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ESA crop improvement : legumes

  1. Crop Improvement: Legumes ICRISAT-ESA: A. Seetha. Anitha, S.M. Njoroge, C. Ojiewo, N.V.P.R. Ganga Rao, E. Monyo, M. Siambi, and P.Okori, ICRISAT- R.K. Varshney, H.S. Desmae, M. Babu, H.D.Upadhyaya, P. Janila, H.S. Desmae, PM Gaur, V.Vadez, H.K Sudini, CV Sameer Kumar NARS: NARO, IIAM, DARS, EIAR, ZARI, Universities, Private Seed Companies
  2. Acknowledgments • Governments in Region • Public research and extension • Development Partners – BMGF, USAID, Irish Aid, IFAD,, UKAID, GTZ, IFAD • Civil Society • Farmer organizations • International research agencies – CGIAR – Advanced research centers • Diverse development projects
  3. Context of ESA Legume Science Agenda
  4. The demand environment
  5. 1. The need to meet food and nutrition demands of a growing population Southern Africa East Africa Source: UN population division, 2012.
  6. 2. Asymmetric demography: How and S&T provide solution for harnessing the SSA youth population dividend Source: Brookings Institutions and Africa progress Panel, 2014 2030 20502010 400,000 300,000 200,000 100,000 0 Populations(Thousands)
  7. 1 2 30 94 5 6 87 10 10 20 30 Numberofpeople(Millions) Mean daily consumption (PPP dollars) 0 $1.25 $2.50 3. Tackle the persistent poverty and vulnerability
  8. Seed systems are weak to moderate 75% 80% 85% 90% 95% 100% 105% Maize Sorghum/Mille t Sunflower Groundnuts Pigeon pea Cow peas Sesame Beans Sweet potatoes Local seed Improved Quality declared seeds Local and improved < 10% of farmers, use improved seeds or quality declared seeds Source Africa RISING: Tanzania. KK team
  9. Medium to high food insecurity Extreme risk High risk Medium risk Low riskNo data Source: Food Security Index & Map, 2013
  10. 4. Resilience to an increasing risk Each “growing degree day” spent at a temperature above 30°C decreases yields by 1 percent under optimal (drought-free) rainfed conditions. Southern Africa faces the risk of more severe and protracted droughts and periods of extremely low and extremely high rainfall could become more common as temperatures increase from 2-4°C What Crops and traits shall we breed? How efficient are our R&D research to market pathways
  11. 5. Mobilize agriculture to deliver solutions for the silent hunger (nutrition deficiencies) David Tilman et al. PNAS 2011;108:20260-20264 Projections 2005-2050Previous trajectories
  12. Investment opportunity
  13. Agriculture a big part of Africa’s 2020-2.6 trillion revenue growth Africa’s economic growth creating new opportunities not covered by multinational corporations
  14. Growth in agriculture is twice to four times as effective in reducing poverty
  15. Rwanda UgandaEthiopiaBurkina Faso Mozambique Tanzania 0 6 2 4 8 10 %shareofgrowth Agri. Sector is a significant driver of growth: What catalysts do we have? Source: Brookings Institutions and Africa progress Panel, 2014.
  16. We can unlock the agricultural potential: Most of ESA can generate 460-1350$/ha Source: Fisher and Shar, 2010 US$ 201-300 US$ 301-468 US$ 581-907 US 1598-1881 US1881-2729 US$ 468-580 US$ 908-1128 US$ 1129-1349 US$ 1350-1597
  17. Crop varieties for sustainable Intensification Source: DCL, 2015
  18. Legumes science agenda for ESA New productive, resilient and nutrient dense varieties Increased availability and access to to productivity enhancing innovations Crop diversification for food, nutrition and income security
  19. Product/ technology cycle management Product life cycle management Breeding, selection and evaluation DiscoverDiscover y Proof of concept Early Developm ent Late developm ent Pre- sector Pre- release CG+NAR S+ Seed sector Release & + Seed sector Release & develop ment CG+NARS + Seed sector Discontin sector Discontin ue CG+NAR S & seed sector GxExM Product Knowledge, best agronomic systems fit Preparing for release Regulatory approval to release. Market positioning, Deployment plans and seed forecast production plans Product Scale-up Expansion into additional/extended TPE. Managing genetic & trait purity, validating yield assumptions. Monitoring performancevs old/ farmer preferred varieties Exit Strategy Discontinue Breeder’s seed production and introduce new varieties.
