coll: \"surface-living\" collembola; Soil. Coll: \"soil-living\" collembola; Orib: oribatid mites. "},{"text":"Fig. 1 . Fig. 1. Redundancy analysis correlation circle (a) and individual factor map (b) of agrosystem functions (in red) constrained by cocoa -shade tree association characteristics (in black). P res. eff: P resorption efficiency; %N, P, K, Ca, Mg: community litter N, P, K, Ca, Mg content. "},{"text":"Figure 1 . Figure 1. Spreading ramial woodchip at Tolhurst Organics using a rear discharge muck spreader, 2018 "},{"text":"Fig. 1 . Fig.1. Prosopis affinis nursery plants production -INIA Tacuarembó Research Station (Uruguay) "},{"text":"Figure 1 : Figure 1: The Neighbour Joining (NJ) tree generated using Nei's chord genetic distance over 320 baobab genebank accessions. The 117 selections that form core genebank collection are marked and labelled. "},{"text":"Figure 1 . Figure 1. Division of sampled individuals of C. odorata into three genetic clusters. a) Clusters inferred by STRUCTURE software. Different colours represent different clusters, each column represents an individual. b) Geographic distribution of individuals belonging to inferred clusters. Blue: cluster A, purple: cluster B, orange: cluster C. "},{"text":" role of genetic diversity for adapting landscapes to climate change Soolanayakanahally R. (raju.soolanayakanahally@canada.ca) Agriculture and Agri-Food Canada, Indian Head, Saskatchewan, Canada In Canada, since the commencement of the Prairie Shelterbelt Program in 1901, significant advances have been made in the selection and improvement of genetically superior tree and shrub species provided through the Program at Indian Head, Saskatchewan. The tree breeding and evaluation has been led by Angus McKay "},{"text":"Figure 1 . Figure 1. Results of PLSPM model showing direction and quantifying all interactions inside this coffee-based agroforestry network. Blue arrow represents positive effect, red arrow negative effect, associated with their own regression coefficient. "},{"text":" Figure). The six CAF represent different options to offer for the design of new CAF or re-design of old and/or unproductive CAF. "},{"text":"Figure . Figure. Characteristics of the most promising coffee agroforestry systems that reduce coffee yield losses, while providing other ecosystem services (agroforestry products, soil fertility and carbon sequestration). "},{"text":"Fig. 1 . Fig. 1. Sclerocarya birrea in domestication trial in Kitui County, Kenya (a), canker on Sclerocarya birrea stem with exudate produced from the necrotic lesion (b), laboratory culture (c) and conidiospores (d) of Botryosphaeria spp., gum exudates and canker on S. birrea seedling inoculated with Lasiodiplodia theobromae (e). "},{"text":"Figure 1 . Figure 1. Bivariate relationships between mean plant-level CLR incidence and (a) shade tree canopy depth, (b) log-transformed crown base height, and (c) log-transformed mean shade tree specific leaf area in coffee agroforestry systems. "},{"text":"Fig 1 . Fig 1. Representative summary of results from global pathway models showing the effects of biodiversity on the coffee berry borer regulation with predaceous ant diversity and abundance, CBB infestation and thermal amplitude as response variables. Black and red arrows represent significant tive effect of shade cover on CBB infestation when abundance is considered as a response variable. Marginal (m) and conditional (c) R² values for each response variable are indicated. \"CBB infest. \" is the CBB infestation in September 2017. "},{"text":"Figure 1 . Figure 1. Cumulative frequency of average Index Root Anchoring (IRA) and Index of Roots Binding (IRB) of 570 plants sample of 114 trees species across five study sites "},{"text":"3 1 emiru.birhane@mu.edu.et), Damtew A.1 , Tesfay A. T. 1 , Bongers F. 2 , Kuyper T. W. Land Resource Managment, Mekelle UNiversity, Mekelle, Tigray, Ethiopia; 2 Forest Ecology and Management, Wageningen University, Wageningen, Netherlands; 3 Soil quality, Wageningen University, Wageningen, Netherlands "},{"text":"Keywords: Root system, Photosynthetic activity, European ash, Poplar. Strengthening links between science, society and policy "},{"text":"2 1 m.vannoordwijk@cgiar.org), Khasanah N. 1 , Lusiana B. 1 , Mulia R. World Agroforestry Centre (ICRAF), Bogor, Indonesia; 2 World Agroforestry Centre (ICRAF), Hanoi, Vietnam Evaluation of agroforestry options needs to explicitly relate plot-level processes to landscape (water and nutrient balances) and policy level (Sustainable Development Goals or SDGs) targets and goals (van Noordwijk 2017;van Noordwijk et al. 2018). Twenty years after the first release at an agroforestry meeting in Montpellier of the WaNuLCAS model (vanNoordwijk and Lusiana, 1999), a version 5.0 will be presented. New features in this release of the model will include: 1) Lateral shading in response to direct and indirect light, using information from location and cloud cover and as such able to more fully evaluate climate change scenarios, 2) Soil carbon dynamics per Layer*Zone cell, rather than per zone, with explicit terms for biotic and abiotic exchange of all C pools, 3) Performance indicators for LERM that compare agroforestry options with monoculture reference scenarios for productivity, cash-flow, water balance terms, C, N and P balance terms, net soil loss; the first two refer to 'provisioning' services (SDG1&2), the others to 'regulating' services (SDG 6, 13 a.o.) 4) Expanded tree and crop libraries and existing validation studies. A new application compares oil palm intercropping scenarios. "},{"text":"Figure 1 . Figure 1. Sector map of WaNuLCAS 5.0 "},{"text":" The 3D nature of the Hi-sAFe agroforestry model allows to run virtual experiments, for example an experiment comparing the effects of tree root (C-D vs A-B) and branch pruning (B-D vs A-C), for different crop sowing dates. "},{"text":" An ancient agricultural form of forestland management, agroforestry is a way of life and survival strategy in southern Ethiopia. Human pressure in a rugged and fragile landscape can cause land use/cover changes that significantly alter ecosystem services. Yet, estimating the multiple services obtained particularly from agroforestry systems is seldom attempted. A combined approach of geospatial technology, cross-sectional field investigations, and natural capital economic valuation was used to develop Ecosystem Service Valuation (ESV) model (as indicated in the figure) to estimate changes in ESV between 1986 and 2015. Over 120 values were mainly sourced from Ecosystem Service Valuation Database and allied sources to establish the value coefficients via benefit transfer method. Our 1848 km2 area with eight land use categories yielded entirety annual ESV of $129 x 106 in 1986 and $147 x 106 in 2015, which is 14.2% ($18.3 million) increment in three decades. These show the overall relative resilience of the Gedeo-Abaya agroforestry landscape. Yet, losses are experiential with natural vegetation classes whose area and/or value coefficients are too small to offset the increased value due to expansion of agroforestry and wetland/marshy which have the largest cover share and high economic value, respectively. Appreciating the unique features of agroforests, we strongly recommend its economic value to be studied as a separate biome for further valuation accuracy improvement. "},{"text":"Fig Fig Schematic methodological flow "},{"text":" crop-tree intercropping in comparison to mono-cropping systems to the effects of climate change? Deryng D. (deryng@zalf.de) ZALF, Muencheberg, GermanyAgricultural systems are particularly sensitive to climatic conditions, and anthropogenic climate change threatens future agricultural production and food security. Progress in the global quantification of climate impacts on agricultural production have improved substantially over the last decade, as a result in part to the development of global agriculture and land use datasets, which have enabled the development and evaluation of global crop modelling tools, and also due to several international modelling intercomparison efforts such as ISIMIP (www. isi-mip.org) and AgMIP (www.agmip.org), which have provided a necessary framework for characterising the cascade of uncertainties spanning climate scenarios and crop responses across the world. "},{"text":" (a) Annual solar radiation distribution below the modelled tree along the compass directions, the outer circle (grey line) representing a radius of 15 m around the tree stem; (b) 3D visualization of the model tree and distribution of the reduction in direct annual solar radiation energy. New agroforestry systems have been proposed across Europe as land use alternatives in the last decades. The systems involves the combination of perennial woody elements, agricultural understory (e.g. wheat, pasture), potentially used by a livestock component. Experimental designs that can combine different alternatives are difficult to implement in the field due to time and cost requirements, and therefore, models can be key tools to explore those alternatives. "},{"text":"Fig. 1 . Fig. 1. Observed soil C compared to simulated concentrations with four combinations of manure and litter inputs "},{"text":"Fig. 1 . Fig. 1. Observed and simulated maize grain yield in relation to distance from gliricidia at Machakos, Kenya. 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Practices? • NYAGA John -Nairobi, Kenya • NYAGA John -Nairobi, Kenya adoption and practices within smallholder farms in Kenya adoption and practices within smallholder farms in Kenya  "},{"text":"of Abstracts L02.2_O.05 Adaptation to climate change: the impact of olive trees on the microclimate of the understorey durum wheat crop Panozzo A.1 (nn.panozzo@gmail.com), Desclaux D. 2 , Bernazeau B. 2 , Meunier F.2    Agroforestry 2019 -Regular Talk L2.2 Adaptation to CC Agroforestry 2019 -Regular TalkL2.2 Adaptation to CC  "},{"text":"L2 Adaptation to CC 4 th World Congress on Agroforestry   "},{"text":"L2 Adaptation to CC 4 th World Congress on Agroforestry   "},{"text":" 2 , Prabhu R. 1 ,Kouame C. 2    1 World Agroforestry Centre (ICRAF), Nairobi, Kenya; 2 World Agroforestry Centre (ICRAF), Abidjan, Côte 1 World Agroforestry Centre (ICRAF), Nairobi, Kenya; 2 World Agroforestry Centre (ICRAF), Abidjan, Côte d'Ivoire d'Ivoire  "},{"text":"L3 Land Degradation 4 th   "},{"text":"12 Enhanced energy security for smallholder farmers via integrated agroforestry systems in Tanzania Hafner J. M.1 (johannes.hafner@zalf.de), Kimaro A. A. 2 , Temu E. 2 , Rosenstock T. 3 , Uckert G. 1 , Hoffmann H. 1 , Sieber S.1    1 ZALF Müncheberg, Research Area 2: Land Use and Governance, Müncheberg, Germany; 2 World 1 ZALF Müncheberg, Research Area 2: Land Use and Governance, Müncheberg, Germany; 2 World Agroforestry Center Tanzania, Dar es Salaam, Tanzania; 3 World Agroforestry Center, Kinshasa, Congo Agroforestry Center Tanzania, Dar es Salaam, Tanzania; 3 World Agroforestry Center, Kinshasa, Congo -Kinshasa -Kinshasa  "},{"text":": Local indicators, Scientific indicators, Agroforestry systems, Maize production, Smallholders. L3 Land Degradation L3 Land Degradation  "},{"text":" The study is being carried out within the framework of the LIFE-Regenerate project (LIFE16 ENV/ES/000276 Regenerate).  "},{"text":"L4.1 Biodiversity 4 th World Congress on Agroforestry   "},{"text":"Book of Abstracts L04.1_O.07   "},{"text":" 1 , Prayogo C. 2 , Rowe R. 3 , Suprayogo D. 2 , Abadi A. L. 1 , Hairiah K. 2  "},{"text":"L04.1_O.10 Homegardens in Benin: countrywide flora and contribution to conservation of threatened species and crop wild relatives Salako K. V. (salakovalere@gmail.com),Gbedomon C. R., Glèlè Kakaï R., Assogbadjo A. E.     Natural Resources Management, LABEF/FSA/UAC, Cotonou, Benin Natural Resources Management, LABEF/FSA/UAC, Cotonou, Benin  "},{"text":"L4.2 Biodiversity 4 th   "},{"text":"of Abstracts L04.2_O.02 Farmers' contributions to the conservation of tree diversity in the  Sambou A. (tonysambouegos@yahoo.fr) Sambou A. (tonysambouegos@yahoo.fr) Agroforestry, Assane Seck University of Ziguinchor, Ziguinchor, Ziguinchor, Senegal Agroforestry, Assane Seck University of Ziguinchor, Ziguinchor, Ziguinchor, Senegal  "},{"text":"4 th World Congress on Agroforestry   "},{"text":"Book of Abstracts L04.2_O.03   "},{"text":" Science Agronomy, University of Antananarivo, Antananarivo, Madagascar; 5 Zoology and Animal Biodiversity, University of Antananarivo, Antananarivo, Madagascar; 6 Environmental and Resource Economics, University of Goettingen, Goettingen, Germany; 7 Entomology, University of Antananarivo, Antananarivo, Madagascar; 8 Plant Biology and Ecology, University of Antananarivo, Antananarivo, Madagascar; 9 Natural Ecosystems, University of Mahajanga, Mahajanga, Madagascar  "},{"text":"L4 Biodiversity 4 th   "},{"text":"02 Domestication of Wild Edible Mushrooms as an Agroforestry Crop for Biodiversity Apshahana   "},{"text":"L4 Biodiversity 4 th   "},{"text":"03 Coffee agroforestry as an alternative for tropical forest restoration: compering with conventional restoration planting Badari C. G.1 (carolgbadari@yahoo.com.br), Bernardini L. E. 1 , Viani R. A. G.2     "},{"text":"12 Farmers as guardians of biodiversity preservation and landscapes   "},{"text":"19 Agroforestry systems for development and protection of wildlife species  Mihaila E. 1 (lilianmihaila@yahoo.co.uk), Popovici L. 2 1 , Constandache C. 2 Mihaila E. 1 (lilianmihaila@yahoo.co.uk), Popovici L. 21 , Constandache C. 2  "},{"text":"25 Cloud forest plant endemism persistence within crop-fallow systems in a Mesoamerican hotspot area   "},{"text":"Table   "},{"text":"4 th World Congress on Agroforestry   "},{"text":"Book of Abstracts L04.P.31   "},{"text":"36 Effect of landscape connectivity provided by wooded and cultivated elements on weeds: a response-effect trait framework Uroy L.1 (lea.uroy@univ-rennes1.fr),Mony C. 2 , Ernoult A. 2 , Alignier A. 3    1 UMR CNRS 6553 Ecobio & UMR INRA 0980 Bagap, University of Rennes & INRA of Rennes, Rennes, 1 UMR CNRS 6553 Ecobio & UMR INRA 0980 Bagap, University of Rennes & INRA of Rennes, Rennes, France; 2 UMR CNRS 6553 Ecobio, University of Rennes, Rennes, France; 3 UMR INRA 0980 Bagap, France; 2 UMR CNRS 6553 Ecobio, University of Rennes, Rennes, France; 3 UMR INRA 0980 Bagap, INRA of Rennes, Rennes, France INRA of Rennes, Rennes, France  "},{"text":"of Abstracts Agroforestry and world challenges  Agroforestry: riding to the world's rescue Agroforestry: riding to the world's rescue -L5 - -L5 - Agroforestry for water quality and Agroforestry for water quality and watershed restoration watershed restoration Getting springs to gush the zen way: Getting springs to gush the zen way: the agroforestry water works the agroforestry water works  "},{"text":"L5 Water L05_O.01 A Paired Watershed Evaluation of Agroforestry and Bioenergy Effects on Water Quality on a Corn/Soybean Rotation Udawatta   "},{"text":"Table   "},{"text":" 1 , Baskerville M. 2 , Oelbermann M. 2 , Dunfield K. 1  "},{"text":"of Abstracts L05_O.05 Can we design forested riparian buffer strips to minimize soil greenhouse gas emissions as affected by earthworms? Cameron A.1 (ashley.cameron@usherbrooke.ca), Bradley R. 1 , Benetková P. 2 , Thevathasan N. 3 , Whalen J.4 , Šimek M. 5 , Boilard G. 1 , Józefowska A.6    1 Département de biologie, Université de Sherbrooke, Sherbrooke, Quebec, Canada; 2 Faculty of Science, 1 Département de biologie, Université de Sherbrooke, Sherbrooke, Quebec, Canada; 2 Faculty of Science, Charles University, Prague 2, Czech Republic; 3 School of Environmental Sciences, University of Guelph, Charles University, Prague 2, Czech Republic; 3 School of Environmental Sciences, University of Guelph, Guelph, Ontario, Canada; 4 Department of Natural Resource Sciences, Macdonald College of McGill Uni- Guelph, Ontario, Canada; 4 Department of Natural Resource Sciences, Macdonald College of McGill Uni- versity, Sainte-Anne-de-Bellevue, Quebec, Canada; 5 versity, Sainte-Anne-de-Bellevue, Quebec, Canada; 5 Republic; Republic;  "},{"text":"of Abstracts L05_O.06 Short rotation riparian strips as an option to protect surface water quality in Germany Böhm   "},{"text":"of Abstracts L05_O.08 Quantifying aquatic carbon and nitrogen dynamics and greenhouse gas mitigation potential of riparian agroforestry zones Hundal H.1 (kiratkhundal@gmail.com), Oelbermann D.. M. 1 , Thevathasan D. N.2    1 Environment, Resources & Sustainability, University of Waterloo, Waterloo, Ontario, Canada; 2 Environ- 1 Environment, Resources & Sustainability, University of Waterloo, Waterloo, Ontario, Canada; 2 Environ- mental Sciences, University of Guelph, Guelph, Ontario, Canada mental Sciences, University of Guelph, Guelph, Ontario, Canada  "},{"text":": Nutrient Trading, Environmental Services. Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts Agroforestry 2019 -Regular Talk L5 Water L05_O.10 and hydrological processes in the Andes  Mathez-Stiefel S.-L. 1 (sarah-lan.stiefel@cde.unibe.ch), Cerrón-Macha J. 2 , del Castillo J. D. 2 , Mathez-Stiefel S.-L. 1 (sarah-lan.stiefel@cde.unibe.ch), Cerrón-Macha J. 2 , del Castillo J. D. 2 , Bonnesoeur V. 3 , Peralvo M. 4 Bonnesoeur V. 3 , Peralvo M. 4 1 ICRAF & CDE, Univ. Bern, Bern, Switzerland; 2 World Agroforestry (ICRAF), Lima, Peru; 3 CONDESAN, 1 ICRAF & CDE, Univ. Bern, Bern, Switzerland; 2 World Agroforestry (ICRAF), Lima, Peru; 3 CONDESAN, Lima, Peru; 4 CONDESAN, Quito, Ecuador Lima, Peru; 4 CONDESAN, Quito, Ecuador  "},{"text":"L5 Water 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L05.P.02 Humic substances from chestnut forest for mineral waters valorisation: isolation and characterization in Fiuggi waters  Allevato E. (eallevato@unitus.it) Allevato E. (eallevato@unitus.it) DIBAF, Tuscia University, VITERBO, Italy DIBAF, Tuscia University, VITERBO, Italy At the beginning of the XXI Century United Nations published the Millennium ecosystem As- At the beginning of the XXI Century United Nations published the Millennium ecosystem As- sessment (UN sessment (UN  "},{"text":"L5 Water 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L05.P.04 What drives communities to conserve forest? Lessons learned from the management of a West Sumatran Village Forest Alam Pauh Duo village forest (HN Simancuang) holds a critical position as the village's primary water catchment area. Since its inception as a village forest in 2012, local communities have been working to protect it from potential threats, such as illegal logging and land conversion. We compare temporal tree cover loss in two different types of forest within Simancuang, one community-managed village forest and one watershed protection forest. Our spatial analysis shows that after HN permit was granted, forest cover loss rate in HN Simancuang became 25% lower than that of a nearby watershed protection forest. This trend indicates that the communal arrangement to protect the forests and agroforestry practice have been relatively effective in conserving the forest. We conducted a random survey of 113 households in two sub-villages within HN Simancuang. The survey was designed to assess community's conservation behavior, income level, and environmental services they receive from HN Simancuang. Based on our analyses, although forest-based income did not significantly contribute to the total income of the community, HN Simancuang's environmental services to reduce disaster risk, support community livelihoods, and provide water needs did drive the community to conserve forest. Our study indicates that identifying common grounds among communities could be the first step in implementing successful community-based forest management and achieving village-level sustainable development. L5 L5 Chandra A. 1 (adelinachandra@outlook.com), Khatimah F. H. 2 , Fauzi D. 2 , Wicaksono S. A. 2 Chandra A. 1 (adelinachandra@outlook.com), Khatimah F. H. 2 , Fauzi D. 2 , Wicaksono S. A. 2 1 LUCSUS, Lund University and WRI Indonesia, Lund, Sweden; 2 World Resources Institute Indonesia, 1 LUCSUS, Lund University and WRI Indonesia, Lund, Sweden; 2 World Resources Institute Indonesia, Jakarta, DKI Jakarta, Indonesia Jakarta, DKI Jakarta, Indonesia  "},{"text":"Water 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L05.P.05 Multitier agroforestry system for resource conservation on sloping uplands of Eastern Ghats region of India Jakhar P.1 (icarpraveen@gmail.com), Dass A. 2 , Sudhishri S. 2 , Naik B. S. 3 , Gowda H. C. H.4 , Adhikary P. P. 1 , Madhu M. 1 , Lenka N. K.5 , Chaudhary P. R. 6 , Panda R. K.7    1 Dept. of agri. res. and educ., MoA&FW, ICAR IISWC RC, Sunabeda, Odisha, India; 2 Dept. of agri. 1 Dept. of agri. res. and educ., MoA&FW, ICAR IISWC RC, Sunabeda, Odisha, India; 2 Dept. of agri. res. and educ., MoA&FW, ICAR IARI New Delhi, New delhi, Delhi, India; 3 Dept. of agri. res. and educ., res. and educ., MoA&FW, ICAR IARI New Delhi, New delhi, Delhi, India; 3 Dept. of agri. res. and educ., MoA&FW, ICAR IISWC RC, Bellary, Karnatka, India; 4 Dept. of agri. res. and educ., MoA&FW, ICAR MoA&FW, ICAR IISWC RC, Bellary, Karnatka, India; 4 Dept. of agri. res. and educ., MoA&FW, ICAR IISWC RC, Ooty, Tamil nadu, India; 5 Dept. of agri. res. and educ., MoA&FW, ICAR IISS, Bhopal, MP, IISWC RC, Ooty, Tamil nadu, India; 5 Dept. of agri. res. and educ., MoA&FW, ICAR IISS, Bhopal, MP, India; 6 independent consultant, OFSDP, bhubaneswar, Odisha, India; 7 Dept. of agri. res. and educ., India; 6 independent consultant, OFSDP, bhubaneswar, Odisha, India; 7 Dept. of agri. res. and educ., MoA&FW, ICAR IIWM, bhubaneswar, Odisha, India MoA&FW, ICAR IIWM, bhubaneswar, Odisha, India  "},{"text":"L5 Water 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L05.P.06 Impact of integrated watershed management programme on agroforestry and sustainable development in Jharkhand (India)  Kumar S. (sanjeevkumar201@gmail.com) Kumar S. (sanjeevkumar201@gmail.com) Regional Chief Conservator of Forests, Department of Forests,Environment&CC, Hazaribagh, Jharkhand, Regional Chief Conservator of Forests, Department of Forests,Environment&CC, Hazaribagh, Jharkhand, India India With the objective of conservation and sustainable management of natural resources, Inte- With the objective of conservation and sustainable management of natural resources, Inte- grated Watershed Management Programme was initiated in watersheds of Jharkhand. It also grated Watershed Management Programme was initiated in watersheds of Jharkhand. It also intends to enhance agriculture productivity, improve livelihood options and restore ecological intends to enhance agriculture productivity, improve livelihood options and restore ecological balance in degraded and fragile rainfed ecosystem. A Study was conducted in twenty five balance in degraded and fragile rainfed ecosystem. A Study was conducted in twenty five villages in different watersheds of North Chotanagpur and Singbhum area (Hazaribagh, Giri- villages in different watersheds of North Chotanagpur and Singbhum area (Hazaribagh, Giri- dih, Chatra , East Singbhum , West Singbhum districts) of Jharkhand to assess the results of dih, Chatra , East Singbhum , West Singbhum districts) of Jharkhand to assess the results of projects under IWMP. The major methods employed were household survey and meetings projects under IWMP. The major methods employed were household survey and meetings with watershed committees, Village Forest & Management Committees and Self Help Groups with watershed committees, Village Forest & Management Committees and Self Help Groups (SHGs). Secondary data were collected from literature and interpretation in GIS Cell. The (SHGs). Secondary data were collected from literature and interpretation in GIS Cell. The paper aims to examine various aspects of activities and results of IWMP based on this study. paper aims to examine various aspects of activities and results of IWMP based on this study. The study revealed that the communities actively participated in planning and implementation The study revealed that the communities actively participated in planning and implementation of the activities. Overall technical and financial support has been provided by Forest and other of the activities. Overall technical and financial support has been provided by Forest and other government departments. Construction of earthen and loose boulder check dams, terracing, government departments. Construction of earthen and loose boulder check dams, terracing, contour trenching, construction and renovation of ponds and wells are some of the measures contour trenching, construction and renovation of ponds and wells are some of the measures adopted for soil and water conservation. For promoting agroforestry, plantations of Cashew adopted for soil and water conservation. For promoting agroforestry, plantations of Cashew nut (Anacardium occidentale), Mango (Mangifera indica). Gambhar (Gmelina arborea). Bamboo nut (Anacardium occidentale), Mango (Mangifera indica). Gambhar (Gmelina arborea). Bamboo (Dendrocalamus strictus), Teak (Tectona grandis), Jackfruit (Artocarpus heterophyllus) etc. (Dendrocalamus strictus), Teak (Tectona grandis), Jackfruit (Artocarpus heterophyllus) etc.  "},{"text":": IWMP, Jharkhand, Moisture Conservation, Soil Conservation, Sustainable Deve- lopment. L5 Water 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L05.P.08 The original and effective hydric functionning of agro-forestry parkland of the Sahel  Valet S. 1 (valet.serge2@wanadoo.fr), Motelica-Heino M. 2 Valet S. 1 (valet.serge2@wanadoo.fr), Motelica-Heino M. 2 1 Hydropédology & Agroecology, Association PASSERELLES, Lyon, France; 2 ISTO UMR 7327, 1 Hydropédology & Agroecology, Association PASSERELLES, Lyon, France; 2 ISTO UMR 7327, CNRS-Université d'Orléans, Orléans, France CNRS-Université d'Orléans, Orléans, France  "},{"text":"Abstracts 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts ABSTRACTS Agroforestry and world challenges  Agroforestry: riding to the world's rescue Agroforestry: riding to the world's rescue -L6 - -L6 -  "},{"text":"Social issues in Agroforestry systems (gender, migration)  The day our young men came home: The day our young men came home: agroforestry for a secure future agroforestry for a secure future Agroforestry can be practiced in several contexts, including in forest-agricul- Agroforestry can be practiced in several contexts, including in forest-agricul- dwellers living in remote areas. Agroforestry is frequently practiced in dwellers living in remote areas. Agroforestry is frequently practiced in savannahs, to address dryness or labour constraints, allowing farmers to work savannahs, to address dryness or labour constraints, allowing farmers to work larger surfaces of land. It plays an important role in increasing the resilience larger surfaces of land. It plays an important role in increasing the resilience of production systems to climate events, and contributes to climate change of production systems to climate events, and contributes to climate change mitigation and to restoration of degraded landscapes. Hence, its potential mitigation and to restoration of degraded landscapes. Hence, its potential to decrease outmigration and seasonal migration has been demonstrated. to decrease outmigration and seasonal migration has been demonstrated. Finally, planting trees is often a way to demarcate land and secure reco- Finally, planting trees is often a way to demarcate land and secure reco- and constraints of agroforestry systems differently, and have different pers- and constraints of agroforestry systems differently, and have different pers- pectives on the provision of ecosystem services and their relative importance pectives on the provision of ecosystem services and their relative importance to their livelihoods. Experiential and perceptual differences also occur along to their livelihoods. Experiential and perceptual differences also occur along other social axes, such as residence (migrants and autochthons), ethnicity or other social axes, such as residence (migrants and autochthons), ethnicity or socio-economic status. socio-economic status. This session will bring together papers examining the importance of such This session will bring together papers examining the importance of such social differences in shaping outcomes from agroforestry initiatives and social differences in shaping outcomes from agroforestry initiatives and enhancing women's empowerment. It will also consider the two-way relation- enhancing women's empowerment. It will also consider the two-way relation- ship between migration and agroforestry -that is, how migration affects ship between migration and agroforestry -that is, how migration affects migration decisions. Papers focus on the diversity of cultivated species women migration decisions. Papers focus on the diversity of cultivated species women and men from different social groups manage in agroforestry systems to and men from different social groups manage in agroforestry systems to or water constraints. Others demonstrate the large strides needed to achieve or water constraints. Others demonstrate the large strides needed to achieve gender equality in households, and the consequences that failing to consider gender equality in households, and the consequences that failing to consider women's interests can have on the landscapes they inhabit and manage. women's interests can have on the landscapes they inhabit and manage. Several papers demonstrate that complementarities among women's and Several papers demonstrate that complementarities among women's and men's knowledge, roles and priorities should be valued rather than ignored, to men's knowledge, roles and priorities should be valued rather than ignored, to enhance the impact and equity of agroforestry initiatives. With presentations enhance the impact and equity of agroforestry initiatives. With presentations from West and East Africa, Asia and Latin America, this panel proposes an from West and East Africa, Asia and Latin America, this panel proposes an exciting world tour of social issues in agroforestry systems. exciting world tour of social issues in agroforestry systems. Strengthening links between science, society and policy Strengthening links between science, society and policy  "},{"text":"20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L06_O.01 wadi: a agroforestry model for transforming lives and livelihoods  Sawant Y. 1 (ygsawant77@gmail.com), Mori J. 2 , Bagul M. 2 , Patel A. 3 Sawant Y. 1 (ygsawant77@gmail.com), Mori J. 2 , Bagul M. 2 , Patel A. 3 The tribal people constitute 8% of India's population and are among the poorest and disad- The tribal people constitute 8% of India's population and are among the poorest and disad- vantaged members of the society. Traditionally they depended on forest resources for food vantaged members of the society. Traditionally they depended on forest resources for food and livelihoods. The depleting forest resources and subsistence agriculture has challenged and livelihoods. The depleting forest resources and subsistence agriculture has challenged their struggle for survival. Majority of them, after harvest of rainfed crop sought to distress their struggle for survival. Majority of them, after harvest of rainfed crop sought to distress seasonal migration in search of livelihoods. Migration is associated with exploitative labor, seasonal migration in search of livelihoods. Migration is associated with exploitative labor, poor living conditions and interrupted education of children. Several initiatives are made to poor living conditions and interrupted education of children. Several initiatives are made to reduce distress migration among tribal communities. reduce distress migration among tribal communities. One such initiative was made by BAIF through the \"wadi programme\" in the tribal regions of One such initiative was made by BAIF through the \"wadi programme\" in the tribal regions of south Gujarat, India. The wadi programme is based on the agroforestry approach. It aims at south Gujarat, India. The wadi programme is based on the agroforestry approach. It aims at curbing distress migration by creating sustainable livelihood opportunities for the participating curbing distress migration by creating sustainable livelihood opportunities for the participating families within their villages. The families were supported to transform 0.4 ha. of their underu- families within their villages. The families were supported to transform 0.4 ha. of their underu- tilized/ degraded lands to productive asset by planting and nurturing of 50 fruit plants and tilized/ degraded lands to productive asset by planting and nurturing of 50 fruit plants and 300 forestry plants. Various legume and vegetable crops were introduced in the interspaces 300 forestry plants. Various legume and vegetable crops were introduced in the interspaces between trees. Supporting measures like appropriate soil and water conservation structures, between trees. Supporting measures like appropriate soil and water conservation structures, biomass recycling and decentralized water resources were introduced. The programme was biomass recycling and decentralized water resources were introduced. The programme was implemented in 163 villages covering 13500 families. (Sohani, 2014, Indian Farming, ICAR, implemented in 163 villages covering 13500 families. (Sohani, 2014, Indian Farming, ICAR, 33-35; Ajwani et al, in: Subsistence to Sustainable: The Power of Aggregation, 2010, Access, 33-35; Ajwani et al, in: Subsistence to Sustainable: The Power of Aggregation, 2010, Access, 1-24). 1-24).  "},{"text":"L6 Social issues 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L06_O.03 «Silakouda» or how rural women's entrepreneurship preserves and values a local agroforestry resource in Upper Guinea Keita S.1 (saran.keita@united-purpose.org),Person S. 2 , Martin C. 1 , Ntab S. 1    1 United Purpose, Conakry, Guinea; 2 Forest Goods Growing, 34070, Montpellier 1 United Purpose, Conakry, Guinea; 2 Forest Goods Growing, 34070, Montpellier Guinea is among the least developed countries, with nearly 55% of its population living below Guinea is among the least developed countries, with nearly 55% of its population living below the poverty line, concentrated mainly in rural areas where more than two-thirds of the popu- the poverty line, concentrated mainly in rural areas where more than two-thirds of the popu- lation lives. lation lives. The country, however, has natural wealth and particularly forest resources covering 53.60% of The country, however, has natural wealth and particularly forest resources covering 53.60% of the national territory. The African locust bean tree or \"néré\" (Parkia biglobosa) stands are par- the national territory. The African locust bean tree or \"néré\" (Parkia biglobosa) stands are par- ticularly important in Upper Guinea and constitute a resource still underutilized. Key specie of ticularly important in Upper Guinea and constitute a resource still underutilized. Key specie of the agroforestry parklands of this sub-Saharan zone, its seeds are processed into a traditional the agroforestry parklands of this sub-Saharan zone, its seeds are processed into a traditional flavor enhancer used as a condiment very consumed in the country and the sub-region: the flavor enhancer used as a condiment very consumed in the country and the sub-region: the soumbara. The exploitation of its seeds is an important source of income for many Guinean soumbara. The exploitation of its seeds is an important source of income for many Guinean rural women. rural women. The \"néré\" value chain has great potential for development, but many constraints hamper its The \"néré\" value chain has great potential for development, but many constraints hamper its development: threats to stands (shifting cultivation, consumption of fuel wood, development development: threats to stands (shifting cultivation, consumption of fuel wood, development of cash crops, uncontrolled exploitation of non-timber forest products), weak technical equip- of cash crops, uncontrolled exploitation of non-timber forest products), weak technical equip- ment and quality not meeting demand, limited access to markets, insufficient organisation of ment and quality not meeting demand, limited access to markets, insufficient organisation of producers… producers… The solutions traditionally delivered by development actors are limited to the distribution of The solutions traditionally delivered by development actors are limited to the distribution of equipment and the provision of subsidies and have limited impacts and little or no sustaina- equipment and the provision of subsidies and have limited impacts and little or no sustaina- bility. bility. From 2013, the UK NGO «United Purpose», has aimed at both responding to the impoverish- From 2013, the UK NGO «United Purpose», has aimed at both responding to the impoverish- ment of rural populations and guiding to sustainable management of natural resources. The ment of rural populations and guiding to sustainable management of natural resources. The decidedly innovative approach focuses on the development of rural women entrepreneurship decidedly innovative approach focuses on the development of rural women entrepreneurship and improved market access for by combining «Market Analysis and Development» (MA&D) and improved market access for by combining «Market Analysis and Development» (MA&D) and «Making Markets Work for the Poor» (M4P). and «Making Markets Work for the Poor» (M4P).  "},{"text":"4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L06_O.04  Mulyoutami E. (eloknco@gmail.com), Lusiana B., van Noordwijk M. Mulyoutami E. (eloknco@gmail.com), Lusiana B., van Noordwijk M. ICRAF SEARO, Bogor, Indonesia ICRAF SEARO, Bogor, Indonesia Migration connects land use in areas of origin with that in areas of (temporary) new residence, Migration connects land use in areas of origin with that in areas of (temporary) new residence, impacting both through individual (gendered) choices made. Synthesizing across a number impacting both through individual (gendered) choices made. Synthesizing across a number of case studies in Indonesia, we focus on five aspects of three two-way linkages through mi- of case studies in Indonesia, we focus on five aspects of three two-way linkages through mi- gration: West Java to Lampung/South Sumatera; South to Southeast Sulawesi; and Lampung gration: West Java to Lampung/South Sumatera; South to Southeast Sulawesi; and Lampung to Jambi. to Jambi. The condition within the community of origin, where people have different reasons to seeking The condition within the community of origin, where people have different reasons to seeking new job and opportunities elsewhere, at least temporarily. From in-depth interviews and fo- new job and opportunities elsewhere, at least temporarily. From in-depth interviews and fo- cus-group discussions we learned that decisions vary with gender and age, between indivi- cus-group discussions we learned that decisions vary with gender and age, between indivi- duals, households joining after signs of success and sometimes groups of households. Most duals, households joining after signs of success and sometimes groups of households. Most of the decision making is linked to (perceived) poverty, natural resource, land competition, of the decision making is linked to (perceived) poverty, natural resource, land competition, and emergency situation such as the force of natural disaster or increased human conflicts. and emergency situation such as the force of natural disaster or increased human conflicts.  "},{"text":"L6 Social issues 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L06_O.05 Conflicting interests around shea-tree : gender inequalities and degradation of shea parklands in Benin  Droy I. 1 (isabelle.droy@ird.fr), Bidou J. E. 2 Droy I. 1 (isabelle.droy@ird.fr), Bidou J. E. 2 1 UMI Résiliences, IRD, Bondy, France; 2 LAM (Les Afriques dans le Monde), IEP Bordeaux, Pessac, 1 UMI Résiliences, IRD, Bondy, France; 2 LAM (Les Afriques dans le Monde), IEP Bordeaux, Pessac, France France  "},{"text":"L6 Social issues 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L06_O.06 Gender perspectives of climate change adaptation in smallholder cocoa systems in the techiman municipality of Ghana Asante W. (winstonasante@gmail.com),Kyereh B., Gyampoh B., Echeruo J., Neequaye T.     Silviculture and Forest Management, Kwame Nkrumah University of Sc & Tech, Kumasi, Ashanti, Ghana Silviculture and Forest Management, Kwame Nkrumah University of Sc & Tech, Kumasi, Ashanti, Ghana  "},{"text":"L6 Social issues 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L06_O.07 Gendered knowledge on food trees for addressing food security and nutrition in Uganda & Kenya  Gachuiri A. 1 (a.gachuiri@cgiar.org), Paez-Valencia A. M. 1 , Marlene E. 2 , Carsan S. 1 , Gachuiri A. 1 (a.gachuiri@cgiar.org), Paez-Valencia A. M. 1 , Marlene E. 2 , Carsan S. 1 , McMullin S. 1 McMullin S. 1 1 World Agroforestry Centre, Nairobi, Kenya; 2 Bioversity International, Rome, Italy 1 World Agroforestry Centre, Nairobi, Kenya; 2 Bioversity International, Rome, Italy Food trees provide fruits, nuts, leaves and seeds that contribute substantially to food and nu- Food trees provide fruits, nuts, leaves and seeds that contribute substantially to food and nu- trition security of African rural households. Farmers have a wealth of local knowledge on food trition security of African rural households. Farmers have a wealth of local knowledge on food tree species for cultivation and use for various household needs. This knowledge is influenced tree species for cultivation and use for various household needs. This knowledge is influenced by gender and age-related factors often neglected in research and development endeavors. by gender and age-related factors often neglected in research and development endeavors. This study sought to understand gendered and age-related knowledge on food trees use in This study sought to understand gendered and age-related knowledge on food trees use in Uganda and Kenya. The purpose was to identify context-specific food tree portfolios that Uganda and Kenya. The purpose was to identify context-specific food tree portfolios that can sustainably address food and nutrition gaps while responding to the needs and strategic can sustainably address food and nutrition gaps while responding to the needs and strategic interests of different gender and age groups. Data collection was conducted through gender- interests of different gender and age groups. Data collection was conducted through gender- and age-segregated focus group discussions in two sites in Uganda, Nakaseke and Nakason- and age-segregated focus group discussions in two sites in Uganda, Nakaseke and Nakason- gola, and two sites in Kenya, Kitui and Mwingi west. gola, and two sites in Kenya, Kitui and Mwingi west.  "},{"text":": food trees, participatory research, local knowledge, gender, youth. L6 Social issues 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L06_O.08 The importance of agricultural land uses in the provision of ecosystem services. A gender perspective in Nicaragua  Cifuentes J. 1 (jaime.cifuentes@catie.ac.cr), Feintrenie L. 2 , Gutiérrez-Montes I. 3 , Sibelet N. 4 Cifuentes J. 1 (jaime.cifuentes@catie.ac.cr), Feintrenie L. 2 , Gutiérrez-Montes I. 3 , Sibelet N. 4 1 Postgraduate school, CATIE, Turrialba, Cartago, Costa Rica; 2 RU Forest and societies, CIRAD, 1 Postgraduate school, CATIE, Turrialba, Cartago, Costa Rica; 2 RU Forest and societies, CIRAD, Montpellier, France; 3 Postgraduate school, CATIE, Turrialba, Costa Rica; 4 UMR Innovation, CIRAD, Montpellier, France; 3 Postgraduate school, CATIE, Turrialba, Costa Rica; 4 UMR Innovation, CIRAD, Montpellier, France Montpellier, France  "},{"text":"L6 Social issues 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L06_O.09 Migration and agricultural practices in the Haut-Sassandra Classified Forest Zanh G. G. (zanhgoloug@gmail.com), Kpangui K. B.,Barima Y. S. S.     Biodiversité et Conservation Durable, Université Jean Lorougnon Guédé, Daloa, Côte d'Ivoire Biodiversité et Conservation Durable, Université Jean Lorougnon Guédé, Daloa, Côte d'Ivoire The region of Haut-Sassandra in Côte d'Ivoire, home to the Haut-Sassandra Classified Forest The region of Haut-Sassandra in Côte d'Ivoire, home to the Haut-Sassandra Classified Forest (HSCF), experienced a significant migratory flow during the Ivorian political and military crises This paper presents the gendered dimension of agroforestry practices which is one of the (HSCF), experienced a significant migratory flow during the Ivorian political and military crises This paper presents the gendered dimension of agroforestry practices which is one of the of 2002 and 2011, encouraged by the high availability of arable land (Barima et al., 2016). outcomes of mass outmigration of youths to international labour markets. While planting and of 2002 and 2011, encouraged by the high availability of arable land (Barima et al., 2016). outcomes of mass outmigration of youths to international labour markets. While planting and Population movements in this region have changed the rural landscape both on the periphery managing trees in farmland is a traditional practice, modern forms of agroforestry have just Population movements in this region have changed the rural landscape both on the periphery managing trees in farmland is a traditional practice, modern forms of agroforestry have just of HSCF and inside it. This has led to changes in farming practices at the farm level aimed begun to flourish in Nepalese hills albeit with significant gendered outcomes. The paper is of HSCF and inside it. This has led to changes in farming practices at the farm level aimed begun to flourish in Nepalese hills albeit with significant gendered outcomes. The paper is at converting old cocoa plots to the periphery and the creation of new cocoa plots within the based on five-year long action research implemented in two hill districts Kavre and Lamjung of at converting old cocoa plots to the periphery and the creation of new cocoa plots within the based on five-year long action research implemented in two hill districts Kavre and Lamjung of HSCF. The general objective of this proposal is to analyze the typology of farming systems Nepal. Household survey, focus group discussion, key informant interviews and other partici- HSCF. The general objective of this proposal is to analyze the typology of farming systems Nepal. Household survey, focus group discussion, key informant interviews and other partici- in the FCHS space in a context of migratory flows caused by social unrest. To achieve this, patory methods were used in gathering data. The areas of enquiry were primarily on the scale in the FCHS space in a context of migratory flows caused by social unrest. To achieve this, patory methods were used in gathering data. The areas of enquiry were primarily on the scale socio-economic surveys were carried out in 11 villages on the outskirts of HSCF to analyze the and nature of migration, its links with land use change, trends in recent agroforestry practices, socio-economic surveys were carried out in 11 villages on the outskirts of HSCF to analyze the and nature of migration, its links with land use change, trends in recent agroforestry practices, profile of farmers operating both inside and outside the FCHS and to determine the characte-and effects on those who were left back home. profile of farmers operating both inside and outside the FCHS and to determine the characte-and effects on those who were left back home. ristics of the farms set up. Floristic inventories combining surface (25 m × 25 m) and traveling Migration of young men have resulted in decreased availability of labour and increased cost ristics of the farms set up. Floristic inventories combining surface (25 m × 25 m) and traveling Migration of young men have resulted in decreased availability of labour and increased cost survey methods were carried out in the agrosystems located at the periphery and within the of labour have led to dwindled returns from traditional agriculture. This has induced gradual survey methods were carried out in the agrosystems located at the periphery and within the of labour have led to dwindled returns from traditional agriculture. This has induced gradual HSCF to analyze the diversity of species associated with these agrosystems. Surveys revealed adoption of extensive farming including fodder trees, forest trees, goat farming, and other HSCF to analyze the diversity of species associated with these agrosystems. Surveys revealed adoption of extensive farming including fodder trees, forest trees, goat farming, and other that 64 % of the farmers living on the outskirts are allochtones whose age varies between 18 agroforestry practices. that 64 % of the farmers living on the outskirts are allochtones whose age varies between 18 agroforestry practices. and 85, with 67 % aged over 40. On the other hand, the farmers settled within the HSCF are and 85, with 67 % aged over 40. On the other hand, the farmers settled within the HSCF are dominated by Burkinabe (95.1 %) rather young with an age ranging from 18 to 35 years. Still dominated by Burkinabe (95.1 %) rather young with an age ranging from 18 to 35 years. Still on the periphery of the HSCF, most farmers are converting their cocoa and coffee plantations on the periphery of the HSCF, most farmers are converting their cocoa and coffee plantations to new, more afforested crops such as cashew and rubber trees. Similarly, three main pro- to new, more afforested crops such as cashew and rubber trees. Similarly, three main pro- duction systems based on cocoa, coffee and cashew nuts were identified. The association of duction systems based on cocoa, coffee and cashew nuts were identified. The association of these three types of cultures varies according to the communities (Aboriginal, Allochtone and these three types of cultures varies according to the communities (Aboriginal, Allochtone and Allogenic). On the other hand, farmers living in the interior (95% of Bukinabe allogens) have Allogenic). On the other hand, farmers living in the interior (95% of Bukinabe allogens) have developed only one type of crop, namely cocoa farming. developed only one type of crop, namely cocoa farming. The floristic inventories realized in the main agrosystems have allowed to identify 118 spe- The floristic inventories realized in the main agrosystems have allowed to identify 118 spe- cies divided into 88 genera and 38 families. These species are represented by forest species cies divided into 88 genera and 38 families. These species are represented by forest species (83 %) and fruit species (17 %). The fruit species are dominated by Mangifera indica, Citrus (83 %) and fruit species (17 %). The fruit species are dominated by Mangifera indica, Citrus sinensis, Persea americana, Psidium guava, Cola nitida, Ricinodendron heudelotii and forest sinensis, Persea americana, Psidium guava, Cola nitida, Ricinodendron heudelotii and forest species are dominated by Elaeïs guineensis, Ficus exasperata, Lannea acida, Holarrhena flo- species are dominated by Elaeïs guineensis, Ficus exasperata, Lannea acida, Holarrhena flo- ribunda, Ficus mucuso, Newbouldia laevis, Funtumia africana, Ceïba pentandra in the farms ribunda, Ficus mucuso, Newbouldia laevis, Funtumia africana, Ceïba pentandra in the farms located on the outskirts. These species associated with agrosystems have many whose food located on the outskirts. These species associated with agrosystems have many whose food uses, medicinal, timber and shade but also allow soil fertility. uses, medicinal, timber and shade but also allow soil fertility. Keywords: Agricultural practices, Agrosystems, Migrations, Perennial crops, Côte d'Ivoire. Keywords: Agricultural practices, Agrosystems, Migrations, Perennial crops, Côte d'Ivoire.  "},{"text":"L6 Social issues 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L06.P.01 Climate change and shea tree: women's perceptions and impact on flowering and fruiting in Burkina Faso Dao M. C. E. (dao.ebou@gmail.com),Rouamba P.,Pare E.     DEF, INERA, Ouagadougou, Burkina Faso DEF, INERA, Ouagadougou, Burkina Faso  "},{"text":"L6 Social issues 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L06.P.02 Restoring natural capital and reducing social tensions through tree-based practices in humanitarian settings in Uganda  Duguma L. 1 (l.a.duguma@cgiar.org), Okia C. 2 , Ariani C. 3 , Watson C. 4 , Nzyoka J. 5 , Fungo B. 6 , Duguma L. 1 (l.a.duguma@cgiar.org), Okia C. 2 , Ariani C. 3 , Watson C. 4 , Nzyoka J. 5 , Fungo B. 6 , Kihumuro P. 2 Kihumuro P. 2 1 Landscape Governance, World Agroforestry Centre, Nairobi, Nairobi, Kenya; 2 Uganda Country Office, 1 Landscape Governance, World Agroforestry Centre, Nairobi, Nairobi, Kenya; 2 Uganda Country Office, World Agroforestry Centre, Kampala, Uganda; 3 National Forestry Authority Uganda, Kampala, Uganda; World Agroforestry Centre, Kampala, Uganda; 3 National Forestry Authority Uganda, Kampala, Uganda; 4 World Agroforestry Centre, Nairobi, Kenya; 5 Landscape Governance, World Agroforestry Centre, Nai- 4 World Agroforestry Centre, Nairobi, Kenya; 5 Landscape Governance, World Agroforestry Centre, Nai- robi, Kenya; 6 National Agricultural Research Org., Kampala, Uganda robi, Kenya; 6 National Agricultural Research Org., Kampala, Uganda  "},{"text":"L6 Social issues 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L06.P.03 Agroforestry practices in cocoa farming and migration: Between ignorance and conservation strategy of farms Kouakou A. T. M. (tamiakouakou01@gmail.com), Zanh G. G.,Barima Y. S. S., Timité N.     Environment, Jean Lorougnon Guédé University, Daloa, Côte d'Ivoire Environment, Jean Lorougnon Guédé University, Daloa, Côte d'Ivoire The development of Côte d'Ivoire is based on agriculture. This political choice led to the pro- The development of Côte d'Ivoire is based on agriculture. This political choice led to the pro- motion of agricultural activities and mainly cash crops. The natural spaces and particularly motion of agricultural activities and mainly cash crops. The natural spaces and particularly the forests of this country are thus exploited for timber and especially cleared for industrial the forests of this country are thus exploited for timber and especially cleared for industrial export crops, mainly cocoa. Côte d'Ivoire is the world's largest producer of cocoa with 35% export crops, mainly cocoa. Côte d'Ivoire is the world's largest producer of cocoa with 35% of world production. Cocoa also accounts for 22% of the Gross Domestic Product and more of world production. Cocoa also accounts for 22% of the Gross Domestic Product and more than 50% of Côte d'Ivoire's export earnings. This high production of cocoa is also linked to than 50% of Côte d'Ivoire's export earnings. This high production of cocoa is also linked to immigration to Côte d'Ivoire from the hinterland countries. In addition, Côte d'Ivoire had a de- immigration to Côte d'Ivoire from the hinterland countries. In addition, Côte d'Ivoire had a de- cade of politico-military crises from 2002 to 2011, which led to a significant displacement of cade of politico-military crises from 2002 to 2011, which led to a significant displacement of populations. Thus, this period has seen the influx of populations from neighboring countries, populations. Thus, this period has seen the influx of populations from neighboring countries, mainly Burkina Faso, into protected areas (national parks, classified forests and reserves) mainly Burkina Faso, into protected areas (national parks, classified forests and reserves) located in Côte d'Ivoire's forest zone in search of suitable land. to cocoa growing (Kouakou located in Côte d'Ivoire's forest zone in search of suitable land. to cocoa growing (Kouakou  "},{"text":": ocoa, agricultural migration, non-timber forest product, Côte d'Ivoire. L6 Social issues 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L06.P.04 Whose rights count? Public participation dilemma of transmigrant population in Indonesia's environmental decision-making  Lai J. Y. (jy.lai@ed.ac.uk) Lai J. Y. (jy.lai@ed.ac.uk) School of Geosciences, University of Edinburgh, Edinburgh, United Kingdom School of Geosciences, University of Edinburgh, Edinburgh, United Kingdom Indonesia's transmigration programme (Transmigrasi) is the world's largest government-led Indonesia's transmigration programme (Transmigrasi) is the world's largest government-led voluntary resettlement program. The program was initiated under Dutch colonial rule during voluntary resettlement program. The program was initiated under Dutch colonial rule during the early 20th century and taken over by the Indonesian government after independence. Until the early 20th century and taken over by the Indonesian government after independence. Until 2015, the government has relocated over 20 million populations from areas of degraded or 2015, the government has relocated over 20 million populations from areas of degraded or densely populated land on Java and Bali to rural areas on the other islands. Land clearing as- densely populated land on Java and Bali to rural areas on the other islands. Land clearing as- sociated with resettlement programmes was identified as one of the major drivers of Indone- sociated with resettlement programmes was identified as one of the major drivers of Indone- sia's deforestation in the 1990s. On the other hand, transmigrant populations experienced sia's deforestation in the 1990s. On the other hand, transmigrant populations experienced challenges in adapting different agricultural environment and fitting into the community. Fa- challenges in adapting different agricultural environment and fitting into the community. Fa- cing the new waves of land conversion to monoculture plantation, transmigrant and indige- cing the new waves of land conversion to monoculture plantation, transmigrant and indige- nous population have been increasingly facing interest conflicts on land use and land tenure nous population have been increasingly facing interest conflicts on land use and land tenure decisions. This paper aims to understand the perceptions and constraints of the transmigrant decisions. This paper aims to understand the perceptions and constraints of the transmigrant people in engaging in institutional environmental decision-making settings. The study uses people in engaging in institutional environmental decision-making settings. The study uses qualitative methods, including semi-structured interviews and group discussions, to collect qualitative methods, including semi-structured interviews and group discussions, to collect data in four transmigration and indigenous villages in East Kalimantan Province, Indonesia. data in four transmigration and indigenous villages in East Kalimantan Province, Indonesia. Strengthening links between science, society and policy Strengthening links between science, society and policy  "},{"text":"20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts Agroforestry 2019 -Poster L6 Social issues L06.P.05 Gender issues in household fuel wood and energy consumption: A case of Bundelkhand Central India Prasad Dwivedi R. (raghudwivedi66@gmail.com),Singh R., Singh M., Rizvi R., Kb S.     Central Agroforestry Research Institute, ICAR, Jhansi, Uttar Pradesh, India Central Agroforestry Research Institute, ICAR, Jhansi, Uttar Pradesh, India The importance of gender issues in agroforestry has been broadly recognized and demons- The importance of gender issues in agroforestry has been broadly recognized and demons- trated. Still there remain a number of issues that require special attention. Particularly collection trated. Still there remain a number of issues that require special attention. Particularly collection of fuel wood from agroforestry lands for household consumption. Gender plays an important of fuel wood from agroforestry lands for household consumption. Gender plays an important role in cow and buffalo dung cake making for household fuel consumption. Proportion of cow role in cow and buffalo dung cake making for household fuel consumption. Proportion of cow and buffalo dung cake replaced by fuel wood collected from agroforestry lands is also very im- and buffalo dung cake replaced by fuel wood collected from agroforestry lands is also very im- portant aspect in intra-household decision making and power dynamics as they relate to agro- portant aspect in intra-household decision making and power dynamics as they relate to agro- forestry. Socio-economic component of society from agroforestry view point is considered forestry. Socio-economic component of society from agroforestry view point is considered in present interdisciplinary approach of research work. The present investigation was carried in present interdisciplinary approach of research work. The present investigation was carried out in Bundelkhand region (230 8'-260 31' N, 780 11'-810 30' E) spread over 7.16 million ha out in Bundelkhand region (230 8'-260 31' N, 780 11'-810 30' E) spread over 7.16 million ha in Central India between seven districts of U.P. (Jhansi, Jalaun, Lalitpur, Hamirpur, Mahoba, in Central India between seven districts of U.P. (Jhansi, Jalaun, Lalitpur, Hamirpur, Mahoba, Banda and Chitrakoot) and six districts of M.P. (Sagar, Tikamgarh, Chhatarpur, Panna, Damoh Banda and Chitrakoot) and six districts of M.P. (Sagar, Tikamgarh, Chhatarpur, Panna, Damoh and Datia). The landscape is undulating with characteristic hillocks and experiences semi-arid and Datia). The landscape is undulating with characteristic hillocks and experiences semi-arid climate. Average annual rainfall of different districts ranges 750-1100 mm. One of the basic climate. Average annual rainfall of different districts ranges 750-1100 mm. One of the basic objectives of National Agroforestry Policy-India (2014) is to encourage and expand the tree objectives of National Agroforestry Policy-India (2014) is to encourage and expand the tree plantation in complementarily and integrated manner with crops. Against this background, plantation in complementarily and integrated manner with crops. Against this background, the present investigation was carried out during 2016-18 at Garh Kundar-Dabar watershed the present investigation was carried out during 2016-18 at Garh Kundar-Dabar watershed area of Tikamgarhgarh district of Bundelkhand region in M.P. The data were collected by area of Tikamgarhgarh district of Bundelkhand region in M.P. The data were collected by using structured interview schedule and Focused Group Discussion (FGD). It is revealed that using structured interview schedule and Focused Group Discussion (FGD). It is revealed that in watershed villages 70-95% of required fuel wood is collected from adjacent forest areas in watershed villages 70-95% of required fuel wood is collected from adjacent forest areas and 5-30% from own agroforestry field. The available tree species are Butea (Butea monos- and 5-30% from own agroforestry field. The available tree species are Butea (Butea monos- perma), Neem (Azactiracta indica), Subabul (Leucaena leucocephala) and Dhaunkara (Delonix perma), Neem (Azactiracta indica), Subabul (Leucaena leucocephala) and Dhaunkara (Delonix regia). The consumption of fuel wood is 4.5-5.5 Kg/day during rainy, 6.5-7.5 Kg/day during regia). The consumption of fuel wood is 4.5-5.5 Kg/day during rainy, 6.5-7.5 Kg/day during winter and 4-5 Kg/day during summer season. It is found that the collection of fuel wood is winter and 4-5 Kg/day during summer season. It is found that the collection of fuel wood is being performed mostly by women (50-85%). Cow & Buffalo dung cake is another important being performed mostly by women (50-85%). Cow & Buffalo dung cake is another important fuel being used for cooking. The amount is 4 to 7 kg/day as per requirement. The migration of fuel being used for cooking. The amount is 4 to 7 kg/day as per requirement. The migration of women farmers' practicing agroforestry is reduced in the watershed area due to agroforestry women farmers' practicing agroforestry is reduced in the watershed area due to agroforestry interventions. Therefore there is relevance of gender issues in agroforestry adoption in general interventions. Therefore there is relevance of gender issues in agroforestry adoption in general and in fuel and energy consumption in particular. In such situation, agroforestry management and in fuel and energy consumption in particular. In such situation, agroforestry management through watershed interventions with due emphasis on gender concern appear an effective through watershed interventions with due emphasis on gender concern appear an effective tool to make the gender dynamics in agroforestry systems. tool to make the gender dynamics in agroforestry systems.  "},{"text":"4 th World Congress on Agroforestry strengthening links between science, society and policy 20-22 May 2019 Le corum, Montpellier, France Book of Abstracts Agroforestry and world challenges  Agroforestry: riding to the world's rescue Agroforestry: riding to the world's rescue -L7 - -L7 -  "},{"text":"Jobs, business, finance: can agroforestry make it great?  Pouring concrete or planting trees? Pouring concrete or planting trees? Green growth means fostering economic growth and development, while Green growth means fostering economic growth and development, while ensuring that natural assets continue to provide the resources and environ- ensuring that natural assets continue to provide the resources and environ- mental services on which our well-being relies. Agroforestry is a sustainable mental services on which our well-being relies. Agroforestry is a sustainable land use practice and system that can be implemented worldwide in any type land use practice and system that can be implemented worldwide in any type - - nability: economic, environment and social by fostering green growth and nability: economic, environment and social by fostering green growth and - - duction of the agricultural and forest systems that should choose the best duction of the agricultural and forest systems that should choose the best agroforestry components ( agroforestry components (  "},{"text":"woody and agricultural production from the lower resources including light and nutrients. This session aims at developing best combinations of woody perennials and agricultural production from the lower storey to promote economic growth and development and therefore the creation of the new jobs world wide. Strengthening links between science,  "},{"text":"society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L07_O.01   "},{"text":"Agroforestry 2019 -Regular Talk L7 Jobs & business 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts   "},{"text":"L7 Jobs & business 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L07_O.03 No hassle with the hazelnut? The economy-wide impacts of a large-scale contract farming scheme in Bhutan  Feuerbacher A. (a.feuerbacher@uni-hohenheim.de) Feuerbacher A. (a.feuerbacher@uni-hohenheim.de) University of Hohenheim, Stuttgart, BW, Germany University of Hohenheim, Stuttgart, BW, Germany  "},{"text":"L7 Jobs & business 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L07_O.04 Pathways to agroforestry wealth in Nepal  Nuberg I. 1 (ian.nuberg@adelaide.edu.au), Cedamon E. 1 , Shrestha K. K 2 Nuberg I. 1 (ian.nuberg@adelaide.edu.au), Cedamon E. 1 , Shrestha K. K 2 1 University of Adelaide, Adelaide, South Australia, Australia; 2 University of New South Wales, Sydney, 1 University of Adelaide, Adelaide, South Australia, Australia; 2 University of New South Wales, Sydney, New South Wales, Australia New South Wales, Australia  "},{"text":"L7 Jobs & business 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L07_O.05 with milk-water-carbon value creation  Mutua W. 1 (wangu.mutua@viagroforestry.org), Nelima M. 2 Mutua W. 1 (wangu.mutua@viagroforestry.org), Nelima M. 2 1 Regional Office, Vi Agroforestry, Nairobi, Kenya; 2 Alpha Women Group, Kiminini Cooperative, Kitale, 1 Regional Office, Vi Agroforestry, Nairobi, Kenya; 2 Alpha Women Group, Kiminini Cooperative, Kitale, Kenya Kenya  "},{"text":"L7 Jobs & business 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L07_O.06 The State of community forest enterprises (CFEs) as successful social enterprises: Empirical evidence from Cameroon  Piabuo S. M. (p.mandiefe@cgiar.org) Piabuo S. M. (p.mandiefe@cgiar.org) Markets, Policies and Institutions, World Agroforestry Centre, Yaounde, Centre, Cameroon Markets, Policies and Institutions, World Agroforestry Centre, Yaounde, Centre, Cameroon  "},{"text":"L7 Jobs & business 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L07_O.07 Not all roads lead to Rome: Inclusive business models and responsible finance in pursuit of sustainable cocoa in Ghana Results show that sustainability goals and approaches vary widely among stakeholder groups. A common goal is increased productivity, mainly through improved planting materials. Efforts to maximize profits (companies) and royalties (the State) also reflect that business-as-usual models still largely prevail. Approaches to more inclusive business, with higher benefits and lower risks for smallholders (e.g. agroforestry, capacity building), are being promoted by NGOs and certification schemes. In addition, providers of responsible finance enable investments with more favourable conditions. Looking forward, innovative arrangements are needed for aligning and de-risking sustainability interventions and investments, and for ensuring credible engagement of large companies and effective support from the government. Stoian D. 1 (d.stoian@cgiar.org), Menza G. 2 Stoian D. 1 (d.stoian@cgiar.org), Menza G. 2 1 Bioversity International, Montpellier, France; 2 Bioversity International, Maccarese (Fiumicino), Italy 1 Bioversity International, Montpellier, France; 2 Bioversity International, Maccarese (Fiumicino), Italy In response to grand challenges in global cocoa production (e.g. poverty, low productivity, In response to grand challenges in global cocoa production (e.g. poverty, low productivity, deforestation), major chocolate companies have committed to a sustainable cocoa sector by deforestation), major chocolate companies have committed to a sustainable cocoa sector by 2020. Their efforts are supported by governments, NGOs and responsible investors. Focusing 2020. Their efforts are supported by governments, NGOs and responsible investors. Focusing on Ghana, our study aims to identify synergies and trade-offs between different approaches on Ghana, our study aims to identify synergies and trade-offs between different approaches to sustainability, the potential for inclusive business models, and possible blind spots toward to sustainability, the potential for inclusive business models, and possible blind spots toward sustainability. Our assessment is based on a comprehensive literature review and key infor- sustainability. Our assessment is based on a comprehensive literature review and key infor- This paper seeks This paper seeks to evaluate to what extend community forest enterprises (CFEs) are social enterprises in ca-investors, and certification bodies. to evaluate to what extend community forest enterprises (CFEs) are social enterprises in ca-investors, and certification bodies. meroon over the past 20 years. It would equally underscore if the business or charity side of meroon over the past 20 years. It would equally underscore if the business or charity side of social enterprises have been lacking and under what conditions can CFEs be designed into social enterprises have been lacking and under what conditions can CFEs be designed into successful social enterprises. Document review and focus group discussions with CFs mana- successful social enterprises. Document review and focus group discussions with CFs mana- gers, youths, women and minority groups of 36 CFs were used for data collection. The results gers, youths, women and minority groups of 36 CFs were used for data collection. The results shows that more than 90% of CFEs in Cameroon are timber based, with significant enterprise shows that more than 90% of CFEs in Cameroon are timber based, with significant enterprise management dimension weaknesses; low capacity, poor business planning and development management dimension weaknesses; low capacity, poor business planning and development and low profits. Due to poor poor governance, business management of these enterprises, and low profits. Due to poor poor governance, business management of these enterprises, there is hardly enough to invest in community development projects, however standout cases there is hardly enough to invest in community development projects, however standout cases shows that CFEs can be successful social enterprises. Significant improvement were registe- shows that CFEs can be successful social enterprises. Significant improvement were registe- red in environmental sustainability of CFEs but economic and social welbeing of communities red in environmental sustainability of CFEs but economic and social welbeing of communities due to CFEs is mitigated. Therefore CFEs can be developed into successful social enterprises, due to CFEs is mitigated. Therefore CFEs can be developed into successful social enterprises, however CFE governance, capacity and business model have to be well developed. however CFE governance, capacity and business model have to be well developed. Keywords: Social enterprises, Community forest enterprises, Income generation, benefit sha- Keywords: Social enterprises, Community forest enterprises, Income generation, benefit sha- ring, Enterprise management. ring, Enterprise management.  "},{"text":"L7 Jobs & business 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L07_O.08 A stimulus to 'green growth' in post-mining peri-urban Africa with elite Pongamia pinnata  Warr B. 1 (bwarr@sun.ac.za), Worms P. 2 Warr B. 1 (bwarr@sun.ac.za), Worms P. 2 1 Soil Science Department, Stellenbosch University, Stellenbosch, Western Cape Province, South Africa; 1 Soil Science Department, Stellenbosch University, Stellenbosch, Western Cape Province, South Africa; 2 CGIAR, Waterloo, Belgium 2 CGIAR, Waterloo, Belgium  "},{"text":"L7 Jobs & business 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L07_O.09 Marketplace approaches for context-based agroforestry investments and project development  Greene H. 1 (ethan@propagateventures.com), Steinberg E. 2 , Kaufman J. 3 Greene H. 1 (ethan@propagateventures.com), Steinberg E. 2 , Kaufman J. 3 1 Farm Development, Propagate Ventures, Hudson, NY, United States; 2 Business Development, 1 Farm Development, Propagate Ventures, Hudson, NY, United States; 2 Business Development, Propagate Ventures, Brooklyn, NY, United States; 3 Design & Technology, Propagate Ventures, Hudson, Propagate Ventures, Brooklyn, NY, United States; 3 Design & Technology, Propagate Ventures, Hudson, NY, United States NY, United States  "},{"text":"L7 Jobs & business 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L07.P.01   "},{"text":"L7 Jobs & business 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L07.P.02 Can traditional agroforestry in Albania lead to environmental protection and increase renewable energy production? After decades of abandonment or cultivation with heavy agricultural machinery, now, you can see groups of workers at Zsörk, coping with sophisticated tasks. Locals start to see Zsörk as a multifaceted resource, and some rediscover fruit producing. Agroforestry can foster community development through different factors that mostly belong to ecologic and economic stability. Kacani A. 1 (alborakacani@hotmail.com), Kola H. 2 Kacani A. 1 (alborakacani@hotmail.com), Kola H. 2 1 National Federation of Communal Forests, Tirana, Albania; 2 CNVP Foundation, Tirana, Albania 1 National Federation of Communal Forests, Tirana, Albania; 2 CNVP Foundation, Tirana, Albania Albanian Ministry of Environment has set the ambitious objective to plant 20 million and 200 Albanian Ministry of Environment has set the ambitious objective to plant 20 million and 200 thousand trees within 2020 with the aim to increase the forest area and raise public awar- thousand trees within 2020 with the aim to increase the forest area and raise public awar- eness of environmental protection. Moreover, a 10 years forest moratorium was approved eness of environmental protection. Moreover, a 10 years forest moratorium was approved by the Government as a measure to stop the destruction of forests mainly for industrial and by the Government as a measure to stop the destruction of forests mainly for industrial and commercial purposes. While the demand for fuelwood is three times more then what Albanian commercial purposes. While the demand for fuelwood is three times more then what Albanian forest can offer. According to the World Bank in 2017, biomass is the most important heating forest can offer. According to the World Bank in 2017, biomass is the most important heating energy source in Albania. energy source in Albania.  "},{"text":"L7 Jobs & business 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L07.P.03 Food security and income from traditional African oil trees Food oil of good quality is important for health, food security and income. Women in rural Africa traditionally extract oil from seeds of numerous native trees, but the potentials are far from fully realized. During two projects, QUALITREE and TREEFOOD, we investigated ethnobotanical knowledge in Mali and Burkina Faso and analyzed physiochemical properties of over 30 native tree oils, of which many revealed interesting qualities and good potentials for ameliorated use, production, sale and export. However, local knowledge about oil production is often confined to specific ethnic groups and areas. Examples of highly interesting oil species are Adansonia digitata, Afzelia africana, Balanites aegyptiaca, Carapa procera, Lannea kerstingii, Lophira lanceolata and Pentadesma butyracea. Despite an extraordinary potential for improving health, food security and economic development in poor communities via diversified and improved oil production, market potentials are poorly developed, value chains are poorly known and in many cases tree planting or nature protection in collaboration with local communities are needed to ensure sufficient and continuous oil seed supplies. Such activities have a potential to improve biodiversity and give opportunities for carbon certification and sale, which makes it a win-win situation. There is a global interest in traditional oils and carbon credits but also a need for value-added sustainable products, fair trade schemes and improved marketing. Lykke A. M. 1 (aml@bios.au.dk), Bassolé I. H. N. 2 , Ouédraogo A. 2 , Padonou E. A. 3 , Lykke A. M. 1 (aml@bios.au.dk), Bassolé I. H. N. 2 , Ouédraogo A. 2 , Padonou E. A. 3 , Kouyaté A. M. 4 Kouyaté A. M. 4 1 Bioscience, Aarhus University, Silkeborg, Denmark; 2 Plant Biology and Ecology, University Ouaga I, 1 Bioscience, Aarhus University, Silkeborg, Denmark; 2 Plant Biology and Ecology, University Ouaga I, Ouagadougou, Burkina Faso; 3 School of Tropical Forestry, National University of Agriculture, Ketou, Ouagadougou, Burkina Faso; 3 School of Tropical Forestry, National University of Agriculture, Ketou, Benin; 4 Forest Resources, Institute of Rural Economy, Sikasso, Mali Benin; 4 Forest Resources, Institute of Rural Economy, Sikasso, Mali  "},{"text":"L7 Jobs & business 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L07.P.04 Shifting cultivation: is there a place for traditional land use system in the present time? Pereira M. F. C. S. 1 (manuela.pereira@uffs.edu.br), Ribeiro G. S. 2 , Rosário N. 2 , Righi C. A.2    1 Campus Laranjeiras do Sul, Federal University of Fronteira Sul, Laranjeiras do Sul, PR, Brazil; 2 Dept. 1 Campus Laranjeiras do Sul, Federal University of Fronteira Sul, Laranjeiras do Sul, PR, Brazil; 2 Dept. of Forest Science, University of São Paulo, Piracicaba, SP, Brazil of Forest Science, University of São Paulo, Piracicaba, SP, Brazil  "},{"text":"L7 Jobs & business 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L07.P.05 Balancing economic development and biodiversity protection -Biodiversity-based value chains & certification ASEAN´s wealth of biological resources does not only represent the diversity of life, it also poses immense opportunities for economic development. The ASEAN Member States want to use this economic potential by further developing sustainable trade relations for bio-products nationally, regionally and possibly globally. However, the exact market potential of Biodiversity-based Products (BBP) is often still unknown. The \"Biodiversity-based Products (BBP) as an Economic Source for the improvement of Livelihoods and Biodiversity Protection\" Project, funded by the German government via the Deutsche Gesellschaft für International Zusammenarbeit (GIZ) GmbH, is implemented in cooperation with the ASEAN Centre for Biodiversity (ACB) by GFA Consulting Group, to pilot biodiversity-based value chains in Cambodia, Laos and Vietnam, promoting conservation through sustainable use. Villagers around protected areas, local park management, cooperatives and private sector business partners cooperate for the development of marketable products where they did not yet exist or for upgrading of existing products. Biodiversity value chains starts with sustainable sourcing of raw material, including management plans for the input resources which also comprises in-situ and ex-situ planting to enhance available raw material. Value is added through enhanced processing steps and especially certification (e.g. ODOP certification for bamboo) which improves market access for the villagers and their products. Peria E. 1 (evperia@aseanbiodiversity.org), Schlegel B. 2 , Simorangkir D. 3 Peria E. 1 (evperia@aseanbiodiversity.org), Schlegel B. 2 , Simorangkir D. 3 1 ASEAN Centre for Biodiversity, Los Banos, Laguna, Philippines; 2 GFA Consulting Group GmbH, 1 ASEAN Centre for Biodiversity, Los Banos, Laguna, Philippines; 2 GFA Consulting Group GmbH, Hamburg, Germany; 3 GIZ GmbH, Los Banos, Philippines Hamburg, Germany; 3 GIZ GmbH, Los Banos, Philippines  "},{"text":"Jobs & business 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L07.P.06 Poplar Agroforestry Practice: A Responsible Business of Wimco seedlings in North Indian States Sharma P. (punam.sharma@itc.in), Jha R., Gandhi J. Populus deltoides) was introduced in 1976 on boundaries in farmer's field in Punjab, north India. Later it was raised in agroforestry model to fulfil the wood demand of match and plywood industries. During 1984 to 1991, Wimco Seedlings initiated an extensive polar culture programme. It revolutionized the commercial tree cropping on farm lands1. A large number of farmers took up poplar cropping. Currently poplar is the main forestry crop in the states of Punjab, Haryana, Uttar Pradesh and Uttrakhand. Besides catering to the wood requirement of plywood & paper industries, poplar based agroforestry model has significantly improved the socio-economic status of farmers engaged in it. It increased their farm income many folds. At a rotation age of 6 years, one poplar tree can yield up to 3.5 q of wood. With 500 trees per hectare, a farmer can earn on an average Rs. 2.00 lakh/ha/year. This implies an income of Rs. 550/per day from the poplar based agroforestry system. So far the area covered under poplar plantations is around 150 thousand ha. This has generated 60 million mandays of employment. Wimco Seedlings has exclusively generated 2.0 million mandays from its own nursery operations. In addition, poplar plantations ameliorate soil conditions and improve micro-climate. These also have huge environmental impact. With an estimate of 20 million trees planted per year under the poplar based agroforestry, approximately 2.5 million tonnes of carbon is sequestrated annually2. Plantations, Wimco Seedlings, ITC Ltd, Rudrapur, Uttrakhand, India Plantations, Wimco Seedlings, ITC Ltd, Rudrapur, Uttrakhand, India Poplar ( Poplar (  "},{"text":"P.07 Opportunities for Enhancing Rural Economies through Agroforestry  Stein S. 1 (sstein@fs.fed.us), Bentrup G. 2 , MacFarland K. 3 Stein S. 1 (sstein@fs.fed.us), Bentrup G. 2 , MacFarland K. 3 1 Forest Service, Research and Development, United States Department of Agriculture, Washington, Dis- 1 Forest Service, Research and Development, United States Department of Agriculture, Washington, Dis- trict of Columbia, United States; 2 Forest Service, Research and Development, United States Department trict of Columbia, United States; 2 Forest Service, Research and Development, United States Department of Agriculture, Lincoln, Nebraska, United States; 3 Forest Service, Research and Development, United of Agriculture, Lincoln, Nebraska, United States; 3 Forest Service, Research and Development, United States Department of Agriculture, Burlington, Vermont, United States States Department of Agriculture, Burlington, Vermont, United States The United States Department of Agriculture convened a workshop to lay the foundation for The United States Department of Agriculture convened a workshop to lay the foundation for assessing economic opportunities for farmers, ranchers and forest owners, to practice and assessing economic opportunities for farmers, ranchers and forest owners, to practice and benefit from agroforestry. Over the course of three days, producers, scientists, and others benefit from agroforestry. Over the course of three days, producers, scientists, and others from the public, private, and non-profit sectors examined opportunities for enhancing the from the public, private, and non-profit sectors examined opportunities for enhancing the profitability of agroforestry through increased access to land and capital; markets for products profitability of agroforestry through increased access to land and capital; markets for products from agroforestry systems; and participation in ecosystem services markets. Case studies from agroforestry systems; and participation in ecosystem services markets. Case studies presented featured land leasing for agroforestry; agroforestry impact investing; innovative ap- presented featured land leasing for agroforestry; agroforestry impact investing; innovative ap- proaches to creating markets for underutilized products such as pawpaw (Asimina triloba) and proaches to creating markets for underutilized products such as pawpaw (Asimina triloba) and American hazelnut (Corylus americana); increased market access through cooperatives and American hazelnut (Corylus americana); increased market access through cooperatives and food hubs; and the integration of forest buffers into ecosystem services markets. In addition, food hubs; and the integration of forest buffers into ecosystem services markets. In addition, participants explored sources of government support for implementing agroforestry systems, participants explored sources of government support for implementing agroforestry systems, value-added processing, and developing market access. This presentation will review a se- value-added processing, and developing market access. This presentation will review a se- lection of examples explored and present actions identified for expanding such opportunities. lection of examples explored and present actions identified for expanding such opportunities. Keywords: Economics, Markets, Ecosystem Services, Products. Keywords: Economics, Markets, Ecosystem Services, Products.  "},{"text":"L7 Jobs & business 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L07.P.08 Willingness to establish private forest plantation among households in Oyo state Nigeria  Tijani S. (tsarafat@yahoo.com) Tijani S. (tsarafat@yahoo.com) Agricultural Extension and Rural Devt, University of Ibadan, Ibadan, Oyo, South west, Nigeria Agricultural Extension and Rural Devt, University of Ibadan, Ibadan, Oyo, South west, Nigeria  "},{"text":"20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts Agroforestry 2019 -Poster L7 Jobs & business L07.P.09 Adults who which to change job: a chance for agroforestry  Trolle A. (arnaud.trolle@lesavoirfaire.fr) Trolle A. (arnaud.trolle@lesavoirfaire.fr) Savoir-Faire & Découverte, Millau, France Savoir-Faire & Découverte, Millau, France that tree planting has been among the measures to diversify livelihoods, that tree planting has been among the measures to diversify livelihoods, create alternative income, and increase biomass supply. This study therefore investigates the create alternative income, and increase biomass supply. This study therefore investigates the willingness of the households to establish private forest plantation (PFP) in Oyo-State, Nigeria. willingness of the households to establish private forest plantation (PFP) in Oyo-State, Nigeria. Two purposively and two randomly selected Local Government Areas with forty household Two purposively and two randomly selected Local Government Areas with forty household heads randomly selected from each LGA were used for the study. Data obtained through inter- heads randomly selected from each LGA were used for the study. Data obtained through inter- respondents were male (89.2%), within 41-50 years (43.9%) and 92.8% were married. About respondents were male (89.2%), within 41-50 years (43.9%) and 92.8% were married. About 85.6% have knowledge of private ownership and 91.4% had knowledge of forest plantation 85.6% have knowledge of private ownership and 91.4% had knowledge of forest plantation establishment. It implies that the respondents had a general knowledge of the practice of establishment. It implies that the respondents had a general knowledge of the practice of agro-forestry. Respondents 'attitude to PFP (78.4%) was favourable which might be due to the agro-forestry. Respondents 'attitude to PFP (78.4%) was favourable which might be due to the benefits inherent in the establishment. A large percentage (96.4%) agreed that involvement in benefits inherent in the establishment. A large percentage (96.4%) agreed that involvement in PFP serves as income generating activity while 58.3% identified government policy on forestry PFP serves as income generating activity while 58.3% identified government policy on forestry and land tenure system as major constraints to establishment of PFP. Age ( and land tenure system as major constraints to establishment of PFP. Age ( educational qualification ( educational qualification ( establish PFP. Respondents' possessed favourable attitude towards PFP establishment des- establish PFP. Respondents' possessed favourable attitude towards PFP establishment des- pite the perceived constraints. Government in collaboration with Forestry Research Institute pite the perceived constraints. Government in collaboration with Forestry Research Institute of Nigeria (FRIN) should initiate programmes on PFP and policy on land use decree should be of Nigeria (FRIN) should initiate programmes on PFP and policy on land use decree should be reviewed to promote participation in forest plantation establishment. reviewed to promote participation in forest plantation establishment. Keywords: Household, Income generating activities, Forest plantation, Knowledge. Keywords: Household, Income generating activities, Forest plantation, Knowledge. Strengthening links between science, society and policy Strengthening links between science, society and policy  "},{"text":"action Abstracts AbstrActs 4 th World Congress on Agroforestry strengthening links between science, society and policy 20-22 May 2019 Le corum, Montpellier, France Book of Abstracts Agroforestry adoption Adopting the future of land use -L8 - Scaling up of agroforestry innovations Trainees then settle as peasant-baker, market gardeners, arboriculturist, natural canning manufacturers… We will provide testimony of former trainees and lines of Scale it up, now! Getting proven innovations into the landscape Scale it up, now! Getting proven innovations into the landscape Contributions expected in this session refer to effective scaling ups of agro- Contributions expected in this session refer to effective scaling ups of agro- forestry research outputs and experiences. The session also considers research forestry research outputs and experiences. The session also considers research embedded in development across varying contexts and scales including embedded in development across varying contexts and scales including technologies, socio-economies, service deliveries, policies and institutional technologies, socio-economies, service deliveries, policies and institutional environments. This may accelerate impacts of agroforestry innovations and environments. This may accelerate impacts of agroforestry innovations and to the greatest number of people over the widest area. This does not only to the greatest number of people over the widest area. This does not only improve agronomic, economic, environmental performances of the current improve agronomic, economic, environmental performances of the current practices; and optimize trade-offs among them, but it also contributes to practices; and optimize trade-offs among them, but it also contributes to changes in institutions, policies, rules laws, cultural values, and beliefs which changes in institutions, policies, rules laws, cultural values, and beliefs which may support scaling may support scaling  "},{"text":"ups of agroforestry innovations with concrete and sustai- nable impacts. The session also considers participatory, holistic and multi- disciplinary approaches, action researches, innovation platforms, and models by ensuring participatory, and inclusive engagements of extended peers of communities (including scientists, producers and other stakeholders) who play key roles in accelerated scaling ups of and sustainable impacts from agro- Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts Agroforestry 2019 -Keynote Talk L8 Scaling up L08_O.01 Achieving transformational impact from agroforestry research  Bartlett T. (bartlett.forestry@gmail.com) Bartlett T. (bartlett.forestry@gmail.com) ACIAR, Deakin, ACT, Australia ACIAR, Deakin, ACT, Australia  "},{"text":"L8 Scaling up 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L08_O.02 Potential for managing natural regeneration by family farmers in the Amazon: making the most of biodiversity Ferreira J.1 (joice.ferreira@embrapa.br), Elias F. 2 , Nascimento D. 1 , Silva J. S. 3 , Almeida Á.4 , Nascimento R. 4 , Carneiro R. 5 , Navegantes L.5 ,Coudel E. 6    1 Amazônia Oriental, Embrapa, BELEM, PA, Brazil; 2 Ecology, Federal University of Pará, BELEM, PA, 1 Amazônia Oriental, Embrapa, BELEM, PA, Brazil; 2 Ecology, Federal University of Pará, BELEM, PA, Brazil; 3 Federal Rural University of Pará, BELEM, PA, Brazil; 4 Environmental Sciences, Federal Univer- Brazil; 3 Federal Rural University of Pará, BELEM, PA, Brazil; 4 Environmental Sciences, Federal Univer- sity of Pará, BELEM, PA, Brazil; 5 Family Farmer Institute, Federal University of Pará, BELEM, PA, Brazil; sity of Pará, BELEM, PA, Brazil; 5 Family Farmer Institute, Federal University of Pará, BELEM, PA, Brazil; 6 Green, Cirad, Montpellier, France 6 Green, Cirad, Montpellier, France  "},{"text":"L8 Scaling up 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L08_O.03 practices and research findings  Araia W. 1 (woldearaiahac@gmail.com), Sultan Z. 2 Araia W. 1 (woldearaiahac@gmail.com), Sultan Z. 2 1 Arid Land Agronomy, Hamelmalo Agricultural College, Keren, Eritrea; 2 Forestry Research, National 1 Arid Land Agronomy, Hamelmalo Agricultural College, Keren, Eritrea; 2 Forestry Research, National Agricultural Research Institute, Halhale, Eritrea Agricultural Research Institute, Halhale, Eritrea This paper reviews agroforestry systems, highlighting the potential and significance of agro- This paper reviews agroforestry systems, highlighting the potential and significance of agro- forestry in Eritrea with the objective of improving its adoption. A combination of trees, agricul- forestry in Eritrea with the objective of improving its adoption. A combination of trees, agricul- tural crops and livestock production is an ancient practice that farmers have used in Eritrea. tural crops and livestock production is an ancient practice that farmers have used in Eritrea. Agroforestry has been practiced by communities in order to fulfill the immediate basic human Agroforestry has been practiced by communities in order to fulfill the immediate basic human needs of food, fuel, fodder, shelter, protection etc. There are three basic types of Agroforestry needs of food, fuel, fodder, shelter, protection etc. There are three basic types of Agroforestry systems such as Agrisilviculture (crops and trees), silvopastoral ((Pasture/animal + trees); and systems such as Agrisilviculture (crops and trees), silvopastoral ((Pasture/animal + trees); and Agrosilvopastoral (crops + pasture/animals + trees). There are other specified agroforestry Agrosilvopastoral (crops + pasture/animals + trees). There are other specified agroforestry systems such as apiculture (bees + trees), aquaculture (fish + trees/shrubs) and multipurpose systems such as apiculture (bees + trees), aquaculture (fish + trees/shrubs) and multipurpose tree lots. In Eritrea, the most common agroforestry practices are multipurpose trees on crop tree lots. In Eritrea, the most common agroforestry practices are multipurpose trees on crop land, wind breaks and shelter belts, tees for soil conservation measures, living fences, wood land, wind breaks and shelter belts, tees for soil conservation measures, living fences, wood lots in villages and community, apiculture (apisilviculture), agro forestry in river banks and lots in villages and community, apiculture (apisilviculture), agro forestry in river banks and water ways, rangelands (protein banks), mangrove forest based aquaculture, urban agrofo- water ways, rangelands (protein banks), mangrove forest based aquaculture, urban agrofo- restry and home gardens etc. are descried in this paper. Agroforestry has been recognized restry and home gardens etc. are descried in this paper. Agroforestry has been recognized as a land use system which is capable of yielding both wood and food while conserving and as a land use system which is capable of yielding both wood and food while conserving and rehabilitating the natural eco systems. Review of research results on agroforestry in Eritrea rehabilitating the natural eco systems. Review of research results on agroforestry in Eritrea showed that the highest grain yield on barley was obtained from fallow land planted with showed that the highest grain yield on barley was obtained from fallow land planted with Crotolaria grahamiana (1165 kg/ha). In studies done on hedgerow intercropping, a 4.5 m alley Crotolaria grahamiana (1165 kg/ha). In studies done on hedgerow intercropping, a 4.5 m alley relatively gave the highest grain yield (793 kg/ha) on barley compared to that of 6 m alley. relatively gave the highest grain yield (793 kg/ha) on barley compared to that of 6 m alley.  "},{"text":"L8 Scaling up 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L08_O.04 Developing livelihood trajectory models for screening and scaling agroforestry options  Crossland M. 1 (afp43d@bangor.ac.uk), Sinclair F. 2 , Pagella T. 1 , Taylor J. 3 , Duguma L. 2 , Crossland M. 1 (afp43d@bangor.ac.uk), Sinclair F. 2 , Pagella T. 1 , Taylor J. 3 , Duguma L. 2 , Winowiecki L. 2 Winowiecki L. 2 1 Bangor University, Bangor, United Kingdom; 2 World Agroforestry, Nairobi, Kenya; 3 Simulistics Ltd., 1 Bangor University, Bangor, United Kingdom; 2 World Agroforestry, Nairobi, Kenya; 3 Simulistics Ltd., Edinburgh, United Kingdom Edinburgh, United Kingdom  "},{"text":"L8 Scaling up 4 th World Congress on Agroforestry Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Book of Abstracts L08_O.05 Roles of Agroforestry in sustainable intensification of small farMs and food SEcurity for SocIetIes in West Africa Seghieri J.1 (josiane.seghieri@ird.fr), Bastide B. 2 , Ingram V.3 , Jourdan C. 4 , Sanogo D. 5    1 UMR HydroSciences Montpellier (HSM), IRD, Montpellier, France; 2 Département Environnement et 1 UMR HydroSciences Montpellier (HSM), IRD, Montpellier, France; 2 Département Environnement et Forêts (DEF, INERA, Bobo Dioulasso, Burkina Faso; 3 Department of Environmental Sciences, Wagenin- Forêts (DEF, INERA, Bobo Dioulasso, Burkina Faso; 3 Department of Environmental Sciences, Wagenin- gen University and Research, Wageningen, The Netherlands; 4 UMR Eco&Sols, CIRAD, Dakar, Senegal; gen University and Research, Wageningen, The Netherlands; 4 UMR Eco&Sols, CIRAD, Dakar, Senegal; 5 CNRF, ISRA, Dakar, Senegal 5 CNRF, ISRA, Dakar, Senegal  "},{"text":"L8 Scaling up 4 th   "},{"text":"L8 Scaling up 4 th   "},{"text":"of Abstracts L08_O.07 Opportunities for agroforestry in Finland den Herder M.1 (michael.denherder@efi.int), Vanhanen H. 2 , Mattila I. 3 , Mattila T.4 , Puro E. M. 5 , Lokki H. 5 , Makkonen O.6 , Rois Díaz M.1     "},{"text":"L8 Scaling up 4 th   "},{"text":"of Abstracts L08_O.08 How can Research & Development efficiently support the French practitioners of agroforestry? Grimaldi J. 1 (juliette.grimaldi@inra.fr),Saubion C. 2 , Warlop F. 3 , Hannachi Y. 4 , Mézière D.1     "},{"text":"L8 Scaling up 4 th   "},{"text":"of Abstracts L08_O.09 Scaling up oil palm Agroforestry in the Brazilian Amazon: lessons learned from the Miccolis A. 1 (a.miccolis@cgiar.org), Ramos H. M. N. 2 , Silva J. A.3 , Arantes A. C. V.3     "},{"text":"L8 Scaling up L08_O.10 Sustainable grazing options for enhancing accelerated scaling ups and impacts of agroforestry innovations in Ethiopia Fantaye S. K.1 (selamawitsole@yahoo.com), Hadgu K. 2 , Birhane E. 3 , Haile M. 3 , Muthuri C. 4 , Mowo J. 4 , Georgis K. 5 , Negussei A.6     "},{"text":": Free grazing, Policy and Informed Decision-Making, Livestock, Resilient Ecosystems and Societies, Local Capacities and Institution.  "},{"text":"2 1 Développement Durable, CEMOI Côte d'Ivoire, ABIDJAN, Côte d'Ivoire; 2 Développement Durable, CEMOI, Perpignan, France CEMOI, the first French chocolate company, has initiated since 2016 a program for sustainable development of the cocoa sector in Côte d'Ivoire. This program called «Transparence Cacao» is implemented in partnership with Le Conseil du Café-Cacao. The program involves 30 farmers organizations. It aims to transform the rural environment by favoring the emergence of professional farmers and cooperatives which integrate the quality of cocoa and the preservation of the environment in their activities. Thus, various activities are carried out by CEMOI and technical partners in four priority areas which are:  "},{"text":"L8 Scaling up 4 th   "},{"text":"02 Preservation of shea resource through the transfer of shea plant regeneration techniques to the female producers Bastide B. 1 (bastidebrigitte30@gmail.com), Ouoba H. 2 , Zerbo L.1     "},{"text":"L8 Scaling up 4 th   "},{"text":"05 Making rural advisory services more climate smart -can community-based approaches help? Degrande A. 1 (a.degrande@cgiar.org), Arinloye D.-D. 2 , Tsobeng A. 1 ,Savadogo P. 2     "},{"text":"06 Farmers seek high tree diversity in semi-arid and sub-humid areas in Ethiopia Dimenso A. D.1 (abaynehdd@yahoo.com),Muthuri C. 2 , Coe R. 2 , Sinclair F.2     "},{"text":"L8 Scaling up 4 th   "},{"text":"08 comparing with the modern systems in India Esteghamat M.1 (minaesteqamat@gmail.com), Hegde N.2     "},{"text":"L8 Scaling up 4 th   "},{"text":"10 Farmers' perception and reasons to practice Farmer Managed Natural Regeneration Kibru T.1 (tktigana13@gmail.com), Husseini R. 2 , Haggar J.3 ,Birhane E. 1     "},{"text":"L8 Scaling up 4 th   "},{"text":"11 Options for improving smallholder's contributions to off-reserve landscape restoration in Ghana   "},{"text":"L8 Scaling up 4 th   "},{"text":"12 Local knowledge promotes design of adaptive land restoration options that deliver multiple ecosystem services at scale Kuria A.1 (A.Kuria@cgiar.org), Pagella T. 2 , Winowiecki L. 1 , Mitiku H. 3 , Sinclair F.1     "},{"text":"13 From diagnosis to scaling of Agroforestry Systems: lessons learned from case studies in Brazil using the PLANTSAFS tool Miccolis A. 1 (a.miccolis@cgiar.org), Marques H. R. 2 , Peneireiro F. M.3     "},{"text":"L8 Scaling up 4 th   "},{"text":"15 Extension approaches to promote effective adoption of agroforestry practices: Lessons learned from Indonesia Muktasam A.1 (muktasam03@yahoo.com), Reid R. 2 , Race D.3 , Perdana A. 4     "},{"text":"L8 Scaling up 4 th   "},{"text":"16 Strengthening Rural Resource Cenres as Local Practices: Simple and Smart Ways for Enhancing Scaling up of Agroforestry Niguse   "},{"text":"L8 Scaling up 4 th   "},{"text":"17 A Proven Evidence of Rural Livelihood Transformation and Poverty Reduction in Ghana: Case of Cocoa Agroforestry System Nunoo I.1 (nunooisaac85@yahoo.com), Fromm I.2     "},{"text":" 2     "},{"text":"L8 Scaling up 4 th   "},{"text":"20 Portuguese Regional Agroforestry Innovation Network: SWOT analysis after two years of establishment   "},{"text":"L8 Scaling up 4 th   "},{"text":"L8 Scaling up 4 th   "},{"text":"23 The Regional Agroforestry Innovation Network in Flanders (Belgium): a diverse and dynamic group Van Colen W. 1 (willem.vancolen@inagro.be),Pardon P. 2 , Reubens B. 2     "},{"text":"L8 Scaling up 4 th   "},{"text":"L8 Scaling up 4 th   "},{"text":"25 Service species biomass cost and quantification for self-sustainable syntropic Ziantoni V. 1 (ziantoni.valter@gmail.com),Costa P. 2     "},{"text":" 7     "},{"text":"L9 Value chains 4 th   "},{"text":" 3     "},{"text":"L9 Value chains 4 th   "},{"text":"of Abstracts L09_O.05 Local value-chain with Coffee/Cocoa agroforestry business driven Clusters to foster social and environmental innovations Penot E. 1 (eric.penot@cirad.fr), Baufumé S. 2 , Etienne H. 3 , Mouafi S. 4 , Blangy L. 2 , Saletes S. 2 , Bertrand B.3     "},{"text":" 2     "},{"text":"L9 Value chains 4 th   "},{"text":"of Abstracts L09_O.08 PEFC endorsement process for the Certification of Trees Outside Forests Brunori A.1 (info@pefc.it), Laithy R. 2 , Berger M.3 , Lawson G. 4     "},{"text":"L9 Value chains 4 th   "},{"text":"of Abstracts L09_O.09 A new payment for ecosystem services in organic cocoa agroforestry system in Ivory Coast Vaudry R. 1 (r.vaudry@nitidae.org), Ettien R. 1 , Nourtier M. 2 , Rullier N. 2 , Rabany C. 2  "},{"text":"L9 Value chains L09_O.10 Designing generalizable agroforestry standards for regenerative agriculture Elevitch C. 1 (cre@agroforestry.org), Mazaroli D. N. 2 , Ragone D.3     "},{"text":"L9 Value chains 4 th   "},{"text":"02 Opportunity study of agroforestry projects under shading of forest species (Congo Basin and Ivory Coast) Jobbé-Duval B. 1 (benoit.jobbeduval@atibt.org), Rivain S. 2 , Perthuisot N. 2 , Fare Y. 3 , Aymes I.4 , Guittard B. 5 ,Duhesme C. 1     "},{"text":"L9 Value chains 4 th   "},{"text":"04 Incentivising conservation in agroforestry -Is it sustainability? Kushalappa C. G. 1 (kushalcg@gmail.com), Rahghuramulu Y 2 , Nanaya K. M 1  "},{"text":"L9 Value chains 4 th Liagre F.1 (liagre@agroof.net),Marchal R. 2 , Lemoigne N. 3 , Bono P. 4 , Aouf C. 5 , Senegas I.6 , Gerardin P. 7 , Dauzat J.2     "},{"text":"L9 Value chains 4 th   "},{"text":"09 chain from field schools to canteens Métro N.1 (nicolas.metro@kinome.fr), Fare Y. 1 , Abotsi E. 2 ,Adessou S. 3 , Fetor A. 3     "},{"text":"L9 Value chains 4 th   "},{"text":"11 WebCorky -Postpone or not the debarking in your stand   "},{"text":"L9 Value chains 4 th   "},{"text":"13 Agroforestry partnerships in cocoa and coffee sectors : an opportunity for sustainable value chains ? Plédran O. 1 (oriane.pledran@gmail.com), Phélinas P. 2 ,Torquebiau E. 3     "},{"text":"L9 Value chains 4 th   "},{"text":" 3     "},{"text":"L9 Value chains 4 th   "},{"text":"17 Engagement with and perceptions of agroforestry requirements by certified smallholder cocoa farmers in Cote d'Ivoire National Agroforestry Policy 2014 was announced in Feb 2014. The findings of the study also dealing with some of the deliverables mentioned in the Agroforestry Policy 2014. Hence, the present study creates a pathway for taking future policy decisions related to agroforestry, particularly in the State of Punjab and rest of India in general. Teague M. (mteague@wisc.edu) Teague M. (mteague@wisc.edu) Department of Geography, University of Wisconsin-Madison, Madison, WI, USA Department of Geography, University of Wisconsin-Madison, Madison, WI, USA Keywords: Agroforestry, Market mechanism, North-western India, Timber. Keywords: Agroforestry, Market mechanism, North-western India, Timber.  "},{"text":"Book of Abstracts L10.1_O.01 Changes and continuities of Indigenous Agroforestry Knowledge of LegesseKura A. (abiyotl@du.edu.et)     Geography and environmental studies, Dilla University, Dilla, Southern Ethiopia, Ethiopia Geography and environmental studies, Dilla University, Dilla, Southern Ethiopia, Ethiopia Agroforestry adoption Agroforestry adoption Adopting the future of land use Adopting the future of land use  -L10 - -L10 - Agroforestry in practice Agroforestry in practice Now what? Getting agroforestry to work in practice Now what? Getting agroforestry to work in practice environmental and productive) from integrating trees, shrubs with crops and/ environmental and productive) from integrating trees, shrubs with crops and/ markets while applying specialized knowledge and skills to the development markets while applying specialized knowledge and skills to the development of stable, resilient and sustainable production systems. Under this session, of stable, resilient and sustainable production systems. Under this session, emphasis is placed on long-term agroforestry land use practices and woodlot emphasis is placed on long-term agroforestry land use practices and woodlot management satisfying the three criteria: Intensive, Interactive and Integrated. management satisfying the three criteria: Intensive, Interactive and Integrated. The agroforestry practice session aims to realise a wide variety of case studies The agroforestry practice session aims to realise a wide variety of case studies stewardship, ecosystem restoration together with achieving economic stewardship, ecosystem restoration together with achieving economic  20-22 May 2019 20-22 May 2019 Strengthening links between science, society and policy Le Corum, Montpellier, France Strengthening links between science, society and policyLe Corum, Montpellier, France  "},{"text":"L10.1 AF in practice 4 th World Congress on Agroforestry Strengthening   "},{"text":"Book of Abstracts L10.1_O.04 example of the São Pedro Farm in Brazil Godard L. (leo.godard31@hotmail.fr)     Floresta Viva SA, Cananéia, SP, Brazil Floresta Viva SA, Cananéia, SP, Brazil  "},{"text":"L10.1 AF in practice 4 th World Congress on Agroforestry Strengthening   "},{"text":"Book of Abstracts L10.1_O.06 Sustaining economic and ecological contribution to local community through participatory agroforestry practice Prameswari D.1 (diana_eko@yahoo.com), Sudomo A.2 , E Sebastian G.3 , Perdana A. 3    1 Silviculture, Forest Research and Development Center, Bogor, West Java, Indonesia; 2 Silviculture, 1 Silviculture, Forest Research and Development Center, Bogor, West Java, Indonesia; 2 Silviculture, Agroforestry Research Development Centre, Ciamis, West Java, Indonesia; 3 Agroforestry, World Agro- Agroforestry Research Development Centre, Ciamis, West Java, Indonesia; 3 Agroforestry, World Agro- forestry Center-ICRAF, Bogor, West Java, Indonesia forestry Center-ICRAF, Bogor, West Java, Indonesia  "},{"text":"L10.1 AF in practice 4 th   "},{"text":"L10.1 AF in practice 4 th   "},{"text":"of Abstracts L10.1_O.08 Assessment of the economic and environmental benefits of on-farm agroforestry practice in Northwest Vietnam Do H.1 (hung.do.van@slu.se), La N. 2 , Pham T. 2 , Nguyen T.2    1 Crop Production Ecology, Swedish Univ. Agricultural Sciences SLU, Uppsala, Sweden; 2 World Agro- 1 Crop Production Ecology, Swedish Univ. Agricultural Sciences SLU, Uppsala, Sweden; 2 World Agro- forestry (ICRAF), Hanoi, Vietnam forestry (ICRAF), Hanoi, Vietnam  "},{"text":"L10.1 AF in practice 4 th   "},{"text":"of Abstracts L10.1_O.09 understanding the farmers' practices Durand L.1 (l.durand@istom.fr), Azéma G.2 , Justes E. 3 , Leblanc S. 2 , Lamanda N.4 ,Allinne C. 5     "},{"text":"L10.2 AF in practice 4 th   "},{"text":"of Abstracts L10.2_O.06 Smallholders' oil palm agroforestry adoption: an opportunity to improve productivity and sustainability? Budiadi B. (budiadi@ugm.ac.id),Ari S., Marhaento H., Imron M. A., Permadi D. B.,  Hermudananto H.     Faculty of Forestry, Universitas Gadjah Mada, Yogyakarta, Indonesia Faculty of Forestry, Universitas Gadjah Mada, Yogyakarta, Indonesia  "},{"text":"L10.2 AF in practice 4 th   "},{"text":"of Abstracts L10.2_O.07 30 years of agroforestry poultry system against climate change in Sarthe (West of France) Guillet P.  (philippe.guillet@pl.chambagri.fr),Lemarié C.    