CIMMYT contributes to Mars’ sustainability efforts by equipping Mexican maize producers with tools and training through the Next Generation Soil program. This collaboration supports Mars’ climate-smart agriculture initiatives, reducing agricultural greenhouse gas emissions, which make up 60% of its total GHG footprint. By promoting regenerative agriculture practices, CIMMYT helps Mars work towards a 50% GHG reduction by 2030 and achieving net-zero emissions by 2050.
Panelists at the “Digging Deeper: Advancements in Soil Health Monitoring for Sustainable Food Systems and Climate Resilience” side event, hosted by IFDC at the Africa Fertilizer and Soil Health (AFSH) Summit held in Nairobi. (Photo: Marion Aluoch/CIMMYT)
Farmers interact with soils daily, supporting the entire food system. Empowering them with tools for research and scalable learning initiatives is crucial.
Speaking as a panelist at the 2024 Africa Fertilizer and Soil Health (AFSH) summit, Paswel Marenya, CIMMYT senior scientist, emphasized the need to enhance farmers’ capacities to effectively utilize digital tools.
“Digital tools do not inherently lead to impactful changes unless they enhance farmers’ capabilities in managing soil health,” said Marenya. “The potential of a digital tool should enable farmers to shorten the cycle from receiving information to applying new techniques.”
Paswel Marenya, senior scientist at CIMMYT. (Photo: Marion Aluoch/CIMMYT)
Simple, easy to use tools
One promising solution is the development of user-friendly platforms that synthesize essential information from cutting-edge research into practical tools.
“In partnership with IFDC, CIMMYT is currently collaborating to develop an interface that synthesizes essential information into a user-friendly digital platform. This interface would be complemented by tools that allow for on-site testing,” said Marenya.
“CIMMYT aims to design digital tools that not only improve access to information but enhance the farmers’ ability to learn, innovate, and adapt. This approach promises real progress beyond more recommendations,” said Marenya.
This sentiment was echoed by Leigh Winowiecki, soil and land health global research lead at CIFOR-ICRAF, who discussed advancements in soil health monitoring and highlighted the Land Degradation Surveillance Framework (LDSF) which collects data on various indicators of soil health.
Leigh Ann Winowiecki, global research lead for soil and land health at CIFOR-ICRAF. (Photo: Marion Aluoch/CIMMYT)
Addressing the forum as the keynote speaker for the side event titled, “Digging deeper: Advancement in soil health monitoring for sustainable food systems and climate resilience,” Winowiecki showcased the global implementation and impact of the framework, noting its implementation in 40 countries.
“This framework is a field-based method that collects data on various indicators of soil health, land degradation, and vegetation diversity across landscapes,” Winowiecki said.
The findings from the framework guide practical interventions to mitigate soil erosion and influence policy.
Annie Wakanyi, director of partnerships & business development at One Acre Fund, highlighted how they prioritize farmers by providing high-quality inputs on credit, ensuring they are distributed near their farm fields, and offering training on usage, as well as assisting farmers in accessing markets for the surplus they produce.
Annie Wakanyi, director of global government partnerships, One Acre Fund. (Photo: Marion Aluoch/CIMMYT)
The private sector’s role was addressed by Jonathan Atkinson, Farm Service Unit Africa, who introduced the “cost to serve model” to understand the dynamics between costs and return on investments for farmers. He emphasized the need for practical, scalable approaches for soil health interventions that cater for commercial activities.
Jonathan Atkinson, farm service unit Africa. (Photo: Marion Aluoch/CIMMYT)
Professor Nalivata of Lilongwe University of Agriculture and Natural Resources emphasized the importance of addressing soil erosion to achieve soil health in Africa using Malawi as a case study. He discussed policy implementation on fertilizer, promoting climate-smart agricultural practices and research as strategies implemented to address soil degradation in Malawi, calling for more initiatives like incentives for farmers and building human capacity.
“This can be achieved if we maintain a collaborative approach involving government, academia, the private sector, and donor communities to transform soil health and improve livelihoods,” said Nalivata.
