The world needs better management of water, soil, nutrients, and biodiversity in crop, livestock, and fisheries systems, coupled with higher-order landscape considerations as well as circular economy and agroecological approaches.
CIMMYT and CGIAR use modern digital tools to bring together state-of-the-art Earth system observation and big data analysis to inform co-design of global solutions and national policies.
Our maize and wheat genebanks preserve the legacy of biodiversity, while breeders and researchers look at ways to reduce the environmental footprint of agriculture.
Ultimately, our work helps stay within planetary boundaries and limit water use, nutrient use, pollution, undesirable land use change, and biodiversity loss.
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Maria Monayo is a seasoned communications professional with over a decade of expertise in the NGO sector.
Her dynamic skill set encompasses content development, event management, and media relations. With a proven track record, Maria has orchestrated compelling content strategies, organized high-profile events such as international conferences, and fostered strong partnerships with stakeholders. Her ability to translate technical information into accessible formats and skill in creating visual media have been instrumental in her successful career.
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Peter Setimela is CIMMYT Country Representative for Zambia and Legume Seed Systems Lead for the AID- Project.
Setimela is a seed systems scientist with over 20 years of experience in CG centers, universities, and national agricultural research institutes.
A credible and innovative scientist with strong technical, commercial, and financial acumen and extensive experience in leading multi-cultural teams to deliver ground-breaking agricultural initiatives primarily in the Eastern and Southern African regions. Demonstrates a comprehensive portfolio of skills including research and development, technology scaling, program management, advocacy, partnerships, capacity building, logistics, team leadership, operations, fundraising, and training. An adaptable and resilient leader with strong communication and influencing skills and the ability to unite diverse agendas to achieve outstanding results.
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Kudzanai is an experienced communications strategist and development researcher who currently supports communications for the CIMMYT Zimbabwe office. With a career spanning seven years, Kudzanai has been actively involved in impactful research at both local and international think tanks. Specializing in agricultural issues, Kudzanai’s expertise spans policy analysis, food systems, regional integration, and sustainability. As a dedicated professional, Kudzanai brings invaluable insights to the field, combining research acumen with effective communication strategies to drive positive change and promote informed decision-making in the field of agriculture and development.
Conservation agriculture (CA) has increasingly been promoted in southern Africa to address low agricultural productivity, food insecurity, and land degradation. Despite significant experimental evidence on the agronomic and economic benefits and the large scaling-up investments by donors and national governments, the adoption rates of CA practices among smallholder farmers are low and slow.
With funding from the Norwegian Agency for Development Cooperation (NORAD) and implemented by the International Institute of Tropical Agriculture (IITA) and CIMMYT, ACASA strives to understand “why previous efforts and investments to scale CA technologies and practices in southern Africa have not led to widespread adoption.” It is a three-year project implemented in Malawi, Zambia, and Zimbabwe, where CA is part of national policy.
Since 2021, the project has undertaken extensive surveys aimed to understand incentives, drivers, and barriers of CA adoption across the three countries (Malawi, Zambia, and Zimbabwe) typifying much of the southern Africa smallholder systems. The aim of the project is to consolidate the lessons learned so far and provide a pathway to scaling and foster the next generation of social, crop, agronomic and climate research; to mainstream CA enabled by fundamental paradigm shifts in farming practices, markets, and social institutions for sustainable intensification of smallholder farming systems of southern Africa.
Project objectives include –
Understanding the contexts of smallholder farmer in southern Africa to identify the drivers and barriers preventing adoption of CA practices, including biophysical, socio-economic, institutional and policy constraints
Identifying labor-efficient mechanization options for smallholder farmers
Identifying opportunities and tools for better targeting of appropriate CA practices and options across heterogenous agroecologies and farm types, and
Identifying approaches and strategies for inclusive scaling of CA practices (policy, institutional and value chain entry points and pathways to promote and scale CA)
Certified soyabean seed from Afriseed. (Photo: AFRI archives)
In Zambia, smallholder farmers obtain their seed from a variety of sources. Over 75 percent of farmers in Zambia have adopted certified maize seed and about 30 percent in southern Africa, overall. The private sector has been instrumental in creating demand for certified and timely delivery of seed to remote areas, and the Government of Zambia’s Farmer Input Support Programme (FISP) has largely contributed to better accessibility to certified seed for farmers. In 2022–2023, of the three million registered smallholder farmers in Zambia, more than one million accessed certified seed through FISP.
