CIMMYTâs work in Africa helps farmers access new maize and wheat systems-based technologies, information and markets, raising incomes and enhancing crop resilience to drought and climate change. CIMMYT sets priorities in consultation with ministries of agriculture, seed companies, farming communities and other stakeholders in the maize and wheat value chains. Our activities in Africa are wide ranging and include: breeding maize for drought tolerance and low-fertility soils, and for resistance to insect pests, foliar diseases and parasitic weeds; sustainably intensifying production in maize- and wheat-based systems; and investigating opportunities to reduce micronutrient and protein malnutrition among women and young children.
Bram Govaerts and Amsal Tarekegne compare a maize hybrid. (Photo: Katebe Mapipo/CIMMYT)
Maize is a vital crop in Zambia and Tanzania, both for farmers’ economic livelihoods and for delivering nutrients and sustenance to a large group of people. But maize is threatened by climate change, like more severe droughts, and from pests like fall army worm (FAW), which can completely devastate farmers’ fields.
Against this backdrop of looming threats, CIMMYT, as part of the Southern Africa Accelerated Innovation Delivery Initiative (AID-I) Rapid Delivery Hub, or MasAgro Africa, is partnering with the Zambia Seed Company Limited (Zamseed) to distribute seeds that are drought tolerant and resistant to the ravages of FAW. And because maize is a staple of many peopleâs diets, CIMMYT and Zamseed are also developing and distributing maize varieties enhanced with vitamin A.
To uphold maize variety integrity, CIMMYT and Zamseed are engaged in the capacity building of quality assurance and quality control for local stakeholders.
CIMMYTâs engagement with Zamseed involves efforts to popularize high yielding, drought-tolerant, and vitamin enhanced maize varieties in Zambia and Tanzania. Some of these efforts include demonstrations of the new varieties, field days held at different stages of maize development, and deliberate engagement of women throughout the entire seed selection, planting and harvesting effort.
âOur partnership with Zamseed started in October 2022,â said Ir Essegbemon Akpo, a CIMMYT maize seed systems specialist. âIt has been a fruitful collaboration, delivering significant outputs to thousands of farmers in Zambia and Tanzania.”
To date, Zamseed has held 300 and 500 demonstrations in Tanzania and Zambia, respectively. The company has held many field days at the demonstration sites to showcase drought tolerant and vitamin A enhanced maize to hundreds of small-scale farmers.
âWe have witnessed many farmers who visited the demonstration activities who are excited to see the new high yielding and drought tolerant varieties,â said Amsal Tarekegne of Zamseed.
Seeded by funds from the AID-I project, Zamseed is producing 60kg of Early Generation Seed (EGS) of parents of a FAW-tolerant hybrid maize variety. The company plans to produce 200kg of this hybrid for commercialization and launch in 2024.
To ensure that seeds delivered to farmers are of the highest quality, CIMMYT is working with Zamseed to develop quality assurance and control frameworks, involving genotyping of selected seeds at various times during the seed multiplication and distribution process.
Zamseed has been servicing the requirements of farmers in the sub-Sahara region since 1980, focusing on products that will enhance the profitability of the small-scale farmer and ensure household food security.
In Central and West Asia and North Africa (CWANA), agri-food systems are under pressure from resource depletion, population growth, and food insecurity. CIMMYT’s work is vital, focusing on sustainable agricultural practices and innovative technology to enhance productivity and resilience. Research and development efforts are critical in addressing the environmental and socio-economic challenges of agriculture in this diverse and dynamic region.
To bring together farmers with seed distributors and other stakeholders, the Southern Africa Accelerated Innovation Delivery Initiative (AID-I) Rapid Delivery Hub, or MasAgro Africa, held a seed fair with the theme âPromoting Access to Drought Tolerant Seed and Appropriate Scale Technologies,â in Zambiaâs Chongwe district. The objectives of the fair were to create a platform for farmers and input suppliers to engage before the onset of the planting season. Over 1,200 farmers attended the seed fair.
Zambian government officials and CIMMYT staff tour fair stands. (Photo: Nancy Malama/CIMMYT)
âThe seed fair plays a critical role in linking farmers to seed companies and exposes them to appropriate technologies. The links created with agro-dealers and other suppliers ensure farmers gain access to sufficient volumes of appropriate multiple stress tolerant maize hybrids, legume seed and agricultural inputs locally. Access to drought tolerant seed and technology in the times of climate change is timely and critical to today’s farmers. This fair will help our farmers acquire inputs at their doorsteps, promoting food security,â said Kasuba, the district agriculture officer.
AID-I is also using these fairs to provide information on agronomic practices such as conservation agriculture, climate-smart agriculture and small mechanization options to support smallholders not only to learn but also enjoy the events through participation in fun quizzes. Farmers purchase seed and other inputs when they redeem vouchers provided by participating companies who develop the questions for farmers.