Latha Nagarajan, SOILS consortium director IFDC’s USAID-funded soils initiative. (Photo: Marion Aluoch/CIMMYT)
Latha Nagarajan, in her presentation on the IFDC’s USAID-funded soils initiative, highlighted how the initiative improves livelihoods through innovative soil management. She explained the ‘space to place’ approach, which integrates spatial remote sensing data with place-specific soil health data to enhance soil management decisions, increasing efficiency, resilience, and sustainability.
Traditional and nutrient-rich crops are vital for global food security. (Photo: CIMMYT)
Rome/Texcoco, Mexico – An initiative to build resilient agrifood systems grounded in diverse, nutritious, and climate-adapted crops grown in healthy soils, today marked another milestone through a new partnership between the Food and Agriculture Organization of the United Nations (FAO) and CIMMYT, a CGIAR Research Center.
FAO and CIMMYT signed a Memorandum of Understanding establishing a Partnership for the Vision for Adapted Crops and Soils (VACS) initiative. The joint Partnership will play a pivotal role leading efforts to coordinate, grow, and strengthen the VACS movement across a wide range of public and private stakeholders.
“By joining forces with CGIAR and CIMMYT, we bring together our collective capacities to build a strong momentum and platform to advance the VACS,” said FAO’s Director-General QU Dongyu. “VACS effectively brings together the Four Betters set out in the FAO Strategic Framework 2022-31: better production, better nutrition, a better environment and a better life – leaving no one behind.”
“Our 2030 Strategy focuses on strengthening agrifood systems to increase nutritional value and climate resilience,” said CIMMYT’s Director General, Bram Govaerts. “We are proud to stand united, through VACS, with FAO, whose excellent track record on policy work and networking with national governments will help equip farmers with resilient seed and climate-smart cropping systems that regenerate, rather than degrade, the soils on which their diets and livelihoods depend.”
Launched in 2023 by the U.S. Department of State in partnership with the African Union and FAO, the VACS movement aims to build sustainable and resilient agrifood systems by leveraging opportunity crops and building healthy soils to enhance agricultural resilience to climate change and improve diets. Nutrient-rich and traditional crops like sorghum, millet, cowpea, and mung bean are vital for food security and nutrition under climate change but have seen little attention so far. VACS recognizes the interdependence of crops and soils: Crops need good soil to be productive, and different crops can only be sustainably grown on some types of land.
FAO-CIMMYT partnership aims to boost farm productivity and nutrition
Since its launch the VACS initiative has supported many activities including the Quick Wins Seed Systems Project in Africa, which promotes the adoption of climate-resilient dryland grains and legumes and helps smallholders access seeds of local nutritious crops like pearl millet, finger millet, and mung bean, and connects them with markets and agri-services. Meanwhile, the VACS Fellows programme trains African breeding professionals, strengthening regional agrifood systems. In Central America, InnovaHubs partner with CGIAR, Mexico, and Norway to connect farmers with markets, technologies, and high-quality seeds. FAO, through its work, including as part of the International Network on Soil Fertility and Fertilizers (INSOILFER) and the Soil mapping for resilient agrifood systems (SoilFER) project, assists members with the implementation of sustainable and balanced soil fertility management for food security and to promote actions to enhance the link between nourished healthy soils and opportunity crops.
Leveraging on the expertise and mandates of both CIMMYT and FAO, the new joint VACS Partnership will support, coordinate and amplify the impact of all stakeholders of the VACS movement, public and private, through the following functions:
Strategy: The Partnership will develop and maintain a VACS strategy, including by defining its mission, objectives, and approach.
Resource Mobilization: The Partnership will work with public and private sector donors to increase investments in VACS-aligned work.
Donor and Implementer Coordination: The Partnership will coordinate work among major VACS donors and implementers, including by coordinating the VACS Implementers’ Group.
Stakeholder Engagement: The Partnership will strengthen ties across public and private stakeholders to catalyze action in support of VACS, including by coordinating the VACS Community of Practice and the VACS Champions program.
Shaping the Policy Environment: The Partnership will coordinate the development of a VACS policy agenda and work to advance it at the local, national, and multinational levels.
Communications: The Partnership will elevate the importance of diverse crops and healthy soils as a fundamental means of advancing a range of sustainable development goals.
Results Management: The Partnership will develop and maintain a results management framework to track progress in achieving VACS objectives.
About CIMMYT
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.
About FAO
The Food and Agriculture Organization (FAO) is a specialized agency of the United Nations that leads international efforts to defeat hunger.