  20. TL III Focus Geographies and Crops
  21. Tropical legume - III: Project Management Objectives: • Ensure implementation of TL III objectives; monitoring of milestones, outputs and expenditures • Ensure effective data archiving and dissemination as global public goods. • Ensure effective communication of TL III progress, achievements and impacts. • Efficient management and reporting.
  22. Salient Results for 2015 Implementing a multi-stakeholder project launch workshop • Better understanding of the project context and objectives • Increased understanding of TL III’s interface with respective country legume strategies • A sense of ownership of the TL III project by partners • Country workplans integrating TL III Objectives • TL III Project Monitoring, Learning and Evaluation (MLE) Plan
  23. Implementing National Annual Planning meetings • Meetings were successfully held for all countries to finalize country workplans for groundnut in Burkina Faso, Ghana, Mali, Nigeria, Tanzania and Uganda; Chickpea in Ethiopia and Uttar Pradesh India, Common beans in Ethiopia, Tanzania and Uganda and cowpea in Burkina Faso, Ghana, Mali and Nigeria Salient Results cont…
  24. Salient Results cont Curation and dissemination of TL-III Data as global public goods • The Integrated Breeding Platform – Breeding Management System (BMS) was decided as a tool of choice for the management of TL III data • 3 training sessions for BMS were conducted for project implementing staff in Nairobi, Addis Ababa and Bamako btw Aug and Dec 2015 • A BMS Cloud database for TL-III established.
  25. Salient Results cont Communicating TL-III project progress, achievements and impact • Four volumes of the regular Quarterly Bulletin Tropical legumes were produced highlighting specific aspects of project successes • TL III web-page have been updated to include a TL III facebook and twitter links to communicate project information. • A 182 page synthesis of the seven seasons of learning and engaging smallholder farmers through the tropical legumes in Sub-Saharan Africa and South Asia is ready for publication.
  26. Salient Results cont Management and reporting of TL-III Project • Launched TL III (August 17 – 22, 2015) • Worked with Country focal points and country teams to develop Country Workplans • Worked with Objective leaders to synthesize these into Project workplans (by objective) • Worked with ALINe Consultancy to develop Project MLE Plan • Visited project sites in all regions to monitor progress and provide on the ground advice as needed
  27. Salient Results cont.. Supporting breeding pipelines for groundnuts, cowpea, common bean, and chickpea in target TL-III countries • TL III supported the implementation of the BPAT to all CGIAR Africa based programs which included Program assessments for groundnut in Mali and Malawi, chickpea in Ethiopia, cowpea in Nigeria and common beans in Uganda and Malawi. • Key findings - ICRISAT African based breeding programs have very competent scientists but are weak in breeding cycle time, phenotyping for drought, and application of marker assisted breeding technologies. • These critical areas have been recommended for improvement as part of TL III improvement of breeding efficiency in African CGIAR sites and the target NARS.
  28. Challenges, Constraints & Mitigations • It has taken long to fill the project positions – hence the project is off to a slow start (The gender scientist has not joined to-date and gender related research activities are behind schedule) • Ongoing security and instability in parts of Mali and Nigeria • Drought in Ethiopia (ElNino effect of 2015) .