A farmer who redeemed a voucher said, âI came from Nyimba, because I heard that there is a seed fair here. What I found was very interesting, and I learned a lot. I saw a lot of seeds from different companies. I have also managed to win this pesticide by answering a question, and I am very happy about this project.â
Farmer redeems a voucher for beneficial pesticides. (Photo: Christabel Chabwela/CIMMYT)
These add-ons to the seed fair ensure farmers learn about climate-smart practices and how they can mitigate climate change effects and crop damage caused by pests by using drought and pest resistant varieties. Pests such as fall armyworm (FAW) are a major threat to smallholder farmers and their crops, as these can destroy crops and lead to a significant decrease in yields and income for the farmer.
Some of the outcomes and benefits for the private sector, and farmers alike include farmers to access different seed hybrids at one location, reduced costs of transportation for farmers who often travel long distances to get inputs. Zamseed, an AID-I partner, was able to promote 600 packs of their ZMS 451-medium and ZMS 721-late maturity seeds. SeedCo, another AID-I partner was able to support farmers with 500 seed packs of their medium maturity SC 303-ultra early, SC 555-early and 657-medium maturity maize seed varieties to farmers. Seed input suppliers noted that maize seed packed in smaller bags weighing 10 kgs and of medium maturity variety seed were the most sought-after and have now influenced how they can reach much larger numbers of smallholder farmers through this observation on improved packaging and demand.
In addition to Zamseed and SeedCo, AID-I partners who participated in the seed fair include the Ministry of Agriculture, CRS, Afriseed, Synergy, Animive Enterprises, Bayer, Amiran, Syngenta, Omnia Fertilizer, and Corteva.
Written by mcallejas on . Posted in Uncategorized.
Kelvin Mulungu is an Agricultural Economist whose main research interests lie at the intersection of natural resources, food, and climate change. He has extensive experience in development work in several African countries, including Uganda, Kenya, Tanzania, Ivory Coast, Nigeria, Malawi, Zambia, and some Asian countries. His current research at CIMMYT focuses on understanding social enablers and barriers to adoption, assessing the impact of different agricultural technologies, and testing social incentives to improve farmer adoption of agricultural technologies. He is interested in applying the latest econometric advances to provide rigorous evidence on development challenges in developing countries.
Prior to joining CIMMYT, Kelvin was a research manager at HarvestPlus Zambia, a postdoctoral researcher at AfricaRice, and most recently a postdoctoral fellow at the International Center of Insect Physiology and Ecology (icipe) in Nairobi, Kenya. He holds a PhD in Agricultural and Resource Economics from Colorado State University (USA), an MSc in Agricultural and Applied Economics from Egerton University (Kenya), and a BSc in Agricultural Economics from the University of Zambia.
Maize production is surging due to its diversified end uses. While it is already the first staple cereal globally, it is expected to emerge as the worldâs predominant crop for cultivation and trade in the coming decade. Globally, it serves primarily as animal feed, but it is also a vital food crop, particularly in sub-Saharan Africa, Latin America, and in some areas in Asia.Â
Climate change is, however, altering the conditions for maize cultivation, especially in the rainfed, stress-prone tropics. Abiotic stresses like heat, drought, and floods, as well as biotic threats such as diseases and insect pests are becoming more frequent. These have a disproportionate impact on the resource-constrained smallholders who depend on maize for their food, income, and livelihoods.Â
In a race against time, crop breeders are working to enhance maizeâs resilience to the changing climates. Among others, CIMMYT and the International Institute of Tropical Agriculture (IITA), working within CGIARâs Accelerated Breeding Initiative, are utilizing breeding innovations to develop climate-resilient and nutritionally enriched maize varieties needed by the most vulnerable farmers and consumers. Â
Better processes
Improving maize yields in the rainfed, stress-prone tropics is challenging. Nevertheless, CGIARâs efforts have significant impacts, as breeding programs embraced continuous improvement and enhanced efficiency over the years. Â
To increase genetic gains, CIMMYT maize breeding program implemented a systematic continuous improvement plan. Sixty percent of CIMMYTâs maize lines in Eastern and Southern Africa (ESA) are now developed through technologies that speed up breeding cycle and improve selection intensity and accuracy; these include doubled haploid technology, high-throughput phenotyping, molecular marker-assisted forward breeding, and genomic selection. The breeding cycle time has been reduced from five or six years to only four years in most of the maize product profiles. Product advancement decisions now incorporate selection indexes, and specialized software aid in the selection of parental lines for new breeding starts.Â
CIMMYT and IITA maize teams are working together to investigate several key traits in maize for discovery, validation, and deployment of molecular markers. CGIAR maize team developed a framework for implementing a stage-gate advancement process for marker-trait pipeline, which enables informed decision-making and data-driven advancements at multiple stages, from marker-trait discovery proposal to marker discovery, validation, and deployment. Consolidating research efforts and implementing this process is expected to increase efficiency and collaboration in maize breeding programs.