One of the oldest poultry producer group is established in Sarthe at the West of France. Called \"Les Fermiers de Loué\", they are involved in trees' plantation since the seventies. Agroforestry system appeared obvious as trees enhance poultry health and welfare, poultry exit and poultry farming performance. Nowadays, climate change is making agroforestry poultry system more interesting. However, farmers and advisors are facing some issues. Firstly, trees species selection is far more difficult because of climate change (dryness, temperature, water regime and soil). Secondly, poultry farming management is evolving because of climate chang (shade, temperature). Thirdly, as a transversal issue, biodiversity conservation is taken into account (trees species diversity, native species, melliferous species). Finally, poultry agroforestry system is linked with other productions. Indeed, it contributes to agronomy performance and animal's food with fodder trees. Sarthe, Chambre d'Agriculture Pays-de-la-Loire, Le Mans, France Sarthe, Chambre d'Agriculture Pays-de-la-Loire, Le Mans, France  "},{"text":" 2 , Cerdán C. R. 2  "},{"text":"of Abstracts L10.2_O.09 What Sustains Nepalese Agroforestry Practices? Amatya S. M.1 (swoyambhu_amatya@yahoo.com), Nuberg I.2 , Cedamon E. 2 1 Faculty of Forestry, Agriculture and Forestry University, Kathmandu, Nepal; 2 Faculty of Forestry, University of Adelaide, Adelaide, Australia  "},{"text":"of Abstracts L10.2_O.10 Evaluating factors influencing heterogeneity in agroforestry adoption and practices within smallholder farms in Kenya Nyaga J.1 (J.Nyaga@cgiar.org),Barrios E. 1 , Muthuri C. 1 , Oborn I. 1 , Matiru V. 2 , Sinclair F.1     "},{"text":"L10 AF in practice 4 th   "},{"text":"01 Effect of selective pruning and thinning on tree diversity and biomass productivity in fallows of Sudanian woodlands Assédé E. S. P. 1 (assedeemeline@gmail.com), Azihou F. A. 2 , Mariki S. B. 3 , Geldenhuys C. J.4    1 Université de Parakou, Parakou, Benin Republic; 2 University of Abomey-Calavi, Abomey-Calavi, Benin 1 Université de Parakou, Parakou, Benin Republic; 2 University of Abomey-Calavi, Abomey-Calavi, Benin Republic; 3 Sokoine University of Agriculture, Morogoro, Tanzania; 4 University of Pretoria, Pretoria, Republic; 3 Sokoine University of Agriculture, Morogoro, Tanzania; 4 University of Pretoria, Pretoria, Republic of South Africa Republic of South Africa Background Background In fallow systems, woodlands stands of Sudanian zone are under different management In fallow systems, woodlands stands of Sudanian zone are under different management regimes, including total protection and controlled use with mitigated results. regimes, including total protection and controlled use with mitigated results.  "},{"text":"L10 AF in practice 4 th   "},{"text":"05 Agroforestry innovations in Poland . ofBioeconomy and Systems Analysis, IUNG-PIB, Pulawy, Poland    Agroforestry (AF) is still not recognised and accepted farming practice in Poland, although it has long tradition. Notwithstanding, lack of unequivocal definitions considering trees on agricultural lands, particularly trees management rules discourage farmers to plant them. More knowledge about agroforestry, and collaboration between experts, local decision makers and practitioners is needed in order to develop local markets of innovative AF products. In the AFINET project, regional stakeholders identified 32 AF innovations would be useful for Poland. Among them we can define: i) rotation cattle farming in traditional orchards, improving animal welfare, diversifying farmer income and not hampering crops productivity in the same time; ii) beef cattle farming on wooded pastures, improving biodiversity, optimized species composition of grassland, animals health, forest management efficiency and restoring marginal non-used land for agricultural production, in the same time providing good-quality Borek R. Borek R.  "},{"text":"06 Moringa oleifera (Lam): a promising species for agroforestry under a changing climate Boumenjel A.1 (boumenjel19@gmail.com), Pantera A. 2 , Ammari Y. 1 Losada et al 2018), in particular to locations with limited resources (Fig 1). It grows under a wide range of precipitation and temperature from 250 mm to 1500/2000 mm and from 25 oC to 35 oC respectively but it has been also reported to withstand 48oC in the shade, drought, light freeze (Foidl et al., 2001) and other adverse environments  "},{"text":"L10 AF in practice 4 th   "},{"text":"07 A low input high density mulberry forage bank contributing to the autonomy of a beef cattle farm in Ariège (France) Bounab M.1 (eliel.gonzalez-garcia@inra.fr), Authier M. 2 , Brout S. 1 , Cadudal M.1 ,  González-García E. 3     "},{"text":"L10 AF in practice 4 th   "},{"text":"10 Complexity of agroforestry cropping systems in the undergrowth of Guadeloupe Chaigneau R.1 (jean-louis.diman@inra.fr), Hammouya D. 1 , Tormin P. 2 , Bezard M. 2 , Drillet E. 2 , Castro Nuñes T. 1 , Diman J.-L.1     "},{"text":"L10 AF in practice 4 th   "},{"text":"11 Delivering Agroforestry in the UK outside of CAP -a partnership between Chesshire H. (helenchesshire@woodlandtrust.org.uk) Conservation, Woodland Trust, Grantham, Lincs, United Kingdom Conservation, Woodland Trust, Grantham, Lincs, United Kingdom  "},{"text":"Table 1 . Summary of agroforestry planting in the UK from 2013/14 to 2018/19 funded by Trees on Farms  "},{"text":"12 Widely spaced tree-based intercropping systems: effect on soil microclimatic conditions and crop yield Cogliastro A.1 (alain.cogliastro@ville.montreal.qc.ca), Rhéaume-Gonzalez F.-A. 2 , Carrier M.3 ,  Olivier A. 4 , Rivest D. 3    1 Sciences biologiques, Institut de Recherche Biologie Végétale, Montréal, Québec, Canada; 2 Sciences 1 Sciences biologiques, Institut de Recherche Biologie Végétale, Montréal, Québec, Canada; 2 Sciences du bois et de la Forêt, Université Laval, Québec, Québec, Canada; 3 Institut des sciences -forêt tem- du bois et de la Forêt, Université Laval, Québec, Québec, Canada; 3 Institut des sciences -forêt tem- pérée, Université du Québec en Outaouais, Ripon, Québec, Canada; 4 Département de phytologie, pérée, Université du Québec en Outaouais, Ripon, Québec, Canada; 4 Département de phytologie, Université Laval, Québec, Québec, Canada Université Laval, Québec, Québec, Canada  "},{"text":"L10 AF in practice 4 th   "},{"text":"13 Plan-Do-Check-Act (PDCA) cost reduction method in apical pruning operations Costa P. 1 (paula.costa.agroforestry@gmail.com), Ziantoni V.2     "},{"text":"L10 AF in practice 4 th   "},{"text":"14 Alnus acuminata: an effective fertilizer tree for smallholder farmers in sub humid region of Rwanda Cyamweshi A.1 (rusacyamweshi@gmail.com),Muthuri C. 2 , Mukuralinda A. 3 , Shem K.4   1 Jomo Kenyatta Univ of Agric and Technol, Nairobi, Kenya, Kenya; 2 ICRAF, Nairobi, Kenya; 3 ICRAF, Kigali, Rwanda; 4 Jomo Kenyatta Univ ofAgric and Technol, Nairobi, Kenya      "},{"text":" Deshmukh H.1 (hkdeshmukh1@rediffmail.com),Bhattacharya P. 2 , Patnaik S. 3 , Dobriyal M. 11 Silviculture and Agroforestry, Navsari Agricultural University, Navsari, Navsari, Gujarat, India; 2 Uni School ofEnvironment and Management, GGSIU, Delhi, India, Delhi, Delhi, India; 3 Ecosystem Forestry,  IIFM, Bhopal, Bhopal, MP, India     "},{"text":"L10 AF in practice 4 th   "},{"text":"17 reforestation alternative of humid tropical lowlands Diaz J. (javier_diaz@fhia-hn.org), Sanchez J.,Dubon A.      "},{"text":"18 Evolution of soil chemical properties in the rotational agroforestry system with Acacia auriculiformis Dubiez E. 1 (emilien.dubiez@cirad.fr), Freycon V. 1 , Marien J. N. 1 , Peltier R. 1 , Harmand J. M.2    1 UPR Forests and Societies, CIRAD, Univ Montpellier, Montpellier, France; 2 UMR Eco&Sols, CIRAD, 1 UPR Forests and Societies, CIRAD, Univ Montpellier, Montpellier, France; 2 UMR Eco&Sols, CIRAD, ICRAF, Yaounde, Cameroon ICRAF, Yaounde, Cameroon  "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry Strengthening   "},{"text":"Book of Abstracts L10.P.21   "},{"text":"L10 AF in practice 4 th   "},{"text":"22 understanding the farmers' practices Durand L.1 (l.durand@istom.fr), Azéma G.2 , Justes E. 3 , Leblanc S. 2 , Lamanda N.4 ,Allinne C. 5     "},{"text":"L10 AF in practice 4 th   "},{"text":"24 Intra-annual diameter increment and seasonal leaves nutrients in cork oak species under 3 understory management options Faias S. P. 1 (soniapf@isa.ulisboa.pt), Paulo J. A. 1 , Firmino P. 1 , Tomé M. 1 , Moreno G.2     "},{"text":"L10 AF in practice 4 th   "},{"text":"25 Indigenous Knowledge in Agro-forestry Practices: A Strategy for livelihood Foncha J. N. (jacinta_foncha@yahoo.com), Azinwe A. G. Development Studies, Pan African Institute for Development, Buea, south West, Cameroon Development Studies, Pan African Institute for Development, Buea, south West, Cameroon  "},{"text":": Forest, Agroforestry, Livelihoods improvements, indigenous knowledge, sustainability.  "},{"text":"in practice 4 th World Congress on Agroforestry Strengthening   "},{"text":"Book of Abstracts L10.P.26 Effect of different types of organic manure on production of Lepidium sativum under Morus based agroforestry system Gautam K. L. (krishanlalgautam99@gmail.com), Bishist R., Namgial J. Department of SAF, Dr Y S P U of Horticulture and Forestry, Solan, Himachal Pradesh, India Department of SAF, Dr Y S P U of Horticulture and Forestry, Solan, Himachal Pradesh, India  "},{"text":"28 Soil water effect and interspecific relations of a semiarid agroforestry in Northwest China  Huo G. (huogp527@nwafu.edu.cn) Huo G. (huogp527@nwafu.edu.cn) Northwest A&F University, Yangling, Shannxi, Select a Stat, China Northwest A&F University, Yangling, Shannxi, Select a Stat, China  "},{"text":"L10 AF in practice 4 th   "},{"text":"29 Scaling up Assisted Natural Regeneration to intensify agroecologically agrosystems productivity Issoufou H. B.-A.1 (hassanebil-assanou.issoufou@ird.fr), Daouda B. 2 , Sitou L.3 1 Crops Sciences, University Dan Dicko Dankolodo of Maradi, Maradi, Niger; 2 Directorate of the Environment, Environmental Office, Aguié, Niger; 3 Economy and Rural Sociology, University Dan Dicko Dankolodo of Maradi, Maradi, NigerAs an agroecological intensification technique, the scaling-up of tree assisted natural regeneration (ANR) protects agrosystems and ensure crop production in Sahelian context of increasing population and climatic variability. This study aims to evaluate agronomic, environmental and economic performances of agroforestry parkland arising from a local community innovations in tree resources management(Jouve & Banoin 1998)  to support their ongoing scaling-up. Study sites are located in central-south of Maradi region (Niger). Average annual rainfall is 600 mm. This parkland is derived from ~ thirty years of trees ANR practice(Larwanou & Saâdou  2011). Pearl millet is the main cereal grown usually associated with cowpea, sorghum or groundnut. Soil moisture and soil bulk density in ANR and non-ANR areas were measured on samples collected during rainy and dry seasons at depths of 0.5, 1.0, 1.5 and 2.0 m. Millet growth and grain yield were measured in 100 m 2 (10x10m) plots (50 plots in ANR and 50 non-ANR areas)  "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry Strengthening   "},{"text":"Book of Abstracts L10.P.30 Forest windbreaks serving a function of the agricultural land shield from the negative effects of wind Josimovic B. (bosko@iaus.ac.rs),Milijic S., Bezbradica L.     Inst. of Arch. & Urb. & Spatial Planning, Belgrade, Serbia Inst. of Arch. & Urb. & Spatial Planning, Belgrade, Serbia Out of 88,361 km² of the Republic of Serbia's territory, 53.76% is agricultural land, amounting Out of 88,361 km² of the Republic of Serbia's territory, 53.76% is agricultural land, amounting to 47,502.173 km². Considerable part of that land is situated in the Autonomous Province of to 47,502.173 km². Considerable part of that land is situated in the Autonomous Province of Vojvodina (APV) (19.69 %, or 17,397.92 km²). Its terrain mostly consists of lowlands belonging Vojvodina (APV) (19.69 %, or 17,397.92 km²). Its terrain mostly consists of lowlands belonging to the Pannonian Basin, intersected by numerous rivers and canals. About 7% (exactly 7.1%) to the Pannonian Basin, intersected by numerous rivers and canals. About 7% (exactly 7.1%) of land in APV is covered by forest (compared to 29.1% in the Republic of Serbia) of land in APV is covered by forest (compared to 29.1% in the Republic of Serbia)  "},{"text":"L10 AF in practice 4 th   "},{"text":"31 Attaining food security through forest-farming in the mid-hills of Nepal: opportunities and challenges Karki R. 1 (rahul@forestaction.org), Paudel N. S. 1 , Nuberg I. 2 , Adhikari A. 1 , Bashyal M.1     "},{"text":"34 Tree survival does not always depend on soil water conservation-what and where matters: Lessons from East Shewa Ethiopia Kinuthia R. 1 (R.Kinuthia@cgiar.org), Mugwe J. 2 ,Muthuri C. 1 , Danga B. 2    1 Systems science theme, World Agroforestry Centre (ICRAF), Nairobi, Nairobi, Kenya; 2 Agriculture 1 Systems science theme, World Agroforestry Centre (ICRAF), Nairobi, Nairobi, Kenya; 2 Agriculture Resource Management, Kenyatta University, Nairobi, Nairobi, Kenya Resource Management, Kenyatta University, Nairobi, Nairobi, Kenya  "},{"text":": Trees, Survival, Water, Conservation, Management.     "},{"text":"35 K competition between crops and young oil palm in agroforestry systems Koussihouèdé H.1 (hermionekoussihouede@gmail.com), Aholoukpè H. 2 , Dubos B. 3 , Barthès B.4 , Chapuis-Lardy L. 5 , Amadji G.1 , Clermont-Dauphin C. 5    1 Faculté des Sciences Agronomiques, Université d'Abomey-Calavi, Abomey-calavi, Benin; 2 CRAPP, 1 Faculté des Sciences Agronomiques, Université d'Abomey-Calavi, Abomey-calavi, Benin; 2 CRAPP, INRAB, Pobè, Benin; 3 UPR Systèmes de pérennes, CIRAD, Montpellier, France; 4 UMR Eco&Sols, IRD, INRAB, Pobè, Benin; 3 UPR Systèmes de pérennes, CIRAD, Montpellier, France; 4 UMR Eco&Sols, IRD, Montpellier, France; 5 UMR Eco&Sols, IRD, Dakar, Senegal Montpellier, France; 5 UMR Eco&Sols, IRD, Dakar, Senegal  "},{"text":"L10 AF in practice 4 th   "},{"text":"36 Decreasing crop diversity leads to food insecurity and off-farm food reliance and varies with land degradation status Kuria A.1 (A.Kuria@cgiar.org), Pagella T. 2 , Muthuri C. 1 , Sinclair F.1   One of the main challenges facing global policy makers is the inability to meet all food security dimensions due to lack of customized local indicators and metrics for assessing food security needs across heterogeneous smallholder landscapes. This leads to the design of blanket food policies across different context informed by top-down approaches, without understanding local needs or adapting interventions to local context. This results in food insecurity due to inappropriate, non-inclusive and unsustainable interventions. 1 Systems Science Theme, World Agroforestry Centre (ICRAF), Nairobi, Kenya; 2 School of Natural 1 Systems Science Theme, World Agroforestry Centre (ICRAF), Nairobi, Kenya; 2 School of Natural Sciences, Bangor University, Bangor, Gwynedd, United Kingdom Sciences, Bangor University, Bangor, Gwynedd, United Kingdom Food security remains a critical development priority within the 2030 Sustainable Develop- Food security remains a critical development priority within the 2030 Sustainable Develop- ment Goals (SDGs) agenda. ment Goals (SDGs) agenda.  "},{"text":"37 Agroforestry practice in Latvia . Results demonstrate the role of local knowledge acquisition in complementing science through understanding food security and crop diversity dynamics. This study concludes that food security policies should promote crop diversity as opposed to specializing in a few crops; and should match food interventions to local context informed by local indicators to ensure the promotion of diverse and appropriate food interventions that enhance livelihood and ecological resilience of smallholder farming systems throughout the year. Keywords: local knowledge, crop diversity, food security, land degradation, smallholder Keywords: local knowledge, crop diversity, food security, land degradation, smallholder farmers. farmers.  "},{"text":"38 Multistrata Agroforestry for Carbon Drawdown In 2018 in Latvia there were 220 ha of Populus spp., 442 ha of Salix spp. and only 3 ha of Alnus incana with the status of Short Rotation Coppice. It is becoming popular to cooperate between willow farmers and beekeepers because there are plenty of meadow species below the canopies in Short Rotation Coppice and Short Rotation Forestry trees, beside that willows are the first plant to bloom in spring(1,2). The most suitable agroforestry system for Latvia farming traditions are silvopastoral systems because open arable land is too important for growing human food to be used for grazing. Instead the animals would graze in the transition zone between arable land and forest or water such as the sea, lakes or rivers or in forest belts and bush lands. There are no available statistics on how many ha of forest and bush land are used for grazing. Lea A. (igivetrees@gmail.com) Lea A. (igivetrees@gmail.com)  "},{"text":"L10 AF in practice 4 th   "},{"text":"39 Impacts of FMNR on the agricultural performance of smallholder farming s ystems at landscape scale in Senegal Leroux L.1 (louise.leroux@cirad.fr), Gbodjo J. E. 2 , Djiba S. 3 , Tounkara A.4 , Ndao B.5 , Diouf A. A. 5 , Soti V. 6 , Affholder F.7 , Tall L.8 , Clermont-Dauphin C.9    1 UR AÏDA, CIRAD -CSE, Dakar, Senegal; 2 UMR TETIS, IRSTEA, Montpellier, France; 3 UCAD, Dakar, 1 UR AÏDA, CIRAD -CSE, Dakar, Senegal; 2 UMR TETIS, IRSTEA, Montpellier, France; 3 UCAD, Dakar, Senegal; 4 Univ Thiès, Thiès, Senegal; 5 CSE, Dakar, Senegal; 6 CIRAD -CSE, Dakar, Senegal; 7 UR AÏDA, Senegal; 4 Univ Thiès, Thiès, Senegal; 5 CSE, Dakar, Senegal; 6 CIRAD -CSE, Dakar, Senegal; 7 UR AÏDA, CIRAD, Montpellier, France; 8 LNRPV, ISRA, Dakar, Senegal; 9 UMR Eco&Sol, IRD, Dakar, Senegal CIRAD, Montpellier, France; 8 LNRPV, ISRA, Dakar, Senegal; 9 UMR Eco&Sol, IRD, Dakar, Senegal  "},{"text":"L10 AF in practice 4 th   "},{"text":"41 Icosysteme : developping blended learning for agroforestry Liagre F.1 (liagre@agroof.net), Archambeaud M. 2 , Girardin N. 1 , Ori D. 1 , Richard A.3 , Amar L.4 , Legallic H. 1 , Marin A.11 Agroof, Anduze, France; 2 Icosysteme, Nantes, Country; 3 Grizzly Production, Paris, France; 4 Icosysteme, Anduze, FranceTraining session is a key point for young future farmers or candidates for an agroforestry project. Traditionally, the training included actions in room, face to face, and visits or workshops in the field. The new technologies offer various perspectives which could be very efficient if they are well adapted to the farm and agroforestry context. Just like the rest of the world, agriculture is evolving rapidly, and the education tools just follow this evolution. In this context, Agroof and two other associated (Matthieu Archambeaud Consulting and Arnaud Richard Communication) created ICOSYSTEME in 2016. The objective of ICOSYS-TEME is to use the new technologies to propose new training programme and to explore new potentialities for agroforesters. Blended learning is an education program (formal or non-formal) that combines online digital media with traditional room or field methods The blended instruction could be more effective than purely face-to-face or purely online classes, without any instructor. By using a combination of digital instruction and one-on-one face time plus a field time, students and farmers can work on their own with new concepts which frees tea-  "},{"text":"L10 AF in practice 4 th   "},{"text":"42 Factors influencing on-farm tree seedling survival across various contexts in the eastern drylands of Kenya Magaju C. 1 (c.magaju@cgiar.org), Crossland M. 2 , Kuria A. 1 , Winowiecki L. 1 , Nyaga J.1 , Kiura E. 1 , Phosiso S. 1 , Muriuki J.1     "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L10.P.46 Agroforestry Plantations: Improving returns while decreasing costs Mejía Goellner C. 1 (carolina.mejia@12tree.de), Martinez L. 2 , Hanke O.3   1 12Tree Finance Panama, PANAMA CITY, PANAMA; 2 12Tree Finance, BERLIN, Germany; 3 12Tree Finance, ZURICH, Switzerland  "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L10.P.47 Oil palm agroforestry in the Brazilian Amazon: early lessons from demonstration Miccolis A. (a.miccolis@cgiar.org), Ramos H. M., Silva J. A., Arantes A. C. V.This study is part of the project SAF Dende: Oil Palm Diversification: reconciling conservation with livelihoods, an alliance between NATURA, EMBRAPA -Brazilian Agricultural Research Company, CAMTA , a farmer cooperative, and ICRAF -the World Agroforestry Centre, with support from USAID, in Tomé Açu, Pará State, Brazilian Amazon. The main goal of this wider initiative is to promote the adoption and upscaling of oil palm agroforestry systems that couple social and economic benefits with environmental services. The action research approach adopted in this study was comprised of: a participatory appraisal (using a tool developed by ICRAF called PLANTSAFs -Planning and Appraisal for Decision Making in Agroforestry Systems) Performed on 15 farms, this tool provided insights that fed in to a co-design workshop where farmers and technicians jointly designed systems tailored to each family's objectives and context, followed by technical visits and farmer exchanges. 11 new plots established in early 2018 are comprised of oil palm, cacao, açai palm (Euterpe oleracea) World Agroforestry Centre -ICRAF Brazil, Belém, Pará, Brazil World Agroforestry Centre -ICRAF Brazil, Belém, Pará, Brazil  "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry   "},{"text":"1 1 ECOTOP, La Paz, La Paz, Bolivia; 2 Centre for Development and Environment, University of Bern, Bern, Switzerland  "},{"text":"3 1 Univ. Santiago Compostela, Lugo, Lugo, Spain; 2 Cornell University, Ithaca, New York, United States; 3 Cornell Cooperative Extension of Schuyle, Ithaca, New York, United States  "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L10.P.51 Agroforestry Service Learning and Action Research in Cameroon's Mbalmayo Forest Reserve Munsell J. (jfmunsel@vt.edu), Addlestone B. Virginia Tech University, BLACKSBURG, VA, United States Virginia Tech University, BLACKSBURG, VA, United States  "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L10.P.52 Effects of improved pigeonpea fallows on biological and physical soil properties and their relationship with maize yield Musokwa M.1 (mmusokwa@gmail.com), Mafongoya P. 1 , Lorentz S.2   1 Agriculture, University of KwaZulu-Natal, Pietermaritzburg, South Africa; 2 Engineering, University ofKwaZulu-Natal, Pietermaritzburg, South Africa    Land degradation and declining soil properties, have affected agricultural productivity. Sub Saharan Africa (SSA) is experiencing the rapid increase in the percentage of rural households farming on degraded land as compared to other regions in the world. Use of legume trees such as pigeonpea improved fallows, is one of the agroforestry system that can restore degraded soils. The objectives of the study were to: Evaluate biological (soil macrofauna species diversity & richness) and physical soil properties (infiltration rate & aggregate stability) of the two-year-pigeonpea improved fallow compared to non-fertilized continuous maize crop and to relate maize grain yield to biological and physical soil properties. The study was conducted in KwaZulu-Natal Province at Fountainhill Estate (29°27'2» S; 30°32'42» E) and 853 m.  "},{"text":"AF in practice 4 th World Congress on Agroforestry Strengthening : aggregate stability, agricultural productivity, agroforestry, infiltration rate, soil macrofauna. L10 L10  "},{"text":"Book of Abstracts L10.P.54 Food Forest and Forest Garden: Italian Study Cases. Cataloguing varieties and practices in Italian Food Forests Nicola L.1 (l.nicola@studenti.unisg.it),Migliorini P. 1     "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L10.P.57 Current state and possibilities of selected agroforestry systems in Central Europe , Lojka B.3 , Kotrba R.3 ,Borek R. 4 , Vityi A.51 Forest Research Institute, National Forest Centre, Zvolen, Slovakia; 2 Department of Landscape Ecology, The Silva Tarouca Research Institute, Brno, Czech Republic; 3 Faculty of Tropical Agri-Sciences, Czech University of Life Sciences, Praha, Czech Republic; 4 Institute of Soil Science and Plant Cult, Pulawy, Poland; 5 Institute of Forest and Environmental Te, University of Sopron, Sopron, Hungary Pástor M. 1 1 , Houška J. Pástor M. 11 , Houška J.  "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry Strengthening   "},{"text":"Book of Abstracts L10.P.58 Complementarities or complexity? The case study of Horticultural Agroforestry Systems Paut R. (raphael.paut@inra.fr), Boury-Esnault A., Sabatier R., Tchamitchian M. Ecodeveloppement, INRA, Avignon, France Ecodeveloppement, INRA, Avignon, France  "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L10.P.59 The Chitoumou dilemma: how to reconcile fruit and insect production in Sahelo-Sudanian agroforestry parklands Person S. 1 (forestgoodsgrowing@gmail.com),Payne C. 2 , Lantieri Jullien R.3 1 Forest Goods Growing, Montpellier, France; 2 Dept of Zoology, University of Cambridge, Cambridge, United Kingdom; 3 Polistes, Paris, France  "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L10.P.61 Rehabilitating degraded lands in Groundnut basin of Senegal using Famers' Managed Natural Regeneration Sanogo D.1 (sdiami@yahoo.fr), Kamara M. 2 , Badji M.3   1 CNRF, ISRA, Dakar, Senegal; 2 ISFAR, Université de Thiès, Thiès, Senegal;3 BV, UCAD, Dakar, Senegal   Farmer Managed Natural Regeneration (FMNR) is gaining momentum as a low cost technique to restore the vegetation cover by local communities in the Sahel. The present study evaluated the effect of this technique on the reconstitution of woody vegetation in comparison with total exclosure. Woody plant diversity was assessed through inventory on two different plots: FMNR from 2011 to 2018 versus exclosure from 2008 to 2018.Seven-year (2011Seven-year (  -2018) )  of FMNR led to a diversity increase from 7 families and 10 species to 10 families with 15 species. Species such as Ziziphus mauritiana, Acacia senegal, Azadirachta indica, Bauhinia rufescens and Calotropis procera of great nutritional values for both human and livestock re-established in FMNR plots. Tree density increased from 47 ± 2.79 to 366 ± 28.49 individuals ha-1 in exclosure plots and from 41 ± 3.09 to 43 ± 4.83 individuals ha-1 in FMNR plots. The tree demographic structure displayed a L form for the exclosure whereas for the field with FMNR, it is a «bell» distribution with a diameter 20 cm larger compared to the denser exclosure plots. It is expected that the increased diversity and density will generate a range of products and ecosystem services that could improve the livelihoods of the local communities. This study showed that few years of FMNR is enough for substantial increase in biodiversity and biomass revealing the potential of this practice to rehabilitate agricultural degraded lands in the Sahel.BADJI et al., 2014. Dynamique de la végétation ligneuse des espaces sylvo-pastoraux villageois mis e 3. BADJI et al., 2013 Effet de l'âge de la mise en défens sur la reconstitution de la végétation ligne 4. SAMAKE et al., (2011). Régénération naturelle Assistée. Gestion des arbres champêtres au Sahel. Manu 5. BOTONI et al., 2010. La régénération naturelle assistée (RNA) : une opportunité pour reverdir le Sah References: References: 1. BADJI et al., 2015, La Régénération Naturelle Assistée (RNA) comme un moyen de reverdir le 1. BADJI et al., 2015, La Régénération Naturelle Assistée (RNA) comme un moyen de reverdir le bassin ar bassin ar 2. 2.  "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L10.P.63 Co-design and on-farm experimentation of practices combining conservation agriculture and agroforestry Sieffert A.1 (andre.sieffert@adaf26.org), Morinay A. 1 , Zniber T. 1 , Canet A. 2 , Lavoyer S.3 , Maïzi-Moity P. 4 , Sabatier R. 5 , Paut R. 5 , Tchamitchian M.5 1 Association Drômoise d'Agroforesterie, 26160 Pont-de-Barret, France; 2 Arbre et Paysage 32, 32000 Auch, France; 3 French Agroforestry Association, 32 000 Auch, France; 4 Institut des Régions Chaudes, Montpellier SupAgro, 34000 Montpellier, France; 5 Unité Ecodéveloppement, INRA, 84140 Montfavet, France  "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry  L10.P.64 L10.P.64 Sigman E. (emily.sigman@yale.edu) Sigman E. (emily.sigman@yale.edu) Forestry/Global Affairs, Yale University, New Haven, CT, USA Forestry/Global Affairs, Yale University, New Haven, CT, USA Book of Abstracts Book of Abstracts  "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L10.P.65 Investing in resilience: how co-learning with local people leads to more diverse and inclusive agroforestry options SmithDumont E. 1 (e.smith@cgiar.org), Sinclair F. L. 1 , Pagella T.2    1 Systems, World Agroforestry Centre, Nairobi, Kenya; 2 SENRGY, Bangor University, Bangor, Wales, 1 Systems, World Agroforestry Centre, Nairobi, Kenya; 2 SENRGY, Bangor University, Bangor, Wales, United Kingdom United Kingdom  "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L10.P.67 Intersecting perspectives on the quality of soils amended with wood chips derived from hedge's pruning Viaud V.1 (valerie.viaud@inra.fr), Pérès G. 1 , Jaffrézic A.1 , Busnot S. 1 , Hamelin G. 1 , Guéhénneuc T. 2 , Menasseri-Aubry S. 1 1 UMR SAS INRA Agrocampus Ouest, Rennes, France; 2 Terres et Bocages, Tredaniel, France  "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L10.P.68 Agroforestry and Rotational intensive grazing: Livestock farmers' words Vicet J.-C.1 (jean-charles.vicet@pl.chambagri.fr),Lemarié C. 2   1 Loire-Atlantique, Chambre d'agriculture Pays-de-la-Loire, Nantes, France; 2 Sarthe, Chambre d'agriculture Pays-de-la-Loire, Le Mans, France  "},{"text":"L10 AF in practice 4 th World Congress on Agroforestry   "},{"text":"3 1 University of Sopron, Co-operational Re, Sopron, Hungary; 2 1University of Sopron, Co-operational Re, Sopron, Hungary; 3 Szent István University, Department of, Budapest, Hungary  "},{"text":"3 1 UMR AMAP, INRA, Montpellier Cedex 5, France; 2 Division of Forest, Nature and Landscape, KU  Leuven, Leuven, Belgium; 3 UPR AIDA, CIRAD, Montpellier, France   Agroforestry systems have shown promising advantages in providing a number of key ecosystem services and many of them are directly linked with the soil compartment, such as fertility maintenance, carbon sequestration, erosion and landslide mitigation, fungi/bacteria-borne pest control, preservation of soil habitats etc. Today, managing a multifunctional agroforestry system has been a key quest for both researchers and practitioners. This is a challenging issue as it covers multiple disciplines stretching from biophysical to socio-economical domains. For this goal, this work will present a framework encompassing and highlighting some key issues on the multifunctionality of agroforestry systems, at both temperate and tropical conditions, with a focus on ecosystem services involving belowground functions. Bibliographical metrics based evidences will be presented showing the state-of-the-art and knowledge gaps in R & D on multifunctionality of worldwide agroforestry. Roadmap and emerging methodologies for optimisation of our management for promoting such multifunctionality are proposed and discussed.  "},{"text":"L11 Public policies 4 th World Congress on Agroforestry Strengthening   "},{"text":"Book of Abstracts L11_O.04 Institutional markets as a driver public policy for the adoption of agroforestry systems in the Brazilian Amazon Lima Resque A. G.1 (gabrielresque@gmail.com),Coudel E. 2 , Piketty M.-G.2 , LePage C. 2    1 Campus Paragominas, Federal Rural University of Amazon, Paragominas, Para, Brazil; 2 UPR-Green, 1 Campus Paragominas, Federal Rural University of Amazon, Paragominas, Para, Brazil; 2 UPR-Green, CIRAD, Montpellier, France CIRAD, Montpellier, France  "},{"text":"Table 1 : Diversity of types of cultures, species of each type of culture and cropping systems associated to the programs. Note: Values from 2017. L11 Public policies L11 Public policies  "},{"text":"of Abstracts L11_O.06 Agroforestry in REDD+ and NDCs ways to fulfill the Paris Agreement and reduce deforestation Fortuna S. 1 (serena.fortuna@fao.org), Tjarvar A. 1 , Simelton E. 2 , Borelli S.1     "},{"text":" Common Agricultural Policy (CAP) of the European Union (EU) was in the 1998 EU Forestry Strategy[2]. The CAP comprises Pillar I which includes direct payments and Pillar II which includes rural development programmes (RDPs). The current CAP, which runs from 2014 to 2020, defines agroforestry in Article 23 of Regulation 1305/2013 as \"land use systems in which trees are grown in combination with agriculture on the same land\". There are 23 RDP measures that can support agroforestry on either agricultural on forest land[3]. The most important is submeasure 8.2 which supports new agroforestry on agricultural land, and which has been used in the RDPs of 35 of the 118 RDP states or regions in the EU[4]. If current plans are fully implemented, 74,000 ha of agroforestry will be established through submeasure 8.2. However, little information is available on progress towards this target, and the existence of a budget for agroforestry does not guarantee that funds will be used for this purpose. Only 6.5% of planned spending on agroforestry was achieved by states or regions in the CAP of 2007-2013. Many farmers were reluctant to plant agroforestry because they feared a reduction in future eligibility for Pillar I payments.  "},{"text":": Agroforestry, Scaling-up, Africa, Policy, Stakeholder engagement. L11 Public policies L11 Public policies 4 4  "},{"text":"of Abstracts L11_O.09 Mainstreaming India's National Agroforestry Policy: Challenges and Opportunities Kumar B. M. (bmkumar.kau@gmail.com), Daniel M. I. Ecology and Environment Studies, Nalanda University, Rajgir, Bihar, India Ecology and Environment Studies, Nalanda University, Rajgir, Bihar, India  "},{"text":"L11 Public policies 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L11_O.10 Agriculture and Forestry Sector Catacutan D.1 (d.c.catacutan@cgiar.org), Oborn I. 2 , Finlayson R.1   1 Southeast Asia Regional Program, ICRAF, Bogor, Indonesia; 2 Swedish Univ. of AgriculturalScience,  Uppsala, Sweden    The Association of Southeast Asian Nations (ASEAN) Economic Community envisages the region to transform into a single market and production base through multi-sectoral cooperation and integration. The Vision and Strategic Plan for ASEAN Cooperation in Food, Agriculture and Forestry 2016-2025 lays out the sector's strategic thrusts. Agroforestry was identified as an action program for increasing resilience to climate change, natural disasters, and other shocks. The 20th ASEAN Senior Officials of Forestry meeting in July 2017 agreed to develop the ASEAN Guidelines for Agroforestry Development in recognition of the contribution of agroforestry to achieving food security, enhancing climate-change adaptation and mitigation,reducing land degradation, strengthening links between forestry and food production through an integrated approach to landscape management, and enhancing sustainable forest management. Consultations with international and regional experts, academics, practitioners, forestry-, agriculture-and environment sector representatives from national governments, and farmers' associations were facilitated, leading to the drafting and endorsement of the Guidelines by the ASEAN Working Group on Social Forestry and the ASEAN Senior Officials of Forestry. Subsequently, the 40th ASEAN Ministers of Agriculture and Forestry meeting in September 2018 adopted the Guidelines. The Guidelines provide a framework for facilitating dialogue in the design of agroforestry policies, programs, projects and investments between, and within, ASEAN Member States. They are expected to foster multi-sectoral cooperation and coordination amongst different sectors (land, economic, water, energy, agriculture, forestry, food, livestock, fisheries) within Member States and stimulate the development of focused policies and programs for agroforestry. This is intended to contribute to improve the livelihoods and asset base of millions of farmers, increase the range, quantity and quality of food, restore land and enhance the environment, and build resilience to climate change. Through the Guidelines, the Food, Agriculture and Forestry sector anticipates even greater collaboration between ASEAN Member States in sharing technical and policy development, increased trans-border trade in agroforestry products and enhanced ecosystem services, all of which support closer and quicker integration. ASEAN and Member States are now preparing for implementation of the Guidelines, with two 'road maps' for agroforestry development already underway in Cambodia and Myanmar and more to come. The presentation will highlight the authors' experience in bringing agroforestry into ASEAN's agenda, particularly, with respect to scientific inputs, processes and collaborations required for conducting this type of boundary work, stimulating discussion on linking the science of agroforestry with regional and national policy and implementation. L11 Public policies L11 Public policies 4 4  "},{"text":"of Abstracts L11.P.01 Watershed and biodiversity protection due to legislation improvement Abdo M. T. V. N.1 (mtvilela@terra.com.br), Barcellos I. F. 2 , Amorim D. A. D. 2 , Magalhães J. L. A.3   1 SAA,APTA Polo Centro Norte, Catanduva, Jdim amendola, Brazil; 2 SAA, SMA, São Paulo, SP, Brazil;  3 CEF, ULISBOA, Lisboa, Portugal   According to Brazilian new legislation, theNew Forestry Code Law No. 12.651(May, 25th,  2012)  some areas that provide protection to native vegetation and water resources from watersheds should be protected and are the so called Permanent Preservation Area (PPA). Those protected areas can go up to 30 meters near rivers and 50 meters near springs. They are isolated because if covered or not by vegetation they have environmental function of preserving water resources, landscape, geology and biodiversity, facilitate genetic flow of fauna and flora, protect the soil and ensure the well-being of human populations. Those PPA areas are located continuous to river, pounds, springs or lakes edges or under high declivity areas. Also the Legal Reserve, are protected areas located inside a rural property. With the legislation agroforestry systems are encouraged to be planted with the purpose of ensuring the sustainable economic use of those areas but as it requests the plantation with only 50% of nonnative species and at least 1000 plants/ha in PPA it results in a high biodiversity promotion. In the Legal Reserve the plantation should include at least 600 plants/ha according to the resolution  "},{"text":"L11 Public policies 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L11.P.04 Between actors visions and institutional framework: Synergies and divergences within the undergrowth of a European UPR Castro Nunes T.1 (jean-louis.diman@inra.fr), Cheval A.1 , Barlagne C. 2 , Apatout M. 3 , Bezard M. 3 , Drillet E. 3 , Alexandre G. 4 , Diman J.