Our goal is to achieve food security and nutrition for all by enabling all people to have regular access to enough locally appropriate high-quality nutritious food to prevent all forms of malnutrition and to lead active, healthy lives. With 195 members – 194 countries and the European Union, FAO works in over 130 countries worldwide.
For more information or interviews:
Jelle Boone
Interim Head of Communications, CIMMYT j.boone@cgiar.org
Mobile/WhatsApp: +52 595 1247241
In a world grappling with regional conflicts, climate change, and fragile food systems, the G7 emphasized sustainable agriculture and food security as essential for global stability in a recent communique. CIMMYT supports this vision through the Vision for Adapted Crops and Soils (VACS) initiative, which the G7 recognized as essential in transforming food systems. VACS aims to boost agricultural productivity with climate-resilient crops and healthy soils.
“With our partners, we will work on concrete and ambitious actions to achieve long-term sustainable development, strong environmental, social, and governance standards, and shared prosperity worldwide,” stated the G7 communique.
Fortifying indigenous crops
The G7 statement highlights the importance of dryland crops for sub-Saharan Africa, particularly ancestral grains and peas in securing nutrient-rich diets. CIMMYT, with over 75 partners such as WorldVeg and the Kenya Agricultural and Livestock Research Organization (KALRO), implements the VACS Quick Wins Seed Systems Project across west, east, and south Africa. The project promotes adoption of dryland grains and legumes, helps smallholders obtain climate-resilient seeds, and connects them with markets and agri-services. CIMMYT and its partners recently published a report which identifies the required training in crop breeding to support project implementation across the continent.
“VACS is working to improve the livelihoods of smallholders,” said Bram Govaerts, CIMMYT’s director general. “CIMMYT is implementing VACS focused on crop breeding, seed systems, partnerships, and capacity development. These areas protect our most important grains from further fragility.”
CIMMYT is also leading genetic research by predicting novel traits necessary for future crop varieties. A 2023 study published in Molecular Plant by CIMMYT scientists identified essential traits in six crops: sorghum, pearl millet, groundnut, cowpea, maize, and common bean. These characteristics could improve global food and nutrition security. High-yielding traits in legumes are being scaled up for delivery by CIMMYT and Afriseed through the Southern Africa Accelerated Innovation Delivery Initiative (AID-I) Rapid Delivery Hub, targeting over 35,000 smallholders in Zambia during 2023-2024.
Monitoring Field Visit in Mali, West Africa. (Photo: CIMMYT)
Capacity development through sustained global partnerships
Several G7 members, including the United States, support CIMMYT’s efforts with VACS. A key component of the initiative is capacity building for local researchers and practitioners. A recent initiative aims to train African breeding programs and research professionals, creating a cohort of VACS Fellows to strengthen local and regional food systems. In Guatemala, InnovaHubs, through partnership with CGIAR, Mexico, and Norway, brings farmers closer to markets, technologies, and high-quality seeds.
Strategy for the future
With over 130 countries depending on food imports and over 1.3 billion people considered food insecure, CIMMYT’s 2030 Strategy provides a comprehensive plan forward for agrifood systems through innovative research and partnerships. “Our partners provide the local knowledge and expertise to ensure our research has an impact on smallholder communities. Only through close collaboration with local actors can we transform global food production to become more inclusive and sustainable,” said Govaerts. “We stand ready to support G7 goals for shared prosperity.”
Researchers and experts from 15 countries convened in Zambia, between 4-15 March 2024, for an international training on wheat blast disease screening, surveillance, and management.
Wheat blast, caused by pathogen Magnaporthe oryzae pathotype triticum, is threatening global wheat production especially in warmer and humid regions. The disease was first observed in Parana state of Brazil in 1985 and subsequently spread to Bolivia, Paraguay, and Argentina. Outside of South America, wheat blast incidences were recorded for the first time in Bangladesh in 2016 and in Zambian wheat fields in 2018.
To mitigate the impact of this potential plant pandemic, the Zambia Agriculture Research Institute (ZARI), in collaboration with CIMMYT and other partners, organized a comprehensive training for building research capacity and raising awareness within the local and international community, especially in at-risk countries.