At the end of the breeding process, breeders must ensure the quality assurance and quality control (QA/QC) of the parental lines of the new varieties. Seed quality, which includes genetic purity, genetic identity, and verification of parentage â is critical in maize breeding and commercial seed production. Â
CIMMYT has worked to enhance the capacity of NARES and seed company partners in Eastern and South Africa (ESA), Asia, and Latin America, in utilizing molecular markers for QA/QC in breeding and commercial seed production. This has resulted in more reliable and accurate outcomes. In addition, webinars and user-friendly software have boosted results for NARES maize breeders, regulatory agencies, and seed companies. These combined efforts mean a dependable, cost-effective, and efficient QA/QC system for the maize seed value chain in the Global South.Â
Better toolsÂ
With traditional means, obtaining a genetically homozygous or true-to-type maize line requires six to eight generations of inbreeding, and thus, more than ten years for developing a new hybrid. The technique of doubled haploid (DH), which enables derivation of 100% genetically homozygous lines in just two generations, is now integral to modern maize breeding. CIMMYT has pioneered the development of tropical maize DH technology, by developing and disseminating tropicalized haploid inducers, establishing centralized DH facilities in Mexico, Kenya and India, and providing DH development service to partners. Â
Regional on-farm trials (ROFTs) is a crucial step in maximizing the impact of breeding investments. ROFTs help scientists understand performance of the pipeline hybrids under diverse farmersâ management conditions, besides environment, soil variability, etc.Â
In ESA, ROFT networks for maize are expanded significantly over the last few years, from 20-30 sites per product profile to up to 300 sites, encompassing a wide range of smallholder farming practices. The experimental design was simplified to use less germplasm entries to be tested per farm, making it easier for the farmers to participate in the network, while improving data quality. Collaboration with NARES, seed companies, NGOs, and development partners was significantly stepped up to capture the social diversity within the target market segments. Gender inclusion was prioritized.
Training workshop organized by CIMMYT at the Maize Doubled Haploid Facility in Kunigal, India. (Photo: CIMMYT)
Strengthening the capacity of NARES and SMEs to systematically access and utilize improved maize germplasm is critical for increasing genetic gains in the stress-prone tropics. But partner institutions are at different stages of evolution, which means capacity strengthening must be tailored to institutional strengths and constraints. Â
Accelerated Breeding has been strengthening regional CGIAR-NARES-SME collaborative maize breeding networks via activities such as exchanging elite tropical germplasm (inbred lines, trait donors, and breeding populations) through field days, and widely disseminating CIMMYT maize lines (CMLs) requested by institutions globally. Â
Partners participate in CGIAR maize stage-advancement meetings â they are given access to multi-location trial data and participate in the selection process of promising hybrids to be advanced from the different breeding stages. CGIAR maize teams also assessed the capacity of different NARES institutions, and formulated continuous improvement plans in consultation with respective NARES teams for further support. Â
Better varieties
Systematic integration of new breeding techniques and innovations in CGIAR maize breeding pipelines are leading to better varieties, at a much faster pace, and at lower cost. Given the impacts of climate change, this is indeed the need of the hour. Â
Maize breeders need to respond rapidly to emerging and highly destructive insect-pests and diseases. For instance, the invasion of fall armyworm (FAW) in Africa (since 2016) and Asia (since 2018) has ravaged maize crops across more than 60 countries. CGIAR maize team in Africa responded to this challenge and made progress in identifying diverse sources of native genetic resistance to FAW, resulting in elite hybrids and open-pollinated varieties (OPVs) adapted to African conditions.Â
Since 2017, CIMMY has strengthened the maize insectary capacity of KALRO-Katumani by optimizing the FAW mass rearing protocol and screening of maize germplasm under FAW artificial infestation at Kiboko Station, Kenya. The station now has sixteen 1,000m net houses. The intensive work since 2018 led to identification of FAW-tolerant inbred lines by CIMMYT and their distribution to over 90 public and private institutions in 34 countries.Â
NARES partners across 13 countries in Africa have undertaken national performance trials of three FAW-tolerant hybrids developed by CIMMYT. Kenya, Zambia, Malawi, South Sudan and Ghana released the three hybrids in 2022-23, while several more countries are expected to release these hybrids in the coming months.