  29. Chickpea breeding
  30. MABC for drought tolerance in chickpea • 7 MABC F7 lines with up to 40g/100 seed weight and up to 41% higher yield than the std check identified • Introgresssion crosses initiated • Reproductive stage drought tolerance under late planting condition; avoiding ascochyta blight • 7 MABC F7 lines with up to 40g/100 seed weight and up to 41% higher yield than the std check identified • Introgresssion crosses initiated • Reproductive stage drought tolerance under late planting condition; avoiding ascochyta blight 0 500 1000 1500 2000 2500 3000 3500 MABC11 MABC4 MABC16 MABC13 MABC14 MABC10 ICCV-939554 ICCV-4958 MABC9 MABC7 MABC6 MABC18 MABC19 MABC3 MABC2 MABC22 DALOTA Yield of MABCF7 Desi lines at Debre Zeit Yield(kg/ha) 41% Drought tolerant varieties • High yield under drought stress • Trait-based selection + MABC • Evaluation for yield adaptability • Identifying new sources
  31. Heat stress tolerance • Low pollen viability, pollen germ. and pollen tube growth • Causes flower abscission and pod abortion, • Reduces pod set, pod fill and yield Anther-pollen fertility with Alexander’s stain ICCV 92944 (Tolerant) ICC 5912 (Sensitive) • 4 lines with yield advantage of 178%, 38%, 32% and 11% over std check under normal T oC • 7 lines with >2 t/ha selected at T oC > 35 oC • New tolerance sources from reference set • Expansion of production to non- conventional areas under irrigation • Late planting to avoid AB • Changing and variable climates
  32. Ascochyta blight; wilt-root rot complex of CP • AB and WRR cause upto 100% loss • No AB resistant desi variety • Majority of farmers produce desi • Planting late to avoid AB and FW • Resistance varieties for early planting • 3 new sources of double resistance identified • NVT for resistant desi • BC2 to improve released varieties • Maturity before terminal drought
  33. Emerging issues: Early maturity • Escape end-of-season drought and heat stresses • short window of cropping season – double cropping • enhance cropping resilience (intensification and diversification) • Green pod chickpea market (challenges with human pest??) • New sources from local and reference collections
  34. Nodulation/fixation may be limited by: • the presence ineffective strains • low population numbers, • low infectivity or lack of effectiveness, • poor survival rate of rhizobia in the soil • competition amongst strains of rhizobia • the absence of compatible strains (strain x variety x environment interaction) CRP-GL: Even lines earlier reported as non- nodulating do nodulate with compatible strains TLIII: include basic N2Africa-recommended package of inoculum and agronomic practices in field demos.  From 50 indigenous rhizobia, 15 Rhizobia isolates with wide pH tolerance, 5 with salinity tolerance, 3 with high ToC tolerance, 5 with antibiotics resistance, 15 phosphate solubilizing isolates were identified.  The 50 isolates were further grown on yeast extract mannitol agar and single colonies cultured for molecular characterization.  43 isolates are currently being sequenced at UC-Davis
  35. Chickpea cultivars for mechanical harvesting 1. Machine harvestable • herbicide tolerant • frost tolerant • for double cropping 2. Disease resistant 3. Efficient N-fixing 4. High yielding 5. Market preferred 6. New sources to be identified from ref collection 7. Introgression crosses
  36. Pigeonpea breeding
  37. Pigeonpea Breeding priorities in ESA • High grain yield • Phenology for agro-ecol. adaptability and SI • Photo-thermo insensitivity • Ratoonability with high yield • Grain quality for dry & fresh grains • Climate resilience with drought tolerance • Fusarium wilt tolerance • Pest tolerance esp. Pod borers
  38. Workplan targets 2014-2015 1. Evaluation of 25 short, 40 medium, 40 long duration varieties 2. Maintenance of breeder seed of 10 varieties, enhancing NARS capacity and seed scaling up with stakeholders 3. Development and evaluation of 500 pigeonpea breeding lines for yield, fusarium wilt and pest tolerance 4. Evaluation of 30-50 early chickpea elite lines for yield, drought, fusarium wilt and Ascochyta blight 5. Evaluation of 20 chickpea elite lines for heat tolerance and dry root rot 6. Maintenance of breeder seed of 10 released varieties including heat tolerant ICCV 92944 7. Collection, characterization, conservation and distribution of chickpea and pigeonpea germplasm 8. Evaluation of 30 chickpea genotypes for insect pest and 10 for herbicide tolerance 9. Identification of maintainers and restorers under African germplasm, use of cleisto lines in breeding program