“This collaborative effort, supported by various international partners and funders, underscores the importance of global cooperation in addressing agricultural challenges such as wheat blast. The objective of the training was to empower researchers with knowledge and tools for enhanced wheat production resilience in regions vulnerable to this destructive disease,” said Pawan Kumar Singh, principal scientist and project leader at CIMMYT. Singh collaborated with Batiseba Tembo, wheat breeder at ZARI-Zambia, to coordinate and lead the training program.
Thirty-eight wheat scientists, researchers, professors, policymakers, and extension agents from countries including Bangladesh, Brazil, Ethiopia, India, Kenya, Mexico, Nepal, South Africa, Sweden, Tanzania, United Kingdom, Uruguay, Zambia, and Zimbabwe convened at the Mt. Makulu Central Research Station in Chilanga, Zambia.
“Wheat blast is a devastating disease that requires concerted efforts to effectively manage it and halt further spread. The disease is new to Africa, so developing capacity amongst country partners before the disease spreads more widely is critical,” said Tembo.
Participants at the International Training on Wheat Blast Screening and Surveillance. (Photo: CIMMYT)
Highlights from the training: discussions, lab exercises, and field visits
During the training, participants engaged in lectures, laboratory exercises, and field visits. There were insightful discussions on key topics including the fundamentals of wheat blast epidemiology, disease identification, molecular detection of the wheat blast pathogen, isolation and preservation techniques for the pathogen, disease scoring methods, disease management strategies, and field surveillance and monitoring.
The course also provided practical experience in disease evaluation at the Precision Phenotyping Platform (PPP) screening nursery located in Chilanga research station. This involved characterization of a diverse range of wheat germplasm with the aim of releasing resistant varieties in countries vulnerable to wheat blast. Additionally, participants undertook field visits to farmers’ fields, conducting surveillance of wheat blast-infected areas. They collected samples and recorded survey data using electronic open data kit (ODK) capture tools.
Participants listen to a lecture by B.N. Verma, director of Zambia Seed Co., on the history of wheat production in Zambia. (Photo: CIMMYT)
“The killer disease needs to be understood and managed utilizing multi-faceted approaches to limit the expansion and damages it can cause to global wheat production. The Bangladesh Wheat and Maize Research Institute (BWMRI) is willing to share all the strategies it deployed to mitigate the effect of wheat blast,” said Golam Faruq, BWMRI’s director general.
Participants visited seed farms to gain practical insights into seed production processes and quality assurance measures. These visits provided first-hand knowledge of seed selection, breeding techniques, and management practices crucial for developing resistant wheat varieties. Participants also visited research sites and laboratories to observe advanced research methodologies and technologies related to wheat blast management. These visits exposed them to cutting-edge techniques in disease diagnosis, molecular analysis, and germplasm screening, enhancing their understanding of effective disease surveillance and control strategies.
Field visit. (Photo: CIMMYT)
“The training and knowledge sharing event was a significant first step in developing understanding and capacity to deal with wheat blast for partners from several African countries. It was wonderful to see the efforts made to ensure gender diversity among participants,” said Professor Diane Saunders from the John Innes Centre, UK.
Visit of Norway’s Minister and Ambassador to Mexico at an Innovation Module in Guatemala. (Photo: Francisco Alarcón/CIMMYT)
The visit of Anne Beathe, Norway’s Minister of International Development, and Ragnhild Imerslund, Norway’s Ambassador to Mexico and Central America, to the Lomas Abajo demonstration module in San Jacinto, Chiquimula, Guatemala—part of the InnovaHubs promoted by CIMMYT and its collaborators in that country through the AgriLAC Resiliente initiative—on June 5.
The presence of the minister and the ambassador highlights the Norwegian government’s support for initiatives like CGIAR’s AgriLAC Resiliente, which shares a common vision of Latin American regional development within a framework of triangular cooperation between the Norwegian Embassy, the Mexican Agency for International Development Cooperation (AMEXCID), and CIMMYT.
This cooperation framework seeks to strengthen the innovation management model known as InnovaHub because it promotes constant interaction between farmers and their local allies, with whom technicians and researchers work hand-in-hand on the plots that are part of the physical infrastructure, such as the modules visited by the Norwegian government representatives, which serve as spaces for co-learning and validation of sustainable practices and technologies for the region.