Drought and heat tolerant maize ears are harvested through a CIMMYT project. (Photo: J.Siamachira/CIMMYT)
Climate change is also exacerbating maize diseases. Affecting at least 17 countries in the Americas, the Tar Spot Complex (TSC) disease affects maize in the cool and humid regions. It causes premature leaf death, weakens plants, and reduces yields by up to 50%. CIMMYT maize team in Mexico has mapped genomic regions conferring TSC resistance, and is using these markers in breeding programs. Â
The Global South is also particularly vulnerable to drought and high temperature stresses. In the past five years, 20 drought- and heat-tolerant maize hybrids have been released in Asia, including Bangladesh, Bhutan, India, Nepal, and Pakistan. Socio-economic studies in India and Nepal showed that farmers who adopted these hybrids realized higher grain yields, and increased income compared to the non-adopters.Â
In 2022, certified seed production of CGIAR multiple stress-tolerant maize varieties reached 181,119 metric tons in sub-Saharan Africa (from 72,337 tons in 2016). This is estimated to cover ~7.4 million hectares, benefiting over 46 million people in 13 countries.Â
With maize facing unprecedented threats from climate change-induced stresses in the rainfed stress-prone tropics, CGIAR maize breeding programs working closely with NARES and private sector have demonstrated remarkable success in breeding as well as deploying climate resilient maize. These efforts rely on better processes and modern breeding tools, leading to drastically reduced breeding cycle time, cost saving, and improved efficiency. Â
The resulting improved varietiesâresilient to major environmental stresses, diseases and insect-pestsâare increasingly adopted by smallholders across sub-Saharan Africa, South Asia, and Latin America, showing that tomorrow is already here. The work continues to ensure that maize remains a constant source of food security and prosperity for generations to come in the tropical regions.
Navigating the Challenges of Modern Agriculture: Kevin Pixley’s, Dryland Crops and Wheat Program Director, expertise highlights the transformative impact of genetic engineering in crop improvement, focusing on developing resilient varieties to meet global food demands amidst climate change.
Harnessing Change was the theme of the 2023 Borlaug Dialogue, an annual summit of international thought leaders, development specialists, researchers, farmers, and practitioners, designed to promote global food systems transformation and food security, and is organized by the World Food Prize Foundation.
This iteration of the Borlaug Dialogue, held in Des Moines, Iowa, October 24-26, 2023, was the site of the inauguration of a collaboration between CIMMYT and the Gorongosa Restoration Project to improve climate resilience, food security and nutrition in Mozambiqueâs Gorongosa National Park.
âThese kinds of collaborations exemplify what the Borlaug Dialogue is all about,â said CIMMYT Director General Bram Govaerts. âThe annual event and the work of the World Food Prize Foundation year-round is dedicated to bringing people and organizations together to work better and smarter. CIMMYT is proud to be a part of it.â
CGIAR Centers based in the Americas host discussion on Latin Americaâs food security challenges and opportunities
CIMMYT, the International Potato Center (CIP), the Alliance of Bioversity International and the International Center for Tropical Agriculture, and International Food Policy Research Institute (IFPRI) co-organized the side event Maximizing Latin America and the Caribbeanâs Contributions to Global Agriculture and Biodiversity Solutions at Dialogue.
Govaerts moderated the panel discussion and the Q&A session that followed with members of the audience.
Panelists, including Elsa Murano, director of the Norman E. Borlaug Institute for International Agriculture & Development, Rob Bertram, chief scientist for the Bureau for Resilience and Food Security at the U.S. Agency for International Development (USAID), and MarĂa (pilu) Giraudo, honorary president of Argentinaâs No Till Farmers Association, shared views on Latin Americaâs role in global agriculture from academic, development and farming offer academic insights, international cooperation recommendations and farmer perspectives.
CIMMYT and USAID co-host panel focused on AID-Iâs impact at the Borlaug Dialogue
The discussion labelled, Harnessing Innovation to Rapidly Respond to Crises, aimed to present AID-Iâs innovative approach to addressing systemic weaknesses in agriculture by accelerating the market-based delivery of improved seeds, fertilizers, and critical information to farmers.
(Left to right) Bram Govaerts, Kevin Kabunda and Dina Esposito. (Photo: CIMMYT)
Dina Esposito, USAIDâs Global Food Crisis coordinator and assistant to the Administrator for the Bureau for Resilience, Environment and Food Security, described how AID-I is âturning crisis into opportunityâ by improving farmersâ resilience and profitability.
âWe joined CIMMYT and went to Zambia, and the partnership was a glimmer in our eyes,â said Esposito, referring to a recent visit to a model farm with AID-I partners.
Reporting progress in Zambia, Malawi and Tanzania, Kevin Kabunda, CIMMYTâS AID-I chief of party in southern Africa, noted that the private sector had produced 13,000 tons of maize in the first year.
âThe extended or increased potential for every farmer who uses fall armyworm-tolerant varieties translates to US$100 dollars,â said Kabunda who estimated AID-I reached 1.3 million farmers in its first year generating an aggregated value of at least US$65 million dollars.