Afriseed is a seed company in Zambia that has been gaining ground in local seed markets. It has emerged as a catalyst for helping smallholder farmers transition to new, high-yielding legume varieties. Afriseed provides solutions to help smallholders increase their agricultural productivity with improved seed varieties of cereals and legumes and assist them with technology transfer. The company aims to increase the food security and incomes of Zambia’s smallholder farming community, which accounts for 90 percent of agricultural output in the country. During the 2022–2023 farming season, a critical turning point was reached when Afriseed became a partner in the Southern Africa Accelerated Innovation Delivery Initiative (AID-I) Rapid Delivery Hub, or MasAgro Africa, a two-year project under CIMMYT, with the aim of scaling-up production of certified seed varieties of soybean and common bean.
Under the partnership, Afriseed promotes the cultivation of improved legume seed through a smallholder farmer seed multiplication approach. By engaging with practicing smallholder farmers and signing grower contracts, basic seeds are multiplied into certified seed for soybean and common bean. Certified seed is a known variety produced under strict seed certification standards to support varietal purity. In collaboration with the Seed Control and Certification Institute (SCCI), the country’s national seed authority, contracted farmers received training on climate-smart agricultural techniques and seed production guidelines. Through extension services to seed growers, smallholder farmers can adhere to the seed production guidelines set out in the National Seed Act to ensure the quality of certified seed produced.
Smallholder farmers hold improved, certified seed. (Photo: AFRI archives)
Afriseed has invested more than USD 335,000 toward supporting the production, aggregation, and processing of 317 t of certified climate-smart legume seeds—265 metric tonnes (MT) for soybean and 52 MT for common bean. Data have shown that the seeds were aggregated from 313 smallholder seed growers, 40 percent of whom were women, in Zambia’s Eastern Muchinga, Copperbelt and the Northern provinces. Seed aggregation improves access to quality seed varieties, increases crop yields and incomes, enhances integration into value chains, and creates market links for smallholder farmers.
Notable progress has been made with the contracted farmers, who have applied improved crop management practices and technologies on more than 600 ha of land to produce the seed. With this encouraging progress, Afriseed intends to scale up its last-mile seed distribution strategy to reach and directly help an estimated 35,000 underserved rural smallholder farming households with improved legume seeds in the 2023–2024 cropping season.
AID-I is one of the ways in which Feed the Future, the U.S. Government’s global food security and hunger initiative led by USAID, is taking immediate action to help cushion the blow of high fuel and fertilizer prices on farmers. One of the project’s initial actions is to strengthen local seed systems so that agribusinesses can reach smallholder farmers with a diversity of improved seeds varieties, including climate-resilient and more nutritious varieties for maize and legumes.
CIMMYT and ICBA sign a memorandum of understanding. (Photo: ICBA)
Dubai/Mexico City, 10 January 2024 – An award-winning not-for-profit agricultural research center recognized for its work on sustainable agriculture in the Middle East and North Africa is joining forces with the global organization whose breeding research has contributed to half the maize and wheat varieties grown in low- and middle-income countries.
The International Center for Biosaline Agriculture (ICBA) and CIMMYT have signed an agreement to jointly advance the ecological and sustainable intensification of cereal and legume cropping systems in semi-arid and dryland areas.
“Farmers in such settings confront enormous risks and variable conditions and often struggle to eke out a livelihood, but they still comprise a critical part of the global food system and their importance and challenges are mounting under climate change,” said Bram Govaerts, director general of CIMMYT. “ICBA brings enormously valuable expertise and partnerships to efforts that will help them.”
The specifics of the two centers’ joint work are yet to be defined but will cover soil health, salinity management approaches, crop productivity and breeding, gender-transformative capacity development, and finding markets for underutilized crops, among other vital topics.
Established in 1999 and headquartered in the United Arab Emirates (UAE), ICBA conducts research and development to increase agricultural productivity, improve food security and nutrition, and enhance the livelihoods of rural farming communities in marginal areas. The center has extensive experience in developing solutions to the problems of salinity, water scarcity and drought, and maintains one of the world’s largest collections of germplasm of drought-, heat- and salt-tolerant plant species.
“We are excited about the synergies our partnership with CIMMYT will create. It will focus on a range of areas, but the priority will be given to developing breeding and cropping system innovations to improve farmers’ food security and nutrition, while enhancing water security and environmental sustainability, and creating jobs and livelihoods in different parts of the world,” said Tarifa Alzaabi, director general of ICBA.
Based in Mexico but with projects in over 80 countries and offices throughout Africa, Asia and Latin America, CIMMYT operates a global seed distribution network that provides 80% of the world’s breeding lines for maize and wheat, including many that offer superior yields and resilience in dry conditions and in the presence of crop diseases and pests.