The work and actions in Guatemala are part of a methodology for accelerating agricultural innovation built on CIMMYT’s successful experiences in Mexico. In this sense, CIMMYT, together with other CGIAR Research Centers in the region—the Alliance of Bioversity International and CIAT, the International Potato Center (CIP), and the International Food Policy Research Institute (IFPRI)—lead AgriLAC Resiliente and, through collaboration with various regional partners, have succeeded in establishing and operating two InnovaHubs in Guatemala—one in the eastern region and another in the western region—where organizations like ADIPAZ and ASORECH work closely in disseminating sustainable practices suited to each agricultural and sociocultural context.
For the Norwegian government, which seeks to strengthen ties with the governments and societies of Mexico and Central America, the InnovaHubs model is ideal for connecting not only with national governments but also with local governments, producers, and a wide range of strategic actors.
The Norwegian government, which, together with CIMMYT, already promotes Agriculture for Peace—drawing on the legacy of Norman Borlaug to promote peaceful and resilient societies through sustainable and inclusive agriculture—considers agriculture a vital means to promote social stability in rural areas as it supports income generation and contributes to political stability, hence its interest and support for the InnovaHubs’ efforts in promoting innovative and sustainable agriculture.
Anne Beathe, Norway’s Minister of International Development, at an Innovation Module in Guatemala. (Photo: Francisco Alarcón / CIMMYT)
During their visit to Guatemala, Minister Beathe and Ambassador Imerslund were accompanied by Jelle Van Loon, associate director of CIMMYT’s Sustainable Agrifood Systems Program, the operational team of AgriLAC in Guatemala; Elder Cardona, mayor of San Jacinto; as well as representatives of Alliance of Bioversity International and CIAT, ADIPAZ, and ASORECH, with whom they toured InnovaHubs facilities and engaged in a lively dialogue with various producers participating in AgriLAC Resiliente, particularly with a group of women farmers who shared their experiences on how the knowledge gained through the initiative has led to empowerment and better living conditions.
During the visit, the context of Chiquimula, the Chortí region, and the Dry Corridor was also explained, highlighting the challenges and limitations; the activities carried out with AgriLAC, including research platforms, post-harvest processes, and training; ongoing agronomic research, proposals for families, agronomic management programs, and crop diversification, Agroclimatic Technical Tables (MTAs), among other topics.
Finally, it was emphasized that, with the triangular cooperation between the Norwegian Embassy, AMEXCID, and CIMMYT, actions are planned for CIMMYT to train field advisors from El Salvador, Guatemala, and Honduras, with the aim of continuing the efforts of Agriculture for Peace for the benefit of the countries in the region.
Regional partners examine the CIMMYT maize lines displayed during field day. (Photo: CIMMYT)
The International Maize Improvement Consortium for Africa (IMIC-Africa) held its Southern Africa field day on 25 March 2024 at Harare, Zimbabwe. IMIC-Africa, launched by CIMMYT in 2018, is a public-private partnership designed to strengthen maize breeding programs of partner institutions in Africa. As part of this initiative, CIMMYT organizes annual field days which bring together representatives from seed companies and national agricultural research system (NARS) partners across Zimbabwe and Kenya.
At the heart of the IMIC-Africa field day lies a vibrant showcase of genetically diverse materials developed from various maize breeding pipelines of CIMMYT in Southern Africa. Such events serve as a catalyst to drive innovations in maize breeding programs, deliver solutions to stakeholders, and enable seed companies and NARS partners to make informed selections tailored to local contexts.
“It is an important forum to have organized discussions with partners, and redesign—where possible—our breeding approaches to deliver targeted products to stakeholders,” said Director of CIMMYT’s Global Maize Program, One CGIAR Global Maize Breeding Lead, and One CGIAR Plant Health Initiative Lead, B.M. Prasanna. “The main stakeholders here are our partners, including seed companies and public sector national programs, through whom we reach out to farming communities.”
The significance of these field days cannot be overstated. It allows the partners to have a critical look at the breeding materials on display and undertake selections of maize lines relevant to their breeding programs. In addition, the IMIC-Africa field days enable CIMMYT team to have structured dialogues with diverse stakeholders and to review and refine breeding (line and product development) strategies and approaches.