In addition, Mtieyedou (Abdou) Konlambigue, AID-I chief of party in the Great Lakes Region, pointed out that the project has given access to new bean varieties and fertilizer recommendations to over 500,000 farmers in Rwanda, Burundi and the Democratic Republic of the Congo.
Farmers take the stage
Two champion farmers, MarĂa (pilu) Giraudo and Guillermo BretĂłn joined CIMMYTâs Director General, Bram Govaerts, and CGIAR Board Chair, Lindiwe Majele Sibanda, during a main stage session of the Borlaug Dialogue organized by the World Food Prize Foundation on Tuesday, October 24.
The event, MasAgro Taking it to the Farmer, reported on progress achieved and milestones reached by one of CIMMYTâs flagship projects, Crops for Mexico (MasAgro), which began 14 years ago and earned Govaerts the 2014 Norman E. Borlaug Award for Field Research and Application endowed by The Rockefeller Foundation.
Giraudo, an Argentinian farmer who co-founded the Rural Women Network and serves as honorary president of Argentinaâs no till farmer association Aapersid, said that the best way to acknowledge MasAgroâs work is to seize the opportunity to offer women farmers the possibility of having full access to science and technology.
BretĂłn, a farmer from Mexicoâs state of Tlaxcala, described MasAgro as a disruptive way of understanding agriculture. âInvesting in our soils is better than investing in a one-cycle crop,â he said.
CGIAR Board Chair Lindiwe Majele Sibanda was enthusiastic about the projectâs trajectory and proud of its evolution into CIMMYTâs ongoing efforts, including adapting MasAgro to southern Africa.
Sibanda expressed her excitement about MasAgro-inspired activities in Africa and praised the diversified seed systems that today include dryland crops sold in smaller seed bags by young entrepreneurs who are taking up businesses in villages without having to go to urban centers.
Govaerts moderated the event and thanked Dina Esposito, and U.S. Special Envoy for Global Food Security, Cary Fowler, for facilitating the establishment of MasAgro programs in southern Africa.
CIMMYT is happy to announce three new, improved tropical maize hybrids that are now available for uptake by public and private sector partners, especially those interested in marketing or disseminating hybrid maize seed across southern Africa and similar agroecologies in other regions. NARES and seed companies are hereby invited to apply for licenses to pursue national release, scale-up seed production and deliver these maize hybrids to farming communities.
The deadline to submit applications to be considered during the first round of allocations is January 26, 2024. Applications received after that deadline will be considered during subsequent rounds of product allocations.
The newly available CIMMYT maize hybrids were identified through rigorous, years-long trialing and a stage-gate advancement process which culminated in the southern Africa Stage 5 On Farm Trials. The products were found to meet the stringent performance and farmer acceptance criteria for CIMMYTâs breeding pipelines that are designed to generate products tailored for smallholder farmers in stress-prone agroecologies of southern Africa.
Ethiopia is the largest wheat producer in East Africa, with about 65% share of the total wheat production in sub-Saharan Africa. The area under wheat increased from about 1.5 million hectares in 2010 to 2.5 million hectares in 2023. More importantly, the productivity increased from 1.8 tons per hectare to about 3 tons per hectare in the same period, implying an increase of about 5% per annum in productivity (See Figure 1).
Several factors have contributed to this spectacular increase in productivity, including better farm practices implemented through clustering farmers land to reduce production costs, and introducing new, improved varieties which enable farmers to withstand challenges of crop diseases.
Figure 1: Wheat grain yield trends in Ethiopia by decade, 1960 to 2022 (USDA data).
A DNA finger printing study found that about 87% of the wheat area in Ethiopia comprises of varieties developed by the International Maize and Wheat Improvement Center (CIMMYT). In 2023, the Ethiopian Institute of Agricultural Research (EIAR) released six new wheat varieties of CIMMYT origin aimed for the mid to highlands (> 1800 meters above sea level) and lowlands (< 1800 masl) of the country. âThese newly released varieties provide options for farmers to face devastating rust diseases and at the same time obtain higher productivity,â said wheat breeder Leonardo Crespo.
Gadisa Alemu, wheat breeder based in EIAR, Kulumsa, added that the CIMMYT varieties were tested in farmersâ fields prior to release. âThis allows participating farmers to have quicker access to seed of selected varieties,â he said.
Wheat breeders . The aim was to obtain additional insights into the activities of CIMMYTâs partners and co-design a strategy that allows early evaluation and access to CIMMYT germplasm by national partners in Ethiopia. The team visited research centers in Holetta (highlands), Debre Zeit and, Kulumsa (midlands), and Arsi Negele (lowlands). Kulumsa, together with the highlands of Meraro and Asasa plains, represent about 60-70% of the wheat area in Ethiopia. Â âThese are important sites for wheat breeding activities in Ethiopia. Given that Holetta and Debre Zeit are hot spots for diseases, there is an increased interest in the Arsi Negele region to expand wheat production under irrigated conditions,â said Bekele Abeyo, wheat breeder and CIMMYTâs Ethiopia Country Representative.