The center is also conducting breeding and seed system development for dryland crops such as sorghum, millet, groundnut, cowpea, and beans, known for their climate resilience and importance as foods and sources of income for smallholder farm households and their communities.
With global and local partners, CIMMYT is also refining and spreading a suite of resource-conserving, climate-smart innovations for highly diverse maize- and wheat-based cropping systems, including more precise and efficient use of water and fertilizer, as well as conservation agriculture, which blends reduced or zero-tillage, use of crop residues or mulches as soil covers, and more diverse intercrops and rotations.
As part of the new agreement, the centers will also explore research collaborations with universities and research institutions in the UAE to develop and test maize varieties that are suitable for the UAE’s climate and soil conditions, as well as organizing training programs and workshops for farmers, extension workers, and other stakeholders in the UAE to build their capacity in maize production and management.
About ICBA
The International Center for Biosaline Agriculture (ICBA) is a unique applied agricultural research center in the world with a focus on marginal areas where an estimated 1.7 billion people live. It identifies, tests, and introduces resource-efficient, climate-smart crops and technologies that are best suited to different regions affected by salinity, water scarcity, and drought. Through its work, ICBA helps to improve food security and livelihoods for some of the poorest rural communities around the world.
CIMMYT is a cutting edge, non-profit, international organization dedicated to solving tomorrow’s 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.
Maize is a staple crop in Zimbabwe, playing a vital role in the country’s agricultural landscape as food for its own people and an export good. However, behind every successful maize harvest lies the quality of seed and resistance to diseases and stresses.
Amidst the multitude of diseases that threaten maize crops, one adversary is maize lethal necrosis (MLN). Though not native to Zimbabwe, it is crucial to remain prepared for its potential impact on food security.
What is maize lethal necrosis?
MLN is a viral disease, caused by a combination of two virus diseases. The disease emerged in Kenya in 2011 and quickly spread to other countries in eastern Africa. The introduction of MLN to Africa was likely affected by the movement of infected seed and insect vectors. MLN has had a severe impact on regional maize production, leading to yield losses of up to 90%.
Recognizing the need to equip seasoned practitioners with the knowledge and skills to effectively diagnose and manage MLN, CIMMYT organized a comprehensive training on MLN diagnosis and management, targeting 25 representatives from Zimbabwe’s Plant Quarantine Services.
From students to experienced technicians, pathologists and plant health inspectors, this was an opportunity to refresh their knowledge base or an introduction to the important work of MLN mitigation. “This training for both advanced level practitioners and students is crucial not only for building competence on MLN but also to refresh minds to keep abreast and be prepared with approaches to tackle the disease once it is identified in the country,” said Nhamo Mudada, head of Plant Quarantine Services.
Expectations were diverse, ranging from sharpening understanding of key signs and symptoms to learning from country case examples currently ridden with the disease. With CIMMYT’s guidance, practitioners learned how to identify MLN infected plants, make accurate diagnoses, and implement management strategies to minimize losses.
“For over 10 years, these trainings have been important to raise awareness, keep local based practitioners up to speed, help them diagnose MLN, and make sure that they practice proper steps to tackle this disease,” said L.M Suresh, CIMMYT maize pathologist and head of the MLN screening facility in Kenya.
Identifying the specific MLN causing viral disease affecting a maize plant is the first step in combating MLN. Determining whether it is a biotic or abiotic disease is critical in establishing its cause and subsequent diagnosis. By implementing proper diagnostic techniques and understanding the fundamentals of good diagnosis, practitioners can bring representative samples to the lab and accurately identify MLN.
Tackling MLN in Zimbabwe
Initiated in 2015 at Mazowe as a joint initiative between the Government of Zimbabwe and CIMMYT, a modern quarantine facility was built to safely import maize breeding materials from eastern Africa to southern Africa and enable local institutions to proactively breed for resistance against MLN.
The MLN quarantine facility at the Plant Quarantine Institute is run by the Department of Research and Specialist Services (DRSS) and is mandated to screen maize varieties imported under strict quarantine conditions to ensure that they are MLN-free.
Training participants pose outside of the MLN screening facilities. (Photo: CIMMYT)
To date, CIMMYT and partners have released 22 MLN resistant and tolerant hybrids in eastern Africa. CIMMYT’s research and efforts to combat MLN have focused on a multidimensional approach, including breeding for resistant varieties, promoting integrated pest management strategies, strengthening seed systems, and enhancing the capacity of farmers and stakeholders.