“It is key to bridge the gap between the national programs and private sector players. This platform allows us to stay ahead in terms of research, and innovative breakthroughs in the seed sector,” added Kabamba Mwansa, principal agriculture research officer, ZARI, Zambia and Southern Africa Breeding, and seed systems network coordinator.
Highlights from the Harare field day
With an impressive array of 737 CIMMYT maize lines on display, partners at the Harare field day gained insights about the performance of different materials. The materials span early-, intermediate-, and late- maturity groups to nutritious maize breeding pipelines. This comprehensive showcase enabled seed companies and NARS partners to make informed selections, tailored to their local contexts. The material on display ranged from early generation (one or two years of testing data) to advanced generation (more than three years of testing) coming from the Southern Africa breeding pipelines targeting multiple market segments.
Regional partners examine the CIMMYT maize lines displayed during field day. (Photo: CIMMYT)
One of the strategic priorities of CIMMYT’s maize breeding program in Africa is improving the nutritional quality of maize. This is exemplified by the development of provitamin A-enriched maize (PVA). On display were 169 lines originating from the PVA-enriched maize breeding pipeline. The efforts underscore CIMMYT’s commitment to address regional nutritional needs through targeted breeding initiatives.
Felix Jumbe, a partner from Peacock Seeds in Malawi reflected on the importance of the IMIC-Africa partnership. “We have been part of IMIC-Africa since its inception, and we continue to appreciate the different climate-resilient lines emerging from CIMMYT maize breeding programs in Africa. Last year, we sold out of our seed as people continue to appreciate the need for resilient maize varieties. The drought-tolerant (DT) maize lines from the consortium have been a huge selling point as most farmers are happy with it,” he said.
The field day not only showcased cutting-edge breeding innovations but also offered a historical perspective by tracing the trajectory of the most popular lines taken up under IMIC-Africa from 2019 to 2023. This served as a crucial reference point for partners, enabling them to assess the performance of newly displayed lines against established benchmarks. Furthermore, partners considered the presence of trait donors as invaluable in improving resistance to key biotic stresses or tolerance to certain abiotic stresses prevalent in Africa.
CIMMYT, NARS, and seed company partners participate in the IMIC-Africa field day in Harare, Zimbabwe. (Photo: CIMMYT)
CIMMYT partnership continues to add value
In the face of escalating environmental pressures, including climate change and pest infestations such as the fall armyworm (FAW), CIMMYT breeders have been working tirelessly to develop resilient varieties capable of withstanding these challenges. Partners such as SeedCo have embraced these robust varieties. For breeder Tariro Kusada, it is her second year of attending the IMIC- Africa field day. “We continue to see value in getting breeding materials through IMIC. The vigor from the lines on display is outstanding as compared to last year. We hope the vigor translates to yield.”
Danny Mfula from Synergy Zambia reinforced the value of the partnership. “It is always good to tap into CIMMYT’s germplasm to supplement what we have. We are glad that more FAW-tolerant hybrids are coming on board. We want to leverage on these developments as farmers have gone through a lot of challenges to control FAW,” he said.
As the harvest stage approaches, partners can select their material by assessing the performance of the lines from flowering to grain filling stages. Each plot’s harvest provides invaluable insights, guiding partners in their selections. Partners are also given the opportunity to view the improved maize lines from CIMMYT through a virtual gallery of ears from each plot, ensuring informed decision-making. By fostering dialogue, facilitating partnerships, and highlighting genetic innovations, the field days catalyze progress towards a more sustainable and resilient future for African agriculture.
Bram Govaerts receives Guillaume Grosso at CIMMYT’s global headquarters. (Photo: Jenifer Morales/CIMMYT)
The visit of Grosso was much more than a courtesy call. As the largest research center in CGIAR, CIMMYT plays a significant role. Grosso’s visit also came at an important moment for CIMMYT as it reorients its people and culture, operations, and research to address today’s challenges of food security, climate change mitigation, and agricultural development.
“CIMMYT was pleased to have Guillaume for a few days,” said CIMMYT’s Director General, Bram Govaerts. “We discussed areas where CIMMYT can most deliver value in CGIAR and shared all our important advancements in revamping our organizational capacity and forward-thinking vision to meet current food system demands.”