AGG Maize and Wheat Improvement Teams Meet with Partners to Develop CG-NARES Breeding Strategy
In the first fortnight of September 2023, researchers from the International Maize and Wheat Improvement Center (CIMMYT) and National Agriculture Research and Extension System (NARES) met in Nairobi, Kenya to create high-level strategies and guiding principles for CG-NARES breeding activities. This is in alignment with the âGenetic Innovationsâ initiative of the One CGIAR strategy. CIMMYT representation included breeding teams from the wheat, maize, and dryland crops. The meetings were organized by Bill & Melinda Gates Foundation and CIMMYTâs Accelerating Genetic Gains in Maize and Wheat (AGG) project team.
It was recognized that the aforesaid strategies and principles need to be based on the biology of the crops and the context of each breeding program; incorporate the logistics of the breeding operations; and implement data driven tools for decision making such as genomic selection.
Participants shared how the application of novel and innovative technologies shortens the breeding cycles, accelerates the rate of genetic gain, and provides tools to enable the evaluation of plant materials (future variety candidates) and future target environments where these varieties will be grown.
It was concluded that effective breeding networks can be a strong instrument to enable faster delivery of improved germplasm to farmers. For this to happen efficiently, the networks require a high degree of coordination, organizational structure, governance, and clarity of roles. âIt is fundamental for network members to agree the objectives, vision and expected outcomes of collaborative activities. This forms the basis for co-design and co-implementation of crop improvement plansâ said Kevin Pixley, Interim Director of the Global Wheat Program and Director of the Dryland Crops Program.
The meeting also served as a platform for AGGâs and dryland cropâs breeding teams to exchange ideas and experiences. For instance, the Maize team shared their experience and learnings from on-farm-testing activities. The Wheat team shared the evolution and path of breeding modernization and implementation of new technologies. The Dryland Crops team shared their experience with co-designing and co-implementing breeding networks with NARES partners in Africa.
On December 9, 2023, CIMMYT and the World Vegetable Center (WorldVeg) signed a memorandum of understanding (MoU) to further promote research and development, capacity strengthening activities and facilitate joint learning and the exchange of information and technology between the two organizations.
Sustainable diversification of food systems, good agricultural practices and safe and sustainable development of cereal and vegetable production systems and agrifood value chains sits at the core of this partnership.
The ultimate objective of the MoU is to further contribute to the achievement of the Sustainable Development Goals (SDGs), in particular SDG1 and SDG2, enhancing food and nutrition security, reducing rural and urban poverty and increasing employment opportunities in particular for women and youth.
CIMMYT and the World Vegetable Center are already partners in the Southern Africa Accelerated Innovation Delivery Initiative Rapid Delivery Hub (AID-I). Â Through this program, it is distributing seed kits directly to vulnerable populations such as pregnant and lactating mothers and children under five, as well as improving soil health, promoting the production of traditional African vegetables, and increasing employment opportunities through building vegetable businesses. Recent impacts in Zanzibar are a good example.
Bram Govaerts, director general of CIMMYT, and Marco Wopereis, director general of the World Vegetable Center, sign the MoU. (Photo: CIMMYT and WorldVeg)
âThis collaboration between CIMMYT and WorldVeg is a testament to the potential of collective action, highlighting sustainable solutions and community empowerment as essential elements in combating malnutrition and enhancing overall well-being. We are building on the foundation already established by our collaborations within the Accelerated Innovation Delivery (AID-I) project in southern and eastern Africa,â said CIMMYT Director General, Bram Govaerts. âCIMMYT is excited to expand our connection with WorldVeg to bring innovations to even more people as crop diversification encourages improved nutrition.â
âThe World Vegetable Center is proud to deepen our work with CIMMYT. Reaching the Sustainable Development Goals will require not only advanced technologies but also systems to deliver those innovations to the people that need them most and this partnership will enable both priorities,â said Director General of the World Vegetable Center, Marco Wopereis. âPromoting and enhancing the availability of nutritious vegetables and cereals are vital to achieving these aims.â
By providing farmers with more options, CIMMYT and WorldVeg will promote the cultivation of diverse crops that are essential for a balanced and nutritious diet particularly among vulnerable communities around the world. By raising awareness about the significant benefits of incorporating different vegetables and cereals into daily diets, the partnership will inspire and encourage millions of people to fully embrace diversification and improved nutrition.
About CIMMYT
CIMMYT is a cutting edge, non-profit, international organization dedicated to solving tomorrowâs problems today. It is entrusted with fostering improved quantity, quality, and dependability of production systems and basic cereals such as maize, wheat, triticale, sorghum, millets, and associated crops through applied agricultural science, particularly in the Global South, through building strong partnerships. This combination enhances the livelihood trajectories and resilience of millions of resource-poor farmers, while working towards a more productive, inclusive, and resilient agrifood system within planetary boundaries.
