PENGELOLAAN
SUMBERDAYA ALAM
DALAM
AGROEKOSISTEM
Diabstraksikan :smno.psdl.pdkl.ppsub.2013.
MK. PENGELOLAAN SDALH
What is agricultural biodiversity?
It includes all components of biological diversity of relevance to food and agriculture:
the variety and variability of plants, animals and micro-organisms
at genetic, species and ecosystem level which are necessary to sustain
key functions in the agro-ecosystem, its structures and processes.
Local knowledge and cultural diversity can be considered an essential part of agrobiodiversity as it is the human activity of agriculture which conserves this biodiversity.
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Importance (value) of biodiversity in agricultural ecosystems
In agricultural systems biodiversity is important 1. for the production of food, fibre, fuel, fodder...(goods) 2. to conserve the ecological foundations to sustain life (life
support function) 3. to allow adaptation to changing situations 4. and to sustain rural peoples’ livelihoods (sustainable
agriculture – food security, income, employment,...)
Specificity: it has been developed through human intervention over generations and it requires human management to sustain it.
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Agricultural Biodiversity is complex
ECOSYSTEMS DIVERSITY varied production systems habitats and landscapes
Human Management practices and decisions
Crop based systems: food/fibre
crops, pasture, trees (planned + harvested spp.)
Mixed systems and associated biodiversity:
soil organisms, pollinators,
predators
Livestock based systems: pasture, rangelands, cattle, small ruminants,
poultry...
GENETIC and SPECIES DIVERSITY
wild and domesticated
CULTURAL DIVERSITY
Case studies and experiences to be shared among countries and farming systems
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Need to address all components of agrobiodiversity
• Habitat diversity (mosaic of land uses varies with soil and terrain, hedges, borders, trees in the landscape; farm type)
• Inter-species diversity (plant, animal and microbial)• Inter-species diversity (very important for agrobiodiversity) genetic
resources, unique traits –resistance to drought, cold, disease, etc, rooting, aspect, taste, storage, etc.
• Harvested species and Associated species (pollinators, beneficial/harmful predators, soil organisms – health/ disease,…)
• as well as Cultural diversity (type of farmer and farm; regulations; common property resources/ownership)
• and to understand implication of agrobiodiversity on ecosystem functions/processes and the services provided (see adapted Table by J. Paruel, Environmental controls and effect of land use on ecosystem functioning in temperate Argentina)
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Farmers managing …
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Farmers, even in the poorest and most food-insecure regions of the world, manage genes by their decisions on crop varieties, manage species by their
decisions on farm animals and manage ecosystems by their decisions on soil or pollinators (Kenmore, 2002)
A simple description of the linkages between the “managers” of natural resources and the different components of biodiversity; genes, species and
ecosystems.
Examples of specific situation can provide you an idea of the diverse needs of the natural resource management communities to be considered in observing and
monitoring biodiversity
The situations which I will be presenting are case studies highlighted during a satellite event on the occasion of the 9th Regular session of the commission on
genetic resources for food and agriculture.
The examples will cover agricultural, aquatic and forest biodiversity highlighting the need for a wide variety of data and information.
Throughout this overview, reference will also be made to international framework and conventions
ENHANCEMENTS
PollinatorsPredatorsand Parasites
HerbivoresNon-cropVegetation
EarthwormsSoilMesofauna
SoilMicrofauna
PollinationGeneticintrogression
PopulationregulationBiologicalcontrol
BiomassconsumptionNutrientcycling
CompetitionAllelopathySources of naturalenemies Crop wildrelatives
Soil structureNutrientcycling
DecompositionPredationNutrient cycling
NutrientcyclingDiseasesuppression
AGROECOSYSTEM
BIODIVERSITY
FUNCTIONS
COMPONENTS
From Altieri, M.A. Biodiversity and pest management Agro-ecosystems, Haworth Press, New York, 1994)
Managing Agro-ecosystem biodiversity
Intercropping Rotations No-Tillage Green manures Windbreaks
Agroforestry Cover crops Composting OM inputs
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
ECOSYSTEM SERVICES: FUNCTIONS (biodiversity related examples)
Food production The portion of gross primary production extractable as raw food. or for processing for food (Game, crops, nuts, fruits by hunting, gathering, subsistence or commercial farming)
Raw materials The portion of gross primary production extractable as raw material (Production of wood, energy/fuel, fodder, ..)
Genetic resources Sources of unique biological materials and products. (Plant varieties, animal races, medicinal extracts, products for materials science, genes for resistance to plant pathogens/crop pests, ornamental species, pets,
Climate and Gas Regulation: of global temperature, precipitation, other biologically mediated climatic processes at global/local levels (GHG); of atmospheric chemical composition (CO2/O2 balance, C sequestration, CO3 for UVB protection)
Resilience/Disturbance Regulation: ecosystem response to environmental fluctuation, mainly controlled by vegetation structure (storm protection, flood control, drought recovery, other aspects of habitat response).
Water Regulation and Supply: of hydrological flow/regimes; water retention, storage, provisioning in the watershed: (Infiltration, soil water retention determined by vegetation cover/structure; water supply in aquifers, surface water bodies; availability for consumption, irrigated agriculture, industry, transport)
Erosion control and Sediment retention: prevent loss of soil by wind, rain impact, runoff; storage of silt in ecosystem, in lakes and wetlands.
ECOSYSTEM SERVICES: FUNCTIONS (biodiversity related examples) 2
Soil formation Processes of weathering of rock; soil build up (Accumulation of organic material
Nutrient cycling: storage, cycling, processing, input of nutrients (N fixation, nutrient cycles - N,P et al, breakdown of organic materials to soil OM- humus)
Waste Detoxification recovery of mobile nutrients, removal /break down of excess or toxic nutrients/ compounds, pollutions control (detoxification by soil organisms).
Pollination Movement of floral gametes. (Supply of pollinators for the reproduction of plant populations- insects, bats, birds)
Biological control Trophic (food web) dynamic regulations of populations (pest-predator interactions e.g. IPM, control of disease transmissions)
Refugia habitat for local/ transient populations (Nurseries, habitat for migratory species, for locally harvested species, over wintering grounds
Recreation Providing opportunities (eco-tourism, outdoor recreational activities –hunting, fishing, birdwatching)
Cultural Providing opportunities for non-commercial uses (Aesthetic, artistic, educational, spiritual, and/or scientific values of ecosystems).
