global theme - agro-ecosystems

Good management of natural resources is key to sustainable and productive agriculture. Over-exploitation of this fragile agro-ecosystem in the semi-arid tropics of Asia and sub-Saharan Africa has led to land and soil degradation, yield decline, and increasing hunger and poverty. Harnessing synergies at the Community Scale in Asia Watershed Management in Asia: Working together with communities living in the watersheds has identified: • Low-cost water catchments systems to enhance water productivity and reduce soil erosion • Overcome micro-nutrient deficiencies • Diversification with high-value crops • Rehabilitation of community wastelands for additional income • Increased income for landless and women through micro-enterprises. Impact: • Innovation influenced policy decisions in India, China, Vietnam and Thailand. • In ten years 412 watersheds established in Asia. South-south collaboration expanded this approach from India to East Africa. Improved rural livelihoods, increased food security and sustainable Integrated Genetic and Natural Resource Management throughout the SAT Climate Change: ICRISAT’s Hypothesis of Hope ICRISAT believes that much can be done to mitigate the impacts of climate change in the SAT. • Their evolutionary history in hot and dry environments make ICRISAT crops better adapted than others. • Ex ante analyses indicate that IGRNM innovations recommended for today will help mitigate impacts of climate change tomorrow. Our Hypothesis In the medium term (2010-2050), ICRISAT and partners will help farmers mitigate the impacts of climate change through: 1. Application of existing knowledge on crop, soil and water management innovations 2. Re-deployment and re-targeting of the already available germplasm of its mandate crops. The Current Yield Gap (green). Column 1 is the yield that farmers get under current low input management. Column 5 is the yield that farmers get by adopting current affordable recommendations Yield Gap 1 under Climate Change (red) Column 2 represents the slightly lower yields that farmers would get under climate change using today’s low input system. Column 3 represents the yields that farmers could get, even under climate change, if they adopted current improved practice recommendations. Yield Gap 2 under Climate Change (red). Column 4 represents the yields that farmers could get under climate change if they were to adopt current improved practice recommendations together with germplasm better adapted to a warmer world. A plot showing the difference when used with microdosing (top) and without microdosing (bottom) Inset: Applying a microdose of fertilizer. a) Additional groundwater recharge at Kothapally watershed. b) Water storage for expanded irrigation. c) Bio-diesel extraction plant in the Powerguda watershed in Andhra Pradesh. d) Low cost soil and water conservation structures. e) Groundnuts with micronutrient amendments. a a c e c e b d b Approach ICRISAT embraces an Integrated Genetic and Natural Resource Management (IGNRM) approach.IGNRM exploits the synergies of crop improvement, crop, soil and water management, livestock science, social and economic research and climate science. Boosting production at the Field Scale in Africa. Fertilizer Microdosing Declining soil fertility and high fertilizer prices are major constraints. Precision placement of small amounts of fertilizer at the ideal time (microdosing), combined with microcredit schemes, and innovative marketing methods, boosts yields. Impact: • 250,000 farm families in Africa have positively evaluated microdosing • Microdosing re-introduced fertilizer use in Zimbabwe, Mozambique and South Africa • Yield increases between 44 to 120% in Mali, Burkina Faso and Niger • Incomes have increased by 30 to 130%. ICRISAT is working with partners to scale up this work in the coming years.

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Harnessing synergies at the Community Scale in AsiaWatershed Management in Asia:Working together with communities living in the watersheds has identified:• Low-costwatercatchmentssystemsto

enhance water productivity and reduce soil erosion

• Overcomemicro-nutrientdeficiencies• Diversificationwithhigh-valuecrops• Rehabilitationofcommunitywastelandsfor

additional income• Increasedincomeforlandlessandwomen

through micro-enterprises.

Impact:• Innovationinfluencedpolicydecisionsin

India,China,VietnamandThailand.• Intenyears412watershedsestablishedinAsia.

South-south collaboration expanded this approach from India to East Africa.

Improved rural livelihoods, increased food security and sustainable Integrated Genetic andNatural Resource Management throughout the SAT

Climate Change: ICRISAT’s Hypothesis of HopeICRISATbelievesthatmuchcanbedonetomitigatetheimpactsofclimatechangeintheSAT.• TheirevolutionaryhistoryinhotanddryenvironmentsmakeICRISATcropsbetteradaptedthanothers.• ExanteanalysesindicatethatIGRNMinnovationsrecommendedfortoday will help mitigate impacts of climate

change tomorrow.

Our HypothesisInthemediumterm(2010-2050),ICRISATandpartnerswillhelpfarmersmitigatetheimpactsofclimatechangethrough:1. Applicationofexistingknowledgeoncrop,soilandwatermanagementinnovations2. Re-deploymentandre-targetingofthealreadyavailablegermplasmofitsmandatecrops.

The Current Yield Gap (green). Column1istheyieldthatfarmersgetundercurrentlowinputmanagement.Column5isthe yield that farmers get by adopting current affordable recommendations

Yield Gap 1 under Climate Change (red)Column2representstheslightlyloweryieldsthatfarmerswouldgetunderclimatechangeusingtoday’slowinputsystem.Column3representstheyieldsthatfarmerscouldget,evenunderclimatechange, if they adopted current improved practice recommendations. Yield Gap 2 under Climate Change (red). Column4representstheyieldsthatfarmerscouldgetunderclimatechangeiftheywere to adopt current improved practice recommendations together with germplasm better adapted to a warmer world.

A plot showing the difference when used with microdosing (top) and without microdosing (bottom) Inset: Applying a microdose of fertilizer.

a) Additional groundwater recharge at Kothapally watershed. b) Water storage for expanded irrigation. c) Bio-diesel extraction plant in the Powerguda watershed in Andhra Pradesh. d) Low cost soil and water conservation structures. e) Groundnuts with micronutrient amendments.

aa c

ApproachICRISATembracesanIntegratedGeneticandNaturalResourceManagement(IGNRM)approach.IGNRMexploitsthesynergies of crop improvement, crop, soil and water management, livestock science, social and economic research and climate science.

Boosting production at the Field Scale in Africa. Fertilizer MicrodosingDecliningsoilfertilityandhighfertilizerpricesaremajorconstraints.Precisionplacementofsmallamountsoffertilizerattheidealtime(microdosing),combinedwithmicrocreditschemes,and innovative marketing methods, boosts yields.

Impact:• 250,000farmfamiliesinAfricahavepositivelyevaluatedmicrodosing• Microdosingre-introducedfertilizeruseinZimbabwe,MozambiqueandSouthAfrica• Yieldincreasesbetween44to120%inMali,BurkinaFasoandNiger• Incomeshaveincreasedby30to130%.

ICRISAT is working with partners to scale up this work in the coming years.

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