CIMMYT is a core CGIAR Research Center, a global research partnership for a food-secure future, dedicated to reducing poverty, enhancing food and nutrition security and improving natural resources. For more information, visit cimmyt.org.
About the World Vegetable Center
The World Vegetable Center (WorldVeg) is an international non-profit institute for vegetable research and development. It mobilizes resources from the public and private sectors to realize the potential of vegetables for healthier lives and more resilient livelihoods.
WorldVegâs globally important genebank, improved varieties, production and postharvest methods help farmers to increase their vegetable harvests, raise incomes in poor rural and urban households, create jobs, and provide healthier, more nutritious diets for families and communities. With headquarters in Taiwan, field operations are led from regional centers in Benin, India, Mali, Tanzania and Thailand, and through offices in other key countries.
On October 4, 2023, CIMMYT continued its online seminar series â Catalysts of Change: Women Leaders in Science. The event featured a talk by Esther Ngumbi, an entomologist and academic at the University of Illinois Urbana-Champaign.
A riverside farm
Born into a small, rural community on the Kenyan coast, Esther Ngumbi grew up farming alongside her family. âI enjoyed the process of growing crops because I knew at the end of the season, we would have extra food for ourselves,â she explained. By the age of seven she decided she wanted to go it alone, and her father provided a small strip of land by the river, where she took to growing vegetables.
âEvery morning I would sit there and just enjoy looking at this thriving cabbage patch I had,â she says. âAnd then one day the rains came. It rained for three days, the field flooded, and by the time the water receded I had lost my cabbages. The joy that had built was gone.â
âBut this heartbreak continued,â she added. âHalfway through the season I would watch all our hard work go to waste.â Along came insects, drought, or floodingâall the stresses associated with climate changeâand for her family it would mean no food. Ngumbi soon realized that this was not limited to her familyâs farm: her neighbors, community, county, and country were all impacted by these challenges, leading to widespread food insecurity.
Feeding curiosity
âAs a girl I was very curious,â said Ngumbi. âHow do these insect pests find our crops? And when they find them, why arenât our crops resilient enough to overcome these stresses? Little did I know that this curiosity would lead me into what my career is today: an entomologist.â
âBut growing up in a rural village there were no role models; there were no scientists. There were no people I could look up to and be inspired to know that you could make a career out of entomology or that you could be a woman in science.â
Despite initially considering a career in accountancy, Ngumbi ended up studying for a BSc in biochemistry and zoology at Kenyatta University, where she immediately fell in love with practical research. âStepping into the lab was such an exciting day for me,â she recalled. âI had so many questions, and I remember not wanting to leave because I wanted to answer all the questions I had grown up with.â
Later, extra-curricular experience at a local research center would feed her interest in entomology. The scientists she ended up working with ran a biological control program to assess how maize is impacted by lepidoptera pests, and the natural biological control agents that could be used to combat these. âHow do plants communicate and call for help? Through releasing a chemical. I discovered that there is a wave of communication happening between our food crops and the community of organisms that associate with plants.â
Eager to learn more, Ngumbi went on to pursue an MSc before joining a Ph.D. program at Auburn University in Alabama, USA. âMy parents had always told me that education is the gateway out of poverty, and they consistently encouraged me to go to the highest level. I knew I had to go to the top.â
At Auburn she had the opportunity to delve deeper into how plants defend themselves, and her successful research into beneficial soil microbes led to at least three U.S. patents. Following a few post-doctoral positions, she landed a role at the University of Illinois Urbana-Champaign, where she currently works as an assistant professor in the Departments of Entomology and African American Studies.
Bringing others along
Ngumbi credits mentorship with getting her to where she is today. âAt Kenyatta University my teachers saw a spark in me; I was curious and wanted to find answers. Mentors introduced me to scientists the International Centre of Insect Physiology and Ecology (ICIPE), so I could carry out experiments beyond what we were doing as part of my course.â
She recalled walking across the stage during her Ph.D. graduation ceremony, a key moment of reflection. âIt was real that there were very few women like me in science. That I was only one of the many women I had grown up with that was privileged to have a PhD. And I wanted not to be the only person,â she said. âI wanted to make sure that I would leave open the same door I had walked through. That I would do my best to bring other women along.â
âI would step up to be a mentor. Step up to encourage other women. Step up to encourage other children from rural communities to say: you can do it, you can dream, you can follow your passions, you can be a scientist.â
With this in mind, Ngumbi ensures she collaborates with others in all areas of her research, incorporating young researchers into her labs and working directly with farmers. âIâm committed to ensuring that farmers who work so hard â especially smallholders â can grow crops and see all their hard work pay off.â
âI will continue to follow this journey of finding solutions to feed our growing planet, but I know that I cannot do it alone. We need all of us,â she added. âWe still have very few women scientists â UNESCO estimates around 30% â and I hope that by the time Iâm done with my career that number changes. But itâs going to depend on all of us.â
Ngumbiâs talk was followed by a Question and Answer led by Olivia Odiyo, a CIMMYT research associate based in Nairobi. The full discussion can be viewed online here. Spanish and French-language audio is also available.