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Understanding Human Pressures on and threats to agricultural biodiversity
Increasing pressure on species and their environments:• Population growth and poverty (increasing demand)• Overexploitation, mismanagement• Expansion into wetlands and fragile areas• Intensification and Specialisation of agriculture – market forces• Pollution• Urbanisation, changing consumption patterns, globalisationThreats and risks • loss of plant and animal species • loss of plant varieties and animal races/breeds (loss of unique traits)• also loss of essential natural processes
– pollination by insects, birds, bats etc.– regeneration of soils by micro-organisms
• also reduced resilience.
Need to increase resilience of agriculture and human capacity to adapt (to harsh periods, drought, climate change, pests, diseases) by maintaining a
wide array of life forms with unique traits (e.g. trees that survive drought or cattle that reproduce in harsh conditions).
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Wide range of case studies illustrate Sustainable Use of agrobiodiversity
• Integrated agro-ecological approaches : IPM, soil biological management • Community-based adaptive management – animal and plant genetic
resources, diverse farming systems• Local knowledge systems
– multiple uses of species (diet, nutrition, medicines; gender differentiated knowledge of agrobiodiversity
– community perspectives/strategies in managing crop and livestock and associated biodiversity; coping strategies for HIV/AIDS, climate change)
• Ecosystem approach: address all components, systems functioning and services and human management (cf. EA principles)
• Strengthening viability of farm-livelihood systems with under-utilized and under-valued biodiversity (opportunities; options)– grasslands (grazing species preference, productivity; deep roots-below ground
biomass)– mountains (adaptation to altitude, cold; disease resilience, etc.) – marketing (diverse products, niche markets, organic agriculture, etc.– recognition of positive externalities (valuing ecological services provided by
biodiversity associated with agricultural systems)
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Need to use common Agricultural DefinitionsSustainable agriculture is ecologically sound, environmentally sustainable,
economically viable, socially just and culturally appropriate … is based on a holistic scientific approach and productive over the long term.
Farm System : the farm household, its resources, and the resource flows and interactions at this individual farm level
Farming System: a population of individual farm systems that have broadly similar resource bases, enterprise patterns, household livelihoods and constraints
Sustainable agricultural systems provide a range of goods (food, fuel, fibre, materials, etc.) and services (also considered as positive externalities)
Need to select indicators for monitoring sustainability: • soil (sustained health + productivity, prevent soil erosion, minimise off-site
impacts, ... ); • water (water retention, maintain water regime, flood protection, etc); • vegetation (protective land cover, structure, biomass, C sequestration)• biodiversity (resilience, adaptability, opportunities) conservation of wildlife and
wild species; agricultural biodiversity: genetic resources inter- and intra- species, farmed and associated species, ecosystem functions,
• air quality (minimise greenhouse gas emissions)• rural amenities (e.g. landscape, tourism).
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Need to build on ongoing global agro-biodiversity fora/intergovernmental processes
• CBD Programme of Work on Agricultural Biodiversity: 4 components on Assessment, Adaptive Management, Capacity Building, Mainstreaming) – International Initiative for the Conservation and Sustainable Use of
Soil Biodiversity – International Initiative for the Conservation and Sustainable Use of
Pollinators
• International Treaty on Plant Genetic Resources for Food and Agriculture FAO IT-PGRFA
• International Plant Protection Convention (IPPC) Sec. hosted by FAO
• FAO Commission on Genetic Resources for Food and Agriculture CGRFA
• FAO Committee on Agriculture COAG
These have resulted in: • Assessment, Monitoring and Priority Actions: GPA-PGR, SOWAGR, Good
Practices: SLM, Conservation agriculture, IPM, ....• Guidelines: PGR, AGR, Pollinators, soil biodiversity, ecosystem approach,
farmer rights, • Panel of Experts… etc.
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
The International Treaty on Plant Genetic resources for Food and Agriculture (IT)
1. This legally binding instrument is crucial for sustainable agriculture. It provides a framework for national, regional and international efforts to conserve and sustainably use plant genetic resources for food and agriculture - and for sharing the benefits equitably, in harmony with the Convention on Biological Diversity.
2. IT-PGRFA was adopted by the 31st session of the FAO Conference (Resolution 3/2001)
3. It entered into force on 29 June 2004. http://www.fao.org/ag/cgrfa/itpgr.htm
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Global Plan of Action for the Conservation and Sustainable Use of PGRFA
Priority Activity Areas
In Situ Conservation and Development
Activity 1. Surveying and Inventorying of PGRFA2. Supporting On-farm Management and Improvement of PGRFA3. Assisting Farmers in Disaster Situations to Restore Agricultural Systems4. Promoting in situ Conservation of Wild Crop Relatives and Wild Plants for Food production
(Sustainable) Utilization of Plant Genetic Resources ActivityActivity 9 Expanding characterization, evaluation and core collection10 Increasing genetic enhancement and base broadening11 Promoting sustainable agriculture12Promiting under-utilized crops and species13 Supporting seed production and distribution14. developing new markets for local varieties an diversity rich products
also Ex situ conservation.....
Capacity building and Institutions.....
Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Global Strategy for the Management of Farm Animal Genetic Resources
1. FAO is coordinating its development to guide international action for the sustainable use, development and conservation of domestic animal diversity
2. supported by the Inter-governmental Technical Working Group on Animal Genetic Resources
3. An essential element is the first State of the world's animal genetic resources - a comprehensive overview of farm animal biodiversity; country-driven process (as agreed by CGRFA-8 in 1999).
4. First stage of reporting completed >170 Country Reports, reports by International organizations on relevant activities see DAD-IS.
5. CGRFA-10 decided that the 1st Report, including the Report on Strategic Priorities for Action should be finalized at the First International Technical Conference on Animal Genetic Resources in 2007, hosted by the Government of Switzerland in 2007 in Interlaken
6. Draft Report on Strategic Priorities for Action was reviewed by electronic Regional Consultations.
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
1. Exotic genetic resources not sustainable
2. Indiscriminate crossbreeding
3. Genetic resources for future needs
Sumber genetik ternak domestik menghadapi risiko Resources at Risk
1. Include stakeholders in decision-making
2. Identification of sources of funding
3. Support breeder associations
4. Strengthen extension services
Desirable commitments by governments
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Komisi FAO unt Sumber Genetik Pangan dan Pertanian (CGRFA)
• The CGRFA deals with policy, sectorial and cross sectorial matters related to the conservation and utilization of genetic resources for food and agriculture.