  39. Evaluation of varieties in ESA Country Short Medium Long Kenya 56 75 60 Tanzania 20 42 35 Malawi 22 47 22 Mozambique - 35 60 Ethiopia 22 18 70 Zambia - 15 25 Uganda - 57 - Mali 22 18 - Best lines 12 19 15 • Released 5 varieties (4 in Tanzania, 1 in Zambia) • 4 in Uganda and 2 in Zambia pipeline for release
  40. Maintenance of quality seed Crop Breeder Foundation Certified +QDS Total Pigeonpea 18.8 82.4 86.5 478 Chickpea 5.0 4.5 32.4 41.9 Total 23.8 86.9 118.9 519.9
  41. Breeding pipeline F8 Number Total ICEAP 00040 X KAT 60/8 29 64 ICEAP 00048 X ICEAP 00557 4 ICEAP 00557 X ICEAP 00576-1 5 ICEAP 00576-1 X ICEAP 00554 15 ICEAP 00576-1 X ICEAP 00557 11 F6 ACC 88 X ICEAP 00576-1 23 87ICEAP 00048 X ICEAP 00040 21 MJ X ICEAP 00040 43 Early generation F6 : Number Total KAT 60/8 X ICEAP 00540 118 256 ICEAP 00068 X ICEAP 00540 138 F7 : ICP 6927 X ICEAP 00554 128 203 ICP 6927 X ICEAP 00557 53 ICP 6927 X ICEAP 00850 16 ICEAP 00068 X ICEAP 00850 6 F8 : MZ 2/9 X ICEAP 00554 39 301 MZ 2/9 X ICEAP 00557 91 ICEAP 00554 X MZ 2/9 95 MTHAWAJUNI X ICEAP 00554 21 MTHAWAJUNI X ICEAP 00557 19 ICEAP 00554 X MTHAWAJUNI 36 F9 : ICEAP 00554 X ICP 7035 37 47 ICEAP 00557 X ICP 7035 10 Medium duration Observation Nurseries Number Total MD observation 1 57 349MD observation 2 147 MD observation 3 145 Diversity lines 435 F1 HYBRID 26 F2 progenies 16 F3 progenies 27 F4 progenies 80 Long duration
  42. Pest tolerance with purple and constricted pods Line Plant no. Plant yield(g) Seed colour 100-seed Mass (g) MZ 2/9/36/2 3 158 cream 26 MZ 2/9/36/2 10 142 cream 25 MZ 2/9/36/2 12 129 cream 26 MZ 2/9/36/2 11 108 cream 25 MZ 2/9/36/2 14 103 cream 25 MZ 2/9/36/2 7 64 cream 27 MZ 2/9/36/2 14 52 cream 28 MZ 2/9/36/2 2 41 cream 28 ICPL 86022 Cream large seeded
  43. Hybrid Pigeonpea • 8 CMS, 52 test crosses • African germplasm – More restorers • Most of the maintainers from India are brown seeded • Use of diverse gene pools for HV over African OPV • Hybrids are with early vigour and more branches Hybrid Medium Duration Variety Hybrid Variety
  44. Germplasm Maintenance 1. Germplasm Collection: – 86 from 9 districts, Lindi R. (6), Ruangwa (17), Nachingwea(3), Tunduru(9), Masasi (12), Nanyumbu (3), Kilosa (14), Gairo (9) and Bagamoyo (3) – 122 from 8 districts, Albetong(18), Otuke(18), Kitgum(9), Lira(18), Oyam (10), Kole(26), Gulu(17) and Lamwo (6) 2. Regeneration and Seed increase: – Regenerated 55 pigeonpea and 18 chickpea accessions – Seed increased 117 pigeonpea and 80 chickpea accessions 3. Distribution: 2120 pigeonpea and 87 chickpea samples 4. Evaluation and characterization: – 92 single plant progenies from Kenyan collection – 224 elite lines of MZ 2/9 accession with cream big seeds(28 g/100 seed mass) and dark pods, high pod load, tolerance to drought and insect pests
  45. Future direction • Genetic enhancement- diverse genepools • Pre-breeding with trait specific donors • More focus on MD with ratoonability • Incorporation of Cleisto flower trait • Hybrids: more maintainers from India • Mapping populations for FW, Pod and seed colour, Seed size • Easy shelling, high dhal recovery, fast cooking, aroma, high sugar content
  46. Aflatoxin Mitigation in Zambia
  47. Objectives • Quantify the incidence of aflatoxin in groundnut (along the value chain), estimate population densities and characterize A. flavus in Eastern Zambia
  48. AFB1 contamination in peanut butter • Chipata, Katete, Petauke, and Lusaka • 954 containers, from 25 brands tested • A sample = 6 containers of a single brand, manufacturing date, and from the same shop • Each container was assayed 5 times, ELISA • Geometric means calculated (log transformed)