“Support extended through valuable partnerships between CIMMYT, and the collaborations have played a pivotal role from surveillance to diagnostics and building capacity,” said Mudada.
Feedback and insights
Chief Plant Health Inspector for Export and Imports Biosecurity, Monica Mabika, expressed gratitude for the training. “It is always an honor when we have expert pathologists come through and provide a valuable refresher experience, strengthening our understanding on issues around biosecurity and learning what other countries are doing to articulate MLN,” she said.
Students learn how to screen maize plants for MLN. (Photo: CIMMYT)
Among the students was Audrey Dohwera from the University of Zimbabwe, who acknowledged the importance of the training. “I have been attached for 2 months under the pathology department, and I was eager to learn about MLN, how to detect signs and symptoms on maize, how to address it and be able to share with fellow farmers in my rural community,” she said.
With the knowledge gained from this training, practitioners are well equipped to face the challenges that MLN may present, ultimately safeguarding the country’s maize production status.
Farmers participate in a training on improved seeds and technologies. (Photo: S. Mojumder Drik/CIMMYT)
Rapid urbanization, globalization, economic development, technological advancement, and changing agriculture production systems in South Asia are transforming food systems and the food environment.
India and Bangladesh, particularly, have seen a significant transformation since the advent of the Green Revolution as each became able to feed their population without having to import major crops.
However, that policy focus on food self-sufficiency and yield intensification has incurred significant health, environmental and fiscal costs, including a precipitous drop in crop diversification*.
This loss of crop diversification threatens economic and social development and environmental stability while weakening the crucial link between agriculture and community health, particularly in undernourished rural areas. To ensure sustainable food production and nutritional security, it is imperative to manage and conserve crop diversification.
To address these issues and ensure sustainable food production, there is an urgent need to transition from intensive to sustainable farming practices.
CIMMYT exploring crop diversification pathways
CIMMYT’s ongoing projects in South Asia, including the Transforming Agrifood Systems in South Asia (TAFSSA) and Transforming Smallholder Food Systems in the Eastern Gangetic Plains (RUPANTAR) are conducting extensive on-site and on-farm trials, including socioeconomic dimensions of farmers to promote crop diversification.
“To effectively address the challenges of crop diversification, it is essential to integrate on-farm trials and participatory action research, involving farmers in the experimentation and adaptation process tailored to their unique regional needs,” said Ravi Nandi, innovation systems scientist at CIMMYT in Bangladesh. “This hands-on involvement provides valuable data to guide policymaking, ensuring relevance and applicability.”
In addition, TAFSSA and RUPANTAR are engaging in participatory action research to uncover the most viable options for crop and livelihood diversification, understand the socioeconomic factors impacting farmers, and identify the potential opportunities and challenges associated with the crop and livelihood diversification efforts among the farmers.
Researchers completed two comprehensive surveys, engaging with 2,500 farmers across the Eastern Gangetic Plains (EGP) of India, Nepal and Bangladesh, yielding valuable data that will inform future strategies for crop diversification in the region.
Ongoing investigations into the political economy of policies for crop diversification in Bangladesh generate novel insights, further contributing to the development of efficient crop diversification projects and sustainable agricultural policies.
The rise of crop diversification in practices and policy
In recent years, crop diversification has gained traction as a promising strategy to boost agricultural productivity, reduce risks (production, market, climate, and environmental), enhance nutritional outcomes, and promote sustainable agriculture.
Following the inaugural National Conference of Chief Secretaries in Dharamshala, India, led by the Prime Minister of India, state governments introduced numerous policies and schemes to support crop diversification. Some of these initiatives, highlighted in Figure 1, were backed by substantial budget allocations aimed at motivating farmers to diversify their crop production from the current intensive production system.
Figure 1: Author’s compilation from various public sources.
Similar initiatives have been started in Bangladesh, Nepal and other South Asian countries to promote crop diversification. These policies and schemes are important steps towards addressing inadequacies that intensive farming has created in agriculture and food systems.
While policies promoting crop diversification in South Asia are a positive step, their effectiveness is contingent on evidence-based decision-making. The complexities of implementing diversification strategies vary significantly depending on local contexts, particularly in countries like India, Nepal and Bangladesh, where most farmers operate on less than one hectare of land and face diverse weather conditions.
Smallholder farmers, at risk of losing economic stability from abandoning profitable monocrops, face additional challenges because of limited access to advanced technologies and fragmented markets, making the transition to diversified farming a precarious endeavor.