• It develops and monitors – the Global Strategy for the Management of Farm Animal Genetic Resources and – the Global System for Plant Genetic Resources – for food and agriculture.
• It has been addressing genetic resources in a stepwise manner (plant genetic resources animal …..) but has agreed on the need for an ecosystem approach
• Hence the side event on its 20th anniversary (CGRFA 10): Mainstreaming agricultural biodiversity for food security (8-10 November 2004) and resulting in the publication on Biodiversity and the Ecosystem Approach (See website)
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Pilihan teknologi bagi negara-negara yang menerapkan AGBIO
• Enhance biodiversity through– Sustainable agriculture– Sustainable pastoralism– Sustainable intensification (enhance productivity and function)– livelihoods’ diversification
• Managing seed systems to promote the sustainable utilization of crop genetic resources
• Economic analysis: marketing, addressing and valuing the multiple roles of agriculture (www.fao.org/es/esa/roa) and externalities
• Integrate into poverty alleviation strategies
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Case studies of Sustainable agriculture - enhancing agricultural biodiversity
• Increased use of mixtures (intercropping, multistorey, agro-forestry, crop-livestock systems)
• Access to a wide range of good quality genetic material (plant and animal)– Promote production of local germplasm and commercialization
– Promote decentralized and participatory breeding
• Improve use of genetic diversity as part of IPM strategies• Monitor and identify underutilized species, support needs• Develop sustainable management practices and post-harvest and
marketing methods; • Stimulate demand for diverse local products (niche markets, labelling,
registration) • Review and promote policies for development and use e.g. biodiversity
conseravtion and coping with climate change
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Soil biodiversity and its management Soil biodiversity and its management
Managing termites and organic mulch for soil productivity by researchers in Burkina Faso:
Surface mulch applied to crusted soils was used to stimulate termite feeding and burrowing. This lead to improved soil structures, better
aggregate formation, and enhanced soil function. Mixing and burrowing of termites can be stimulated by applying organic mulch and their
feeding can promote soil regenerative activities
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
I would like to refer to a case study in the Sahel region, an in particular in Burkina Faso. ---Case study – Burkina Faso: « Managing termites and organic resources to improve soil productivit in the Sahel » http://www.fao.org/AG/AGL/agll/soilbiod/cases/caseA2.pdf
This is a case study in response to the call of the CBD Sec as follow up to decision on agr-biod (FAO has assisted to compile such studies)
The main purpose of this work was to evaluate the capacity of termites to improve their ability to reduce soil compaction, increase soil porosity and improve the water infiltration and retention capabalities of the soil.So as to encourage vegetative diversity and restoration of primary productivity (all
important issue for food and livelihood security in teh Sahel)
--- other comments---not for presentation ..« The capacity to enhance soil biological functions through a better understanding of soil biodiversity process and mechanims and improved land use systems and practices have been seriously neglected.»(Bennack et al., 2003)
»However, an increasing number of case studies are showing these mechanims and showing the types of data and information from biodiversity observation with respect to soil within managed ecosystems.
Where termites behaviour has prooved to be an important component of agricultural practices:- Althrough agricultural pests, termites play and important role in recovering degraded
ecosystes (and enhance agricultural production)- Conserving termite populations (instead of eradicating them) and stimulating their soil
mixing capacities would improved crusted soil.
Photo 2. Termite-created voids on crusted soil aftermulch application.
From Micro-organisms e.g. bacteria + fungi
Micro & meso-fauna protozoa,
nematodes to acari & springtails
Macro-fauna e.g. ants, termites, earthworms
Soil Biodiversity
...Roots in the soil and their interactions with species above & below
ground
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Managing Pollinators
Management practice:In Himachal Pradesh in Northwest Indian
Himalayas farmers are using colonies of honeybees – Apis cerana and Apis mellifera for pollination of apple crop.
An organized system of hiring and renting bee colonies for pollination exists
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Case study from the North Western Himalayas concerning pollination.1) It is important to highlight that the focus of agriculture in the Him-region is slowly
shifting from traditional cereal crops for subsistence agriculture to high-value cash-crop farming … (fruits)
2)Thus this shift poses new challenges related to the improving and maintaining productivity and quality …
3) The study highlighted that a way to confront such challenge is through pollination … yet a decline in pollinators was noticeable …
4) The causes of the decline are identified as related to * Habitat fragmentation- agricultural and industrial chemicals- Parasites / diseases- Introduction of alien species- Taxonomic information - Economic values5) A new management practice was then developed/applied: the hiring and renting bee
colonies …... Moreover some farmers are trying to save the population of existing pollinators by
making judicious use of carefully selected less toxic pesticides and spraying outside the flowering period of the apple.
There are more than 100 000 known pollinators (bees, butterflies, beetles, birds, flies and bats)
Many important food crops rely on animal pollination, including fruits and vegetables and foodder. The decline in pollinators populations impact negatively on food production.
In recent years there is a world wide decline in pollinator populations and diversitz(importance of monitoring population changes)
Factors causing the decrease could be the decrease in their food (nectar and pollen) supplies as a result of decline in pristine areas, LUCs, increase in monoculture-dominated agricultural interventions (eg use of chemicals fertizers and pesticides)
Changes in climate might also be affecting the insect numbers
Also reduced premature fruit drop in apple, peach, plum, and citrus.