-L. 1 1 PEYI -0805, INRA, Petit-Bourg, Guadeloupe, France; 2 James Hutton Institute, Aberdeen, Scotland, United Kingdom; 3 Syaprovag, Petit-Bourg, Guadeloupe, France; 4 URZ, INRA, Petit-Bourg, Guadeloupe, France  "},{"text":"of Abstracts L11.P.07 Building Resilience for Adaptation to Climate Change through Forest and Landscape Restoration Esteghamat M. (minaesteqamat@gmail.com),Aghakhani S.    Land degradation has emerged as a major threat to the development of green economies worldwide. Degraded lands cannot provide the goods and services needed by people living in and around them. They could be restored into sustainable agriculture, agroforestry, pastoral uses, or natural and planted forest cover. International commitments to land restoration have been launched through the Bonn Challenge and the New York Climate Summit on September 2014 that have declared global commitments to restore 350 million hectares out of 2 billion hectares of the global degraded lands. This is as a practical, action-orientated platform to facilitate the implementation of several existing international commitments that require restoration, including the CBD Aichi Target 15, the UNFCCC REDD+ goal, the Rio+20 land degradation target and many of SDGs. The Restoration Opportunities Assessment Methodology (ROAM), produced by IUCN and the World Resources Institute, is a flexible and affordable framework approach for countries to rapidly identify and analyze forest landscape restoration (FLR) potential and locate specific areas of opportunity at a national or sub-national level. PAs and Natural Resource Management, ZIPAK NGO, Tehran, Iran PAs and Natural Resource Management, ZIPAK NGO, Tehran, Iran  "},{"text":"of Abstracts L11.P.11 How to take into account the trees in the next common agricultural policy (CAP) ? Liagre F.1 (liagre@agroof.net),Hannachi Y. 2 , Lemoine L. 2 , Sanson B. 3 , Pointereau P. 3 1 AGROOF / AFAC-Agroforesteries, Anduze, France; 2 APCA, Paris, France; 3 AFAC-Agroforesteries, Paris, France  "},{"text":"L11 Public policies 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L11.P.13 Agroforestry Policy on the Atlantic area Mosquera-Losada M. R.1 , Curran E. 2 , McAdam J. 3 1 Univ. Santiago Compostela, Lugo, Spain; 2 Agriculutre Food and Marine Cornea, Forest Service, Cork, Ireland; 3 Univerity of Belfast, Belfast, Northern Ireland  "},{"text":" The extent of agroforestry in Europe is 19.5 million of hectares, of which 85% is allocated to silvopastoralism mainly associated to European Southern countries but also present in some Eastern countries. Silvopasture is associated to the improvement of livestock farming systems providing feed in a more sustainable way while increasing the multiple ouputs production from the same unit of land, therefore improving rural development. The current share of silvopastoralism in the EU is the 10% of the permanent grasslands which shows the huge potential that this land use has. The second most important agroforestry systems are the homegardens which represents the 8.3% of agroforestry lands and occupy around 8.65% of the land allocated to homegardens. Forest farming is not inventoried at all, while silvoarable only occupies almost half a million hectares and less than 1% of the arable land. Europe fosters agroforestry mostly through the Rural Development programs with more than 383 and 467 measures fostering agroforestry in one way or another in the previous CAP(2007)(2008)(2009)(2010)(2011)(2012)(2013) and currentCAP (2014CAP ( -2020)). Future measures should be fostered through the CAP Strategic plans developed at country level.Olivier A.1 (alain.olivier@fsaa.ulaval.ca), Anel B. 2 , Cogliastro A. 3 , Rivest D. 4 1 Département de phytologie, Université Laval, Québec, Québec, Canada; 2 Agroforesterie et paysage, MRC du Rocher-Percé, Chandler, Québec, Canada; 3 IRBV, Montréal, Québec, Canada; 4 Département des sciences naturelles, Université du Québec en Outaouais, Gatineau, Québec, CanadaAlthough the rate of adoption of agroforestry is still low in the province of Québec, Canada, a growing interest toward agroforestry is observable among various stakeholders of the agricultural, forestry, environment and territorial planning sectors. But how to meet their expectations with regards to agroforestry support? One of the means to stimulate networking, technology transfer and policy development in agroforestry was the creation, in 2008, of an Agroforestry Committee supported by the Québec Reference Center for Agriculture and Agri-Food (CRAAQ), a network of experts and organizations aiming at sharing of information and knowledge management and dissemination. The mandate of the Agroforestry Committee, which comprises representatives from farmers' and foresters' unions, agricultural and forestry advisory groups, universities, research centers and ministries of agriculture and forest, is to contribute to the development of agroforestry systems offering solutions to the issues of rural territories by fostering networking, sharing of information and knowledge transfer. In the last few years, the Agroforestry Committee organized various events, among which L11 Public policies L11 Public policies 4 4  "},{"text":"of Abstracts L11.P.19 The policyscape of agroforestry within Mediterranean protected landscapes in France Therville : governance, networking, policy, stakeholder, technology transfer. C. 1 (clara.therville@gmail.com), Antona M.2 , de Foresta H.3   1 UPR GREEN / UMR AMAP, CIRAD / IRD, Montpellier cedex 5, France; 2 UPR GREEN, CIRAD, Montpellier, France; 3 UMR AMAP, IRD, Montpellier, France L11 Public policies L11 Public policies 4 4  "},{"text":": Tropical forests, Forest Degradation, Livelihoods, Carbon Sequestration, Carbon Sequestration. L11 Public policies L11 Public policies 4 4  "},{"text":"3 1 Sustainable Foodscapes in Urban Regions, Van Hall Larenstein University, Velp, the Netherlands; 2 Sust. Agribusiness in Metropolitan Areas, Van Hall Larenstein University, Velp, the Netherlands; 3 Forest and Nature Management, Van Hall Larenstein University, Velp, the Netherlands  "},{"text":"of Abstracts L12.1_O.01 Robust land-use modelling informed by farmer knowledge -assessing the socio-economic potential of agroforestry systems 3) to highlight experiences linking science, local communities and policy. Beyond agroforestry techniques and its positive environmental impact, securing income generation, improving resilience and a social vision of this paradigm explain as well why long term practices is critical. Beyond the local knowledge involved in agroforestry spaces, we will explore the visions and complexities that the different agroforestry situations offer. Papers on both local experiences and larger contexts and analyses are welcome.Gosling E. 1 (elizabeth.gosling@tum.de), Reith E. 1 , Knoke T.1 , Paul C. 2 1 Institute of Forest Management, Technische Universität München, Freising, Germany; 2 Forest Econ. & Sust. Land-use Planning, University of Göttingen, Göttingen, Germany  "},{"text":"of Abstracts L12.1_O.02 Beyond economic advantages of agroforestry systems: what role and place of externalities in farmers' strategies? Penot E.1 (eric.penot@cirad.fr),Danthu P. 2 , Chambon B. 3 , Bertrand B. 4 1 UMR innovation, CIRAD, Montpellier, France; 2 UR HortSys, CIRAD, Montpellier, France; 3 UR 34, CIRAD, Bangkok, Thailand; 4 UR IPMF, CIRAD, Montpellier, France Agroforestry 2019 -Regular Talk L12.1 Economics of AF Agroforestry 2019 -Regular TalkL12.1 Economics of AF  "},{"text":"1 Economics of AF 4 th World Congress on Agroforestry Promoting environmental friendly and socially responsible rubber cultivation. Conference 17-19 October, 2016. XTBG, Menglun, Mengla, Yunnan, China Penot, Chambon, Benavidez López, Tongkaemkaew, 2018. Congrès RRI, VII forum de l'innovation. RRI NImes. Penot, Michel, Tongkaemkaew, Chambon.2018. Revue Internationale du Développement/Editions 3. Danthu, Penot, Mahafaka Ranoarison, Rakotondravelo, Michel-Dounias, Tiollier, Michels, Normand, Raza 4. Penot. 2016. Promoting environmental friendly and socially responsible rubber cultivation. Keywords: Agroforestry, Externalities, strategies, Asia, Madagascar. Keywords: Agroforestry, Externalities, strategies, Asia, Madagascar. References: References: 1. Arimalala, Penot, Michels, Rakotoarimanana, Michel, Ravaomanalina, Roger, Jahiel, Leong 1. Arimalala, Penot, Michels, Rakotoarimanana, Michel, Ravaomanalina, Roger, Jahiel, Leong Pock Tsy, Da Pock Tsy, Da 2. Stroesser, 2. Stroesser,  "},{"text":"of Abstracts L12.1_O.03 Rethinking agroforestry -Shifting the income incentives from the agricultural component to the tree component Gassner A.1 (a.gassner@cgiar.org), Dobie P. 2 , Pinon C. 1 , Replan E. 1 , Robert R.3 , Pulhin F.4 , M Mohd N. F. 1 , Vidal A. 5 , Rodel L. 1 , Öborn I.3    1 Worldagroforestry Center (ICRAF), Los Banos, Philippines; 2 Worldagroforestry Center (ICRAF), Nairobi, 1 Worldagroforestry Center (ICRAF), Los Banos, Philippines; 2 Worldagroforestry Center (ICRAF), Nairobi, Kenya; 3 Worldagroforestry Center (ICRAF), Bogor, Indonesia; 4 Forestry Development Center, University Kenya; 3 Worldagroforestry Center (ICRAF), Bogor, Indonesia; 4 Forestry Development Center, University of the Philippines, Los Banos, Philippines; 5 IUCN, Washington, United States of the Philippines, Los Banos, Philippines; 5 IUCN, Washington, United States  "},{"text":"L12.1 Economics of AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L12.1_O.05 services provision in Nicaragua Feintrenie L.1 (laurene.feintrenie@cirad.fr), Cifuentes-Espinosa J. A 2 , Dos Santos-Moreira N.2 , Bustillo-Vazquez E. 3 , Sibelet N.4 , Gutiérrez-Montes I.5 , Vermeulen C. 6   In Central Nicaragua, in a rural landscape where trees grow everywhere, we studied the relations between land uses and the perception of ecosystem services (ES) provision by farmers. We worked in 3 municipalities and interviewed more than 100 households distributed among 10 communities, from 2016 to 2018. During gender specific focus groups we produced participatory maps of land uses (followingBraslow et al. 2016), localized ES with the Pebble Distribution Method (described bySheil et al. 2002), and analyzed land tenure issues using the analysis grid for land tenure proposed by LeRoy et al. (1996). Participatory observation (as detailed by Jankowski y Sabourin 2012) and semi-structured interviews (Newing 2010;Sibelet et al. 2013)  were used to analyze livelihoods conditions, households' economies (data later analyzed with the support of Olympe software), and determining factors regarding land uses and tree planting. 1 UR Forests and Societies, Cirad-Catie-Icraf, Turrialba, 7071 Cartago, Costa-Rica; 2 Catie, Turrialba, 1 UR Forests and Societies, Cirad-Catie-Icraf, Turrialba, 7071 Cartago, Costa-Rica; 2 Catie, Turrialba, Cartago, Costa-Rica; 3 Gembloux Agrobiotech, ULG, Gembloux, Belgium; 4 UMR Innovation, Cirad, Cartago, Costa-Rica; 3 Gembloux Agrobiotech, ULG, Gembloux, Belgium; 4 UMR Innovation, Cirad, Montpellier, France; 5 Posgrado, Catie, Turrialba, Cartago, Costa-Rica; 6 Terra-Forests for life, ULG-Gem- Montpellier, France; 5 Posgrado, Catie, Turrialba, Cartago, Costa-Rica; 6 Terra-Forests for life, ULG-Gem- bloux AgroBiotech, Gembloux, Belgium bloux AgroBiotech, Gembloux, Belgium  "},{"text":"L12.1 Economics of AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L12.1_O.06 Planting trees to increase food security? The case study of the groundnut basin of Senegal Faye Mane N. F.1 (ndeyefaye@gmail.com),Jahel C. 2 ,Bouquet E. 3 , Leroux L. 4    1 BAME, ISRA, Dakar, Senegal; 2 TETIS, CIRAD, Dakar, Sénégal; 3 MOISA, CIRAD, Montpellier, France; 1 BAME, ISRA, Dakar, Senegal; 2 TETIS, CIRAD, Dakar, Sénégal; 3 MOISA, CIRAD, Montpellier, France; 4 AIDA, CIRAD, Dakar, Sénégal 4 AIDA, CIRAD, Dakar, Sénégal  "},{"text":"of Abstracts L12.2_O.01 Forest gardens increase the financial viability of farming enterprises Melvani K. (Kamal.Melvani@cdu.edu.au),Myers B., Crase B.      "},{"text":"2 Economics of AF 4 th World Congress on Agroforestry Giridih and Chatra districts of Jharkhand . It was found that NTFPs play an important role in rural livelihood in the shape of medicine, food, fruits, fibre, firewood, oil, lac, silk etc. Of these NTFPs, Lac, Silk, Mahua (Madhuca latifolia L.), Bamboo occupy an important place in rural economy. Jharkhand has abundance of Lac and Silk host trees. Jharkhand, an eastern state of India is richly endowed with natural resources, which are vital Jharkhand, an eastern state of India is richly endowed with natural resources, which are vital for development and prosperity. A study to evaluate the benefits of agroforestry tree-products for development and prosperity. A study to evaluate the benefits of agroforestry tree-products especially Non Timber Forest Products (NTFPs ) was conducted in Thirty five villages of East especially Non Timber Forest Products (NTFPs ) was conducted in Thirty five villages of East Singhbhum(Jamshedpur), West Singhbhum(Chaibasa), Saraikela-Kharsawan, Ranchi, Gumla, Singhbhum(Jamshedpur), West Singhbhum(Chaibasa), Saraikela-Kharsawan, Ranchi, Gumla, Simdega, Dhanbad, Hazaribagh, Simdega, Dhanbad, Hazaribagh,  "},{"text":"2 1 CODESA, Santa Rosa de Copan, Copan, Honduras; 2 Colonia Sula, La Lima, Honduras . changes experienced and, made a climate time line. The facilitator directed the conversations with open questions, avoiding suggestion of expected answers. The young cacao farms have yield of about 200 kg/ha/year and some older farms have yield of 1,200 kg/ha/year. No group spontaneously mentioned income increase but agreed they are in the investment phase. Five years to mature is a big hurdle and for some, income generation distracts from optimum management. It is not easy for the very poor to participate effectively. With Canadian aid and the assitance of the Honduran Agriculture Research Foundation's With Canadian aid and the assitance of the Honduran Agriculture Research Foundation's (FHIA), small farmers planted in this decade 4,000 hectares of cacao agroforestry systems, (FHIA), small farmers planted in this decade 4,000 hectares of cacao agroforestry systems, an initiative for sustainable economic development. ¿What is the farmers perception of these an initiative for sustainable economic development. ¿What is the farmers perception of these cacao agroforestry systems on income, food security and adaptation to climate warming? is cacao agroforestry systems on income, food security and adaptation to climate warming? is a question the Andalusian cooperation agency through the ETEA Foundation set to answer a question the Andalusian cooperation agency through the ETEA Foundation set to answer with a 2016 survey of 131 farmers', 29.8% women. Focal-group workshops in 12 communi- with a 2016 survey of 131 farmers', 29.8% women. Focal-group workshops in 12 communi- ties worked on: Drawing a cacao plantation, Explaining the components and discussing: ties worked on: Drawing a cacao plantation, Explaining the components and discussing: a. strengths of the systems (satisfaction), b. difficulties, limitations and challenges (dissatis- a. strengths of the systems (satisfaction), b. difficulties, limitations and challenges (dissatis- faction) and c faction) and c  "},{"text":"L12.2 Economics of AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L12.2_O.05 Cultivation of willows for economic and ecological purpose: A sustainable livelihood option in Kashmir Masoodi T. H. (deanforestry@skuastkashmir.ac.in),Sofi P., Bhat G. M., Mughloo J. A.,  Rashid M.     Forestry, Skuast-Kashmir, Ganderbal, Jammu and Kashmir, India Forestry, Skuast-Kashmir, Ganderbal, Jammu and Kashmir, India  "},{"text":"of Abstracts L12.2_O.06 Contribution of plant diversity to farmers' income in cocoa-based agroforestry systems 1 after 2nd rotation cycle of 3 years. Thus at the prevailing local rate of Rs. 7.0 /kg for fuel wood a grower is expected to generate an income of Rs 1.00 to 1.60 lakhs from one hectare of SRC willows on lands generally unsuitable for agricultural crops. The analysis of data reveals that the gross and net income realized from this plantation after two Notaro M. 1 (martin.notaro@cirad.fr), Gary C. 2 , Deheuvels O.3    L12.2 Economics of AF L12.2 Economics of AF References: References: 1. Anonymous (2007) Report on diagnostic study on cricket bat cluster Anantnag (J & K). Minist 1. Anonymous (2007) Report on diagnostic study on cricket bat cluster Anantnag (J & K). Minist 2. Masoodi TH, Masoodi NA, Islam MA, ZafferSN, Chauhan SK. (2008) Basketry from intro- 2. Masoodi TH, Masoodi NA, Islam MA, ZafferSN, Chauhan SK. (2008) Basketry from intro- duced willows of K duced willows of K 3. Puttoo BL (2010) Introduction of commercially important willow species during early 20th 3. Puttoo BL (2010) Introduction of commercially important willow species during early 20th century-A century-A 4. Gittinger JP (1976) Economic Analysis of Agricultural Projects, Agricultural Refinance and De- 4. Gittinger JP (1976) Economic Analysis of Agricultural Projects, Agricultural Refinance and De- velopme velopme 5. Puttaswamaiah K. (Ed.) (1989) Project evaluation criteria and cost benefit analysis. Oxford 5. Puttaswamaiah K. (Ed.) (1989) Project evaluation criteria and cost benefit analysis. Oxford and IBH and IBH  "},{"text":"L12.2 Economics of AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L12.2_O.08 The Contribution of Agroforestry to Food Security in Nepal Mid-hills Cedamon E.  (edwin.cedamon@adelaide.edu.au), Nuberg I.  "},{"text":"L12.2 Economics of AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L12.2_O.09 Social innovation for multifunctional cultivated forests in Guadeloupe: Insights from the VALAB and SIMRA projects Barlagne C. 1 (carla.barlagne@hutton.ac.uk), Nijnik M. 1 , Miller D. 2 , Diman J.-L. 3 , Larade A.4 , Latchman C. 5 , Tormin P. 6 , Vinglassalon A.7   Forests are key components of rural landscapes. While sustainable forestry and agriculture have been identified as vectors of development of rural communities by the United Nations, local communities have a central role to play in the management of related resources(SDGs,  2015). The VALAB project -Integrated Ecosystemic value-enhancement of the Guadeloupean Forest Agrobiodiversity -is a transdisciplinary project that aims to generate innovative modes of value-enhancement of the Guadeloupean Forest. It is coordinated by the Agricultural Union of Vanilla Producers of Guadeloupe (Syaprovag) and is supported by a European Innovation Partnership. The SIMRA project is a Horizon 2020 research and innovation project that aims to understand and to unlock the potential of Social Innovation in Marginalised Rural Areas. 1 Social Economic & Geographical Sciences, The James Hutton Institute, Aberdeen, Scotland, United 1 Social Economic & Geographical Sciences, The James Hutton Institute, Aberdeen, Scotland, United Kingdom; 2 Information & Computational Sciences, The James Hutton Institute, Aberdeen, Scotland, Kingdom; 2 Information & Computational Sciences, The James Hutton Institute, Aberdeen, Scotland, United Kingdom; 3 UE PEYI, INRA, Petit-Bourg, Guadeloupe, France; 4 Parc National de la Guadeloupe, United Kingdom; 3 UE PEYI, INRA, Petit-Bourg, Guadeloupe, France; 4 Parc National de la Guadeloupe, Saint-Claude, Guadeloupe, France; 5 GDA EcoBio, Baie-Mahault, Guadeloupe, France; 6 EPLEFPA, Saint-Claude, Guadeloupe, France; 5 GDA EcoBio, Baie-Mahault, Guadeloupe, France; 6 EPLEFPA, Baie-Mahault, Guadeloupe, France; 7 SYAPROVAG, Petit-Bourg, Guadeloupe, France Baie-Mahault, Guadeloupe, France; 7 SYAPROVAG, Petit-Bourg, Guadeloupe, France  "},{"text":"L12 Economics of AF 4 th World Congress on Agroforestry   "},{"text":"02 Adansonia digitata L.) fruit use of Adansonia digitata L.) fruits are integral component of the daily diet and a source of cash income for rural households selling the fruits to urban consumers. The aim of the present study is twofold: (1) assess the contribution of baobab fruits to annual income and poverty alleviation, and,(2)  analyse factors that are associated with the commercialization of baobab fruits. Analysis bases on the sustainable livelihoods framework and primary data collected in 2017 from a random sample of 179 rural households from 16 villages in North and West Kordofan states, Sudan. The survey was complemented by key informant interviews and direct observations. Headcount Index and multiple regression were used. Cluster analysis identify three livelihood strategies at each site. Results show that net income from baobab fruits sale contributed up to 11% and 5% of household annual total income in North and West Kordofan, respectively. Without baobab income the poverty headcount index was estimated to be 16.5% instead of 23.2% in North Kordofan, and 20.3% instead of 16.5% in West Kordofan. Results from the clustering indicated that 46% of the households belonged into livestock, agriculture, Adam I. 1 (somaasomaa40@yahoo.com), Yahia A. 1 , Dagmar M. 2 Adam I. 1 (somaasomaa40@yahoo.com), Yahia A. 1 , Dagmar M. 2 1 Faculty of Forestry, Forest Management, University of Khartoum, Khartoum, Khartoum North, Sudan; 1 Faculty of Forestry, Forest Management, University of Khartoum, Khartoum, Khartoum North, Sudan; 2 Faculty of Life Sciences, Rhein-Waal University of Applied Science, Kleve, Germany 2 Faculty of Life Sciences, Rhein-Waal University of Applied Science, Kleve, Germany Baobab ( Baobab (  "},{"text":"03 Profitability of different cocoa agroforestry systems in the forest-savannah transition zone of Central Cote d'Ivoire Adou Yao C. Y. 1 (adouyaocy@gmail.com), Kouadio V.-P. G.2 , Diby N'G. L.3   , shade trees have gradually been eliminated from many cocoa farms, thus transforming the cocoa landscapes into a full-sun monocropping systems. Such systems are common in West Africa and particularly in Cote d'Ivoire, a country which accounts for 40% of the global production. Nonetheless, few traditional shaded cocoa cropping systems known as 'complex Agroforestry Systems (SAFc)' are still existing mainly in the forest-savanna transition zone in the central part of the country(Kpangui et al., 2015: IJAAR 6(3): 36-47). Little is known on the sustainability of these SAFc particularly in terms of profitability. This work aims at analyzing the productivity and the financial profitability of selected SAFc in Central Cote d'Ivoire. 1 Equipe BioValSE / UFR Biosciences, Université Félix Houphouët-Boigny / CSRS, Abidjan, Côte d'Ivoire; 1 Equipe BioValSE / UFR Biosciences, Université Félix Houphouët-Boigny / CSRS, Abidjan, Côte d'Ivoire; 2 Equipe BioValSE / UFR Biosciences, Université Félix Houphouët-Boigny, Abidjan, Côte d'Ivoire; 2 Equipe BioValSE / UFR Biosciences, Université Félix Houphouët-Boigny, Abidjan, Côte d'Ivoire; 3 World Agroforestry Centre (ICRAF), Abidjan, Côte d'Ivoire 3 World Agroforestry Centre (ICRAF), Abidjan, Côte d'Ivoire Cacao (Theobroma cacao L.) is known as a shade tolerant tree growing well in the understory Cacao (Theobroma cacao L.) is known as a shade tolerant tree growing well in the understory of tropical ecosystems. However, to maximize yields (Malézieux et al., 2009: Agron. Sustain. of tropical ecosystems. However, to maximize yields (Malézieux et al., 2009: Agron. Sustain. Dev. 29 (1): 43-62) Dev. 29 (1): 43-62)  "},{"text":"L12 Economics of AF 4 th World Congress on Agroforestry   "},{"text":"06 Agroforestry systems with cocoa and banana plantation in rubber Borges A. V.1 (andrey.vetorelli@cati.sp.gov.br), Stucchi Neto F. 1 , Miqueletti F. 1 , Abdo M. T. V. N. 2 , Martins A. L. M.2 , Fabri E. G.3    1 CATI, SAA, São José do Rio Preto, SP, Brazil; 2 APTA, SAA, Pindorama, SP, Brazil; 3 IAC, APTA SAA, 1 CATI, SAA, São José do Rio Preto, SP, Brazil; 2 APTA, SAA, Pindorama, SP, Brazil; 3 IAC, APTA SAA, Campinas, SP, Brazil Campinas, SP, Brazil  "},{"text":"L12 Economics of AF 4 th World Congress on Agroforestry   "},{"text":" 3    1 Cranfield University, Cranfield, Bedfordshire, United Kingdom; 2 Basque Centre for Climate Change, 1 Cranfield University, Cranfield, Bedfordshire, United Kingdom; 2 Basque Centre for Climate Change, 48940, Leioa, Basque Country, Spain; 3 Forest Research Centre, School of Agriculture, Tapada da Ajuda, 48940, Leioa, Basque Country, Spain; 3 Forest Research Centre, School of Agriculture, Tapada da Ajuda, 1349-017 Lisboa, Portugal 1349-017 Lisboa, Portugal  "},{"text":"L12 Economics of AF 4 th World Congress on Agroforestry   "},{"text":"09 Diversity of the socio-economic strategies of valorization of the undergrowth of Guadeloupe: a typology Castro Nunes T. 1 (jean-louis.diman@inra.fr), Chaigneau R. 1 , Vinglassalon A. 2 ,Barlagne C. 3 , Hammouya D. 1 , Diman J.-L. 1 , Bezard M.2    1 PEYI -0805, INRA, Petit-Bourg, Guadeloupe, France; 2 SYAPROVAG, Petit-Bourg, Guadeloupe, 1 PEYI -0805, INRA, Petit-Bourg, Guadeloupe, France; 2 SYAPROVAG, Petit-Bourg, Guadeloupe, France; 3 Social, Economic & Geographical Sciences, James Hutton Institute, Aberdeen, Scotland, France; 3 Social, Economic & Geographical Sciences, James Hutton Institute, Aberdeen, Scotland, United Kingdom United Kingdom  "},{"text":"L12 Economics of AF 4 th World Congress on Agroforestry   "},{"text":"10 Shea tree (Vitellaria paradoxa) use options in Uganda's agroforestry parklands: A Cost Benefit Analysis  Gwali S. 1 (gwalis@yahoo.co.uk), Sekatuba J. 2 , Kiyingi I. 3 Gwali S. 1 (gwalis@yahoo.co.uk), Sekatuba J. 2 , Kiyingi I. 3 1 Tree Improvement and Germplasm Research, National Forestry Resources Research Ins, Kampala, 1 Tree Improvement and Germplasm Research, National Forestry Resources Research Ins, Kampala, Uganda; 2 Agroforestry Research Programme, National Forestry Resources Research Ins, Kampala, Uganda; 2 Agroforestry Research Programme, National Forestry Resources Research Ins, Kampala, Uganda; 3 Forest Conservation and Management, National Forestry Resources Research Ins, Kampala, Uganda; 3 Forest Conservation and Management, National Forestry Resources Research Ins, Kampala, Uganda Uganda  "},{"text":"11 supply response of baobab fruit and pulp on seed to price and non-price incentives in Kenya Kaimba G.1 (kinyuakaimba@jkuat.ac.ke), Muendo K. 1 , Dagmar M.2    1 Agricultural and Resource Economics, JKUAT, Nairobi, Kenya; 2 Faculty of Life Sciences, Rhine-Waal 1 Agricultural and Resource Economics, JKUAT, Nairobi, Kenya; 2 Faculty of Life Sciences, Rhine-Waal University of Applied Science, Kleve, Germany University of Applied Science, Kleve, Germany  "},{"text":"L12 Economics of AF 4 th World Congress on Agroforestry   "},{"text":"12 Income of cocoa agroforest-associated species in the forest-savanna Kouadio V.-P. G. (kvenance@gmail.com), Kossonou A. S. F., Vroh B. T. A., Adou Yao C. Y. Biosciences, Université félix Houphouët-Boigny, Abidjan, Côte d'Ivoire Biosciences, Université félix Houphouët-Boigny, Abidjan, Côte d'Ivoire  "},{"text":"L12 Economics of AF 4 th World Congress on Agroforestry   "},{"text":" 3    1 Socio-Economics and Policy, Ethiopian Environment and Forest Researc, Addis Ababa, Addis Ababa, 1 Socio-Economics and Policy, Ethiopian Environment and Forest Researc, Addis Ababa, Addis Ababa, Ethiopia; 2 Agroforestry, 1. Ethiopian Environment and Forest Rese, Addis Ababa, Addis Ababa, Ethiopia; Ethiopia; 2 Agroforestry, 1. Ethiopian Environment and Forest Rese, Addis Ababa, Addis Ababa, Ethiopia; 3 3. Addis Ababa Science and Technology Un, Addis Ababa, Addis Ababa, Ethiopia 3 3. Addis Ababa Science and Technology Un, Addis Ababa, Addis Ababa, Ethiopia  "},{"text":"4 th World Congress on Agroforestry Strengthening   "},{"text":"Book of Abstracts L12.P.14 Quantifying the multiple benefits of trees in agricultural systems to improve the business case for agroforestry Mendham D. 1 (Daniel.Mendham@csiro.au), Worledge D. 2 , Moroni M.3    1 Land and Water, CSIRO, Hobart, Tas, Australia; 2 Land, CSIRO, Hobart, Tas, Australia; 3 Private Forests 1 Land and Water, CSIRO, Hobart, Tas, Australia; 2 Land, CSIRO, Hobart, Tas, Australia; 3 Private Forests Tasmania, Hobart, Tas, Australia Tasmania, Hobart, Tas, Australia  "},{"text":"L12 Economics of AF 4 th World Congress on Agroforestry   "},{"text":"15 Acrocomia in agroforestry systems -an improved investment decision for family-based smallholder farms in Paraguay ? Mössinger J.1 (moessing@uni-hohenheim.de), Carauta M. 1 , Hilger T. 2 , Berger T.1    1 Land Use Economics in the (Sub-)Tropics, University Hohenheim, Stuttgart, Germany; 2 Agronomy in 1 Land Use Economics in the (Sub-)Tropics, University Hohenheim, Stuttgart, Germany; 2 Agronomy in the (Sub-) Tropics, University Hohenheim, Stuttgart, Germany the (Sub-) Tropics, University Hohenheim, Stuttgart, Germany  "},{"text":"L12 Economics of AF 4 th World Congress on Agroforestry   "},{"text":"16 Efficiency differentials of agroforestry practices among arable crop farmers Oloyede A. (oloyedeadeola@gmail.com), Ayinde O. Dept of Agricultural Economics & Farm Mg, University of Ilorin, Ilorin, Kwara, Nigeria Dept of Agricultural Economics & Farm Mg, University of Ilorin, Ilorin, Kwara, Nigeria  "},{"text":"4 th World Congress on Agroforestry Strengthening   "},{"text":"Book of Abstracts L12.P.18 Optimal plant densities for cacao agroforestry systems in the Colombian Pacific region Perez Zuñiga J. I.1 (jiperez@agrosavia.co), Rojas Molina J.2 , Zabala Perilla A. F.3    1 Corporacion Colombiana de Investigacion, Agrosavia, Tumaco, Nariño, Colombia; 2 Corporacion 1 Corporacion Colombiana de Investigacion, Agrosavia, Tumaco, Nariño, Colombia; 2 Corporacion Colombiana de Investigacion, Agrosavia, Bucaramanga, Santander, Colombia; 3 Purdue University, West Colombiana de Investigacion, Agrosavia, Bucaramanga, Santander, Colombia; 3 Purdue University, West Lafayette, Indiana, United States Lafayette, Indiana, United States  "},{"text":"L12 Economics of AF 4 th World Congress on Agroforestry  L12.P.21 L12.P.21 sovereignty in the Sahel sovereignty in the Sahel Valet S. 1 (valet.serge2@wanadoo.fr), Heino-Motelica M. 2 Valet S. 1 (valet.serge2@wanadoo.fr), Heino-Motelica M. 2 1 Association PASSERELLES, Lyon, France; 2 ISTO UMR 7327 CNRS-, University Orléans, Orléans, France 1 Association PASSERELLES, Lyon, France; 2 ISTO UMR 7327 CNRS-, University Orléans, Orléans, France Book of Abstracts Book of Abstracts  "},{"text":"of Abstracts L13.1_O.02 Integrated farm planning and its potential to motivate the adoption of agroforestry practices in Ecuador Proaño R.1 (rproanoa@gmail.com), Vaca M. 1 , Yaguache R. 1 , Dávalos C. 2 , Terán-Valdez A. 1 , Suárez C. 1 , Arcos I.1    Agroforestry 2019 -Regular Talk L13.1 Adoption Agroforestry 2019 -Regular TalkL13.1 Adoption  "},{"text":"L13.1 Adoption 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L13.1_O.03 Examining the likelihood of agroforestry adoption with respect to conventional agriculture in Dhanusha district of Nepal  Dhakal A. 1 (arun_dhakal2004@yahoo.com), Rai R. K. 2 Dhakal A. 1 (arun_dhakal2004@yahoo.com), Rai R. K. 2 1 Nepal Agroforestry Foundation, Kathmandu, Bagmati, Nepal; 2 SANDEE, Kathmandu, Bagmati, Nepal 1 Nepal Agroforestry Foundation, Kathmandu, Bagmati, Nepal; 2 SANDEE, Kathmandu, Bagmati, Nepal  "},{"text":"L13.1 Adoption 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L13.1_O.05 The (un)broken promise of agroforestry: case study of adoption of improved fallows in Zambia  Jacobson M. 1 (mgj2@psu.edu), Ham C. 2 Jacobson M. 1 (mgj2@psu.edu), Ham C. 2 1 Ecosystem Science and Management, Penn State, University Park, PA, United States; 2 Forest and 1 Ecosystem Science and Management, Penn State, University Park, PA, United States; 2 Forest and Wood Science, Stellenbosch University, Stellenbosch, South Africa Wood Science, Stellenbosch University, Stellenbosch, South Africa  "},{"text":"L13.1 Adoption 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L13.1_O.06 Factors influencing the adaption of agroforestry systems in mitigating climate change in Ghana: Case of Bongo District Growing public awareness on the impact of global climate change has necssitated the need to embrace agricultural alternatives that move away from fossil fuels and promote a more responsible, sustainable and resilient relationship with the land. The response of farmers' to climate change is very crucial because the success of agriculture especially rain-fed agriculture depends on climatic conditions. The use of trees and shrubs in agricultural systems help to tackle the triple challenge of securing food security, mitigation and reducing the vulnerability and increasing the adaptability of agricultural systems to climate change.Nair (2009)  also indicated that agroforestry has received international attention as an effective strategy for carbon sequestration and greenhouse mitigation.The decisions to adopt new technologies are influenced by the range of factors from government policies, technological change, market forces, environmental concerns, demographic factors, institutional factors and delivery mechanism. The objectives of this study are therefore to empirically assess factors that directly affect farmers' decision to adopt agroforestry systems, determine how farmers perceive agroforestry as an adaptation strategy to climate change and access how farmers cope with challenges encountered in agroforestry. The study was carried out in the Upper West Region Nunoo I. (nunooisaac85@yahoo.com) Nunoo I. (nunooisaac85@yahoo.com) Agric Economics, Agribusiness & Ext, Kwame Nkrumah University of Sci. & Tech, Kumasi, Ghana Agric Economics, Agribusiness & Ext, Kwame Nkrumah University of Sci. & Tech, Kumasi, Ghana  "},{"text":"3 1 Zoology, Tel Aviv University, Tel Aviv, Israel; 2 The Steinhardt Museum of Natural History, The Open Landscape Institute (OLI), Tel Aviv, Israel; 3 The Steinhardt Museum of Natural History, Tel Aviv Univer- Landscape Institute (OLI), Tel Aviv, Israel; 3 The Steinhardt Museum of Natural History, Tel Aviv Univer- sity, Tel Aviv, Israel sity, Tel Aviv, Israel  "},{"text":"L13.1 Adoption 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L13.1_O.09 Agroforestry Extension and Gender Impacts on Self Rated Knowledge Duffy C.1 (colm.duffy@nuigalway.ie), Toth G. 2 , Murray U. 1 , Spillane C.1    1 Plant & AgriBiosciences Department, National University of Ireland, Galway, Galway, Galway, Ireland; 1 Plant & AgriBiosciences Department, National University of Ireland, Galway, Galway, Galway, Ireland; 2 Forest Resources & Conservation, University of Florida, Gainsville, Florida, United States 2 Forest Resources & Conservation, University of Florida, Gainsville, Florida, United States Numerous extension efforts attempt to promote climate smart agriculture (CSA) practices in Numerous extension efforts attempt to promote climate smart agriculture (CSA) practices in Sub-Saharan Africa. The need to address any gender disparities within such CSA dissemi- Sub-Saharan Africa. The need to address any gender disparities within such CSA dissemi- nation efforts is widely recognised (Bernier et al. 2015; Chanana-Nag and Aggarwal 2018; nation efforts is widely recognised (Bernier et al. 2015; Chanana-Nag and Aggarwal 2018; Duffy et al. 2017; Twyman et al. 2014). Given the high numbers of female farmers in Malawi, Duffy et al. 2017; Twyman et al. 2014). Given the high numbers of female farmers in Malawi, gender-sensitive CSA dissemination and adoption has the potential contribute to sustainable gender-sensitive CSA dissemination and adoption has the potential contribute to sustainable rural development. Here, we quantify approaches for maximizing such potential through com- rural development. Here, we quantify approaches for maximizing such potential through com- parison of different extension approaches, including lead farmers, non-governmental orga- parison of different extension approaches, including lead farmers, non-governmental orga- nization (NGO) trainers, and farmer clubs. We applied ordered logistic regression to data nization (NGO) trainers, and farmer clubs. We applied ordered logistic regression to data regarding post-extension increases in self-assessed CSA knowledge levels. Male farmers regarding post-extension increases in self-assessed CSA knowledge levels. Male farmers achieved the greatest perceived increases in knowledge through traditional extension means, achieved the greatest perceived increases in knowledge through traditional extension means, such as NGO trainers and farmer clubs. such as NGO trainers and farmer clubs.  "},{"text":"L13.2 Adoption 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L13.2_O.06 Why Farmers Adopt Agroforestry in the Philippines? Implications for Developing Agroforestry Policies  Landicho L. (ldlandicho@gmail.com) Landicho L. (ldlandicho@gmail.com) Institute Of Agroforestry, University of the Philippines Los Banos, College, Laguna, Philippines Institute Of Agroforestry, University of the Philippines Los Banos, College, Laguna, Philippines  "},{"text":"L13.2 Adoption 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L13.2_O.08 Drivers of farmers' decisions to adopt agroforestry: Evidence from the Sanou L.1 (lassina.sanoulassina@gmail.com),Savadogo P. 2 , Ezebilo E. E. 3 , Thiombiano A. 4    1 Département Environnement et Forêts, CNRST, Koudougou, Burkina Faso, Burkina Faso; 2 World Agro- 1 Département Environnement et Forêts, CNRST, Koudougou, Burkina Faso, Burkina Faso; 2 World Agro- forestry Centre (ICRAF), Bamako, Mali, Mali; 3 Property Development Program, National R, Boroko, Port forestry Centre (ICRAF), Bamako, Mali, Mali; 3 Property Development Program, National R, Boroko, Port Moresby, Papua New Guinea, Papua New Guinea; 4 Biologie et Ecologie Végétales, Université Ouaga I Moresby, Papua New Guinea, Papua New Guinea; 4 Biologie et Ecologie Végétales, Université Ouaga I Pr Joseph Ki-Zerbo, Ouagadougou, Burkina Faso, Burkina Faso Pr Joseph Ki-Zerbo, Ouagadougou, Burkina Faso, Burkina Faso  "},{"text":"L13.2 Adoption 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L13.2_O.10 Silvopastoral production system in the Argentinian Chaco : smallholders' motivations for adoption and policy insights . 