A shift towards comprehensive multi-criteria assessments, including qualitative methods and stakeholder interactions, is necessary for creating practical and locally relevant indicators. Supporting infrastructure, accessible extension services and market development, along with empowering farmers through education on agronomic practices and crop management, will play a crucial role in successfully implementing and reaping the benefits of crop diversification.
*Crop diversification is a process that makes a simplified cropping systems more diverse in time and space by adding additional crops.
As part of her fact-finding mission across CGIAR Research Centers, Ismahane Elouafi, CGIAR’s executive managing director, returned to CIMMYT headquarters in Texcoco, Mexico, where she studied as a Ph.D. student twenty years ago. Through meetings with CIMMYT staff from 21-24 December 2023, Elouafi learned how CIMMYT’s 2030 Strategy of more investment in developing food systems and climate-smart agriculture will contribute to CGIAR’s 2030 vision of a food and nutrition secure future.
“CIMMYT was pleased to host Ismahane,” said Bram Govaerts, CIMMYT director general. “Our ultimate mission is to transform agrifood systems. The only way we will reach our goal of food and nutrition security is by working globally and collaboratively across the value chain.”
Elouafi examines samples with CIMMYT researchers at the biosafety laboratory. (Photo: CIMMYT)
At CIMMYT’s museum and gene bank, Elouafi met with researchers to discuss the latest discoveries in genetic innovation, biodiversity conservation, and crop breeding. Elouafi and Kevin Pixley, director of the Dryland Crops program, visited the biosafety laboratory and glasshouses where gene editing on pearl millet and ground nut represent cutting-edge work with dryland crops. Elouafi also saw gene editing for resistance to maize lethal necrosis, which is already in field validation with Kenyan partners from the Kenya Agricultural & Livestock Research Organization (KALRO).
Global Wheat and Dryland Crops presented CIMMYT’s 2050 vision for wheat in Africa and near-term goals of advancing partnerships from phenotyping platforms to the International Wheat Improvement Network (IWIN). Seed experts from the Seed Health Unit shared progress on the productivity and nutrition findings of key cereals for healthy and balanced diets.
Elouafi also visited conservation trial plots with Jelle Van Loon, associate director of the Sustainable Agrifood Systems (SAS) program, who briefed Elouafi on cropping systems diversity related to maize, wheat, and beans, and showcased a variety of innovative farming technologies. At the trial plots, Elouafi met with Guillermo Bretón, a farmer, to talk about CIMMYT’s efforts to expand the MasAgro program into Central America aiming to address the region’s growing food insecurity contributing to migration.
(Left to right) Guillermo Bretón, Ismahane Elouafi, Bram Govaerts, and Jelle Van Loon, test a range of novel farming technologies. (Photo: CIMMYT)
The value of genetic resources as sources of novel diversity was discussed with Elouafi during a visit to field screenhouses, where she saw wide crosses work for biological nitrification inhibition (BNI) in wheat, gene bank accessions of triticale—a cross between wheat and rye—for use in searching for new sources of resistance to wheat blast, and the ex-situ clonal collection of tripsacum, a wild relative of maize.
“CIMMYT’s 2030 Strategy adopts a systems approach to food science, which I strongly support. Through the development of mechanization and post-harvest management, increased focus on seed systems and health, and most importantly, cooperation with partners to ensure that improved crop varieties are adopted by smallholders, I am confident that this approach will only strengthen CIMMYT’s historical strength of research and innovation for food and nutrition security and contribute to achieving CGIAR’s 2030 mission,” said Elouafi.
Kevin Kabunda, chief of party for the Southern Africa Accelerated Innovation Delivery Initiative (AID-I) MasAgro Africa Rapid Delivery Hub (AID-I) and Sieglinde Snapp, director of the SAS program, presented key milestones achieved in southern and eastern Africa on expanded seed systems, market access, and mechanization technologies. Snapp also highlighted important CIMMYT-led initiatives like the CGIAR Plant Health Initiative and the Cereal Systems Initiative for South Asia (CSISA) which have had a positive impact on smallholders in part because of partnerships with government agencies and other CGIAR Research Centers.
Elouafi and Govaerts visited the ancient city of Teotihuacán to learn about the cultural significance of maize to the history and agricultural practices of the Americas. She received a guided tour by chef Carlos Cedillo, operational director of La Gruta, a local restaurant dedicated to understanding and promoting the production and consumption of native maize varieties in the Valley of Mexico. CIMMYT has collaborated with La Gruta through capacity building initiatives by CIMMYT specialists for technicians and farmers.