Partap 2000bMisshapen fruit decreased by 50%
48112Strawberry
Partap, 2000a9/353524Citrus
Partap et al, 2000
11/143913Plum
Partap et al, 2000
29/234422Peach
Dulta and Verma, 1987
15/103310Apple
Reference Increase in fruit size (length/ diameter) (%)
Increase in fruit weight (%)
Increase in fruit set (%)
Crop
Results: Impact of Apis cerana pollination on fruit productivity
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
These are some of the results highlighting the improvement in productivity and quality of the cash-crop (which then in turns is an improvement in terms of economic value)
The study emphasised the need to conserve pollinators populations (and also the diversity) so as to ensure pollination ... By taking into consideration the factors behind the decline of pollinators …the study also highlighted the importance of biodiversity observations so as to maintain pollinators population and thus ensure pollination
-MONITORING of the resources (cash crop yields and quality)of the pollinators (population and diversity)of the habitat / LUC Of chemical fertilizers and pesticides and their utilization … climate changeOf the economic value of pollination …(free service vs hand-pollination like in the Maoxian county in China)
Targeting farmers: Increasing Farmer Access to Germplasm and Information
1. Information, and seed exchange between farmers slow
2. Access to research generated germplasm poor
3. Participatory breeding with farmers’ organizations
4. Joint activities for improved information sharing
5. Test new options for seed dissemination
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Case studies/opportunities for Sustainable pastoralism
• Controlled burning by pastoralists can improve forage quality and diversification of vegetation structure and species composition (trees, shrubs, perennials, annuals)
• Livestock grazing and crop-livestock integration can improve nutrient cycling and make better use of fragile resources/ ecosystems
• Livestock wildlife interaction: management of animal movements, stocking rates, control of incompatible cultivation by farmers; herders protect grazing wildlife from predators
• Settled herders creates long-lasting nutrient hotspots (kraals; fields)
• Intensification and fragmentation of rangelands seems to cause a LOSS in livestock production (may need to rethink ranching, sedentarisation)
Challenges - control of livestock numbers: use of common property resources; prestige, savings, security, culture Improvement of pasture and rangelands
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Case studies/Opportunities for Sustainable intensification
Sustainable management practices: controlled burning and grazing, woodlots for energy and timber, field borders/hedges, crop-livestock-forestry interactions are key to maintaining diverse habitats and landscapes that support biodiversity
Human management of ecosystems may increase species diversity – semiarid savannas: managed pasture, control invasive forest and shrub species,
harvesting, gathering and planting– diversified agro-silvo-pastoral systems– multi-layer farming systems: trees, perennials- banana, coffee, annuals)
Planned settlements/roads: reduces lands with potential, avoid biodiversity hotspots, environmentally-friendly (green belt, trees, etc.)
Protected areas, buffer zones, specific action to safeguard those groups and species that are more sensitive to human use than others, to allow hunting and gathering and in situ conservation of landraces/farmers varieties/breeds
Land use planning by communities and sub-catchments to promote biodiversity. Vary land use type with soil type, terrain, microclimate, access to water. Patchwork of settlements, cropland, pasture, forestland, and protected areas.
Regulations : stocking density, seasonality, quotas, user groups, etc.
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Sustainability - adaptation to change and enhancing systems’ resilience
• Supporting the ability of farmers to remain agile in responding to new challenges, by adapting their production system
• Resilience or adaptive capacity are properties of the actors and the system in which they function
• Resilience may indicate a return to the status quo. Agility/adaptability refers to continuously moving targets/changing situations
• Need to sustain use and sustain adaptive capacity to increase probability of meeting future needs
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
FAO: Roles of Agriculture ProjectPremise 1: Agriculture provides multiple non-commodity outputs that are not
valued by market transactions may be under-produced relative to what society desires.
Premise 2: As income rises (socio-economic/agricultural development), the economic importance of the commodity outputs of agriculture decreases in relative terms, and willingness to pay for its other roles increases
Policy challengeto Address Externalities (costs or benefits not valued in the market and not
adequately taken into account by actor/decision maker)to Safeguard Common Resources/Public Goods (rules of access and use;
mechanisms for collective action to prevent degradation, under / over use)to Integrate natural resources management /ecosystem approach (resources,
and their products, are interlinked, management /policy measures for one resource/sector affects the others
to Create resource/ecosystem friendly markets that generate growth and promote sustainable use/management of resources and ecosystems.
Studies conducted in Ethiopia, Ghana, Mali, South Africa, Morocco
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Global: Social stability Poverty Alleviation
Regional/National: Rural-urban
migration (social implications)
Welfare systems substitute
Social capital formation
Biodiversity: diverse livelihoods
Local: Social stability of rural
community Rural employment Family values, gender
impact. Bodiversity-coping
strategies; risk mgmt
Global: Ecosystem resilience Climate change
mitigation (C, land cover) BiodiversityRegional/National: Ecosystem resilience Watershed mgmt
(prevent soil erosion & off-site impacts)
Water (stable regime; flood prevention)
Biodiversity plant + animal genetic
resources; services wild spp.+ wildlife
conservation Air quality (reduce
GHG)Local: Ecosystem resilience Biodiversity farmed spp., associated
spp., ecosystem functions
NRM- soil+ water conservation
Pollution control
Global: Economic Growth Poverty alleviation World Food Security
Regional/National: Access to food National security Food safety support in times of
crises (remittances, migration, fiscal support, food aid)
Local: Local / household food
security Biodiversity: nutrition;
pest + disease control, options
Sustainability Employment Income services
Global: Cultural Diversity Indigenous
Knowledge
Regional/ National: Cultural heritage Cultural identity Perception of roles
of agriculture
Local: Landscape,
recreation, tourism Indigenous
knowledge (disaster prevention, biodiversity, medicinal applications)
Traditional technology.
FOOD SECURITY
POVERTY ALLEVIATION
CULTURAL ROLE
Gender; Heritage; IK
SOCIAL VIABILITY
Equity; Stability
ENVIRONMENTAL EXTERNALITIES
Roles of Agriculture
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Targeting Communities livelihoods and nutrition through local agrobiodiversity
Market opportunities• Premium price for local products• Increased productivity of landraces (improved seed quality; crop
rotations; water harvesting• Add-value products (fruit and milk processing)• Production of herbs, medicinal plants, honey (bee keeping)• Handicrafts and EcotourismNutrition /dietary diversity and opportunities• Dietary energy supply can be satisfied without diversity
but micro-nutrient supply cannot (e.g. essential fatty acids; amino acids)
• Wild and domesticated species and intra-species diversity play key roles in global food security
• Different species/varieties have very different nutrient contents• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Environ-mental Service
providers
Natural capital & properties that ‘come with the territory’
Absence of threats
Mitigation, increase in filtering
Dynamic landscapes
Control over territory
Efforts
functions
Recognition & rewards
Water quantity, evenness of flow & quality
Biodiversity & landscape beauty
Terrestrial carbonstorage
implications
Environ-mental Service
beneficiaries
Direct benefits
transaction costsOpportunity costs
Environ-mental Service
providers
Natural capital & properties that ‘come with the territory’
Absence of threats
Mitigation, increase in filtering
Dynamic landscapes
Control over territory
Efforts
functions
Recognition & rewards
Water quantity, evenness of flow & quality
Biodiversity & landscape beauty
Terrestrial carbonstorage
implications
Environ-mental Service
beneficiaries
Direct benefits
transaction costsOpportunity costs
Catchments: strengthen relation between ‘upland land users (as providers’ of ES) and lowland land + water users (beneficiaries)
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Mainstreaming biodiversity for sustainable agriculture and food security
Programmes, Institutions and Capacity Building
• Multi-sectoral approaches: agricultural, environmental, land, water, community development, planning and finance (coordination; committees).