  49. • 9, 12, and 8 brands were repeatedly tested within 1 year, across 2 years, and in all 3 years, respectively • 0% of brands repeatedly tested across 3 years had AFB1 • 8% of brands tested repeatedly across 2 years had AFB1 ≤ 20 ppb • 44% of brands tested in just one year had AFB1 ≤ 20 ppb • Zambia, Zimbabwe, Malawi, South Africa
  50. AFB1 in grain and powder • 201 grain samples and 39 milled powder • Chipata, Katete, Petauke, Lusaka, Kitwe, Ndola, Kabwe • 1 kg sample, analyzed 6 times
  51. • 77% of 39 powder samples > 20 ppb AFB1 • 45% of 201 grain samples > 20 ppb AFB1 • No documented successful interventions in informal markets
  52. Food Safety and Nutrition
  53. Baseline Result on Infant and Young Child feeding practices (IYCF). Indicators Value, Age in months (Malawi) Value, Age in months (Tanzania) Exclusively breast fed (EBF), % (67%), <6 months (69.1%), <6 months Dietary diversity score, mean (SD) 2 (1.02), 6-23 months 3.23 (1.1), 6-23 months Met minimum dietary score, % 7 %, 6-23 months 39 %, 6-23 months Meal frequency, mean (SD) 2.0 (0.8), 6-23 months 2.31 (0.96), 6-23 months Met minimum meal frequency (MMF), % 50%, 6-23 months 43.7 %, 6-23 months Met minimum acceptable diet, % 1.8% 6-23 months 18.4 %, 6-23 months
  54. • Pigeonpea, finger millet, groundnut and maize combinations with vegetables (to improve protein, Calcium, Zinc , Vitamin A and Iron to reduce malnutrition, improve bone growth and body function. • Training on hygiene (to reduce diarrhoea and improve Zn absorption). • Training on post harvest crop handling (to reduce aflatoxin exposure and improve vitamin A and Zn absorption). Approach: Learning by doing positive deviance hearth model (CORE)
  55. Results of 21 days positive deviance approach (PDA) - Short term study Indicators Control group Intervention group Mean weight at day 0 8.8 kgs±1.5 8.9 kgs±1.2 Mean weight at day 7 8.7 kgs±1.2 9.1 kgs±1.3 Mean weight at day 14 8.7 kgs±1.1 9.7 kgs±1.3 Mean weight at day 21 Mean MUAC at day 0 8.5 kgs±1.1 14.6cm±1.1 10.1kgs±1.3 14.6cm±1.0 Mean MUAC at day 7 14.2cm±1.1 14.5cm±1.0 Mean MUAC at day 14 Mean MUAC at day 21 14.1cm±1.1 14.0cm±1.0 14.6cm±1.0 15.0cm±1.0
  56. Impact of PDA on underweight : DID random effect model Dependent Variable: Weight-for-Age Z-Score Coefficient T-statistics p-value DID (Day 7) 0.31 1.86 0.063 DID (Day 14) 0.53 3.12 0.002 DID (Day 21) 0.73 4.34 0.000 Impact of PDA on wasting : DID random effect model Dependent Variable: Weight-for-Height Z-Score Coefficient T-statistics p-value DID (Day 7) 0.37 1.40 0.161 DID (Day 14) 0.71 2.72 0.006 DID (Day 21) 0.85 3.26 0.001
  57. LFD- User friendly diagnostic device Aflatoxin detection at field level is crucial to reduce the contamination in value chain. Antibody reacts with aflatoxin antigen giving coloured reaction. This is simple to perform, cost effective (<2$), less time consuming (<5 min) and accurate
  58. ICRISAT LFD ICRISAT LFD Results on Validation of LFD Lateral flow immunoassay Number and % of samples tested for AFB1 in ELISA Positive (above 20 ppb of AFB1) Negative (below 20 ppb of AFB1) Total Positive (above 20 ppb of AFB1) 25 (50.00 %) 0 (0.00 %) 25 (50.00 %) Negative (below 20 ppb of AFB1) 0 (0.00 %) 25 (50.00 %) 25 (50.00 %) Total 25 (50.00 %) 25 (50.00 %) 50 (100.00%) The figure in parentheses were computed based on the visual scoring of lateral flow device and quantitative data obtained for ELISA after calculation. The sensitivity of lateral flow device for AFB1 above 20 ppb in samples are 100 %; the specificity is also 100 %. The positive predictive value is 100 %. The negative predictive value is 100 %. Table 1: sensitivity and specificity of lateral flow immunoassay compared to ELISA for detecting above 20 ppb of aflatoxin in groundnut samples
  59. Groundnut breeding and seed systems
  60. Groundnut breeding 1. Input traits: • Develop resilient varieties that increase productivity above the 2 ton + barrier 1. Input traits: • Develop resilient varieties that increase productivity above the 2 ton + barrier 2. Output traits: • Low aflatoxin contamination • Enhanced nutrition density - Zn, Fe and oleic acid • Increased oil & confectionary needs 2. Output traits: • Low aflatoxin contamination • Enhanced nutrition density - Zn, Fe and oleic acid • Increased oil & confectionary needs 3. Farming systems support • Suitability for intensification • Livestock feeds 3. Farming systems support • Suitability for intensification • Livestock feeds Shuttle breeding, capacity building, integrated breeding, Genebank