Elouafi joins CIMMYT staff for a meet and greet coffee session. (Photo: CIMMYT)
Elouafi joined CIMMYT staff in a meet and greet session on 21 December, where staff expressed the strides being made by CIMMYT’s leadership team to foster a more inclusive workplace. “This moment of coming together with the staff that make CIMMYT a great place to work and who position the Center as a significant actor in agricultural development will be a highlight of my visit,” said Elouafi.
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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.
A climate resilient agriculture program for the state of Bihar, India, launched in 2019 by the Borlaug Institute for South Asia (BISA) and the state government, was operating in 190 villages and had by 2022 improved water, soil nutrient, energy, labor and time use efficiency by at least 20% with around 35% higher yields and a reduced environmental footprint, as well as helping rice-wheat farmers to diversify their production with crops such as maize, millet and mungbean, among others.
This is just one of the achievements cited in a recent 2023 end-of-year reflection involving members of the BISA Executive Committee in New Delhi, India, including Bram Govaerts, director general of CIMMYT and BISA, and Arun Kumar Joshi, managing director of BISA.
“BISA has achieved significant milestones and is progressing towards organizational goals,” said Joshi. “The long-standing and productive partnership with the Indian Council of Agricultural Research (ICAR) and agricultural councils of other countries in South Asia became more robust, as strategies that focused on building capacities and improving seed systems for the whole of South Asia were implemented.”
Established jointly by CIMMYT and ICAR in 2011, BISA is a non-profit international research institute dedicated to food, nutrition, livelihood security and environmental rehabilitation in South Asia, home to more than 300 million undernourished people. Its work harnesses the latest genetic, digital, resource management technologies, and research-for-development approaches.
BISA’s flagship projects benefit millions of farmers and include the Atlas of Climate Adaptation in South Asian Agriculture (ACASA), the testing of experimental wheat that carries grass genes associated with the inhibition of nitrification in the soil near crop roots, a climate resilient agriculture program for South Asia, and implementation of the CGIAR Fruit and Vegetables for Sustainable Healthy Diets (FRESH) initiative.
“Of the top 10 bread wheat varieties in India, 6 are derived from the ICAR-CIMMYT-BISA collaboration,” Joshi explained.
“BISA has grown tremendously in the last few years,” said Govaerts. “The diverse arena of projects shows the capabilities and potential that BISA holds today. The flagship programs are undoubtedly creating a huge impact and would contribute to solving tomorrow’s problems today.”
BISA has renewed and diversified its research projects each year, according to T.R. Sharma, deputy director general of Crops, ICAR. “BISA’s impact on genetic innovation in wheat through ICAR-CIMMYT-BISA collaboration is indeed praiseworthy,” he said. Govaerts also attended an interactive session with CIMMYT-BISA India staff, presenting an analysis of the CIMMYT 2030 strategy and encouraging everyone’s contributions towards the goals.
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 world’s 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.
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.
In a race against time, crop breeders are working to enhance maize’s resilience to the changing climates. Among others, CIMMYT and the International Institute of Tropical Agriculture (IITA), working within CGIAR’s Accelerated Breeding Initiative, are utilizing breeding innovations to develop climate-resilient and nutritionally enriched maize varieties needed by the most vulnerable farmers and consumers.
Better processes
Improving maize yields in the rainfed, stress-prone tropics is challenging. Nevertheless, CGIAR’s efforts have significant impacts, as breeding programs embraced continuous improvement and enhanced efficiency over the years.
To increase genetic gains, CIMMYT maize breeding program implemented a systematic continuous improvement plan. Sixty percent of CIMMYT’s 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.
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.
An example of maize biotic stress exacerbated by climate change: fall armyworm (FAW) larvae, highly destructive pests, emerge out from an egg mass placed on a maize leaf. (Photo: A. Cortés/CIMMYT)
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 – is critical in maize breeding and commercial seed production.
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.
Better tools
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.
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 farmers’ management conditions, besides environment, soil variability, etc.
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.
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.
Partners participate in CGIAR maize stage-advancement meetings – 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.
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.
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.
Since 2017, CIMMY has strengthened the maize insectary capacity of KALRO-Katumani byoptimizing 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.
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.
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.
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.
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.
The resulting improved varieties–resilient to major environmental stresses, diseases and insect-pests–are 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.