• Mainstreaming in national programmes (poverty alleviation, gender)
• Land use planning at community and watershed levels (landscape; habitat dimensions)
• Supporting on farm management
• Networks : e.g. plant genetic resources, research + development
• Participatory assessment, monitoring and early warning systems
• Information systems (threatened resources, threats etc)
• Training and education: curricula, adult education, extension, gender
• Raising awareness of importance (value) - public, private sector decision makers (local media, schools, etc)
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Agriculture-environment collaboration – identify synergy, mutual benefits
BiodiversityAgricultureProductivityAdaptationMaintenance of ecosystem functions
Agriculture BiodiversityDelivery of ecosystem services
IncentivesEcological knowledge
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Agriculture-environment collaboration – identify synergy, mutual benefits
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
It is an important issue in order to understand the needs of the natural resources management communities …
Biodiversity benefits agricultural/managed ecosystems1. productivity: conservation management of broad-based genetic
diversity within domesticated species has been improving agricultural production for 10000 years;
2. Adaptation: a diverse range of organisms contributes to the resilience of agricultural ecosystems and their capacity to recover from environmental stress and to evolve.
3. Maintenance of ecosystem functions: essential functions ….
Agricultural/managed ecosystems benefits biodiversity
The National Agricultural Biodiversity Programme in Lao
NATIONAL AGRICULTURAL BIODIVERSITY PROGRAMME
INTEGRATED PARTICIPATORY PLANNING APPROACHES
MANAGEMENT ARRANGEMENTS
CROP AND CROP
ASSOCIATED BIODIVERSITY
LIVESTOCK DEVELOPMEN
T AND MANAGEMENT
NON-TIMBER FOREST
PRODUCTS AND OTHER
TERRESTRIAL BIODIVERSITY
SUSTAINABLE USE AND
CONSERVATION OF AQUATIC
BIODIVERSITY
HOUSEHOLD-BASED
INTEGRATED AGRICULTURE PRODUCTION
SYSTEMS
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
FAO Agro-biodiversity Publications
You are invited to look at display copies of• Biodiversity Awareness Folder (series of flyers/fact sheets e.g. Why is
Biodiversity Important for the Maintenance of Agro-ecosystem Functions?
• Publication Biodiversity and the Ecosystem Approach in Agriculture, Forestry and Fisheries, 2003, case studies developed with partners htttp://www.fao.org/biodiversity_en.asp
• Powerpoint presentations prepared forCGRFA-10 Side event Case studies of Mainstreaming agrobiodiversity for food security (November 2004)
• distributed Publications: Valuing crop biodiversity and Beyond the Gene Horizon (prepoared with IPGRI, now Bioversity)
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Overview of the FAO - Government of Kenya Agrobiodiversity Programme
FAO–Netherlands Partnership Programme(FNPP II - 2005 – 2007)
Collaboration for policy and strategic support for sustainable ecosystems, rural livelihoods and
food security
Agrobiodiversity Forestry
Food Security
Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Agrobiodiversity Forestry
Food Security
Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Linkages/synergies being developed among themes for integrated process
Coordination for more effective programmes and actions (identify gaps, avoid duplication)
Impact on policy: within 2 years contribute to harmonised policy (agro-environment, food and nutrition policy, agroforestry)
In longer term improve programme synergy and resource allocations and improve situation for rural people through Inter-sectoral/disciplinarity
1. People centred (gender equity)
2. Inter-sectoral approach/ process
3. Strengthening existing programme activities
4. Policy impact in short/ medium term
5. Ecosystem approach
6. Opportunity for establishing synergies
7. Integrating water
Guiding principles of Kenya strategic integrated programme
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
AGBD Programme framework and linkages
Local community action in Lake Zone
district - fishing communities
Local community action in Dryland
district -agropastoral communities
Training institutes - information and communication
Integrated land use, resources and
agrobiodiversity assessment
Policy dialogue- mainstreaming AGBD, enabling environment
Harmonisation AGBD, FS, FO
Specific studies
Specific databases
Case studies
and policy briefs
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
AGBD Issues respond to needs identified
Habitat management (beaches, user rights, pollination)
Integrated resources management(agro-ecological approaches; river basin management, soil, water,
biological resources)
Alternative livelihoods(fishing communities)
Invasiveness (e.g. Prosopis – other woody species. learning from fisheries)
Responding to HIV/AIDS(labour saving CA approaches, nutrition, fisher-trader links)
Drought resilience (local varieties/species, runoof management
Markets - Seeds Networks(prices, organisation, farming as a business)
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Agrobiodiversity Programme: Local level –FFS in diverse farming systems/AEZ
2
Identifying and adapting agro-biodiversity management options
+ opportunities
1) Mwingi district, semi-arid agro-pastoral drought resilient, mixed systems
2. Bondo district, Sub-humid Lake Zone sustainable, productive aquatic and terrestrial systems
3. Coastal zone: INRA pilot
1
Link with drylands Sudan, Eritrea, Somalia
Link across Lake Victoria basin
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
FFSResource
management systems,
land & water, Diversification- species, habitat management Soil health, pollination,
aquaculture + fishery LInKS
1a)Targets farmer groups, extension/facilitators
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Integrating AGBD in FFS activities in Bondo + Mwingi 1. Community appraisal of AGBD situation and awareness2. CurricuIum development to improve understanding and
know-how on AGBD conservation and sustainable use3. Farmer field schools for Promoting farmer
innovations, use of Indigenous knowledge and Technology transfer on AGBD to improve food and livelihood security
4. Community Action - Research: Test and adapt improved management practices, study plots, demonstrations, innovation, experimentation, local knowledge
5. Impact analysis on agro-ecosystems and livelihoods6. Impact of markets- response to / increase options
• Community resources management + impacts (species, habitats, etc.)• Changing customs and innovations (practices, by-laws, diet, recipes..) • Local conservation strategies; individual and communal• Effects of markets and market development• Ecological services e.g. pollination, beekeeping; soil health, water• Impact of cash crops (on systems, income, environment, security..)• IPM, safe use and beneficial insect species • Links with other actors (nutrition, health, business management etc.)