  61. Output 1: New varieties and lines Aim: Generate breeding populations improved tolerance to endemic stresses ICGV-SM 08501 Five new varieties for Zambia 2 Medium duration Virginia types • ICGV-SM 06729 • ICGV-SM 08503 2 Short duration Spanish types • ICGV-SM 08513 • ICGV-SM 03517 1 Valencia type • ICGV0SM 05534 Breeding lines and populations • 39 families of deriving from released popular varieties with enhanced Fe, Zn and Oleic acid generated • 70 families with a drought tolerance background have been generated • 20 regional trial sets used by ZARI, NARO, ARI-Naliendele, IIAM, ICRISAT- Bamako and Kano. • 600 lines distributed to partners
  62. Target population environments: Performance under farmer management (GxExM) Genotype Sensitivity SE. Mean SE Land race 0.1359 0.3265 238.5 83.63 ICGV-SM 03519 0.4537 0.3265 724.8 83.63 ICGV-SM 99568 0.9856 0.3265 445.7 83.63 ICGV-SM 05650 1.1196 0.3265 549 83.63 ICGV-SM 01513 1.1639 0.3265 434.1 83.63 ICGV-SM 02724 2.0546 0.3265 937.6 83.63 Sensitivity tests: Finlay and Wilkinson modified joint regression analysis shows ICGV-SM02724 highly sensitive and best grown in high potential areas. Land race is widely adapted i.e. least sensitive.
  63. Output 1 highlights: Targeting & adoption Aim: Conduct farmer participatory variety selection (FPVS) and demonstrations to underpin R4D relevance, adoption and promotions ICGV-SM 08501 • >1000 demonstrations in ESA (new varieties + ICM) • 16,523 farmers trained • >3000 farmers conduct FPVS (ESA) • 60 FRNs (Tanzania and Malawi) engaged for on- farm trials. • >100 para seed inspectors trained
  64. Fine-tuning technology for intensification: Cropping systems farmers use in KK 23 20 10 10 2 Sorghum, Pigeonpea and Maize Maize, Sunflower and Pearl millet Groundnut and pigeonpea Groundnut and maize Others Coverage % Coverage % Source: FRN involving 60 farmers engaged in 2015 Implications for research • Differentiated genotypes • Materials that can handle shading • Agronomy • Plant population management • Optimizing field architecture
  65. Output 2: Strengthening seed supply • 460 tons of foundation seeds (groundnut, pigeonpea). • 1,500 tons of groundnut certified seed. • 280 tons of pigeonpea certified seed Malawi: • 13 new community seed banks identified for possible linkages to markets. Tanzania • 6 new community seed banks Uganda • 4 new communities engaged in seed production David managing a field day in Uganda Currently access to seed is less than 40% in most ESA countries
  66. Full Time Poor Groundnut & Pigeonpea Soil and water and Livestock for nutrient recycling + drudgery reduction Intensified Cereal, Pigeonpea+ Soil and water or rotation systems Rehabilitate soils: Doubled Up Legumes, Pigeonpea + erosion management Adoption Intensified + cereal legume systems (small units with limited rotations) + S.Fert water + livestock Education: Agronomy- Soil Fert + water, weeds, multiple cropping + Processing, Nutrition + small livestock Sustainable Intensification New varieties Strategy for scaling up and out
  67. Summary of 2014-2015 Variety development 1. Advancement & evaluation of populations 2. New crosses made especially for output traits 3. Release in new countries: Zambia and Zimbabwe 4. Fundamental work: Resistance & genetic studies + integrated breeding Technology promotion/ deployment 5. Scaling up and out- (Malawi, Mozambique, Uganda, Tanzania & Zambia) 6. Leverage intensification actions-Tanzania +Malawi+ Mozambique Aflatoxins, nutrition and post harvest management 7. Aflatoxin & nutrition studies- Tanzania & Malawi + Zambia 8. Strengthen and deploy diagnostic tools and management options 9. Awareness (all CRP targets and leverage PACA efforts inSADC) Complementary/leverage areas 10 New investments (leverage and engagement (HOPE, Harvest Plus)- Uganda, SMEAR- Mozambique)
  68. Thank you! ICRISAT is a member of the CGIAR Consortium
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