Quality seed is a crucial agricultural input for enhancing crop production and productivity per unit of land. However, in many developing countries, including Bhutan, ensuring the availability, affordability, and accessibility of quality seed, especially of preferred varieties, remains a significant challenge for farmers. Maize is the second most important cereal in Bhutan after rice. However, the total area dedicated to cereal cultivation in Bhutan has been decreasing due to factors such as rural-urban migration, urban expansion, and the effects of climate change.
Between 2016 and 2021, the areas under rice and maize cultivation have contracted by 55% and 64%, respectively (FAOSTAT, 2022). This huge reduction in cereal cultivation, combined with relatively low productivity, has led Bhutan to rely on imports to bridge the gap and meet the demand for essential food crops, including maize. The Bhutanese government is committed to enhancing domestic capacity and fostering self-sufficiency in major food crops and discourages the import of seed, especially of hybrid maize.
AbduRahman Beshir, seed systems specialist at CIMMYT, displays incomplete fertilization of maize cobs. (Photo: Passang Wangmo/ARDC-Wengkhar)
Hybrid maize seed to offset deficit
Recognizing the significance of improving maize productivity, the Agriculture Research & Development Center (ARDC) in Bhutan is working on the development and deployment of hybrid maize that has the potential to double yields compared to non-hybrid varieties. In 2020, Bhutan officially released its first hybrid maize variety, Wengkhar Hybrid Maize-1 (WHM-1), which was sourced from CIMMYT. Furthermore, several other hybrid maize varieties from CIMMYT are currently in the pipeline for release and evaluation, including those tolerant to fall armyworm (Spodoptera frugiperda), the most important maize pest in Bhutan.
Despite the testing and release of hybrid maize varieties, the production of high-quality seed—vital for realizing the benefits of hybrid maize for Bhutanese farmers—has yet to take place. The seed industry in Bhutan is primarily informal, with the majority of farmers relying on farm-saved seed of often inferior quality. The absence of a formalized seed system, coupled with a lack of the necessary skills and technical expertise across the seed value chain, presents considerable challenges in building a competitive and vibrant seed sector in Bhutan.
Training workshop emphasizes the strengthening of seed systems
To ensure a consistent supply of high-quality maize seed to Bhutanese farmers, which is essential for seed and food security and improved productivity, ARDC in collaboration with CIMMYT, under the CGIAR Seed Equal Initiative, carried out an international training workshop on quality seed production and distribution, with the main focus on hybrid maize, from 13–15 November 2023 at ARDC-Wengkhar, Mongar.
The three-day workshop involved 30 participants from diverse organizations, including the National Seed Centre, the College of Natural Resources, extensions agents from the eastern region, the Bhutan Food and Drug Authority, and agriculture research and development centers. The workshop aimed to enhance participants’ technical skills in understanding and applying the principles and practices of quality hybrid maize seed production; to promote synergistic partnerships among various seed sector stakeholders for initiating and scaling up quality hybrid maize seed production in Bhutan; and to exchange experiences and lessons to be learned from South Asian countries that can be applied to strengthening Bhutan’s seed system.
Participants discuss during the workshop. (Photo: AbduRahman Beshir/CIMMYT)
“This is the first kind of training I have received on hybrid maize seed production, and it was very relevant, action-oriented and applicable to our condition in Bhutan,” says Kinley Sithup, a researcher at ARDC-Wengkhar, Mongar, and adds that the training workshop was a useful forum for identifying key challenges and the role of stakeholders across the seed value chain, which were discussed in detail during the group work in the training.
Recently, the Bhutanese government has restricted the import of hybrid maize seed in order to promote import substitution and enhance local seed production. “In light of the unavailability of imported hybrid seeds, it’s crucial for us to intensify our efforts in scaling up local seed production,” says Dorji Wangchuk, project director of the Commercial Agriculture and Resilient Livelihood Enhancement Program (CARLEP), while addressing the participants during the opening.
The training workshop covered courses on seed system components, maize breeding concepts, hybrid seed production principles, the development of a seed roadmap on production and marketing, hybrid seed pricing and marketing approaches, seed quality control and certification, among others. A field visit along with hands-on training at ARDSC Lingmethang enriched the learning experience. In addition, experiences from other South Asian countries on hybrid seed production and marketing were shared during the training.