CIMMYT’s role in developing the GAIA dashboard has played a pivotal role in guiding both public and private sector stakeholders to strategically allocate investments within the agricultural lime value chains in Tanzania, Ethiopia, and Rwanda.
Across all production environments in Kenya, early-maturity products demonstrate strong sales. This was revealed in a recent study by the CGIAR Initiative on Market Intelligence. During the long-rains season, farmers in higher rainfall production environmentsâwet, mid and high altitudesâpurchased early-maturity seed products despite potentially lower yields. Also, the short-rains season, which represents almost one-fourth of total maize seed sales, was dominated by early-maturity products.
These insights were obtained through a panel of maize-seed sales data from 722 agrodealers in Kenya during two short-rains seasons and three long-rains seasons in 2020â2022. The study also offers insights into the extent the maturity level of seed products, purchased by farmers in Kenya, aligns with the production environment where they were sold. Market Intelligence applies eight criteria to identify seed product market segments (SPMSs) for CGIAR crop breeding. In the application of these criteria to maize in East Africa, two conditions distinguish the segments: production environment and maturity level. The other criteria do not vary. A key indicator for prioritizing breeding investments across segments is the relative size of SPMSs. In the case of maize, and other crops, teams generally use geospatial data to identify the area of production environments, with the assumption that farmers in each production environment would use the seed product with the maturity level designed for that environment.
The paper contends that a stronger focus on using sales data to inform breeding decisions in maize, and potentially other crops where retailers play an important role in seed distribution, should become a priority for market intelligence. Future work will engage stakeholders in maize seed systems in other countries of East Africa about the changes in demand for earlier-maturing products and the implications for segmentation.
The CGIAR Initiative on Market Intelligence (âMarket Intelligenceâ for brevity) represents a new effort to engage social scientists, crop-breeding teams, and others to work together toward the design and implementation of a demand-led breeding approach. In 2022, the Market Intelligence Brief (MIB) series was created as a valuable communication tool to support informed decision making by crop breeders, seed-system specialists, and donors on future priorities and investments by CGIAR, NARS, the private sector, and non-governmental organizations (NGOs).
The author would like to thank all funders who supported this research through their contributions to the CGIAR Trust Fund. This project received funding from the Accelerating Genetic Gains in Maize and Wheat project (AGG) [INV-003439], funded by Bill & Melinda Gates Foundation; Foundation for Food & Agriculture Research (FFAR); United States Agency for International Development (USAID); and United Kingdomâs Foreign, Commonwealth & Development Office (FCDO).
Fall armyworm (Spodoptera frugiperda J.E. Smith) has emerged as a major threat to farming communities across Africa, including Zimbabwe. This destructive pest feeds on a wide range of crops, including maize, posing a significant challenge to food security. To combat this pest, the project âEvaluating Agro-ecological Management Options for Fall Armyworm in Zimbabweâ was initiated in October 2018 with support from USAID. It aims to address research gaps on fall armyworm management and cultural control in sustainable agriculture systems.
The project has implemented research trials in ten (10) districts across Zimbabwe, with work reaching close to 9,000 beneficiaries in target areas being exposed and applying new control practices that reduce the damage of FAW without heavily relying on chemical pesticides. This has been supported by a strong focus on agronomy trainings, field days, documentation, education through technical videos, knowledge sharing, and developing farmer manuals. In addition, the project supports Farmer Field Schools involving all relevant players in the farming communities to mainstream cultural practices in fall armyworm management.
Key objectives
The overall objective is to explore climate-adapted push pull systems and low-cost cultural control options for smallholder farmers in Zimbabwe. This project focused on research trials in Murehwa (Mashonaland East) and Mhondoro Ngezi (Mashonaland West), where the proof of concept was developed. After the inception phase it expanded to establishing demonstration sites and Farmer Field Schools in the Manicaland province, conducting trainings with farmers, and promoting knowledge sharing with Agritex officers and engaging with all relevant players in the target localities. Through continuous research and collaborative efforts, this project aims to develop sustainable and eco-friendly strategies to manage all armyworm infestations.
Wheat DEWAS, funded by the Bill & Melinda Gates Foundation and the UKâs Foreign, Commonwealth & Development Office, is expanding to strengthen wheat resilience in East Africa and South Asia. The collaborative effort is led by CIMMYT and Cornell University, which includes 23 organizations across continents.