'Intrinsic' factors -i.e. farmers' attitudes and beliefs -can be important in constraining or enabling adoption. This study sought to integrate conventional extrinsic factors with intrinsic factors in the analysis of farmers' intentions to adopt (or expand) fruit-based agroforestry systems on their land in the near future. The research took place in a hilly, impoverished, tribal-dominated area of western India. An NGO -BAIF Development Research Foundation -has been promoting agroforestry orchards ('wadi') in the region since 2000 as a means to sustainable intensification and diversification of land-use and livelihood systems. orchard adoption were notably stronger than those of non-participants in recent project villages and in villages where no intervention had occurred. This indicates that longer-term exposure to a new technology contributes to positive attitudes/beliefs concerning desirability and feasibility and may lead to wider diffusion, as observed in our study sites.Tschopp M. 1 (maurice.tschopp@gmail.com), Bardsley N. 2 , Ceddia G. 1 , Ingguagiato C.1    L13.2 Adoption L13.2 Adoption 1 Centre for Development and Environment, University of Bern, Bern, Switzerland; 2 University of Reading, 1 Centre for Development and Environment, University of Bern, Bern, Switzerland; 2 University of Reading, Reading, United Kingdom Reading, United Kingdom Keywords: Adoption, Attitudes, Beliefs, Constraints, Diffusion. Keywords: Adoption, Attitudes, Beliefs, Constraints, Diffusion.  "},{"text":"01 Farmers compose with ecosystem services and disservices for managing rural forests: insights from a French case study Blanco J.1 (julien.blanco.pro@gmail.com), Sourdril A. 2 , Deconchat M.3 ,Andrieu E. 3    1 LETG, Université d'Angers, Angers, France; 2 UMR 7533 Ladyss, CNRS, Nanterre, France; 3 Dynafor, 1 LETG, Université d'Angers, Angers, France; 2 UMR 7533 Ladyss, CNRS, Nanterre, France; 3 Dynafor, INRA, Toulouse, France INRA, Toulouse, France  "},{"text":"02 The Challenges for Agroforestry in Small Island Developing States in the Pacific: A study from Solomon Islands  L13 Adoption L13 Adoption 4 Blumfield T. (t.blumfield@griffith.edu.au) Environmental Futures Research Institute, Griffith University, Brisbane, QLD, Australia 4 Blumfield T. (t.blumfield@griffith.edu.au) Environmental Futures Research Institute, Griffith University, Brisbane, QLD, Australia  "},{"text":"03 The limits of firewood collection in the West African savannah agroforestry parklands Callo-Concha D. 1 (d.callo-concha@uni-bonn.de), Harou L. 2 , Krings L.3    L13 Adoption L13 Adoption Deutschland, Germany; 2 World Agroforestry Centre, Nairobi, Kenya; 3 German Society for Int. Coope-4 1 Center for Development Research (ZEF), Center for Development Research, UniBonn, Bonn, ration-GIZ, Bonn, NRW, Germany Deutschland, Germany; 2 World Agroforestry Centre, Nairobi, Kenya; 3 German Society for Int. Coope-4 1 Center for Development Research (ZEF), Center for Development Research, UniBonn, Bonn, ration-GIZ, Bonn, NRW, Germany  "},{"text":"04 Non-economic motivations for the adoption of agroforestry: rethinking sustainability and place  L13 Adoption L13 Adoption 4 Decre B. (decre@wisc.edu) Nelson Institute for Env. Studies, University of Wisconsin -Madison, Madison, Wisconsin, United States 4 Decre B. (decre@wisc.edu) Nelson Institute for Env. Studies, University of Wisconsin -Madison, Madison, Wisconsin, United States  "},{"text":"06 Developing peri-urban agroforestry in Upper Katanga (D. R. Congo) Fetiveau J.1 (fetiveau@gret.org),Bracke C. 2 , Ngoie M. 3 , Procès P. 2 , Boldrini S.21 Seren/GRN, Gret, Nogent sur Marne cedex, France; 2 Nature+ absl, Wavre, Belgium; 3 EREP, Université deLubumbashi, Lubumbashi, Haut Katanga, Congo -Kinshasa     L13 Adoption L13 Adoption 4 4  "},{"text":"07 A functional trait approach to agroforestry design for biocultural restoration on a Pacific Island  L13 Adoption L13 Adoption Kukea-Shultz K. 2 1 4 Hastings Z. 1 (zchastin@hawaii.edu), Ticktin T. 1 , Botelho M. 2 , Bremer L. 3 , Reppun N. 2 , ; 2 ; 3 Honolulu, HI, United States Kukea-Shultz K. 2 1 4 Hastings Z. 1 (zchastin@hawaii.edu), Ticktin T. 1 , Botelho M. 2 , Bremer L. 3 , Reppun N. 2 , ; 2 ; 3 Honolulu, HI, United States  "},{"text":"L13 Adoption 4 th World Congress on Agroforestry Strengthening   "},{"text":"Book of Abstracts L13.P.10 Diversifying orchards and vineyards in intensive Mediterranean agriculture: California's Central Valley as a case study Kerr A.1 (ackerr@ucdavis.edu),Brodt S. 1 , Fontana N.2 , Archer L. 3 , Gaudin A.4   Department of Plant Sciences,UC Davis, Davis, California, United  States    California is a global leader in high-value agriculture, producing half of all fruits and vegetables in the United States despite comprising only 5% of the land area. Most of this production occurs in the vast Central Valley. Its Mediterranean climate, combined with sophisticated systems for surface water and groundwater delivery, enables high yields while minimizing pest and disease pressure. However, success comes at a cost: the Central Valley is afflicted by land subsidence, soil and water pollution, salinization, and severe habitat loss for terrestrial and aquatic native species. 1 Agricultural Sustainability Institute, UC Davis, Davis, California, United States; 2 Ecology Graduate 1 Agricultural Sustainability Institute, UC Davis, Davis, California, United States; 2 Ecology Graduate Group, UC Davis, Davis, California, United States; 3 Graduate Group, Horticulture & Agronomy, UC Davis, Group, UC Davis, Davis, California, United States; 3 Graduate Group, Horticulture & Agronomy, UC Davis, Davis, California, United States; 4 Davis, California, United States; 4  "},{"text":"L13 Adoption 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L13.P.11 Constrains and opportunities for agroforestry adoption in Northwest Vietnam La N.1 (L.Nguyen@cgiar.org), Nguyen M P. 1 , Tran T H.2 , Dinh T T H.3 , Cam T P. 4 , Vu T. H.1 , Nguyen V T.1    1 World Agroforestry Center (ICRAF), Hanoi, Vietnam; 2 DARD Yen Bai, Yen Bai, Vietnam; 3 DARD Dien 1 World Agroforestry Center (ICRAF), Hanoi, Vietnam; 2 DARD Yen Bai, Yen Bai, Vietnam; 3 DARD Dien Bien, Dien Bien Phu, Vietnam; 4 DARD Son La, Son La, Vietnam Bien, Dien Bien Phu, Vietnam; 4 DARD Son La, Son La, Vietnam  "},{"text":"of Abstracts L13.P.12 Knowledge Hybridization: A Process towards Resilience through Reviving Alder-Cardamom Agroforestry in Nepal 2,000 individuals, including farmers, extension workers, district and commune staffs. Based on the suitability agroforestry systems and trees and local farmer's needs and interests, eight group nurseries have been established with approximately 100,000 seedlings produced for 15 different fruit and timber tree species. 150 Farmer Demonstration Trials and six agroforestry Exemplar Landscapes (50 ha each) have been established. The research results on benefit of planting forage grass strips and Docynia indica have been embedded in Resolution 15/2015/ NQ-HDND of Yen Bai province, which have been increased the number of adopter over the wider area. The area of D. indica based agroforestry system was increased 2,248 ha in the Yen Bai's mountainous area in period 2016-2017 since resolution promulgated. The research results on D. Indica processing techniques was transferred to private sector to produce different processed products, guaranty the opportunities for producers and markets for local traditional products. Agroforestry technology adoption required the understanding of cultural character, farming behavior, challenge and interest of local people. Therefore, it is not one-size-fit-all process. It required to develop a strategy on research, ensure the research results are mainstreamed on the development policy in order to build resilient livelihoods and ensure future environment benefits. L13 Adoption L13 Adoption Keywords: Agroforestry systems, Farmer demonstration trials, Exemplar landscapes, Policy, Adoption. 4 Liu R. (liu.5811@osu.edu) School of Env. and Natural Resources, The Ohio State University, Columbus, Ohio, United States Keywords: Agroforestry systems, Farmer demonstration trials, Exemplar landscapes, Policy, Adoption. 4 Liu R. (liu.5811@osu.edu) School of Env. and Natural Resources, The Ohio State University, Columbus, Ohio, United States  "},{"text":" Both types of data will provide evidence for improving science communication and outreach by exploring potential alienation and ambivalence among local knowledge holders during adaptation knowledge engagement and interactions. Such psychological dimensions, if not well accommodated, can impede effectiveness in disseminating knowledge and practices that can reduce environmental threats and enhance community resilience.  "},{"text":"L13 Adoption 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L13.P.15 Perceptions on the value of agroforestry for providing ecosystem services in a Greek Mediterranean landscape Mantzanas K.1 (konman@for.auth.gr), Guenzel J. 2 , Pagella T.2    1 Aristotle University of Thessaloniki, Thessaloniki, Greece; 2 School of Natural Sciences, Bangor Univer- 1 Aristotle University of Thessaloniki, Thessaloniki, Greece; 2 School of Natural Sciences, Bangor Univer- sity Wales, Bangor, United Kingdom sity Wales, Bangor, United Kingdom  "},{"text":"4 1 Forest and Environmental Techniques, University of Sopron, Sopron, Hungary; 2 Forest Ecology and Management, Wageningen University, Wageningen, Netherlands; 3 Plant Production Systems, Wageningen University, Wageningen, Netherlands; 4 International Crops Research Institute, ILRI, Addis Ababa, Ethiopia  "},{"text":"L13 Adoption 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L13.P.29 A paradigm shift for agroforestry in Guadeloupe islands: toward a value-enhancement of cultivated forests ecosystems Vinglassalon A.1 (syaprovag@gmail.com), Apatout M. 1 , Gilles E. 1 , Noglotte T.2     "},{"text":": Guadeloupe, Islands, Forest garden, Stakeholder empowerment, Ecosystem services.  "},{"text":"of Abstracts L14_O.01 Ecuador and Northeast USA Buck L.1 (leb3@cornell.edu),Bosco S. 2 , Burgoa G. 3 , Higgenbotham C. 3 , Meecham J. 3 , Lassoie J.1 , Rodgerson F. 3 , Scherr S. 4 , Trujillo L. 5    1 Natural Resources, Cornell University, Ithaca, NY, USA; 2 Plant Science, Cornell University, Ithaca, NY, 1 Natural Resources, Cornell University, Ithaca, NY, USA; 2 Plant Science, Cornell University, Ithaca, NY, USA; 3 Global Studies, Cornell University, Ithaca, NY, USA; 4 Policy, EcoAgriculture Partners, Washington, USA; 3 Global Studies, Cornell University, Ithaca, NY, USA; 4 Policy, EcoAgriculture Partners, Washington, DC, USA; 5 International Programs, Cornell University, Ithaca, NY, USA DC, USA; 5 International Programs, Cornell University, Ithaca, NY, USA  "},{"text":"of Abstracts L14_O.02 Trees on Farms as a negotiation tool to bridge food production and conservation goals Zinngrebe Y. 1 (a.gassner@cgiar.org), Edwin G.2 , Winter E. 3 , Gassner A. 4 , Dobie P. 5 , Parmutia M. 5 , Hauck J.6    Agroforestry 2019 -Regular Talk L14 AF landscapes Agroforestry 2019 -Regular TalkL14 AF landscapes Universität Hannover, Hannover, Germany; 4 Worldagroforestry Center (ICRAF), Los Banos, Philippines; 5 Worldagroforestry Center (ICRAF), Nairobi, Kenya; 6 Helmholtz Centre Environmental Research, Leibzig, 4 1 George-August-Universität Göttingen, Göttingen, Germany; 2 CATIE, Tegucigalpa, Honduras; 3 Leibnitz Germany Universität Hannover, Hannover, Germany; 4 Worldagroforestry Center (ICRAF), Los Banos, Philippines; 5 Worldagroforestry Center (ICRAF), Nairobi, Kenya; 6 Helmholtz Centre Environmental Research, Leibzig, 4 1 George-August-Universität Göttingen, Göttingen, Germany; 2 CATIE, Tegucigalpa, Honduras; 3 Leibnitz Germany  "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L14_O.05 Filming agroforestry: producers shaping landscapes Bories O. (olivier.bories@educagri.fr), Fontorbes J. P., Granié A. M., Cazenave J. M. Haute Garonne, ENSFEA -UMR CNRS 5193 LISST DR, Toulouse, France Haute Garonne, ENSFEA -UMR CNRS 5193 LISST DR, Toulouse, France  "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L14_O.06 Land use change and driving factors in a fragile coastal rainfed lowland rice - sugar palm system of southern Thailand Dumrongrojwatthana P.1 (dpongchai@hotmail.com), Wanich K.2 , Trébuil G. 3    1 Department of Biology, Science Faculty, Chulalongkorn University, Bangkok, Thailand; 2 Environmental 1 Department of Biology, Science Faculty, Chulalongkorn University, Bangkok, Thailand; 2 Environmental Science, Graduate School, Chulalongkorn University, Bangkok, Thailand; 3 CIRAD, Innovation joint Science, Graduate School, Chulalongkorn University, Bangkok, Thailand; 3 CIRAD, Innovation joint research unit, Montpellier, France research unit, Montpellier, France  "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L14_O.07 Agroforestry within broader anthropogenic landscapes: indigenous Aumeeruddy-Thomas Y. 1 (yildiz.thomas@cefe.cnrs.fr),Caillon S. 2 , McKey D. 3    1 Interactions Ecology and Societies, CEFE-CNRS UMR5175, Montpellier, Héraut, France; 2 Interactions 1 Interactions Ecology and Societies, CEFE-CNRS UMR5175, Montpellier, Héraut, France; 2 Interactions Ecology and Societies, CEFE-CNRS UMR5175, Montpellier, Hérault, France; 3 Interactions Ecology and Ecology and Societies, CEFE-CNRS UMR5175, Montpellier, Hérault, France; 3 Interactions Ecology and Societies, CEFE University Montpellier UMR5175, Montpellier, Hérault, France Societies, CEFE University Montpellier UMR5175, Montpellier, Hérault, France  "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L14_O.08 (Agro)Forest Transitions: Upscaling Landscape Restoration through Agroforestry Tubenchlak F.1 (f.tubenchlak@iis-rio.org), Pepe I. 1 , Felippe E. 2 , Siqueira A. P. 3 , Strauch G.4 , Scarano F. 5 , Strassburg B.1    "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L14_O.10 Can agroforestry enhance multiple ecosystem services? Examples from a modelling approach in three tropical landscapes Paul C. 1 (carola.paul@uni-goettingen.de),Reith E. 2 ,Gosling E. 2    1 Forest Econ. & Sust. Land-use Planning, University of Göttingen, Göttingen, Germany; 2 Institute of 1 Forest Econ. & Sust. Land-use Planning, University of Göttingen, Göttingen, Germany; 2 Institute of Forest Management, Technische Universität München, Freising, Germany Forest Management, Technische Universität München, Freising, Germany  "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L14.P.01 Operationalizing landscape approach in Indonesia: grand-strategy for integrated management at the landscape level Adiwinata Nawir A.1 (a.nawir@cgiar.org), Syafii S. 2 , Nomeni Y.3 , Raharjo A. S. 4 , Yumn A. 1 , Julmansyah J. 5 , Danayasa P. 6 , Abdurahman M. 7 , Koenunu C. 6 , Hakim M. R. 2 , Muslimah S. 1 Forest Management Unit, Ministry of Environment and Forestry, Sumbawa, West Nusa Tenggara, Indonesia; 6 Forest Management Unit, Ministry of Environment and Forestry, Soe, East Nusa Tenggara, Indonesia; 7 Faculty of Agriculture, Mataram University, Mataram, West Nusa Tenggara, Indonesia 1 Sustainable Landscapes and Food Systems, CIFOR, Bogor, West Java, Indonesia; 2 Coral Triangle 1 Sustainable Landscapes and Food Systems, CIFOR, Bogor, West Java, Indonesia; 2 Coral Triangle Program, WWF (World Wildlife Fund) Indonesia, Mataram, West Nusa Tenggara, Indonesia; 3 Coral Program, WWF (World Wildlife Fund) Indonesia, Mataram, West Nusa Tenggara, Indonesia; 3 Coral Triangle Program, WWF (World Wildlife Fund) Indonesia, Kupang, East Nusa Tenggara, Indonesia; Triangle Program, WWF (World Wildlife Fund) Indonesia, Kupang, East Nusa Tenggara, Indonesia; 4 The Research, Development and Innovation, Ministry of Environment and Forestry, Solo, Central Java, 4 The Research, Development and Innovation, Ministry of Environment and Forestry, Solo, Central Java, Indonesia; 5 Indonesia; 5  "},{"text":" 1 , Grêt-Regamey A. 2 , Ramamonjisoa B.1     "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L14.P.03 Trees in agricultural landscapes: understanding past changes for a better management strategies Andrieu E. 1 (emilie.andrieu@inra.fr), Ladet S. 1 , Calatayud F. 1 , Blanco J. 2 , Sourdril A.3 , Deconchat M.1    1 UMR 1201 Dynafor, Inra, Castanet Tolosan, France; 2 UMR 6554 LETG, Université d'Angers, Angers, 1 UMR 1201 Dynafor, Inra, Castanet Tolosan, France; 2 UMR 6554 LETG, Université d'Angers, Angers, France; 3 UMR 7533 Ladyss, CNRS, Nanterre, France France; 3 UMR 7533 Ladyss, CNRS, Nanterre, France  "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L14.P.04 Google Earth Engine based monitoring of cork and holm oak woodlands NDVI trends in Portugal Aubard V. (vaubard@isa.ulisboa.pt), Paulo J. A., Silva J. M. N. Forest Research Centre, University of Lisbon, Lisbon, Portugal Forest Research Centre, University of Lisbon, Lisbon, Portugal  "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L14.P.05 Assessing vulnerability to wildfire of an agroforestry landscape mosaic Bertomeu M.1 (mbergar@unex.es), Corbacho J. 2 , Pulido F. 1 , Navalpotro J. 2 , Palomo G. 2 , Giménez J. C. 1 , Moreno G.1   Wildfires have increasingly become a threat to the Mediterranean mountain forests of southern Europe. Extensive afforestation with flammable pine species, abandonment of traditional land management practices, and longer and more intense droughts due to climate change result in larger and more frequent and intense forest fires. Mosaic landscapes consisting of a mix of different land cover and use type are considered to be less vulnerable than forests to wildfire. Interspersed patches of crops, pastures, and grazed shrubs and forests break-up the continuity of hazardous fuels across the landscape, and provide safer zones from which fires can be suppressed. Also the economic opportunities generated from farming and forestry activities in mosaic landscapes contribute to reduce the ignition of fire as a form of protest against restrictive and punitive policies common in centrally-managed forest landscapes. Sierra de Gata is a mountainous area in southwestern Spain prone to anthropogenic fires. It extends over 150,000 ha, of which 70,000 ha are forests of Pinus pinaster, and comprises a population of 22,728 in 20 villages. Since 2016, after a wildfire that burned through more than 8,000 ha and forced the evacuation of 3 villages, the Mosaico-Extremadura project is being implemented to restore a mosaic landscape resilient to fire. A multidisciplinary team of technicians facilitate farmer planning and implementation of agricultural and forestry livelihood interventions (e.g., tree farming; grazing management, resin tapping), training, and negotiation and coordination with local government and forestry authorities. The project rests on the idea that agricultural interventions at strategic locations within forests and at the forest-agriculture interface will function as effective, and productive firebreaks. Since project inception to date about 166 interventions have been proposed, of which 35 are being implemented. However, whether these interventions will nudge the current landscape towards a more fire resilient one remains uncertain. The purpose of this study is, therefore, to assess the vulnerability to fire of the hypothetical landscape mosaic that would result if all proposed interventions were implemented. The study will use the vulnerability assessment framework (VAF) proposed by 1 INDEHESA. University of Extremadura, Plasencia, Cáceres, Spain; 2 Mosaico-Extremadura, Plasencia, 1 INDEHESA. University of Extremadura, Plasencia, Cáceres, Spain; 2 Mosaico-Extremadura, Plasencia, Cáceres, Spain Cáceres, Spain  "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L14.P.06 Land Use Change and Climate-Smart Agriculture in the Sahel since 1975 Cotillon S. 1 (scotillon@biotope.fr),Reij C. 2 , Tappan G.3 1 International Office, Biotope, Meze, France; 2 WRI, Nijmegen, Netherlands; 3 USGS, Sioux Falls, SD, United States  "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L14.P.15 Visual assessment of agricultural landscapes featuring agroforestry Laroche G. 1 (genevieve.laroche@fsaa.ulaval.ca), Domon G. 2 , Gelinas N. 3 , Olivier A.1    1 Phytologie, Université Laval, Québec, Québec, Canada; 2 Urbanisme et architecture de paysage, 1 Phytologie, Université Laval, Québec, Québec, Canada; 2 Urbanisme et architecture de paysage, Université de Montréal, Montréal, Québec, Canada; 3 Sciences du bois et de la forêt, Université Laval, Université de Montréal, Montréal, Québec, Canada; 3 Sciences du bois et de la forêt, Université Laval, Québec, Québec, Canada Québec, Québec, Canada  "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L14.P.17 Beyond the stand: Reviewing landscape fragmentation dynamics on biodiversity and ecosystem services in Southeast Asia  Lo M. 1 (michaelalo39@gmail.com), Laumonier Y. 2 Lo M. 1 (michaelalo39@gmail.com), Laumonier Y. 2 1 Sustainable Landscapes and Food, CIFOR, Bogor, Indonesia; 2 UR 105 Forests and Societies, CIRAD, 1 Sustainable Landscapes and Food, CIFOR, Bogor, Indonesia; 2 UR 105 Forests and Societies, CIRAD, Montpellier, France Montpellier, France  "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":" 1 , Stazi S. R. 2 , Camilli F.1     "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L14.P.19 Smallholder agroforestry parkland landscape diversity in three climatic zones of Burkina Faso Neya T.1 (neyatiga@gmail.com), Neya O. 2 , A. Abungyewa A.3    1 Civil Engineering, Kwame Nkrumah University of Sciences, Ouaga, Burkina Faso; 2 Ecosystem 1 Civil Engineering, Kwame Nkrumah University of Sciences, Ouaga, Burkina Faso; 2 Ecosystem services, WASCAL, Ouaga, Burkina Faso; 3 Agroforestry, Kwame Nkrumah University of Sciences, services, WASCAL, Ouaga, Burkina Faso; 3 Agroforestry, Kwame Nkrumah University of Sciences, Kumasi, Ghana Kumasi, Ghana  "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L14.P.20 Agroforestry systems adoption as multifunctional land use strategy for Oliveira R. 1 (reolivei@ufscar.br), Sais A. 1 , Souza V. 2 , Pereira A. 2 , Alcântara L.3 , Arantes V.4    1 Rural Development Department, Universidade Federal de São Carlos, Araras, SP, Brazil; 2 PPGADR, 1 Rural Development Department, Universidade Federal de São Carlos, Araras, SP, Brazil; 2 PPGADR, Universidade Federal de São Carlos, Araras, SP, Brazil; 3 Universidade Federal do Mato Grosso, Cuiabá, Universidade Federal de São Carlos, Araras, SP, Brazil; 3 Universidade Federal do Mato Grosso, Cuiabá, MT, Brazil; 4 Instituto Ouro Verde, Alta Floresta, MT, Brazil MT, Brazil; 4 Instituto Ouro Verde, Alta Floresta, MT, Brazil  "},{"text":"L14 AF landscapes 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L14.P.25 Assessing multiple ecosystem functions of linear woody-features in the agricultural landscape Tsonkova P. 1 (penka.tsonkova@b-tu.de), Böhm C. 1 , Ehritt J. 2 , Hübner R.3    1 BTU Cottbus-Senftenberg, Cottbus, Germany; 2 NABU Brandenburg, Potsdam, Germany; 3 Technical 1 BTU Cottbus-Senftenberg, Cottbus, Germany; 2 NABU Brandenburg, Potsdam, Germany; 3 Technical University of Munich, Freising, Germany University of Munich, Freising, Germany  "},{"text":"Book of Abstracts L15_O.01 Linking urban homegarden agroforestry and child nutrition: Mollee E. M.1 (e.mollee@bangor.ac.uk), McDonald M. A. 1 , Kehlenbeck K. 2 1 School of Natural Sciences, Bangor University, Bangor, Gwynedd, United Kingdom; 2 Faculty Life Sciences, Rhine-Waal University of Applied Science, Kleve, Germany  "},{"text":"of Abstracts L15_O.03 need protection to defend the city La Mantia T. 1 (tommaso.lamantia@unipa.it), da Silveira Bueno R. 1 , Quatrini P.2     "},{"text":"L15 Urban AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L15_O.04 Genetic diversity of a tropical fruit tree (Dacryodes edulis gardens to Cameroonian agroforests Rimlinger A.1 (aurore.rimlinger@ird.fr), Marie L. 1 , Lemoine T. 1 , Meguem F. 2 , Avana M.-L. 2 , Zekraoui L. 3 , Mariac C. 3 , Carrière S. M. 4 , Duminil J.3    1 Université de Montpellier, Montpellier, France; 2 FASA, Université de Dschang, Dschang, Cameroon; 1 Université de Montpellier, Montpellier, France; 2 FASA, Université de Dschang, Dschang, Cameroon; 3 UMR DIADE, IRD, Montpellier, France; 4 UMR GRED, IRD, Montpellier, France 3 UMR DIADE, IRD, Montpellier, France; 4 UMR GRED, IRD, Montpellier, France  "},{"text":"L15 Urban AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L15_O.05 food tree and crop portfolios McMullin S.1 (s.mcmullin@cgiar.org), Stadlmayr B. 2 , Kindt R. 1 , Jamnadass R. 1 1 Tree Productivity and Diversity, World Agroforestry Centre, Nairobi, Kenya; 2 Centre for Development Research, University of Natural Resources and Life, Vienna, Austria  "},{"text":"of Abstracts L15_O.06 Planning multipurpose trees in the city Gonzalez deLinares P. (paloma_de_linares@hotmail.com)     Landscape Architecture and Urbanism, SZIE university of Budapest, 1118 Budapest, Hungary Landscape Architecture and Urbanism, SZIE university of Budapest, 1118 Budapest, Hungary  "},{"text":"of Abstracts L15_O.07 Preparing Potager du Roi of Versailles for the future. A historical kitchen garden in an urbanized setting. Jacobsohn A. 1 (a.jacobsohn@ecole-paysage.fr), Delbouis F.-X. 1 ,Lacourt S. 2    1 Potager du Roi, Ecole nationale supérieure de paysage, Versailles, FRANCE; 2 Larep, Ecole nationale 1 Potager du Roi, Ecole nationale supérieure de paysage, Versailles, FRANCE; 2 Larep, Ecole nationale supérieure de paysage, Versailles, France supérieure de paysage, Versailles, France  "},{"text":"L15 Urban AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L15_O.08 Agroforestry and Urban Policy Development: case studies of home Llewellyn E. C.F.C. 1 (lizzie.llewellyn@outlook.com), Brook R.M.2    1 School of Natural Sciences, Bangor University, Cape Town, South Africa; 2 School of Natural Sciences, 1 School of Natural Sciences, Bangor University, Cape Town, South Africa; 2 School of Natural Sciences, Bangor University, Bangor, United Kingdom Bangor University, Bangor, United Kingdom  "},{"text":"Growing Agroforestry Crops in Peri-urban Areas of New Cities : Ignored or Forgotten? Lamichhane D. (dhanusara@hotmail.com)     Agroforestry 2019 -Regular Talk L15 Urban AF Agroforestry 2019 -Regular TalkL15 Urban AF  L15_O.10 L15_O.10 Ministry of Forests and Environment, Kathmandu, Nepal  Ministry of Forests and Environment, Kathmandu, Nepal  Book of Abstracts Book of Abstracts  "},{"text":"L15 Urban AF 4 th World Congress on Agroforestry Arponen J. (afp237@bangor.ac.uk),Mollee E., McDonald M. A     School of Natural Sciences, Bangor University, Bangor, United Kingdom School of Natural Sciences, Bangor University, Bangor, United Kingdom  "},{"text":"L15 Urban AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L15.P.04 Agroforestry multistrata homegardens: Contribution to food security of Amazonian populations Rayol B.1 (bprayol@yahoo.com.br), MIranda I.2 , Avino-Rayol F.3 , Rangel-Vasconcelos L.4   1 Instituto de Ciências Agrárias, Universidade Federal Rural da Amazônia, Belém, PARÁ, Brasil; 2 ISARH, Universidade Federal Rural da Amazônia, Belém, PA'', Brasil; 3 Insituto Federal do Pará, Belém, PARÁ,  Brasil; 4 Instituto de Ciências Agrárias, Universidade Federal Rural da Amazônia, Brasil, Pa, Brasil     "},{"text":"Book of Abstracts L16_O.01 Plant diversity and productivity in Senegalese mango orchards: evidences from UAV photogrammetry Sarron J.1 (julien.sarron@cirad.fr), Sané C. A. B. 2 , Diatta P. 3 , Diatta J. 3 , Malézieux É. 1 , Faye É.1    1 UPR HortSys, CIRAD, Montpellier, France; 2 Université Cheikh Anta Diop, Dakar, Senegal; 3 CDH, ISRA, 1 UPR HortSys, CIRAD, Montpellier, France; 2 Université Cheikh Anta Diop, Dakar, Senegal; 3 CDH, ISRA, Dakar, Senegal Dakar, Senegal  "},{"text":"of Abstracts L16_O.03 Spatial analysis of area and carbon stock in Populus deltoides based Rizvi R.1 (rhrizvi@gmail.com), Sridhar K. 2 , Rizvi J.3 , Handa A. 4 , Dongre G.5 1 Nrem, Central Agroforestry Research Institute, Jhansi, Uttar Pradesh, India; 2 Hrd, Central Agroforestry Research Institute, Jhansi, Uttar Pradesh, India; 3 South Asia Regional Program, World Agroforestry Centre, New Delhi, India; 4 Tree Improvement, Central Agroforestry Research Institute, Jhansi, Uttar Pradesh, India; 5 Central Agroforestry Research Institute, Jhansi, Uttar Pradesh, India  "},{"text":"of Abstracts L16_O.04 A remote sensing based approach for optimizing sampling strategies in tree monitoring and agroforestry systems mapping Stem and aboveground biomass ranged from 28.36-241.73 t ha-1 and 31.62-286.07 t ha-1, respectively. Estimated carbon stock in stem biomass and total biomass ranged from 5.58-79.80 t ha-1 and 10.93-156.48 t ha-1, respectively. Area under Poplar based systems in Ludhiana, Shahid Bhagat Singh Nagar, Rupnagar and Hoshiarpur districts was estimated to be 3698.7, 534.0, 5465.2, and 10573.1 ha, respectively with more than 85 percent accuracy. Highest area under Poplar based systems was found in Rupnagar district, which is 57.4 percent of total agroforestry area. Study concluded that Populus deltoides based systems not only occupy sizeable area in selected districts but also contributing significantly towards carbon sequestration. Object oriented image analysis together with high resolution remote sensing data proved to be better technique for accurate mapping of trees on farmlands.Ndao B. 1 (babacar.ndao@cse.sn), Leroux L.2 , Diouf A. A. 1 , Soti V. 2 , Sambou B. 3 1 Recherche & Développement, Centre de Suivi Ecologique, Dakar, Senegal; 2 UPR AIDA, Cirad, Montpellier, France; 3 Institut des Sciences de l'Environnement, Université Cheikh Anta Diop, Dakar, Senegal L16 AF mapping L16 AF mapping 4 4  "},{"text":"L16 AF mapping 4 th World Congress on Agroforestry   "},{"text":"L16 AF mapping 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L16_O.06 Fine-scale mapping and dynamics of cyclic agroforestry agriculture using UAV remote sensing in Borneo Laumonier Y.1 (yves.laumonier@cirad.fr), Astrono U. 2 , Lambrecht F. 2 , Narulita S.2     "},{"text":"L16 AF mapping 4 th World Congress on Agroforestry Brown S. 1 (saraheb3@illinois.edu), Miller D. 1 , Ordonez P. 2 , Baylis K.2    L16_O.08 L16_O.08 1 Nat. Resources & Env. Sciences, University of Illinois, Urbana, Illinois, United States; 2 Agricultural & 1 Nat. Resources & Env. Sciences, University of Illinois, Urbana, Illinois, United States; 2 Agricultural & Consumer Economics, University of Illinois, Urbana, Illinois, United States Consumer Economics, University of Illinois, Urbana, Illinois, United States Book of Abstracts Book of Abstracts  "},{"text":"L16 AF mapping 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L16_O.09 Shelterbelts in Canada: century-old agroforestry systems for climate adaptation Van Rees K. (ken.vanrees@usask.ca), Amichev B., Ha T.,Laroque C.     Soil Science, University of Saskatchewan, Saskatoon, SK, Canada Soil Science, University of Saskatchewan, Saskatoon, SK, Canada  "},{"text":"L16 AF mapping 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L16.P.01 Carbon mapping in Portugal forest and agroforest systems using direct remote sensing and combine assign approaches Ameray A.1 (ameray.iav@gmail.com), Castro M. 1 , Bouhaloua M. 2 , Castro J.1    1 Mountain Research Centre (CIMO), Polytechnic Institut of Bragança, Bragança, Portugal; 2 Environment 1 Mountain Research Centre (CIMO), Polytechnic Institut of Bragança, Bragança, Portugal; 2 Environment and Natural Resources, IAV Institute Hassan II, Rabat, Morocco and Natural Resources, IAV Institute Hassan II, Rabat, Morocco  "},{"text":"L16 AF mapping 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L16.P.02 A large-scale method to assess the role of tree cover in climate change effects in a mediterranean silvopastoral systems Arenas-Corraliza I.1 (isabelarenascorraliza@unex.es), Nieto A. 1 , Moreno G.2    1 INTERRA, University of Extremadura, Cáceres, Cáceres, Spain; 2 INDEHESA, University of Extremadura, 1 INTERRA, University of Extremadura, Cáceres, Cáceres, Spain; 2 INDEHESA, University of Extremadura, Plasencia, Cáceres, Spain Plasencia, Cáceres, Spain  "},{"text":"L16 AF mapping 4 th World Congress on Agroforestry   "},{"text":"L16 AF mapping 4 th World Congress on Agroforestry Strengthening   "},{"text":"Book of Abstracts L16.P.04   "},{"text":"L16 AF mapping 4 th World Congress on Agroforestry Strengthening   "},{"text":"Book of Abstracts L16.P.08 Using remote sensing to monitor biodiversity and ecological changes in tropical agroforestry landscapes Harrison S. 1 (sam.harrison@ed.ac.uk),Ryan C. 1 , Harrison R. 2    1 School of Geosciences, University of Edinburgh, Edinburgh, United Kingdom; 2 World Agroforestry 1 School of Geosciences, University of Edinburgh, Edinburgh, United Kingdom; 2 World Agroforestry Centre, Lusaka, Zambia Centre, Lusaka, Zambia  "},{"text":"L16 AF mapping 4 th World Congress on Agroforestry   "},{"text":"L16 AF mapping 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L16.P.12 Mapping plant diversity in cocoa-based agroforestry systems to improve overall productivity Notaro M.1 (martin.notaro@cirad.fr), Gary C. 2 , Deheuvels O.3   1 CIRAD, Villa Altagracia, Dominican Republic;2 INRA, Montpellier, France; 3 CIRAD, Lima, Peru     "},{"text":"L16 AF mapping 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L16.P.13 When policy requires technical innovation: considerations about mapping Agroforestry Concessions in the Peruvian Amazon  Reyes M. (martin.reyes@cgiar.org) Reyes M. (martin.reyes@cgiar.org) ICRAF, Lima, Peru ICRAF, Lima, Peru  "},{"text":"L16 AF mapping 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L16.P.15 Tree biomass estimation by SfM method in highlands of Northern Ethiopia Sakai T.1 (torus@affrc.go.jp), Takenaka K. 2 , Abebe B.3 , Gebre-Meskel D.3 1 Social Sciences Division, JIRCAS, Tsukuba, Japan; 2 Rural Development Division, JIRCAS, Tsukuba, Japan; 3 College of Dryland Agriculture & Nature, Mekelle University, Mekelle, Ethiopia  "},{"text":"L17 - Challenges, opportunities and trade-offs of agroforestry with perennial crops  Agroforestry 2019 Agroforestry 2019 Coffee, cocoa, rubber, vineyards and orchards: Coffee, cocoa, rubber, vineyards and orchards: perennial crops the agroforestry way perennial crops the agroforestry way , this , this session welcomes presentations (oral and poster) documenting challenges, session welcomes presentations (oral and poster) documenting challenges, opportunities and trade-offs of temperature and tropical agroforestry systems opportunities and trade-offs of temperature and tropical agroforestry systems (AFS) with perennial crops, particularly dealing with the following issues : (AFS) with perennial crops, particularly dealing with the following issues : tree crops, tree crops, • trade-offs between production and delivery of ecosystem services (soil fertility, • trade-offs between production and delivery of ecosystem services (soil fertility, biodiversity conservation, carbon sequestration, pests and diseases control, biodiversity conservation, carbon sequestration, pests and diseases control, buffering of climate extremes), buffering of climate extremes), • climate-smart practices for adaptation of perennial AFS to climate change • climate-smart practices for adaptation of perennial AFS to climate change • local agroforestry knowledge and co-innovation, • local agroforestry knowledge and co-innovation, • timber production in tree crop based agroforestry systems: productivity, • timber production in tree crop based agroforestry systems: productivity, risk and vulnerability management, enabling frameworks (legal, political, risk and vulnerability management, enabling frameworks (legal, political,  "},{"text":"L17.1 Perennial Crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.1_O.04 Agroforestry: Lifeline of world cocoa production. Utopia or credible alternative? Jagoret P. 1 (patrick.jagoret@cirad.fr), Malézieux E. 2 , Lauri P.-E. 3 , Saj S. 1 1 UMR System, Cirad, Montpellier, France; 2 UR HortSys, Cirad, Montpellier, France; 3 UMR System, Inra, Montpellier, France  "},{"text":"L17.1 Perennial Crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.1_O.06 Nitrogen Fixing Shade Trees in Coffee Agroforestry: Quantification of Nitrogen Transfer to the Coffee Plant. Van den Meersche K.1 (karel.van_den_meersche@cirad.fr), Harmand J.-M. 2 , Zeller B.3 , Blanchart E.4   1 Eco&Sols, CIRAD, Montpellier, France; 2 Eco&Sols, CIRAD, ICRAF, Yaoundé, Cameroon;3 BEF, INRA,  Nancy, France; 4 Eco&Sols, IRD, Montpellier, France     "},{"text":"L17.1 Perennial Crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.1_O.07 Local knowledge on the role of trees in coffee agroforestry systems of Northwest Vietnam Mai Phuong N.1 (n.maiphuong@cgiar.org), Vaast P. 2 , Pagella T. 3 , Nguyen L. 1 , Sinclair F.4   1 ICRAF Vietnam, Ha Noi, Vietnam; 2 ICRAF/CIRAD, Ha Noi, Vietnam; 3 Bangor University, Bangor, Gwynedd, Wales, United Kingdom; 4 ICRAF/Bangor University, Nairobi, Kenya  "},{"text":"1 Perennial Crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.1_O.08 Young shade trees rapidly improve soil fertility in coffee-agroforestry systems Rigal C. 1 (clement.rigal@netcourrier.com), Xu J. 1 , Vaast P. 2 1 Kunming Institute of Botany / ICRAF, Kunming, China; 2 CIRAD UMR Eco&Sols / ICRAF, Hanoi, Vietnam  "},{"text":"2 1 Faculty of Agricultural Sciences, Universidad Veracruzana, Xalapa, Veracruz, Mexico; 2 Eco-dialogue Centre, Universidad Veracruzana, Xalapa, Veracruz, Mexico  "},{"text":"L17.2 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.2_O.04 Agroforestry: a pathway to enhance livelihoods of smallholders in the northern Laos Pachas A. N. A.1 (a.pachas@uq.edu.au),Sakanphet S. 2 , Newby J. C 3 , Soukkhy O. 4 , Dieters M. 1 1 School of Agriculture and Food Sciences, The Universtity of Queensland, Brisbane, QLD, Australia; 2 Upland Agriculture Research Center, Houay Khot, Luang Prabang, Laos; 3 International Center for Tropical Agricu, Vientiane, Laos; 4 Northern Agriculture Forestry College, Luang Prabang, Laos  "},{"text":" identify that one factor hindering adoption is lack of the information on the initial tree density, suitable companion crops, and appropriate management techniques. The Australian Centre for International Agriculture Research (ACIAR) has supported collaborative research on teak-based agroforestry systems in northern Laos since 2008. A total of 88 agroforestry trials were established in 2014 and 2015 across six districts of Luang Prabang province: Ngoy, Pakxieng, Pak-ou, Phonxay, Xieng Nguen and Viengkham.  "},{"text":"2 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.2_O.05 Ecosystem services trade-offs from tree crop expansion in Myanmar's forest frontier landscapes Feurer M.1 (melanie.feurer@bfh.ch), Heinimann A. 2 , Zähringer J. G.21 Agriculture, Forest and Food Sciences, Bern University of Applied Sciences, Zollikofen, Switzerland; 2 Centre forDevelopment and Environment, Bern, Switzerland      "},{"text":"2 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.2_O.08 Traditional practices in shea tree (Vitellaria paradoxa) conservation in Uganda: Reflections and lessons from the past Gwali S. 1 (gwalis@yahoo.co.uk), Eilu G. 2 , Okullo J. B. L. 2 1 Tree Improvement and Germplasm Research, National Forestry Resources Research Ins, Kampala, Uganda; 2 School of Forestry, Environment and Geog, Makerere University, Kampala, Uganda  "},{"text":"2 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"4 1 Plant Sciences, University of California, Davis, Davis, CA, United States; 2 Napa RCD, Napa, CA, United States; 3 CAFF, Davis, CA, United States; 4 INPT ENSAT INRA UMR AGIR, Castanet Tolosan, France  "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"3 1 Institut de Conseil et d'Appui Technique, Unité Technique Café Cacao, Kpalime, Région des Platraux, Togo; 2 Université de Lomé, Laboratoire de Recherche Forestière, Lomé, Togo; 3 Kinome SAS, Campus du Jardin Trooical, Paris, France  "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.P.03 Co-design agricultural systems combining gaming and backcasting methods in smallholder coffee agroforestry systems Andreotti F. 1 (federico.andreotti@outlook.com), Speelman E. N.1 , Van den Meersche K. 2 ,Allinne C. 3    1 Farming Systems Ecology, Wageningen University & Research, Wageningen, Netherlands; 2 UMR 1 Farming Systems Ecology, Wageningen University & Research, Wageningen, Netherlands; 2 UMR Eco&Sols, CIRAD, Montpellier, France; 3 UMR System, CIRAD, Montpellier, France Eco&Sols, CIRAD, Montpellier, France; 3 UMR System, CIRAD, Montpellier, France  "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.P.04 Successfully establishing a large-scale mechanized dynamic cocoa agroforestry at a marginal site in central Ivory Coast Andres C.1 (christian.andres@fibl.org), Wiens S. 1 , Degonda K. 1 , Milz J. 2 , Schneider M.3 , Hiestand F. 4 , Six J.1   1 Sustainable Agroecosystems, ETH Zurich, Zurich, Switzerland; 2 Ecotop Consult, La Paz, Bolivia;3 International Cooperation, FiBL, Frick, Switzerland; 4 Fredy's Plantation, Tiassalé, Côte d'Ivoire     "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.P.06 Innovation and Transition in Agriculture: How dairy farming is emerging in the coffee agroforestry systems of Kenya Asayehegn K.1 (kinfe85@gmail.com), Temple L. 2 , Iglesias A.3   1 Dr., Hawassa, SNNPR, Ethiopia; 2 UMR Innovation, CIRAD, Montpellier, France; 3 UPM, Madrid, Spain  "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.P.08 of family farms to climate shocks Barima Y. S. S.  (byssabas@yahoo.fr), Timité N. UFR Environnement, Université Jean Lorougnon Guédé, Daloa, Côte d'Ivoire UFR Environnement, Université Jean Lorougnon Guédé, Daloa, Côte d'Ivoire  "},{"text":" 2 , Hart S. P. 1 , Landolt J. 1 , Yeboah E. 2 , Six J.1    1 ETH Zurich, Zürich, Switzerland; 2 CSIR -Soil Research Institute Ghana, Kumasi, Ghana 1 ETH Zurich, Zürich, Switzerland; 2 CSIR -Soil Research Institute Ghana, Kumasi, Ghana  "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.P.10 Trade-offs among ecosystem services and productivity in coffee-based agroforestry systems in Nicaragua Cerdán C. R.1 (ccerdan@uv.mx), Bucardo E. M 2 , Cartier M.3 , Soto G.4 , Fallot A.5 , Rapidel B.6    1 Faculty of Agricultural Sciences, Universidad Veracruzana, Xalapa, Veracruz, Mexico; 2 Bioversity 1 Faculty of Agricultural Sciences, Universidad Veracruzana, Xalapa, Veracruz, Mexico; 2 Bioversity International, Jinotega, Nicaragua; 3 ISTOM, Cergy, France; 4 Committee on Sustainability Assess- International, Jinotega, Nicaragua; 3 ISTOM, Cergy, France; 4 Committee on Sustainability Assess- ment, San José, Costa Rica; 5 UPR GREEN, CIRAD, Montpellier, France; 6 Persyst Department, CIRAD, ment, San José, Costa Rica; 5 UPR GREEN, CIRAD, Montpellier, France; 6 Persyst Department, CIRAD, Montpellier, France Montpellier, France  "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.P.11 Restoration of abandoned tea plantations in Western Ghats landscape of south India: Do shade trees help?  Chetan H C 1 (chetan.hcc@gmail.com), Ganesh T 2 Chetan H C 1 (chetan.hcc@gmail.com), Ganesh T 2 1 CCNR, Trans-Disciplinary University (TDU), Bengaluru, Karnataka, India; 2 Conservation Science, 1 CCNR, Trans-Disciplinary University (TDU), Bengaluru, Karnataka, India; 2 Conservation Science, ATREE, Royal Enclave, Srirampur Jakkur, Bengaluru, Karnataka, India ATREE, Royal Enclave, Srirampur Jakkur, Bengaluru, Karnataka, India  "},{"text":" The spacing regimes of canarium trees were either 8 m × 8 m or 8 m × 16 m and the spacing regime of the G. sepium trees was 12 m × 12 m. The effects of shade tree species or spacing regimes on nutrient concentrations of cocoa beans were not consistently similar. For example, cocoa beans had higher phosphorus concentrations next to G. sepium trees and C. indicum trees with spacing of 8 m × 8 m compared with those next to C. indicum trees with spacing of 8 m × 16 m. Calcium concentrations of cocoa beans was not affected by shade trees nor spacing regimes of canarium trees. Nutrient concentrations of canarium nuts were not also affected by being planted next to cocoa trees. Therefore, agroforestry system designed in this study were acceptable to sustain food quality.  "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry    L17.P.17 L17.P.17  20-22 May 2019 Book of Abstracts 20-22 May 2019Book of Abstracts Strengthening links between science, society and policy Le Corum, Montpellier, France Strengthening links between science, society and policyLe Corum, Montpellier, France  "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.P.19 Developping sustainable cocoa production in a damaged country: challenges and opportunities.  Le Heurt G. (presidencia.lafincabravasas@gmail.com) Le Heurt G. (presidencia.lafincabravasas@gmail.com) La Finca Brava Sas, bucaramanga, Country La Finca Brava Sas, bucaramanga, Country  "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry    L17.P.20 L17.P.20  20-22 May 2019 Book of Abstracts 20-22 May 2019Book of Abstracts Strengthening links between science, society and policy Le Corum, Montpellier, France Strengthening links between science, society and policyLe Corum, Montpellier, France  "},{"text":"4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.P.21 BREEDCAFS (Breeding Coffee for Agroforestry Systems) project in Vietnam Marraccini P.1 (marraccini@cirad.fr),Vaast P. 2 , Nguyen H. 3 , Nguyen C. 4 , Vu T.4 , Nguyen T.4 , Nguyen V. 4 , Nguyen D. 5 , Do V. 5 , Georget F.6 , Luu Q.3 , Etienne H. 6 , Bertrand B.6   1 UMR IPME, Cirad, Hanoï, Vietnam; 2 UMR Eco&Sols,Cirad, Hanoï, Vietnam; 3 NOMAFSI, Phu Tho,  Vietnam; 4 NOMAFSI, Son La, Vietnam; 5 AGI, Hanoï, Vietnam; 6 UMR IPME, Cirad, Montpellier, France     "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.P.22 Assessing food security and ecosystem services in multifunctional land-use systems Mattsson E. 1 (eskil.mattsson@ivl.se), Ostwald M. 2 , Nissanka S.P3    1 IVL Swedish Environmental Research Inst., Gothenburg, Sweden; 2 Chalmers University of Technology, 1 IVL Swedish Environmental Research Inst., Gothenburg, Sweden; 2 Chalmers University of Technology, Gothenburg, Sweden; 3 University of Peradeniya, Peradeniya, Sri Lanka Gothenburg, Sweden; 3 University of Peradeniya, Peradeniya, Sri Lanka  "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.P.23 Sustainable coffee agroforestry in adverse climatic conditions in Nicaragua Padovan M. P.1 (padovan@incaper.es.gov.br), Brook R. M. 2 , Barrios M. 3 , Cruz-Castillo J. B.4 , Galeano E. A. V. 5 , Rapidel B.6    1 INCAPER, Vitoria, ES, Brazil; 2 Bangor University, Bangor, Gwynedd, United Kingdom; 3 CATIE, 1 INCAPER, Vitoria, ES, Brazil; 2 Bangor University, Bangor, Gwynedd, United Kingdom; 3 CATIE, Managua, Nicaragua; 4 Universidad Nacional Agraria, Managua, Nicaragua; 5 INCAPER, Vitória, ES, Managua, Nicaragua; 4 Universidad Nacional Agraria, Managua, Nicaragua; 5 INCAPER, Vitória, ES, Brazil; 6 CIRAD, Montpellier, France Brazil; 6 CIRAD, Montpellier, France  "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.P.24 Can Insetting create a win-win partnership between chocolate makers and cocoa farmers ? Plédran O. 1 (oriane.pledran@gmail.com), Phélinas P. 2 ,Torquebiau E. 3    1 Université Paris Diderot -CESSMA, Paris, France; 2 Université Paris Diderot -CESSMA / IRD, Paris, 1 Université Paris Diderot -CESSMA, Paris, France; 2 Université Paris Diderot -CESSMA / IRD, Paris, France; 3 AIDA, CIRAD -Université Montpellier, Montpellier, France France; 3 AIDA, CIRAD -Université Montpellier, Montpellier, France  "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.P.27 realities of «black gold» in the Guadeloupe undergrowth Romane C.1 (jean-louis.diman@inra.fr), Vinglassalon A.2 , Apatout M. 2 , Latchman C. 3 , Hammouya D. 1 , Arsens S. 2 , Tormin P. 2 , Diman J.-L. 1 , Bezard M. 2 1 PEYI, INRA, Petit-Bourg, Guadeloupe, France; 2 SYAPROVAG, Petit-Bourg, Guadeloupe, France; 1 PEYI, INRA, Petit-Bourg, Guadeloupe, France; 2 SYAPROVAG, Petit-Bourg, Guadeloupe, France; 3 GDA EcoBio, Baie-Mahault, Guadeloupe, France 3 GDA EcoBio, Baie-Mahault, Guadeloupe, France  "},{"text":"4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.P.28 What Barriers to the Adoption of Biodiversity-Friendly Cocoa?  Ruf F. (francois.ruf@cirad.fr) Ruf F. (francois.ruf@cirad.fr) ES, CIRAD, Montpellier, Fance ES, CIRAD, Montpellier, Fance  "},{"text":"2 1 ITCR, Cartago, Costa Rica; 2 CIRAD, Montpellier, France     "},{"text":" Strengthening links between science, society and policy  L17.P.30 L17.P.30 20-22 May 2019 Book of Abstracts 20-22 May 2019Book of Abstracts Le Corum, Montpellier, France  Le Corum, Montpellier, France  "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L17.P.33 Should agroforestry coffee have an O layer? Contributions of the agroforest floor to productivity and resilience Staver C. 1 (c.staver@cgiar.org), Barrios M. 2 , Navarrete E. 2 , Navarrete L. 2 , Sepulveda N.2    1 Bioversity International, Montpellier, France; 2 CATIE, Managua, Nicaragua 1 Bioversity International, Montpellier, France; 2 CATIE, Managua, Nicaragua  "},{"text":" After 12 years, herbicide-based total weed control resulted in 10-40% bare soil with leaf litter covering 40-60%. Selective control, either herbicide or manual, to favor low-growing, shallow-rooted vegetation, resulted in minimal bare soil, a declining area covered by competitive grasses and broadleafs and from 40-70% natural cover vegetation. Weed biomass under selective control was triple the biomass under total control. Tree presence compared to open sun coffee reduced bare soil and increased leaf litter and natural cover vegetation. A comparison of dry season ground cover showed increased accumulation for the whole leaf and fractionated leaf layers by year four with treatments including Inga laurina. Ten years later the dry season ground cover in Inga treatments had 18-22 tons leaf litter/ha, double the tree treatments without Inga. The fractionated leaf layer for Inga at 5.5-6t/ha was double the other tree treatments. The litter accumulation under Inga contained 410kg N/ha compared to 228 for tree treatments without Inga and 117 for open sun. Accumulated coffee yields were higher for open sun. Soil OM at both 0-10 and 10-20cm was increased for trees versus open sun, but not for Inga versus other trees. Weed control costs were decreased with increasing O layer. In conclusion in the Masatepe experiment, the O layer developed differentially by tree treatment, although was not correlated with coffee productivity. The O layer should play a role in the design and management of next generation multi-strata coffee systems. New types of data are needed to address neglected interactions -weed and living ground cover management; alternatives for more effective location of leaf litter for targeted benefits; mixtures of slow and rapidly decomposing leaf fall and prunings, twigs and small branches; interaction of agroforest floor with coffee food web; and water use efficiency among trees and coffee with differing degrees of O layer development. Ivoire is currently the world's largest cocoa producer with 40% of global production and this production is at the heart of its economy largely managed by smallholder farmers planting on1-3 hectares (Firca, 2008). But Cocoa growing conditions in Côte d'Ivoire are bleak because of economic, environmental and social pressure on cocoa sector(Fsg-Impact, 2009). In this context, a project is being conducted in eastern Côte d'Ivoire. The project aims to improve in priority cocoa farmer income by increasing farm productivity and promoting crop diversification. And the second goal is to improve environmental management of cocoa Growing areas by developing agroforestry systems. Before extending an AFS designed and tried on a few farmers, it's necessary to test its performances in order to improve it. Introduction Introduction Côte d' Côte d'  "},{"text":"L17 Perennial crops AF 4 th World Congress on Agroforestry    L17.P.38 L17.P.38  20-22 May 2019 Book of Abstracts 20-22 May 2019Book of Abstracts Strengthening links between science, society and policy Le Corum, Montpellier, France Strengthening links between science, society and policyLe Corum, Montpellier, France  "},{"text":": Cocoa management practices, cocoa cultivation, Tabasco México, tropical products, land tenur. Strengthening links between science, society and policy  L17.P L17.P 20-22 May 2019 Book of Abstracts 20-22 May 2019Book of Abstracts Le Corum, Montpellier, France  Le Corum, Montpellier, France  "},{"text":".40 for soil and crop resilience in slope zones Ziantoni V.1 (ziantoni.valter@gmail.com),Costa P. 2 , Araujo P.3 , da Mota M.4   1 Agroforestry, PRETATERRA, Timburi, SP, Brazil; 2 Agroforestry, PRETATERRA, SaoPaulo, SP, Brazil;  3 Communication, Fazenda da Toca, Itirapina, SP, Brazil; 4 Research, Café dos Contos, Monte Sião, MG,  Brazil   Mantiqueira region, Brazil is under desertification process, facing droughts and soil degradation. Regenerative models, considering soil conservation are needed to thrive under harsh conditions while diminishing chemical fertilizers. An agroforestry system was designed, maximizing soil infiltration and improving coffee resilience on slope zones in Monte Sião. Final model and costs are shown in table1. For soil conservation, aggregation and retention, an ancestor method based on Anthropogenic Dark Earth (TPI) was used, based on charcoal and sawdust deposition. N 2 fixer species were selected for alley green manure. Species selection and arrangement considered succession, stratification, shade, architecture, permeability, lifecycle and root depth. Components are: M. integrifolia, C. arabica, T. ciliata, Musa sp, and I. vera. Seed-mixture for alley enrichment is: U. brizantha, C. cajan, H. annus, P. glaucum and C. spectabilis. Soil management and mulching used a mix for fertilizing purposes, charcoal residues for raising soil CEC, coffee husks + poultry manure (10% N) and eucalyptus sawdust for soil covering. Design attributes were systematized. With a cost of USD 6,316, the first 1 hectare was implemented in Dec, 2018 in the Farm \"Café dos Contos\". Integrated systems diversify revenues. A replicable agroforestry model for Mantiqueira coffee-based agriculture will drastically improve soil conservation and crop resilience, while building a new sustainable productive paradigm.  "},{"text":"Table 1 . Complete information of (a) design, (b) table of quantities and (c) general costs. Shade-grown coffee, Terra Preta de Indio, desertification, Anthropogenic Dark Earth, Soil conservation. Strengthening links between science, society and policy 20-22 May 2019 20-22 May 2019 Le Corum, Montpellier, France Le Corum, Montpellier, France  "},{"text":"Book of Abstracts L18_O.01 Silvoarable agroforestry systems in temperate regions: impact of tree Pardon P. 1 (paul.pardon@ilvo.vlaanderen.be), Reubens B. 2 , Reheul D. 3 , Mertens J. 3 , Coussement T.4 , Verheyen K.3    1 ILVO & UGent, Merelbeke, Belgium; 2 ILVO, Merelbeke, Belgium; 3 UGent, Ghent, Belgium; 4 BDB, 1 ILVO & UGent, Merelbeke, Belgium; 2 ILVO, Merelbeke, Belgium; 3 UGent, Ghent, Belgium; 4 BDB, Leuven, Belgium Leuven, Belgium  "},{"text":"L18 Annual crops AF 4 th World Congress on Agroforestry    L18_O.03 L18_O.03  20-22 May 2019 Book of Abstracts 20-22 May 2019Book of Abstracts Strengthening links between science, society and policy Le Corum, Montpellier, France Strengthening links between science, society and policyLe Corum, Montpellier, France  "},{"text":" Ratio of carotenoids to total chlorophyll in leaf tissue of barley and wheat at flowering stage in 0%, 10% and 50% of shade treatments. High values indicate greater thermal dissipation.Panozzo A.1 (nn.panozzo@gmail.com), Desclaux D. 2 , Bernazeau B. 2 , Huang H. 2   L18 Annual crops AF L18 Annual crops AF   L18_O.04 L18_O.04 morphology of different durum wheat cultivars  morphology of different durum wheat cultivars 1 Department. of DAFNAE, University of Padova, Legnaro (PD), Italy; 2 INRA -DiaScope unit, Mauguio - 1 Department. of DAFNAE, University of Padova, Legnaro (PD), Italy; 2 INRA -DiaScope unit, Mauguio - Domaine de Melgueil, France   Domaine de Melgueil, France 4 th World Congress on Agroforestry 20-22 May 2019 Book of Abstracts 4 th World Congress on Agroforestry20-22 May 2019Book of Abstracts Strengthening links between science, society and policy Le Corum, Montpellier, France  Strengthening links between science, society and policyLe Corum, Montpellier, France  "},{"text":"L18 Annual crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L18_O.07 Corn yield in different integrated crop-livestock systems: the effect of shade Pontes L. D. S. (laisepontes@iapar.br), Stafin G., Rodrigues D., Moletta J. L. IAPAR, Ponta Grossa, Paraná, Brazil IAPAR, Ponta Grossa, Paraná, Brazil  "},{"text":"L18 Annual crops AF 4 th World Congress on Agroforestry    L18_O.08 L18_O.08  20-22 May 2019 Book of Abstracts 20-22 May 2019Book of Abstracts Strengthening links between science, society and policy Le Corum, Montpellier, France Strengthening links between science, society and policyLe Corum, Montpellier, France  "},{"text":"L18 Annual crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L18_O.10 Effect of water gradient on the intensity of competition and productivity of annual crops intercropped with olive trees Temani F.1 (fida.temani@cirad.fr), El Mrini S. 2 , Daoui K. 3 , Bouaziz A. 2 , Wery J. 4 , Barkaoui K.1    1 Cirad, Montpellier, France; 2 IAV-HassanII, Rabat, Morocco; 3 INRA, Meknès, Morocco; 4 ICARDA, Cairo, 1 Cirad, Montpellier, France; 2 IAV-HassanII, Rabat, Morocco; 3 INRA, Meknès, Morocco; 4 ICARDA, Cairo, Egypt Egypt  "},{"text":"L18 Annual crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L18.P.04 Interaction Tree crop and agroforestry parkland Intermediate tree cover can maximize groundwater recharge in dry tropics Bazié H. R. 1 (baziehugues@yahoo.fr), Bayala J. 2 , Ilstedt U. 3 , Sanou J.4 , Bargués Tobella A.5    1 Agroforestry-plant biology and physiolog, University of Ouagadougou, Ouagadougou, Burkina Faso; 1 Agroforestry-plant biology and physiolog, University of Ouagadougou, Ouagadougou, Burkina Faso; 2 ICRAF, Bamako, Mali; 3 SLU, Umea, Sweden; 4 INERA, Ouagadougou, Burkina Faso; 5 SLU-ICRAF, 2 ICRAF, Bamako, Mali; 3 SLU, Umea, Sweden; 4 INERA, Ouagadougou, Burkina Faso; 5 SLU-ICRAF, Umea, Sweden Umea, Sweden  "},{"text":"L18 Annual crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L18.P.05 Influence of the lenght of the crown of Anacardium occidentale L. on  Cheikh Oumar S. 1 (omarsamb2004@yahoo.fr), Mamadou B. 2 , Elhadji F. 3 , Cheikh Oumar S. 1 (omarsamb2004@yahoo.fr), Mamadou B. 2 , Elhadji F. 3 , Mouhamadou Moustapha D. 1 Mouhamadou Moustapha D. 1 1 CNRF, ISRA, Dakar, Dakar, Senegal; 2 ISFAR, UT, Bambey, Bambey, Senegal; 3 ISFAR, Université de 1 CNRF, ISRA, Dakar, Dakar, Senegal; 2 ISFAR, UT, Bambey, Bambey, Senegal; 3 ISFAR, Université de Thies, Bambey, Bambey, Senegal Thies, Bambey, Bambey, Senegal  "},{"text":"L18 Annual crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L18.P.06 Tree-row proximity did not increase soil organisms presence or soil fertility in two temperate alley-cropping systems D 'Hervilly C. 1 (c.dhervilly@gmail.com),Marsden C. 2 , Hedde M. 1 , Bertrand I.1    1 INRA, Montpellier, France; 2 Montpellier SupAgro, Montpellier, France 1 INRA, Montpellier, France; 2 Montpellier SupAgro, Montpellier, France  "},{"text":"L18 Annual crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L18.P.07 Trees and tree row herbaceous vegetation impact soil organisms distribution in a market gardening agroforestry plot D 'Hervilly C.1 (c.dhervilly@gmail.com), Marsden C. 2 , Delapré-Cosset L. 1 , Capowiez Y. 3 , Bertrand I. 1 1 INRA, Montpellier, France; 2 Montpellier SupAgro, Montpellier, France; 3 INRA, Avignon, France  "},{"text":"L18 Annual crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L18.P.09 Conventional AF : an oxymoron for the planet! -Organic AF: an oxymoron for crop breeding?… Towards OrgAgroforestry  Desclaux D. (dominique.desclaux@inra.fr) Desclaux D. (dominique.desclaux@inra.fr) INRA, Mauguio, France INRA, Mauguio, France  "},{"text":"L18 Annual crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L18.P.10 Faidherbia albida improves maize productivity and carbon sequestration in a parkland agroforestry system in Ethiopia Dilla A.1 (amdilla@utas.edu.au), Smethurst P. 2 , Barry K.3 , Parsons D.4 , Denboba M.5    1 University of Tasmania, Hobart, Tasmania, Australia; 2 CSIRO, Private Bag 12, Hobart TAS 7001, Hobart, 1 University of Tasmania, Hobart, Tasmania, Australia; 2 CSIRO, Private Bag 12, Hobart TAS 7001, Hobart, Tasmania, Australia; 3 Tasmanian Institute of Agriculture, Hobart, Tasmania, Australia; 4 Swedish Univer- Tasmania, Australia; 3 Tasmanian Institute of Agriculture, Hobart, Tasmania, Australia; 4 Swedish Univer- sity of Agricultural Scien, Umeå, Sweden; 5 Addis Ababa University, Addis Ababa, Ethiopia sity of Agricultural Scien, Umeå, Sweden; 5 Addis Ababa University, Addis Ababa, Ethiopia  "},{"text":".11 Alley cropping of tomato improves fruit quality and profitability: experience from plain land ecosystem of Bangladesh Hanif ). Maize production, C sequestration and profitability could be improved by partial pruning, and by preferentially applying fertilisers in normal and wet years. M. A.1 (hanif_hstu@yahoo.com), Abdullahi Omar M. 2 , Sarker M. 3 , Bari M. S.4      L18 Annual crops AF L18 Annual crops AF L18.P1 South China Botanical Garden, Guangzhou, Guangdong, Bangladesh; 2 Benadir University, Mogadishu, L18.P1 South China Botanical Garden, Guangzhou, Guangdong, Bangladesh; 2 Benadir University, Mogadishu, Somalia; 3 Food Process and Preservation, Hajee Mohammad Denesh Sci. &Tech. Univ., Dinajpur, Somalia; 3 Food Process and Preservation, Hajee Mohammad Denesh Sci. &Tech. Univ., Dinajpur, Bangladesh; 4 Agroforestry and Environment, Hajee Mohammad Denesh Sci. &Tech. Univ., Dinajpur, Bangladesh; 4 Agroforestry and Environment, Hajee Mohammad Denesh Sci. &Tech. Univ., Dinajpur, Bangladesh   Bangladesh 4 th World Congress on Agroforestry 20-22 May 2019 Book of Abstracts 4 th World Congress on Agroforestry20-22 May 2019Book of Abstracts Strengthening links between science, society and policy Le Corum, Montpellier, France  Strengthening links between science, society and policyLe Corum, Montpellier, France  "},{"text":"L18 Annual crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L18.P.13 Nitrogen-fixing tree hedges to fertilize crops on acid tropical soil Kadir W. R.1 (rashidah@frim.gov.my), Zaharah A. R.2 1 Forest Plantation Programme, Forest Research Institute Malaysia, Kepong, Selangor, Malaysia; 2 Soil Management, Universiti Putra Malaysia, Serdang, Selangor, Malaysia  "},{"text":"4 th World Congress on Agroforestry   "},{"text":"of Abstracts L18.P.14 Evaluation of Colocasia esculenta L. germplasm under poplar based agroforestry system Kukreti A. 1 (akshitkukreti1@gmail.com),Singh R. 2 , Lavania S. 3    1 Silviculture and FM Division, Forest Research Institute, DEHRADUN, Uttarakhand, India; 2 Agrofo- 1 Silviculture and FM Division, Forest Research Institute, DEHRADUN, Uttarakhand, India; 2 Agrofo- restry, GB Pant University, US Nagar, Uttarakhand, India; 3 Agronomy, GB Pant University, US Nagar, restry, GB Pant University, US Nagar, Uttarakhand, India; 3 Agronomy, GB Pant University, US Nagar, Uttarakhand, India Uttarakhand, India  "},{"text":"Table - 1 : Yield of Colocasia esculenta under open condition and poplar based agroforestry system. Fig. 1: pH content in soil before planting and after harvesting of taro   L18 Annual crops AF L18 Annual crops AF   L18.P.16 L18.P.16 4 th World Congress on Agroforestry 20-22 May 2019 Book of Abstracts 4 th World Congress on Agroforestry20-22 May 2019Book of Abstracts Strengthening links between science, society and policy Le Corum, Montpellier, France  Strengthening links between science, society and policyLe Corum, Montpellier, France  "},{"text":"L18 Annual crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L18.P.17 Soybean yield and feed value in a SRC poplar alley-cropping system: preliminary results from a field trial in Italy Mantino A.1 (alberto.mantino@santannapisa.it), Pecchioni G. 1 , Volpi I. 1 , Bosco S. 1 , Dragoni F. 1 , Giannini V. 1 , Micci M. 2 , Cappucci A. 3 , Mele M. 3 , Ragaglini G.1    1 Institute of Life Sciences, Sant'Anna School of Advanced Studies, Pisa, Italy; 2 Department of 1 Institute of Life Sciences, Sant'Anna School of Advanced Studies, Pisa, Italy; 2 Department of agricultural sciences, University of Perugia, Perugia, Italy; 3 Department of agriculture, University of agricultural sciences, University of Perugia, Perugia, Italy; 3 Department of agriculture, University of Pisa, Pisa, Italy Pisa, Pisa, Italy  "},{"text":"L18 Annual crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L18.P.19 Climatic variability and the role of trees in influencing maize productivity in semi-arid Kenya Njoroge J.1 (juliusmnjoroge@gmail.com),Muthuri C. 1 , Kuya S. 2 , Nyaga J. 1 , Sinclair F.1   1 Systems Science, ICRAF, Nairobi, Kenya; 2 Botany,JKUAT, Nairobi, Kenya    The influence of mixed-species agroforestry systems in contrast to monocultures on crop productivity has not been widely examined in semi-arid Kenya. Pilot trials have to account for yield gaps as influenced by variability in rainfall and temperature. We evaluated performance of agroforestry trees (Acacia seyal, Acacia xanthophloea, Cordia africana, Faidherbia albida and Grevillea robusta) in sole and mixed species treatments in an on-station experiment at Jomo Kenyatta University of Agriculture and Technology farm and their influence on associated maize crops. Light interception was measured as above-ground interaction component. The trial was laid out in Randomized Complete Block Design covering 3.2-hectares. Tree growth was observed to vary with rainfall patterns while flowering in C. africana and A. seyal was influenced by changes in temperature. Rainfall distribution rather than intensity was also observed to be most critical for maize productivity and was evident in 2014/15 season where 93% of rainfall was received in one month resulting in crop failure. Average maize yields 2015/16(1.4 t ha-1). Overall, G. robusta had the largest mean height(3.8m) and annual growth rate (1.3m yr-1); F. albida was slowest with corresponding values of 1.9m and 0.6m yr-1 respectively. Yields in agroforestry treatments consisting of C. africana and mixed species were 28% and 13% higher relative to control during the 2015/16 season. Canopy transmittance was higher in mixed-species (24%) compared to C. africana treatment (18%) while F. albida canopy was still developing. This study presents new information on the combined influence of differing canopies and suggest potential synergistic complementarity in mixed-species systems. Modeling below and above-ground interactions is considered the way forward in advancing the call for mixed-species systems and therefore a good basis for scaling within similar agro-ecologies.   L18 Annual crops AF L18 Annual crops AF   L18.P.20 L18.P.20 Keywords: Agricultural productivity, Agroforestry, Mixed-species, Light interception, Climatic Keywords: Agricultural productivity, Agroforestry, Mixed-species, Light interception, Climatic variability.   variability. 4 th World Congress on Agroforestry 20-22 May 2019 Book of Abstracts 4 th World Congress on Agroforestry20-22 May 2019Book of Abstracts Strengthening links between science, society and policy Le Corum, Montpellier, France  Strengthening links between science, society and policyLe Corum, Montpellier, France  "},{"text":"L18 Annual crops AF 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L18.P.23 Pollarding Faidherbia albida tree reduces complementarily benefits Toib A. A.1 (awol.assefa@aau.edu.et),Muthuri C. 2 , Gebrekirstos A.3 , Meles Hadgu K.4 , Sinclair F. 5 , Fetene M.1    1 Plant Biology & Biodiversity Management, Addis Ababa University, Addis Ababa, Ethiopia; 1 Plant Biology & Biodiversity Management, Addis Ababa University, Addis Ababa, Ethiopia; 2 Ecophysiology, World Agroforestry Centre (ICRAF), Nairobi, Kenya; 3 Ecophysiology/Dendrochrono- 2 Ecophysiology, World Agroforestry Centre (ICRAF), Nairobi, Kenya; 3 Ecophysiology/Dendrochrono- logy, World Agroforestry Centre (ICRAF), Nairobi, Kenya; 4 World Agroforestry Centre, Addis Ababa, logy, World Agroforestry Centre (ICRAF), Nairobi, Kenya; 4 World Agroforestry Centre, Addis Ababa, Ethiopia; 5 Bangor University, Bangor, Wales Ethiopia; 5 Bangor University, Bangor, Wales  "},{"text":" To meet the fencing and fuel wood demands in this area, research should enhance informed policy and decision makings through supporting design, testing and adoption of best-fit and climate smart agroforestry options in Ethiopia and beyond.   L18 Annual crops AF L18 Annual crops AF   L18.P.24 L18.P.24 Keywords: Faidherbia albida, Mojo, Reverse phenology, Sap volume, Water relation. Keywords: Faidherbia albida, Mojo, Reverse phenology, Sap volume, Water relation. 4 th World Congress on Agroforestry 20-22 May 2019 Book of Abstracts 4 th World Congress on Agroforestry20-22 May 2019Book of Abstracts Strengthening links between science, society and policy Le Corum, Montpellier, France  Strengthening links between science, society and policyLe Corum, Montpellier, France  "},{"text":" 1    1 Chemistry, Faculty of Sciences and Techniques, Tangier, Morocco; 2 soil, plant and water, INRA, 1 Chemistry, Faculty of Sciences and Techniques, Tangier, Morocco; 2 soil, plant and water, INRA, Meknes, Morocco Meknes, Morocco  "},{"text":"promoting rural development by increasing tree-animal-pasture relationships    Abstracts Abstracts AbstrActs  AbstrActs  -L19 -  -L19 - Silvopastoral system:   Silvopastoral system: 4 th World Congress on Agroforestry strengthening links between science, society and policy 20-22 May 2019 Le corum, Montpellier, France Book of Abstracts 4 th World Congress on Agroforestry strengthening links between science, society and policy20-22 May 2019 Le corum, Montpellier, FranceBook of Abstracts  "},{"text":"L19 Silvopastoralism 4 th World Congress on Agroforestry Strengthening   "},{"text":"Book of Abstracts L19_O.04 Improving pastures for shading conditions: adaptive responses of legume species in a Mediterranean silvopastoral system Franca A. (antonio.franca@cnr.it),Dettori D., Nieddu D., Sanna F.     CNR ISPAAM, Sassari, Sardinia, Italy CNR ISPAAM, Sassari, Sardinia, Italy  "},{"text":" Monti, North-East of Sardinia, Italy. Three pasture types were compared (pasture oversown with Fertiprado commercial legume mixture; pasture oversown with ISPAAM mixture based on native pasture species; and native pasture) under and outside of the tree canopy. The composition of mixtures was as follows: ISPAAM -40% Trifolium subterraneum cv Campeda, 40% Medicago polymorpha cv Anglona, 20 % Lolium rigidum cv Nurra.  "},{"text":"L19 Silvopastoralism 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L19_O.06 Trees and pastures: building integrated production systems in Amazonia Olival A.1 (aolival@unemat.br), Morais J. 2 , Olveira R. 2 , Souza S.3   1 NAFA, Universidade do Estado de Mato Grosso, Alta Floresta, Mato Grosso, Brazil; 2 Universidade Federal de São Carlos, Araras, SãoPaulo, Brazil; 3 Instituto Ouro Verde, Alta Floresta, Mato Grosso,  Brazil     "},{"text":"L19 Silvopastoralism 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L19_O.09 Silvopastoral agroforestry for off-setting greenhouse gas emissions from cattle farming systems in Costa Rica Brook R. 1 (r.m.brook@bangor.ac.uk), Forster E. 2 , Addis J. 2 , Styles D.2 , Mancebo-Mazetto A.2   1 Agriculture, livestock and agroforestry, Bangor University / CATIE, Turrialba, Cartago, Costa Rica; 2 School of Natural Sciences, Bangor University, Bangor, Gwynedd, United KingdomThere is concern about greenhouse gas emissions from cattle farming systems, particularly methane from enteric fermentation and nitrous oxide from excessive application of nitrogenous fertilizers. Latin America produces 28% of the world's total live cattle, yielding 15% of milk and 25% of beef meat, globally. Costa Rica has >37,000 livestock farms with 1.4 million head, occupying one-third of the land area; ruminant methane production and N fertiliser use account for 69% of agricultural GHG emissions (CO2e). There have been several studies of the potential of trees to sequester carbon in silvopastoral systems but only as a standing stock and none linked to a life cycle analysis (LCA). In September-October 2016 all the fences of the commercial dairy farm at CATIE, Costa Rica, were surveyed. In February-March 2018 a further two fields of the beef part of the enterprise were surveyed. On the dairy farm there were 33.1 km of fences, of which 22.4 km were live fences, ranging from simple pollarded stumps (2.2. km) to complex, multi-storey structures (5.2 km), and 119 individual trees not in fences. The area of the dairy farm was 62.1 ha, of which 42.0 ha were silvopastoral. The dominant tree species were Erythrina fusca, Tricanthera gigantea and Gliricidia sepium. The dominant grass species were tanner grass (Brachiaria arrecta) and gramalote (B. mutica). Using the model developed byBrown & Iverson (1992), the above ground C stock in trees was 12.3 t/ha on the silvopastoral part of the farm. The trees will be remeasured in February 2019 to calculate a rate of sequestration of C, which has hitherto never been included in a tropical dairy LCA. In the two beef paddocks, living fences were more mature and C stock was calculated as 30 t/ha, indicating a significant potential rate of sequestration. Soil C stock (15-30 cm stratum) was 72 t/ha under the steady state beef cattle pastures.  "},{"text":"L19 Silvopastoralism 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L19.P.05 Tree-species effect on forage and microclimate in a silvopasture system of the Southeast USA  Castillo M. 1 (mscastil@ncsu.edu), Tiezzi F. 2 Castillo M. 1 (mscastil@ncsu.edu), Tiezzi F. 2 1 Crop & Soil Sciences, North Carolina State University, Raleigh, NC, United States; 2 Animal Science, 1 Crop & Soil Sciences, North Carolina State University, Raleigh, NC, United States; 2 Animal Science, North Carolina State University, Raleigh, NC, United States North Carolina State University, Raleigh, NC, United States  "},{"text":"L19 Silvopastoralism 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L19.P.09 Long-term monitoring of grafted honeylocust trees for the production of fodder pods Dupraz C. (christian.dupraz@inra.fr), Dufour L., Bourdoncle J.-F., Sellier A.  "},{"text":"L19 Silvopastoralism 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L19.P.17 value of fodder tree leaves Mahieu S. 1 (stephanie.mahieu@inra.fr), Emile J. C. 1 , Barre P. 2 , Delagarde R. 3 , Novak S.1    1 FERLus, INRA, 86600 Lusignan, France; 2 UR4, URP3F, INRA, 86600 Lusignan, France; 3 Pegase, 1 FERLus, INRA, 86600 Lusignan, France; 2 UR4, URP3F, INRA, 86600 Lusignan, France; 3 Pegase, INRA-Agrocampus Ouest, 35590 Saint Gilles, France INRA-Agrocampus Ouest, 35590 Saint Gilles, France  "},{"text":"Table 1 : Effect of tree species, season and management (pollard vs high stem) on leaves dry matter, crude protein, neutral detergent fibre (NDF) and ash content and enzymatic digestibility. L19 Silvopastoralism L19 Silvopastoralism  "},{"text":"of Abstracts L19.P.19 Impact of pig activity in soil compaction of oak forests under silvopastoralism Mendarte S.  (smendarte@neiker.eus), Lizarralde J., Albizu I. Conservation of Natural Resources, NEIKER-Tecnalia, Derio, Bizkaia, Spain Conservation of Natural Resources, NEIKER-Tecnalia, Derio, Bizkaia, Spain  "},{"text":" : resistance to soil penetration, grazing, endangered breeds, Quercus faginea, natural forests.Dual purpose cattle systems in Valle del Cesar are based on grazing of grasses and grasslands. The integration of shrubs and wood trees in grazing areas is still occasional adopted by farmers. Milk yield and composition (total solids, fat and protein content) for cows Zebu x Swiss brown at the early (experiment 1) and mid lactation stage (experiment 2) were evaluated for silvopastoral systems that integrated Eucalyptus camaldulensis and Leucaena leucocephala with Brachiaria hybrid Mulato II (T1), Brachiaria brizantha cv. Toledo (T2), Brachiaria brizantha cv. Marandú (T3) and Megathyrsus maximus cv. Tanzania (T4). Wood measurement variables for carbon stock in aerial biomass from E. camaldulensis were determined. The crop or harvest period for Leucaena and grasses was 49 and 32 days in the experiments, 1 and 2, respectively. The initial establishing density of E. camaldulensis was 500 trees per hectare with harvest projection for fencing post at six years and final plot density of 300 trees per hectare.  "},{"text":": Feeding cows, forages, silvopastoral systems, Leucaena, Colombian Caribbean Region. L19 Silvopastoralism L19 Silvopastoralism 4 4  "},{"text":"Table 1 : Studies implemented in three European countries to answer questions of farmers expressed in the framework of the EU FP7 AgForward project   "},{"text":"of Abstracts L19.P.24 silvopastoral system in W. Greece Pantera A.1 (pantera@teiste.gr), Mosquera-Losada R. 2 , Papadopoulos A.1     "},{"text":"of Abstracts L19.P.26 Meriagos wooded grasslands: the main type of agrosilvopastoral systems of Sardinia Pulina 1,867 & 2,154 and 20 & 30  tree species for SPS 3 and SPS 17, respectively. The soil cover values in the dry season were 48% for both SPS systems and 12% for DP. The average mulch cover values (g m -2 ) ranged from less than 100 in DP to 420 inSPS  3 and 1,200 in SPS 17. For SPS 17, the annual dry matter productivity (cactus+grass+trees) was estimated as 40 Mg ha -1 and the annual biophysical water storage in cactus (assessed as 85% of fresh weight) was 215 Mg ha -1 . Costs and profits associated with this innovative SPS indicated fast (one year) returns on cactus investment. Through a series of interviews, the farmer's views on factors influencing adoption of the system by other producers were evaluated. Main constraints to adoption included pressure from local deforestation and extensive grazing practices. The study clearly indicates the promising potential of innovative SPS for recovery and rehabilitation of degraded areas, which deserves serious consideration by development and research agencies. G.1 (gpulina@uniss.it), Patteri G. 2 , Piras G.3 ,Mele S. 4 , Manca M. 4 , Carroni A. M.51 Animal science, University of Sassari, Sassari, Italy; 2 FoReSTAS -Sardinia Agency of Forestry, Cagliari, Italy; 3 FoReSTAS -Sardinia Agency ofForestry, Oristano, Italy; 4 FoReSTAS -Sardinia Agency ofForestry, Nuoro, Italy; 5 CREA -FoReSTAS, Nuoro, Italy   Sardinia is the second largest Island in the Mediterranean Sea (24.090 square kilometers). This region has a high degree of natural environments and it is the richest in woodlands. Here, the management practice of agroforestry shaped a mosaic of agricultural and forest landscapes by the action of livestock farming systems, characterized by almost 4 million of sheep, goats, cattle and pigs(ISTAT 2014(ISTAT  -2016)). L19 Silvopastoralism L19 Silvopastoralism 4 4  "},{"text":"L19 Silvopastoralism 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L19.P.27 Light intensity affects N-fixation and forage performances of legume swards in a Mediterranean agroforestry system Re G. A. (giovanniantonio.re@cnr.it), Piluzza G.,Sanna F., Campesi G., Sassu M. M.,  Stangoni A. P., Dettori D., Sulas L.    Mediterranean agroforestry systems, which integrate perennial woody plants with livestock, pastures and/or forage crops benefit from legume establishment. The sown of biodiverse permanent pastures rich in legumes is recognized as an economically rational strategy to increase grassland productivity and sustainability. This study is aimed at evaluating the forage performances and N fixation ability of different legume based swards, which were subjected to variations in light intensity. The research was carried out in a cork oak Mediterranean agrosilvopastoral system in Sardinia, where open areas with full sunlight exposition (FS) and areas under tree canopy with partial shade conditions (PS), under a cork oak density of 450 trees ha-1 were identified. Light levels of photosynthetically active radiation were measured using a canopy analysis system. For both FS and PS plots, arranged in a completely randomized design with three replications, four legume based swards were compared: Fertiprado legume mixture (100% legume composition), CNR ISPAAM mixture (80%), Bladder clover pure sward and semi-natural pasture (60%). Dry matter yield and botanic composition were determined on five sampling areas per plot and forage subsamples were analysed for bromatological composition. The N2 fixation was estimated by 15N isotopic dilution method (Unkovich et al. 2010), using barley as a non-fixing reference species. Light interception by cork trees ranged from 85 to 70% in January and May, respectively, due to the different solar azimuth angle of the seasons. Beneath cork oak cover with a PS (70% of light interception), aboveground dry matter yield represented 41, 45, 46 and 52% compared to the corresponding values under FS of legume based swards under comparison, namely unsown semi natural pasture, CNR mixture, bladder clover pure sward and Fertiprado, respectively. Crude protein content significantly increased (up to 57%) in PS, whereas Neutral Detergent Fibre was not significantly affected by light intensity. Results pointed out that the rates on N derived from the atmosphere by the understory legumes, were about half than the corresponding values obtained under FS, except for semi-natural pasture. In fact, PS significantly increased shoot N percentage and atom% 15N excess of understory legume based swards but, in meantime, decreased their absolute rates of N fixation, compared to the same legume swards growing in FS. Moreover, PS led to longer shoots and wider plant leaf area in several legume species, whereas leaf chlorophyll contents were unaffected by light intensity. Photosystem efficiency ratio was also affected by light intensity. Research highlight relevant variations in legume plant biomass yield and traits and clear reductions in N derived from atmosphere rates caused by light interception under PS. Results could had been also affected by differences in nutrient competition, microbiota and mineral N in the soil beneath trees. L19 Silvopastoralism L19 Silvopastoralism ISPAAM, CNR, Sassari, Italy ISPAAM, CNR, Sassari, Italy 4 4  "},{"text":"of Abstracts L19.P.28 Bioactive compounds of legume based swards are affected by light intensity in a Mediterranean agroforestry system Re G. A.1 (giovanniantonio.re@cnr.it), Piluzza G. 1 , Sanna F. 1 , Molinu G. M. 2 , Sassu M. M.1 , Stangoni A. P. 1 , Dettori D. 1 , Sulas L.1   1 ISPAAM, CNR, Sassari, Italy;2 ISPA, CNR, Sassari, Italy   In Mediterranean grazed woodlands, microclimate changes induced by trees influence the growth and development of the understory but very little is known about its phenolic composition in relation to the contrasting exposure to full sunlight or shade. Phenolic acids, flavonoids and tannins are the most important compounds for biological activities and especially antioxidant properties and related implications in animal nutrition and welfare. The research was carried out in a cork oak agrosilvopastoral system in Sardinia, where we investigated the bioactive compounds and antioxidant capacity of different legume-based swards subjected to variations in light intensity. Open areas with full sunlight exposition (FS) and areas under tree canopy with partial shade conditions (PS), under a cork oak (Quercus suber L.) density of 450 trees ha-1 were carefully identified. Light levels of photosynthetically active radiation were measured using a SunScan canopy analysis system (Delta-T Devices, Cambridge, UK). For both FS and PS, the following legume based swards were compared: Fertiprado commercial legume mixture, with 100% annual legume composition, CNR ISPAAM mixture, with 80% legume composition, Bladder clover, Trifolium spumosum L., elite Sardinian accession pure sward and semi natural pasture with 60% of legume composition. Total phenolics, total flavonoid and antioxidant capacity were determined and single phenolic compounds were identified. Light interception by cork trees was 85, 77 and 70% in January, April and May, respectively due to the different solar azimuth angle of the seasons. The antioxidant capacity, total phenolics and total flavonoid of the different legume-based swards were significantly affected by the contrasting conditions of light intensity, as well as by the type of legume-based sward. Compared to full sunlight, partial shade reduced antioxidant capacity values by 29 and 42%, and total phenolics content by 23 and 53% in Fertiprado and semi natural pasture. Twelve phenolic compounds were detected, verbascoside in bladder clover mixture was the most abundant in full sunlight and neochlorogenic acid and isorientin were abundant in partial shade in CNR ISPAAM mixture and in unsown semi-natural pasture respectively.  "},{"text":"of Abstracts L19.P.31 Assessment of the resprouting capacity and forage biomass production It is concluded that T. diversifolia has a wide phenotypic diversity and adaptation to different agroecological conditions, with high quality provenances that offer greater nutritional contributions for different species of domestic animals and potential to contribute to the income and welfare of livestock producers. RuaBustamante C.  (crua@agrosavia.co), Zambrano Ortiz J. R.,Lombo D.     L19 Silvopastoralism L19 Silvopastoralism 3.29), extract ether (EE) (1.6% ± 0.67), Calcium (Ca) (2.3%), acid detergent fiber (ADF) (44.99 ± 9.43) and neutral detergent fiber (NDF) (46.82 ± 12.52) index of 0.281 and a Shannon index of 0.432. The inclusion of T. diversifolia in bovine systems increased the animal load and milk production ha-1 year-1 (3.7 ± 0.11 and 0.5 ± 0.1, and 6605 Internal Rate of Return, had values of 3.40 and -0.10 with a Benefit / Cost ratio of 3.20 and 4 Investigación, Corporación Colombiana de investigación, Codazzi, Cesar, Colombia 3.29), extract ether (EE) (1.6% ± 0.67), Calcium (Ca) (2.3%), acid detergent fiber (ADF) (44.99 ± 9.43) and neutral detergent fiber (NDF) (46.82 ± 12.52) index of 0.281 and a Shannon index of 0.432. The inclusion of T. diversifolia in bovine systems increased the animal load and milk production ha-1 year-1 (3.7 ± 0.11 and 0.5 ± 0.1, and 6605 Internal Rate of Return, had values of 3.40 and -0.10 with a Benefit / Cost ratio of 3.20 and 4 Investigación, Corporación Colombiana de investigación, Codazzi, Cesar, Colombia  "},{"text":"Abstracts AbstrActs 4 th World Congress on Agroforestry strengthening   "},{"text":"L20 Agroecology 4 th World Congress on Agroforestry Strengthening   "},{"text":"Book of Abstracts L20_O.06 Ecosystem service interactions under agroecological management transition in European almond orchards Leijster V.1 (v.deleijster@uu.nl), Santos M. J. 2 , Ramos-Font M. E. 3 , Robles-Cruz A. B. 3 , Wassen M. J. 1 , Verweij P. A.1    1 Sustainable Development, Utrecht University, Utrecht, The Netherlands; 2 Geography, University of 1 Sustainable Development, Utrecht University, Utrecht, The Netherlands; 2 Geography, University of Zürich, Zürich, Switzerland; 3 Estación Experimental del Zaidín, CSIC, Granada, Spain Zürich, Zürich, Switzerland; 3 Estación Experimental del Zaidín, CSIC, Granada, Spain  "},{"text":"L20 Agroecology 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L20_O.10 Multilayer agroforestry: the missing link  Torquebiau E. (emmanuel.torquebiau@cirad.fr) Torquebiau E. (emmanuel.torquebiau@cirad.fr) CIRAD -UR AIDA, Univ Montpellier, Montpellier, France CIRAD -UR AIDA, Univ Montpellier, Montpellier, France  "},{"text":"of Abstracts L20.P.06 Evaluation of alley cropping agroforestry potential in northeastern France Marron JFs respectively. The maximum change in percentage of each parameter in AMOEBA graph was recorded in eight-years AB-JF, followed by four-year AB-JF and minimum in two-year T-JF. Considering SQI with the reference RF as 100%, an increased SQI in AB-JF as compare to TJ-F was observed. This investigation shows the advantage of symbiotic relation of Frankia and A. nepalensis in Alder-based over traditional Jhum cultivation in fallow management.ConclusionUnderstanding of nutrient cycling potentials in these Jhum agroecosystems, will promote the co-existence of forest, sustainable food production and restoration of soil health in south-east Asian Jhum agroecosystems by adopting Alder-based Jhum as short duration fallow management in agroforestry. N. 1 (nicolas.marron@inra.fr), Piutti S. 2 , Lacroix T.3 , Cochard P. 4 , Amiaud B. 5 , Cuntz M. 1 , Dallé E. 1 , Epron D. 5 , Laflotte A. 6 , Petitjean C. 2 , Plain C. 5 , Thérond O. 7 1 UMR Silva, INRA Grand-Est -Nancy, Nancy, France; 2 UMR LAE, Université de Lorraine, Nancy, France; 3 Chambre d'Agriculture des Vosges, Epinal, France; 4 Chambre d'Agriculture de l'Aube, Marigny-le-Chätel, France; 5 UMR Silva, Université de Lorraine, Nancy, France; 6 Ferme Expérimentale de la Bouzule, Université de Lorraine, Champenoux, France; 7 UMR LAE, INRA Grand-Est -Colmar, France Major Result All parameters were significantly increased with relative increase of Jhum PMN, MBC, PHA and DHA were decreased at the rate of 13.79%, 8%, 40%, 23%, 5%, 21% in AB-JFs and 17.13%, 12%, 30%, 23%, 9%, 24% in T-JFs, while the other parameters like pH, EC, Avl-P and Avl-K were increased at 4.9%, 14.6%, 7%, 22% in AB-JFs and 4.6%, 18.64%, 12%, 27% in T-L20 Agroecology Major Result All parameters were significantly increased with relative increase of Jhum PMN, MBC, PHA and DHA were decreased at the rate of 13.79%, 8%, 40%, 23%, 5%, 21% in AB-JFs and 17.13%, 12%, 30%, 23%, 9%, 24% in T-JFs, while the other parameters like pH, EC, Avl-P and Avl-K were increased at 4.9%, 14.6%, 7%, 22% in AB-JFs and 4.6%, 18.64%, 12%, 27% in T-L20 Agroecology 4 4  "},{"text":"L20 Agroecology 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L20.P.11 Shade tree species impacts on soil nutrient availability and food web in conventional and organic coffee agroforestry Sauvadet M.1 (marie.sauvadet@unilasalle.fr), Van den Meersche K. 2 , Allinne C. 3 , Gay F.2 , Virginio Filho E. D. M.4 , Chauvat M. 5 , Becquer T. 1 , Tixier P. 6 , Harmand J.-M.7    1 UMR Eco&Sols, IRD, Univ. Montpellier, Montpellier, France; 2 UMR Eco&Sols, CIRAD, Univ. Montpellier, 1 UMR Eco&Sols, IRD, Univ. Montpellier, Montpellier, France; 2 UMR Eco&Sols, CIRAD, Univ. Montpellier, Montpellier, France; 3 UMR System, CIRAD, Univ. Montpellier, Montpellier, France; 4 CATIE, Turrialba, Montpellier, France; 3 UMR System, CIRAD, Univ. Montpellier, Montpellier, France; 4 CATIE, Turrialba, Costa Rica; 5 Ecodiv, Normandie Université, Mont Saint Aignan, France; 6 UPR Geco, CIRAD, Univ. Costa Rica; 5 Ecodiv, Normandie Université, Mont Saint Aignan, France; 6 UPR Geco, CIRAD, Univ. Montpellier, Montpellier, France; 7 UMR Eco&Sols, CIRAD, ICRAF, Univ. Montpellier, Yaounde, Montpellier, Montpellier, France; 7 UMR Eco&Sols, CIRAD, ICRAF, Univ. Montpellier, Yaounde, Cameroon Cameroon  "},{"text":"L20 Agroecology 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L20.P.12 Shade tree species with Ca-enriched litter improve cocoa agroforest functions in Central Cameroon Sauvadet M.1 (marie.sauvadet@unilasalle.fr),Saj S. 2 , Freschet G.3 , Essobo Nieboukaho J.-D.4 , Enock S. 4 , Becquer T. 1 , Tixier P. 5 , Harmand J.-M.1    1 UMR Eco&Sols, Montpellier, France; 2 UMR System, Montpellier, France; 3 UMR 5175 CEFE, 1 UMR Eco&Sols, Montpellier, France; 2 UMR System, Montpellier, France; 3 UMR 5175 CEFE, Montpellier, France; 4 World Agroforestry Centre (ICRAF), Yaoundé, Cameroon; 5 UPR Geco, Montpellier, Montpellier, France; 4 World Agroforestry Centre (ICRAF), Yaoundé, Cameroon; 5 UPR Geco, Montpellier, France France  "},{"text":" . In 2017, 6 cocoa shading modalities of cocoa were studied across 8 farmers' plots (Bokito district, Cameroon): unshaded, shaded with Canarium schweinfurthii, Dacryoides edulis, Milicia excelsa, Ceiba pentandra and Albizia adianthifolia. For each shading modality, we analyzed the plant association community values of: litterfall; N and P resorption efficiency; litter C, macronutrients and tannins content; Van Soest fractions and litter pH. We measured soil C, N, NO 3 -  "},{"text":"2 1 Organic Research Centre, Newbury, United Kingdom; 2 Association Française d'Agroforesterie, Auch, France  "},{"text":"of Abstracts L21_O.10 Multipurpose trees domestication in Uruguay: synthesis of knowledge advances Bennadji Z.1 (zbennadji@inia.org.uy), Alfonso M. 2 , Nuñez P.3 1 Forestry Department, INIA Forestry Department, Tacuarembó, Tacuarembó, Uruguay; 2 Forestry Department, INIA, Tacuarembo, Uruguay; 3 Forestry Department, INIA Uruguay, Tacuarembo, Uruguay  "},{"text":"L21 AF Germplasm 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L21.P.01 Domestication potential of wild tropical promising tree species of medicinal and fruit values Baul T. K. (tarit@ifescu.ac.bd), Alam M. J., Mohiuddin M. Forestry and Environmental Sciences, University of Chittagong, Chittagong, Bangladesh Forestry and Environmental Sciences, University of Chittagong, Chittagong, Bangladesh  "},{"text":"of Abstracts L21.P.07 Fodder Trees in Agroforestry: Present Status and Challenges Handa 1, 0.2 and 0.4% IBA) concentrations, and initial growth of the rooted cuttings with the effects of different fertilizer treatment. Based on evidence from rooting percentage, survival percentage, and subsequent growth parameters (stem length, A. 1 (Arun.Handa@icar.gov.in), Dhyani S. 2 , Bhaskar S 2 , Rizvi R. 1 , Kumar A.1 1 Central Agroforestry Research Institute, Jhansi, UP, India; 2 NRM, Indian Council of Agricultural Research, New Delhi, Delhi, India  "},{"text":"L21 AF Germplasm 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L21.P.10 Genetic diversity of Cedrela odorata in the Nicaragua-Honduras Sentinel Landscape and its implications for conservation Kalousová M.1 (kalousovam@ftz.czu.cz), Palacios C.2 , van Zonneveld M.3 , Finegan B. 2 , Lojka B. 1 1 Faculty of Tropical AgriSciences, Czech University of Life Sciences Prague, Prague, Czech Republic; 2 CATIE, Turrialba, Costa Rica; 3 Genetic Resources and Seed Unit, World Vegetable Center, Shanhua, Taiwan  "},{"text":"L21 AF Germplasm 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L21.P.14 managing an agroforestry field ! Liagre F.1 (liagre@agroof.net), Santi F. 2 , Sotteau C. 3 , de Coligny F.4    1 AGROOF SCOP, Anduze, France; 2 UMR BioForA, INRA, Ardon, France; 3 A2RC, Orléans, France; 1 AGROOF SCOP, Anduze, France; 2 UMR BioForA, INRA, Ardon, France; 3 A2RC, Orléans, France; 4 UMR AMAP, IINRA CIRAD CNRS IRD Univ Montpellier, Montpellier, France 4 UMR AMAP, IINRA CIRAD CNRS IRD Univ Montpellier, Montpellier, France  "},{"text":"L21 AF Germplasm 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L21.P.19 High value tree genetic resources diversity conservation and use paradox Muchugi A.1 (a.muchugi@cgiar.org), Bramwel P. 2 , Jamnadass R. 1 , Dawson I.1   1 Tree Productivity and Diversity Theme, World Agroforestry Centre (ICRAF),Nairobi, Nairobi, Kenya;     "},{"text":"of Abstracts L21.P.22 Griffonia simplicifolia seed and leaves valorization against poverty in rural area of Togo Novidzro K. M. (donnenovi@yahoo.fr), Koudouvo K.,Melila M., Dossou B. R., Mondedji A. E.     Chimie, Université de Lomé, Lomé, Golfe, Togo Chimie, Université de Lomé, Lomé, Golfe, Togo  "},{"text":"L21 AF Germplasm 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L21.P.23 Docynia indica superior genotypes selection and their evaluation in clone trials in Northwest Vietnam Pham H T.1 (P.Thuong@cgiar.org), La N.1 , Ha V T. 2 , Harwood C.31 World Agroforestry Center (ICRAF), Hanoi, Vietnam;2 Forestry Science Center in Northwest VN, Son  La, Vietnam; 3 CSIRO Land and Water, Hobart, Australia     "},{"text":"L21 AF Germplasm 4 th World Congress on Agroforestry   "},{"text":"Book of Abstracts L22_O.01 Vertebrates contribute to natural control of the millet head miner in tree-crop agroforestry systems Strengthening links between science, society and policy 20-22 May 2019 Le Corum, Montpellier, France Sow A. 1 (s_ahmadou@yahoo.fr), Seye D. 1 , Faye E. 2 , Benoit L. 3 , Galan M. 4 , Haran J. 3 , Brévault T. 5 1 UCAD-FST, Dakar, Senegal; 2 UPR HortSys, CIRAD, Dakar, Senegal; 3 UMR CBGP, CIRAD, Montpellier, France; 4 UMR CBGP, INRA, Montpellier, France; 5 UPR AIDA, CIRAD, Dakar, Senegal  "},{"text":"of Abstracts L22_O.02 Analysis of the interactions of shade trees on coffee leaf diseases and coffee yield in complex agroforestry systems Durand-Bessart C.1 (clementine.durand.bessart@gmail.com), Tixier P. 2 , Quinteros A. 3 , Andreotti F. 4 , Rapidel B. 1 , Tauvel C. 1 , Allinne C. 1 1 CIRAD, UMR System, Montpellier, France; 2 CIRAD, UPR GECO, Montpellier, France; 3 CIRAD, UMR System, Turrialba, Costa Rica; 4 CATIE, Programa de Agricultura y Agroforesteria, Turrialba, Costa Rica Agroforestry 2019 -Regular Talk L22 Pests & diseases Agroforestry 2019 -Regular TalkL22 Pests & diseases  "},{"text":"L22 Pests & diseases 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L22_O.03 Antagonistic effects of shade on the epidemiological mechanisms driving coffee berry disease Motisi N.1 (natacha.motisi@cirad.fr), Papaïx J. 2 , Poggi S.31 BIOS/Bioagresseurs, Cirad, Montpellier, France; 2 Biostatistics and Spatial Processes,Inra, Avignon,  France; 3 IGEPP, Inra, Le Rheu, France     "},{"text":"L22 Pests & diseases 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L22_O.06 while providing ecosystem services Cerda R.1 (rcerda@catie.ac.cr),Allinne C. 2 , Gary C. 3 , Tixier P. 4 , Harvey C. 5 , Avelino J. 6 1 Agriculture, Agroforestry and Livestock, CATIE, TURRIALBA, CARTAGO, Costa Rica; 2 UMR System, CIRAD, Montpellier, France; 3 UMR System, INRA, Montpellier, France; 4 UPR GECO, CIRAD, Montpellier, France; 5 Conservation International, Arlington, United States; 6 UR Bioagresseurs, CIRAD-CATIE-IICA, Montpellier, France  "},{"text":"L22 Pests & diseases 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L22_O.08 Do cacao agroforestry systems increase pest and disease incidence? Evidences from a long-term system comparison trial Armengot Martinez L. 1 (laura.armengot@fibl.org), Ferrari L. 1 , Milz J. 2 , Velasquez F. 2 , Schneider M.1   1 FiBL, Frick, Switzerland; 2 Ecotop Consult, La Paz, Bolivia     "},{"text":"L22 Pests & diseases 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L22_O.10 Effects of complex cocoa-based agroforests on Citrus trees dieback AkoutouMvondo E. 1 (akoutoumvondoetienne@yahoo.fr), Ndo E. G. D.1 , Bidzanga Nnomo L.2 , Abondo Bitoumou J.3   1 Programme Fruits, IRAD, Yaoundé, Cameroon; 2 IRAD, Yaoundé, Cameroon; 3 Université de Dschang, Dschang, Cameroon  "},{"text":"L22 Pests & diseases 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L22.P.01 Importance of Faidherbia albida (Delile) \"Gao tree\" dieback in agroecosystems of south western Sahelian Niger. Amadou Tougiani A.1 (abasse.tougiani@gmail.com), Massaoudou M. 2 , Haougui A. 3 , Laouali A. 4 1 Natural Resources Management, Institut National de Recherche Agronomiq, Niamey, Niamey, Niger; 2 Natural Resources Management, Institut National de Recherche Agronomiq, Maradi, Maradi, Niger; 3 Crop Protection, nstitut National de Recherche Agronomiq, Niamey, Niamey, Niger; 4 Rainfed crop, Institut National de Recherche Agronomiq, Maradi, Maradi, Niger  "},{"text":"L22 Pests & diseases 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L22.P.04 Effective management and control of the mahogany shoot borer Espinoza H.1 (hernan_espinoza@fhia-hn.org), Coto J. 1 , Martinez R. 2 , Martinez A. 2 , Diaz J.2   1 Plant protection,FHIA, La Lima, Cortes, Honduras; 2 Cocoa and Agroforestry, FHIA, La Lima, Cortes,  Honduras   Mahogany, Swietenia macrophyla King, the Neotropical forests' most important commercial wood is threatened and often proposed as a species in extinction. Due to its value, mahogany is the first choice as permanent shade in cacao agroforestry systems in Honduras. However, mahogany plants are affected by early attack of the mahogany shoot borer, Hypsipyla grandella (Zeller) (Lepidoptera: Pyralidae). The insect does not kill the plant but induces branching that results in short, non-commercial boles. A team in the Honduran Agricultural Research Foundation (FHIA) conducted a series of trials to develop a strategy to prevent borer damage until 4 m bole length was reached. Experiment 1 (2010 -11). A physical barrier (tangled fiber), chemical odor masking (creolin and naphthalene vapor delivering systems) and chemical control (weekly and fortnightly spot deltamethrin application) were compared against an untreated control. Pest attack among chemical control treatments (8% weekly and 15% fortnight application) was not statistically different, but were significantly lower than the remaining treatments. Physical barrier and chemical masking were statistically similar to non-treated control. Experiment 2 (2011 -12). Deltamethrin was compared to methoxyfenozide and imidacloprid in weekly and fortnightly spray applications. Deltamethrin applications (12% and 21% damaged plants for weekly and fortnightly applications, respectively) were statistically similar to both methoxyfenozide applications (12 to 24% borer damaged plants, respectively), whereas, plants treated with imidacloprid had significantly more borer damage(34 and 78%, respectively)  than deltamethrin and methoxyfenozide applications. Experiment 3 (2013 -2014). Weekly spot spray applications of Bacillus thuringiensis and Metarhizium anisopliae were compared against weekly spot applications of deltamethrin. Borer damage was recorded in 49 and 58% of plants treated with B. thuringiensis and M. anisopliae, respectively, whereas the insecticide control had 7% damaged plants. Each trial lasted 18 months, time required for plants to reach 3.5 to 4 m height under local conditions. No borer damage was observed before 6 months after planting, therefore, plants were treated for about one year. However, borer feeding on buds continues, but it does not appear to have a significant effect on the plant. Based on these results, we recommend insecticide applications directed to the bud, alternating deltamethrin (Decis®) and methoxyfenozide (Intrepid®) every two weeks until the plant reaches the desired height. Plants attacked during the trial were pruned, selecting the best of new shoots, thus restoring the trunk linear growth. Cost is estimated at $US 20.00 per hectare per month. L22 Pests & diseases L22 Pests & diseases  "},{"text":"2 1 Physical and Environmental Sciences, University of Toronto Scarborough, Scarborough, Ontario,  Canada; 2 CIRAD, Turrialba, Cartago, Costa Rica     "},{"text":"L22 Pests & diseases 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L22.P.06 Pest-regulation service of the coffee berry borer (Hypothenemus hampei) in agroforestry systems Roudine S. 1 (sacha.roudine@gmail.com), Carval D. 2 , Quintero Perez J. A.1 , Bagny Beilhe L.1 1 UPR Bioagresseurs, CIRAD/CATIE, Turrialba, Cartago, Costa Rica; 2 UPR GECO, CIRAD, Montpellier, France  "},{"text":"L23 Root issues 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L23_O.04 Tree roots anchor soil and reduce landslide risk: case studies in Indonesia Hairiah K.1 (kurniatun_h@ub.ac.id), Widianto W. 1 , Suprayogo D.1 , van Noordwijk M.21 Soil Science, Brawijaya University, Malang, East Java, Indonesia;2 -, World Agroforestry Centre, ICRAF,  Bogor, West Java, Indonesia     "},{"text":"L23 Root issues 4 th World Congress on Agroforestry Strengthening   "},{"text":"Book of Abstracts L23.P.02 Mycorrhizal networks and nitrogen fluxes between Pterocarpus officinalis and Taro in swamp forests of Guadeloupe Galiana A.1 (antoine.galiana@cirad.fr), Geoffroy A.2 , Sanguin H. 3 , Bâ A. 4 1 LSTM, CIRAD, Le Lamentin, Martinique; 2 LSTM, University of Antilles, Montpellier, France; 3 LSTM, CIRAD, Montpellier, France; 4 LSTM/LBPV, University of Antilles, Pointe-à-Pitre, Guadeloupe  "},{"text":"L23 Root issues 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L23.P.04 Autumn photosynthetic activity and root system visualisation: Case study of hybrid Poplar NE-49 and European ash Majewski R. 1 (robert.majewski@vukoz.cz), Weger J. 2 , Barták M. 3 , Valenta J.4   Experimental Biology, MasarykUniversity, Brno, Jihomoravský Kraj, Czech Republic; 4 Applied    4 , 4, 1  1 1 Forest Botany, Dendrology and Geobiocenology, Mendel University, Brno, Jihomoravský Kraj, Czech 1 Forest Botany, Dendrology and Geobiocenology, Mendel University, Brno, Jihomoravský Kraj, Czech Republic; 2 - Republic; 2- blic; 3  blic; 3  "},{"text":"5 1 CREA OFA, CREA, Spoleto, (PG), Italy; 2 Savanna Institute, Madison, Wisconsin, USA; 3 Cary Institute of Ecosystem Studies, Millbrook, New York, USA; 4 Centro Ricerche Casaccia, ENEA, Roma, Italy; 5 Center for Agroforestry, University of Missouri, Columbia, Missouri, USA  "},{"text":"of Abstracts L24_O.03 A System Identification Approach to Process-Based Plant Growth Model Reduced-Order Parameter Estimation Elevitch C. (cre@agroforestry.org),Johnson C. R.     Electrical and Computer Engineering, Cornell University, Ithaca, New York, United States Electrical and Computer Engineering, Cornell University, Ithaca, New York, United States  "},{"text":" 3 , Gastellu-Etchegorry J.-P. 2 1 INRA UMR System, Montpellier, France; 2 CESBIO, Toulouse, France; 3 LETG-Rennes COSTEL -CNRS, Rennes, France  "},{"text":"of Abstracts L24_O.08 Using the Hi-sAFe model to test the effect of tree root and branch pruning with different crop management options Example of mock-up of agroforestry vineyard (a) and instantaneous radiative budget of grapevine in the PAR under either clear sky (left) or overcast sky (right)Inurreta Aguirre H. D. 1 (inurreta.daniel@gmail.com), Wolz K.2 , Dupraz C. 2 , Gosme M. 2 1 INIFAP, Vera Cruz, Mexico; 2 UMR SYSTEM, INRA, Montpellier, France L24 Modelling L24 Modelling 4 4  "},{"text":"L24 Modelling 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L24_O.09 Variation in ecosystem service values with respect to land use/cover changes in agroforestry landscape Temesgen H.1 (habte023@yahoo.com),Wei W. 2 , Xiaoping S. 2 , Yirsaw E. 1 , Bekele B. 3 , Kindu M. 4 1 Natural resources management, Dilla University, Dilla, Southern Region, Ethiopia; 2 Land Management, Nanjing Agricultural University, Nanjing, Jiangsu, China; 3 Natural resources management, Assosa Agricultural College, Assosa, Benishangul, Ethiopia; 4 Remote Sensing Working Group, Technical University of Munich, Munich, Germany  "},{"text":"L24 Modelling 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L24.P.02 Extending the multi-agent modelling platform MAELIA to support land conversion to agroforestry systems Clivot H.1 (clivot.hugues@hotmail.fr), Cuntz M. 2 , Therond O.1 1 UMR LAE INRA -Université de Lorraine, Vandoeuvre/Colmar, France; 2 UMR Silva INRA -UL -AgroParisTech, Nancy, France  "},{"text":": Adaptation, Vulnerability Assessment, Global agro-ecosystem model, Ecosystem services, Climate Change. L24 Modelling L24 Modelling 4 4  "},{"text":"of Abstracts L24.P.08 WISDOM: a biophysical and economic systems model for short rotation coppice (SRC) agroforestry management Greene C. 1 (c3greene@uwaterloo.ca), Nguyen T.-H.2 , Davies E. 3 , Dyck M. 4 , Blank M. 5 , Krygier R. 5 1 Environment Resources and Sustainability, University of Waterloo, Waterloo, Ontario, Canada; 2 Civil Engineering & Applied Mechanics, McGill University, Montreal, Québec, Canada; 3 Civil and Environmental Engineering, University of Alberta, Edmonton, Alberta, Canada; 4 Renewable Resources, University of Alberta, Edmonton, Alberta, Canada; 5 Canadian Forest Service, Natural Resources Canada, Edmonton, Alberta, Canada  "},{"text":"L24 Modelling 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L24.P.11 Yield safe: wheat production under Pinus Radiata Pérez López C. 1 (mrosa.mosquera.losada@usc.es), Mosquera Losada M. R.2 , Ferreiro Domínguez N.21 Agroforestry, Universidad de Santiago de Compostela, Lugo, España; 2 Produc. vegetal y proyecto de ingeniería, Universidad de Santiago de Compostela, Lugo, España  "},{"text":"L24 Modelling 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L24.P.13 Carbon Enrichment Not Fully Explained by Tree Litter or Animal Manure Inputs in a Simulated Faiderherbia-Maize Parkland Smethurst P.1 (Philip.Smethurst@csiro.au), Dilla A. 2 , Huth N.3   1 CSIRO, Hobart, TAS, Australia; 2 University of Tasmania, Sandy Bay, TAS, Australia;3 CSIRO,  Toowoomba, QLD, Australia     "},{"text":"L24 Modelling 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L24.P.14 Plot-Scale Biophysical Modelling of Tree-Crop Interactions Using APSIM Smethurst P.1 (Philip.Smethurst@csiro.au), Huth N. 2 , Dilla A.3   1 CSIRO, Hobart, TAS, Australia; 2 CSIRO, Toowoomba, QLD, Australia; 3 University of Tasmania, Sandy Bay, TAS, Australia  "},{"text":"L24 Modelling 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L24.P.15 Sap flow prediction model in cocoa trees under different agroforestry arrangements in western Colombian Amazonia Suárez Salazar J. C.1 (ju.suarez@udla.edu.co), Casanoves F. 2 , Melgarejo L. M.3 , Di Rienzo J. A 4 , Armas C.5 , Ngo Bieng M. A.6   1 Universidad de la Amazonia, Caqueta, Florencia, Colombia; 2 CATIE, Turrialba, Costa Rica;3 Universidad Nacional de Colombia, Bogota, Colombia; 4 Universidad Nacional de Cordoba, Cordoba, Argentina;5 Estación Experimental de Zonas Áridas, Almeria, España; 6 CIRAD, UR Forêts etSociétés,  Turrialba, Costa Rica      "},{"text":"of Abstracts L24.P.18 Modeling the contribution of ecological agriculture for climate change Worou O. N.1 (n.worou@cgiar.org), Kone A. W.2 , Tondoh J. E. 2 , Guei A. M. 3 , Edoukou F. E. 4 1 ICRISAT, Bamako, Mali; 2 UFR des Sciences de la Nature, Université Nangui Abrogoua, Abidjan, Côte d'Ivoire; 3 UFR d'Agroforesterie, Université Jean Lorougnon Guédé, Daloa, Côte d'Ivoire; 4 Centre de Recherche en Ecologie, Abidjan, Côte d'Ivoire  "},{"text":"of Abstracts L25.P.02 Agroforestry Practice of Customary Community and Its Challenge in Indonesia Budiman I.1 (ibudiman99@gmail.com), Fujiwara T. 2 , Pamungkas D.3   1 Laboratory of Forest Policy, Kyushu University, Fukuoka, Fukuoka, Japan; 2 Agro-environmental Science, Kyushu University/Faculty of Agriculture, Fukuoka, Fukuoka, Japan;3 Silvicultur, FOERDA of  Kupang Office, Kupang, East Nusa Tenggara, Indonesia     "},{"text":" Picture 1. Agroforestry practice in Mollo People landThe Philippine Agroforestry Education and Research Network (PAFERN) was formally organized in response to the urgent and pressing needs expressed by agroforestry institutions, particularly state colleges and universities in the Philippines; with the vision of a well-coordinated delivery of agroforestry education, research and extension services in the Philippines. Since its inception, PAFERN has already embarked on a number of project activities both at the national and international levels because of its technical expertise, track record and multidisciplinary character. Such project initiatives were mostly in partnerships and through the fund support of the Swedish International DevelopmentCooperation Agency (Sida) via the Southeast Asian Network for Agroforestry Education (SEANAFE), Development Bank of the Philippines-Forest Project, World Agroforestry Centre (ICRAF), Department of Agriculture-Bureau of Agricultural Research, Energy Development Corporation, Asia-Pacific Network for Global Change Research, Center for International Forestry Research, among others.  "},{"text":"L25 Open session 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L25.P.06 Effect of alley cropping agroforestry on soil microbial communities Clivot H.1 (clivot.hugues@hotmail.fr), Petitjean C. 2 , Genestier J.1 , Blaszczyk N. 1 , Laflotte A. 3 , Marron N. 2 , Piutti S. 1 1 UMR LAE INRA -Université de Lorraine, Vandoeuvre/Colmar, France; 2 UMR Silva INRA -UL -AgroParis Tech, Nancy, France; 3 Ferme expérimentale de la Bouzule ENSAIA, Champenoux, France  "},{"text":"L25 Open session 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L25.P.08 Tracing 35 years of agroforestry development in the USA: Gold M. (goldm@missouri.edu)    Center for Agroforestry, University ofMissouri, Columbia, MO, United States    The past: Although practiced by landowners previous to 1980, there was no formal awareness or recognition of US agroforestry. There was no definition of temperate zone agroforestry, no defined practices, no underlying biophysical or socio-economic science, no academic courses or degree programs, no extension, no literature, no journal and no professional association. The present:Post 1980, major advances occurred on every dimension of agroforestry. Agroforestry Systems journal launched in 1982, temperate agroforestry research was initiated in Canada and the US. The capstone event was 1989, the 1st North American Agroforestry Conference (NAAC), Guelph, Ontario. The 1990 \"Farm Bill\" established the USDA National Agroforestry Center. The 2nd NAAC, 1991, led to the formation of the Association for Temperate Agroforestry.Post 1993, huge advances in temperate agroforestry in the US and Canada. A formal temperate zone agroforestry definition was published and five recognized agroforestry practices were described and defined. The foundations for the science underlying both biophysical and socio-economic dimensions of agroforestry were laid. The first North American temperate zone agroforestry textbooks were published, Universities initiated agroforestry courses and offered short duration training programs.  "},{"text":"L25 Open session 4 th World Congress on Agroforestry   "},{"text":"of Abstracts L25.P.15 Can't measure? Doesn't count! Why national MRV fails to capture agroforestry full contribution: the case of Peru Suber M.1 (m.suber@cgiar.org), Woo N.2 , Rueda C. 3 , Robiglio V. 1 1 World Agroforestry Centre (ICRAF), Lima, Peru; 2 ONU-REDD national program, Lima, Peru; 3 DG de Asuntos Ambientales Agrarios, Minagri, Lima, Peru  "}],"sieverID":"43080735-a52a-478e-8cb6-5e7f4b6301b8","abstract":""}