Farming, fish farming and fisheries in Lake Victoria basin
• Local vegetables (income, nutrition, ..)• Alien species • 2 fisheries scenarios: river
(aquaculture) and lake (catch) • Upstream agric. and non-agricultural
practices affecting aquatic area • Changes in aquatic area (not only fish) • Conservation and use – e.g. products
of wild harvested spp.such as Papyrus
Drought resilient agropastoral systems• Genebank of local varieties• Communal seed systems (storage)• Effects of commercialised crops• Drought resistant crops: sorghum
varieties; green gram; pigeon pea • Resilient, productive systems (water
harvesting etc.)
Identified General topics for FFS process
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
• Curriculum development – integrate AGBD in training
• Training materials/ short courses• Livelihood approaches- HIV/AIDS,
gender, nutrition• Exchange between extension and
training• Workshops with colleges• Development of Case studies and
Policy briefs
1.b) Targets extension and technical staff
FFS in Kenya
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
1.b Integrating agrobiodiversity in training institutions
Assessment of training institutes to work withCoordination with Ministry of Education and KIE for teacher training, education, etc. - Identify gaps and opportunities in existing curricula of selected training institutes (e.g. Egerton + Baraka; Moi Uni. (fisheries, UJK- pollinators); Link with FFS for documentation, case studies and practical experiencesIntegrate human and biophysical systems dimensions
AGBD 2: Improving access to information & knowledge
2.a Integrated natural resources assessment INRA (builds on forest resources assessment)
1. Assess available information and needs (status and trends - land use, habitat/species)
2. Develop and pilot inter-sectoral methodology (AGBD, land use, land, water, other natural resources, ecosystem)
3. Identify indicator and tools (field survey, transects, RRA-questionnaire)
4. Capacity building (Participatory mapping and assessment; RS, sampling,
5. Compatible data, database development and analysis) 6. Targets technical capacity & informed decision making by policy
makers/resource manager
Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Improving access to information & knowledge (cont.)
2.b) Information systems on alien species in fisheries and forestry
2c) Information on plant genetic resources for food an agriculture – Assess status of genetic resources with FFS– Train people to collect and analyse data– Improve the quality of information about PGRFA status and
dynamics– Contribute to reporting commitment to State of World
report on PGRFA– link with over 26 key PGR institutions
Targets: technical + extension level (Partners: Genebank, IPGRI..)
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
2d) Research on Managing Seed Systems to promote the sustainable utilization of crop genetic resources:
Two focus areas 1. Using markets to promote sustainable use of CGR
How to manage seed systems to promote sustainable agriculture, improved farm welfare and in situ conservation of important crop genetic diversity. Methodology development
– Case studies: Mali, Kenya, India, Mexico, Bolivia
2. Economic analysis of seed system impacts on farm welfare and on farm diversityAssessing the links between seed systems and farm level use of crops and varieties and their implications for welfare and diversityCase studies: Ethiopia (Sorghum, Wheat); Mozambique (cowpea) India (Pearl Millet) Mexico (Maize) in partnership with IPGRI, ICRISAT, IFPRI, and CIMMYT
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Encourage partnerships for institutional capacity building & integrated NR management.
Multiple Partners are identified for synergy and collaboration
• Ministries of Agriculture and Livestock• Departments: Resource survey and remote sensing; Fisheries and
forestry• Ministry of Environment and Education• technical bodies KARI, KEFRI, ICRAF,ITDG, JKU, ICRISAT, ILRI,
KEMFRI...• Community level: District, FFS, Extension, • Universities (Egerton, Moi, Jomo Kenyatta)• Training colleges- teacher training, agriculture and forestry• Partner organisations: ICRISAT, Bioversity, ITDG, CIKSAP, etc.
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
thank you for your attention
Farmers’ studying ecology and biodiversity, Farmer Field School approaches
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Case studies of Sustainable agriculture - enhancing agricultural biodiversity
• Increased use of mixtures (intercropping, multistorey, agro-forestry, crop-livestock systems)
• Access to a wide range of good quality genetic material (plant and animal)– Promote production of local germplasm and commercialization
– Promote decentralized and participatory breeding
• Improve use of genetic diversity as part of IPM strategies• Monitor and identify underutilized species, support needs• Develop sustainable management practices and post-harvest and
marketing methods; • Stimulate demand for diverse local products (niche markets, labelling,
registration) • Review and promote policies for development and use e.g. biodiversity
conseravtion and coping with climate change
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Soil biodiversity and its management Soil biodiversity and its management Managing termites and organic mulch for soil
productivity by researchers in Burkina Faso:
Surface mulch applied to crusted soils was used to stimulate termite feeding
and burrowing. This lead to improved soil structures,
better aggregate formation, and enhanced soil function.
Mixing and burrowing of termites can be stimulated by applying organic mulch
and their feeding can promote soil regenerative
activities
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
I would like to refer to a case study in the Sahel region, an in particular in Burkina Faso. ---Case study – Burkina Faso: « Managing termites and organic resources to improve soil productivit in the Sahel » http://www.fao.org/AG/AGL/agll/soilbiod/cases/caseA2.pdf
This is a case study in response to the call of the CBD Sec as follow up to decision on agr-biod (FAO has assisted to compile such studies)
The main purpose of this work was to evaluate the capacity of termites to improve their ability to reduce soil compaction, increase soil porosity and improve the water infiltration and retention capabalities of the soil.So as to encourage vegetative diversity and restoration of
primary productivity (all important issue for food and livelihood security in teh Sahel)
--- other comments---not for presentation ..« The capacity to enhance soil biological functions through a better understanding of soil biodiversity process and mechanims and improved land use systems and practices have been seriously neglected.»(Bennack et al., 2003)
»However, an increasing number of case studies are showing these mechanims and showing the types of data and information from biodiversity observation with respect to soil within managed ecosystems.
Where termites behaviour has prooved to be an important component of agricultural practices:- Althrough agricultural pests, termites play and important role
in recovering degraded ecosystes (and enhance agricultural production)
- Conserving termite populations (instead of eradicating them) and stimulating their soil mixing capacities would improved crusted soil.
Photo 2. Termite-created voids on crusted soil aftermulch application.