A group photo with the participants of the seed systems training workshop in Bhutan. (Photo: ARDC)
Team up for seed production
A significant outcome is the planned initiation of the inaugural hybrid maize seed production group in Udzorong, Trashigang, scheduled for January 2024 in collaboration with extension, the National Seed Center, and the Bhutan Food and Drug Authority. This initiative, supported by CARLEP-IFAD and CIMMYT, reflects a dedicated effort to strengthen Bhutan’s seed sector and enhance maize production for the benefit of local farmers. Fast-track variety release and seed deployment are important to Bhutanese smallholder farmers to mitigate the challenges of lower productivity. “CIMMYT is ready to continue working with partners in Bhutan,” says Program Director of the Global Maize Program at CIMMYT and the One CGIAR Plant Health Initiative lead, BM Prasanna, while delivering his messages online. Prasanna added that CIMMYT has licensed three fall armyworm-tolerant hybrids for Bhutan, and partners need to team up for the release and seed-scaling of the hybrids.
The training workshop on hybrid maize seed was the first of its kind to be held in Bhutan and was conducted under the CGIAR Seed Equal Initiative in collaboration with ARDC and CARLEP. AbduRahman Beshir, seed systems specialist at CIMMYT, delivered the main courses, with additional virtual presentations from CIMMYT staff from India and Kenya.
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 Mozambique’s Gorongosa National Park.
“These kinds of collaborations exemplify what the Borlaug Dialogue is all about,” said CIMMYT Director General Bram Govaerts. “The 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.”
CGIAR Centers based in the Americas host discussion on Latin America’s 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 Caribbean’s 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 María (pilu) Giraudo, honorary president of Argentina’s No Till Farmers Association, shared views on Latin America’s 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-I’s impact at the Borlaug Dialogue
The discussion labelled, Harnessing Innovation to Rapidly Respond to Crises, aimed to present AID-I’s 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, USAID’s Global Food Crisis coordinator and assistant to the Administrator for the Bureau for Resilience, Environment and Food Security, described how AID-I is “turning crisis into opportunity” by improving farmers’ resilience and profitability.
“We joined CIMMYT and went to Zambia, and the partnership was a glimmer in our eyes,” said Esposito, referring to a recent visit to a model farm with AID-I partners.
Reporting progress in Zambia, Malawi and Tanzania, Kevin Kabunda, CIMMYT’S AID-I chief of party in southern Africa, noted that the private sector had produced 13,000 tons of maize in the first year.
“The extended or increased potential for every farmer who uses fall armyworm-tolerant varieties translates to US$100 dollars,” 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, María (pilu) Giraudo and Guillermo Bretón joined CIMMYT’s 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 CIMMYT’s 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 Argentina’s no till farmer association Aapersid, said that the best way to acknowledge MasAgro’s work is to seize the opportunity to offer women farmers the possibility of having full access to science and technology.
Bretón, a farmer from Mexico’s state of Tlaxcala, described MasAgro as a disruptive way of understanding agriculture. “Investing in our soils is better than investing in a one-cycle crop,” he said.
CGIAR Board Chair Lindiwe Majele Sibanda was enthusiastic about the project’s trajectory and proud of its evolution into CIMMYT’s 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.
Sieg Snapp, director of the Sustainable Agrifood Systems (SAS) program at CIMMYT, has been selected as a recipient of the 2023 International Soil Science Award. Bestowed by the Soil Science Society of America (SSSA), the award recognizes outstanding contributions to soil science on the international scene.
The awarding panel looks for lasting contributions to international soil science, including creativity and relevance in the establishment of scientific research, the application of sound principles of international significance. A key factor is evidence of bringing about long-lasting change in practices related to soil science in more than country, as Snapp has done through improved understanding of integrated nutrient management in Malawi and Tanzania. Snapp’s receipt of the prestigious award affirms her lifelong commitment to enhancing the science and practice of agriculture for the betterment of the planet and its people.
Sieglinde Snapp receives the International Soil Science Award. (Photo: ASA, CSSA, SSSA)
Snapp is a trailblazing scientist renowned for pioneering the “mother-baby trial” method, the go-to tool for participatory research which has helped develop farmer-approved technologies in 30 countries. Her groundbreaking approach has significantly advanced participatory research, enriching our understanding of soil health, crop diversity and agroecology, informing extension services and policymakers in Africa and beyond.
Snapp received her award at the ASA-CSSA-SSSA International Annual Meeting in St. Louis, Missouri, where she also delivered the ASA Plenary/E.T. & Vam York Distinguished ASA Lectureship. Her talk, titled “Sustainable Agrifood Systems for a Changing World Requires Action-driven Science,” unveiled CIMMYT’s strategy for advancing the science of SAS in a rapidly changing world. In it, she addressed the pressing issues of climate change, conflict and food insecurity, emphasizing the need for action research, new data analytics and agro-diversity. These, she emphasized, are essential elements to safeguard the resilience and sustainability of our farming systems.