From Micro-organisms e.g. bacteria + fungi
Micro & meso-fauna protozoa,
nematodes to acari & springtails
Macro-fauna e.g. ants, termites, earthworms
Soil Biodiversity
...Roots in the soil and their interactions with species above & below
ground
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Managing PollinatorsManagement practice:In Himachal Pradesh in Northwest
Indian Himalayas farmers are using colonies of honeybees – Apis cerana and Apis mellifera for pollination of apple crop.
An organized system of hiring and renting bee colonies for
pollination exists
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Case study from the North Western Himalayas concerning pollination.1) It is important to highlight that the focus of agriculture in the Him-region is slowly shifting
from traditional cereal crops for subsistence agriculture to high-value cash-crop farming … (fruits)
2) Thus this shift poses new challenges related to the improving and maintaining productivity and quality …
3) The study highlighted that a way to confront such challenge is through pollination … yet a decline in pollinators was noticeable …
4) The causes of the decline are identified as related to * Habitat fragmentation- agricultural and industrial chemicals- Parasites / diseases- Introduction of alien species- Taxonomic information - Economic values5) A new management practice was then developed/applied: the hiring and renting bee
colonies …... Moreover some farmers are trying to save the population of existing pollinators by making
judicious use of carefully selected less toxic pesticides and spraying outside the flowering period of the apple.
There are more than 100 000 known pollinators (bees, butterflies, beetles, birds, flies and bats)
Many important food crops rely on animal pollination, including fruits and vegetables and foodder. The decline in pollinators populations impact negatively on food production.
In recent years there is a world wide decline in pollinator populations and diversitz(importance of monitoring population changes)
Factors causing the decrease could be the decrease in their food (nectar and pollen) supplies as a result of decline in pristine areas, LUCs, increase in monoculture-dominated agricultural interventions (eg use of chemicals fertizers and pesticides)
Changes in climate might also be affecting the insect numbers
Also reduced premature fruit drop in apple, peach, plum, and citrus.
Partap 2000bMisshapen fruit decreased by 50%
48112Strawberry
Partap, 2000a9/353524Citrus
Partap et al, 200011/143913Plum
Partap et al, 200029/234422Peach
Dulta and Verma, 1987
15/103310Apple
Reference Increase in fruit size (length/ diameter) (%)
Increase in fruit weight (%)
Increase in fruit set (%)
Crop
Results: Impact of Apis cerana pollination on fruit productivity
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
These are some of the results highlighting the improvement in productivity and quality of the cash-crop (which then in turns is an improvement in terms of economic value)
The study emphasised the need to conserve pollinators populations (and also the diversity) so as to ensure pollination ... By taking into consideration the factors behind the decline of
pollinators …the study also highlighted the importance of biodiversity observations so as to maintain pollinators population and thus ensure pollination
-MONITORING of the resources (cash crop yields and quality)
of the pollinators (population and diversity)of the habitat / LUC
Of chemical fertilizers and pesticides and their utilization … climate change
Of the economic value of pollination …(free service vs hand-pollination like in the Maoxian county in China)
Targeting farmers: Increasing Farmer Access to Germplasm and Information
1. Information, and seed exchange between farmers slow
2. Access to research generated germplasm poor
3. Participatory breeding with farmers’ organizations
4. Joint activities for improved information sharing
5. Test new options for seed dissemination
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Case studies/opportunities for Sustainable pastoralism
• Controlled burning by pastoralists can improve forage quality and diversification of vegetation structure and species composition (trees, shrubs, perennials, annuals)
• Livestock grazing and crop-livestock integration can improve nutrient cycling and make better use of fragile resources/ ecosystems
• Livestock wildlife interaction: management of animal movements, stocking rates, control of incompatible cultivation by farmers; herders protect grazing wildlife from predators
• Settled herders creates long-lasting nutrient hotspots (kraals; fields)
• Intensification and fragmentation of rangelands seems to cause a LOSS in livestock production (may need to rethink ranching, sedentarisation)
Challenges - control of livestock numbers: use of common property resources; prestige, savings, security, culture Improvement of pasture and rangelands
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Thatching, Busia District
Gramminae Conservation through Sustainable management and Use
Practices are part of the wider agricultural system. This takes two main forms:
• on-farm-strips of uncultivated land, ‘hedgerows’ of grass and bush, fallow land, fenced graminae-rich plots…
• off-farm- management of community grazing lands, seasonal wetlands, rocky outcrops and hillsides, sacred sites…- controlled burning
• traditional uses and skills
Minimizing impacts of farming practices on wild biodiversity- making best use of resources
Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Case studies/Opportunities for Sustainable intensification
Sustainable management practices: controlled burning and grazing, woodlots for energy and timber, field borders/hedges, crop-livestock-forestry interactions are key to maintaining diverse habitats and landscapes that support biodiversity
Human management of ecosystems may increase species diversity – semiarid savannas: managed pasture, control invasive forest and shrub species,
harvesting, gathering and planting– diversified agro-silvo-pastoral systems– multi-layer farming systems: trees, perennials- banana, coffee, annuals)
Planned settlements/roads: reduces lands with potential, avoid biodiversity hotspots, environmentally-friendly (green belt, trees, etc.)
Protected areas, buffer zones, specific action to safeguard those groups and species that are more sensitive to human use than others, to allow hunting and gathering and in situ conservation of landraces/farmers varieties/breeds
Land use planning by communities and sub-catchments to promote biodiversity. Vary land use type with soil type, terrain, microclimate, access to water. Patchwork of settlements, cropland, pasture, forestland, and protected areas.
Regulations : stocking density, seasonality, quotas, user groups, etc.
Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Sustainability - adaptation to change and enhancing systems’ resilience
1. Supporting the ability of farmers to remain agile in responding to new challenges, by adapting their production system
2. Resilience or adaptive capacity are properties of the actors and the system in which they function
3. Resilience may indicate a return to the status quo. Agility/adaptability refers to continuously moving targets/changing situations
4. Need to sustain use and sustain adaptive capacity to increase probability of meeting future needs
Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
FAO Roles of Agriculture Project
Premise 1: Agriculture provides multiple non-commodity outputs that are not valued by market transactions may be under-produced relative to what society desires.
Premise 2: As income rises (socio-economic/agricultural development), the economic importance of the commodity outputs of agriculture decreases in relative terms, and willingness to pay for its other roles increases
Policy challengeto Address Externalities (costs or benefits not valued in the market and not
adequately taken into account by actor/decision maker)to Safeguard Common Resources/Public Goods (rules of access and use;
mechanisms for collective action to prevent degradation, under / over use)to Integrate natural resources management /ecosystem approach (resources,
and their products, are interlinked, management /policy measures for one resource/sector affects the others
to Create resource/ecosystem friendly markets that generate growth and promote sustainable use/management of resources and ecosystems.
Studies conducted in Ethiopia, Ghana, Mali, South Africa, Morocco
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Global: Social stability Poverty Alleviation
Regional/National: Rural-urban
migration (social implications)
Welfare systems substitute
Social capital formation
Biodiversity: diverse livelihoods
Local: Social stability of rural
community Rural employment Family values, gender
impact. Bodiversity-coping
strategies; risk mgmt
Global: Ecosystem resilience Climate change
mitigation (C, land cover) BiodiversityRegional/National: Ecosystem resilience Watershed mgmt
(prevent soil erosion & off-site impacts)
Water (stable regime; flood prevention)
Biodiversity plant + animal genetic
resources; services wild spp.+ wildlife
conservation Air quality (reduce
GHG)Local: Ecosystem resilience Biodiversity farmed spp., associated
spp., ecosystem functions
NRM- soil+ water conservation
Pollution control
Global: Economic Growth Poverty alleviation World Food Security
Regional/National: Access to food National security Food safety support in times of
crises (remittances, migration, fiscal support, food aid)
Local: Local / household food
security Biodiversity: nutrition;
pest + disease control, options
Sustainability Employment Income services
Global: Cultural Diversity Indigenous
Knowledge
Regional/ National: Cultural heritage Cultural identity Perception of roles
of agriculture
Local: Landscape,
recreation, tourism Indigenous
knowledge (disaster prevention, biodiversity, medicinal applications)
Traditional technology.
FOOD SECURITY
POVERTY ALLEVIATION
CULTURAL ROLE
Gender; Heritage; IK
SOCIAL VIABILITY
Equity; Stability
ENVIRONMENTAL EXTERNALITIES
Peranan Pertanian
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Targeting Communities livelihoods and nutrition through local agrobiodiversity
Peluang-peluang Pasar1. Premium price for local products2. Increased productivity of landraces (improved seed quality; crop rotations;
water harvesting3. Add-value products (fruit and milk processing)4. Production of herbs, medicinal plants, honey (bee keeping)5. Handicrafts and EcotourismDiversitas dan Peluang Gizi:
6. Dietary energy supply can be satisfied without diversity but micro-nutrient supply cannot (e.g. essential fatty acids; amino acids)
7. Wild and domesticated species and intra-species diversity play key roles in global food security
8. Different species/varieties have very different nutrient contents
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Understanding impacts/implications of HIV/AIDS on agro-biodiversity
Less labour
Less labour intensive crops Reduction in land cultivated
Reduction in crop range and variety
Lo
ss of kn
ow
ledg
e
Kehilangan diversitas genetik
HIV/AIDS impact on PGR?
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Catchments: support linkages/relation between ‘upland land users (providers’ of ES) and lowland land + water users (beneficiaries)
environmental service
providers
environmental service
beneficiaries
biodiversity and landscape beauty
water quantity, quality and flow
terrestrial C storage
natural capital and properties- territory
dynamic landscapechange in space and time
recognition, rewards,
transaction costs $$$
land management reduce threats – SWC, IPM etc
FUNCTIONS
Direct Benefits for
land and water
users
water users
land users
Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Mainstreaming biodiversity for sustainable agriculture and food security
Programmes, Institutions and Capacity Building
• Multi-sectoral approaches: agricultural, environmental, land, water, community development, planning and finance (coordination; committees).
• Mainstreaming in national programmes (poverty alleviation, gender)
• Land use planning at community and watershed levels (landscape; habitat dimensions)
• Supporting on farm management
• Networks : e.g. plant genetic resources, research + development
• Participatory assessment, monitoring and early warning systems
• Information systems (threatened resources, threats etc)
• Training and education: curricula, adult education, extension, gender
• Raising awareness of importance (value) - public, private sector decision makers (local media, schools, etc)
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
Agriculture-environment collaboration – identify synergy, mutual benefits
BiodiversityAgricultureProductivityAdaptationMaintenance of ecosystem
functions
Agriculture Biodiversity
Delivery of ecosystem services
IncentivesEcological knowledge
Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
It is an important issue in order to understand the needs of the natural resources
management communities …
Biodiversity benefits agricultural/managed ecosystems
- productivity: conservation management of broad-based genetic diversity within
domesticated species has been improving agricultural production for 10000 years;
- Adaptation: a diverse range of organisms contributes to the resilience of agricultural
ecosystems and their capacity to recover from environmental stress and to evolve.
- Maintenance of ecosystem functions: essential functions ….
Agricultural/managed ecosystems benefits biodiversity
The National Agricultural Biodiversity Programme in Lao
NATIONAL AGRICULTURAL BIODIVERSITY PROGRAMME
INTEGRATED PARTICIPATORY PLANNING APPROACHES
MANAGEMENT ARRANGEMENTS
CROP AND CROP
ASSOCIATED BIODIVERSITY
LIVESTOCK DEVELOPMEN
T AND MANAGEMENT
NON-TIMBER FOREST
PRODUCTS AND OTHER
TERRESTRIAL BIODIVERSITY
SUSTAINABLE USE AND
CONSERVATION OF AQUATIC
BIODIVERSITY
HOUSEHOLD-BASED
INTEGRATED AGRICULTURE PRODUCTION
SYSTEMS
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN
FAO Agro-biodiversity Publications
• Biodiversity Awareness Folder (series of flyers/fact sheets e.g. Why is Biodiversity Important for the Maintenance of Agro-ecosystem Functions?
• Publication Biodiversity and the Ecosystem Approach in Agriculture, Forestry and Fisheries, 2003, case studies developed with partners htttp://www.fao.org/biodiversity_en.asp
• Powerpoint presentations prepared forCGRFA-10 Side event Case studies of Mainstreaming agrobiodiversity for food security (November 2004)
• distributed Publications: Valuing crop biodiversity and Beyond the Gene Horizon (prepoared with IPGRI, now Bioversity)
http://www.fao.org/biodiversity/doc_en.asp
• Sumber: Sally Bunning. Land Management Officer, Land and Water Development Division, FAO of the UN