A central focus of CGIAR’s and CIMMYT’s work is the creation of resilient and inclusive food systems. Effective operations are essential for delivering research that will advance agrifood systems towards a sustainable, food-secure future.
Grosso joins CIMMYT colleagues for lunch. (Photo: Jenifer Morales/CIMMYT)
“I enjoyed speaking with CIMMYT’s scientists and staff, who embody a spirit of dedicated, collective action towards creating systems that produce more nutritious food for vulnerable populations. I am confident that the CGIAR-CIMMYT integrated partnership will only accelerate the needed inclusive transformation of our food systems,” said Grosso.
Grosso engaged with CIMMYT’s enabling units part of the operations and engagement chapters, which are driving forward the Excellence in Operations strategic pillar. This pillar is a cornerstone in supporting and expanding the organization’s global impact. Grosso also toured CIMMYT’s museum, which showcases over 55 years of the institution’s history and operational distinction.
Laboratory specialists share how CIMMYT distributes improved wheat lines annually to public breeding research programs and educational institutions. (Photo: Jenifer Morales/CIMMYT)
The new deputy executive managing director also learned about CIMMYT’s Excellence in Science pillar. He spoke with researchers and Mexican partners who gave him an overview of the center’s research portfolio in genetic innovation and resilient agrifood systems—critical areas which will support CIMMYT’s efforts to contribute to the UN’s Sustainable Development Goals and CGIAR’s 2030 Research and Innovation Strategy.
The Dryland Crops Program (DCP), in collaboration with National Agricultural Research and Extension Systems (NARES) partners, IITA, Alliance Bioversity & CIAT, and other African institutions, has established the African Dryland Crop Improvement Network (ADCIN). Aiming to strengthen partnerships and collaboration among partner institutions, the network focuses on improving dryland crops through crop enhancement. The ADCIN will have regional governance bodies in West and Central Africa (WCA) and Eastern and Southern Africa (ESA).
Consultative approach to establish ADCIN and governance structure
In 2021, CIMMYT was asked to lead a CGIAR varietal improvement and seed delivery project for dryland crops with an initial focus in Africa and funding from the Bill & Melinda Gates Foundation, the United States Agency for International Development (USAID), and the CGIAR Accelerated Breeding Initiative. This aligns with CIMMYT’s 2030 strategic objectives, which will contribute to shaping the future of agriculture to drive climate resilience, sustainable and inclusive agricultural development, and food and nutrition security.
As CIMMYT embarked on its work to further strengthen the work on dryland crops, it held a series of consultation meetings with several NARES in the region. A joint consultation workshop with NARES and CGIAR colleagues was held in Senegal in February 2022. This was followed by the broader network members and stakeholders meeting in Ghana in January 2023. These events brought together experts and representatives from the WCA and ESA regions and various partner institutions to discuss the best approaches to improve the impact of our work on dryland crops through crop improvement. Experts discussed within and across disciplines defining breeding targets using socio-economic and gender information, developing modern breeding processes and approaches, seed systems, data-science, and forging new models of partnerships.
Stakeholders from CGIAR and NARES convene in Ghana for a meeting. Experts, partner institutions, and representatives from the WCA and ESA regions, engage in comprehensive discussions to advance dryland crop improvement strategies. (Photo: Eagle Eye Projects)
One significant outcome of these meetings was the recommendation to establish a formal regional dryland crop improvement network to strengthen and enhance the current partnership among NARES and CGIAR partner institution and scientists. Establishing a governance structure for this network for effective coordination and monitoring of the network partnerships was also recommended. It was agreed that this network will have two regional bodies, one each in ESA and WCA, with their own steering committees.
Later in 2023, two initial regional steering committees were formed following consultations with CGIAR and NARES partners. The goal of the committees is to improve crop varieties in the region while ensuring equitable resource allocation and promoting collaboration among network partners. Each committee is expected to provide regional governance and oversight for the diverse dryland crop networks that operate in each region. Specific roles and responsibilities include prioritizing capacity development activities for network members, approving and allocating budgets for development plans, reviewing infrastructure needs, budgeting and accounting for investments, mobilizing resources from donors, coordinating collaboration among partners, monitoring and evaluating performance, supporting policy issues, and resolving disputes among members.
The African Dryland Crops Improvement Network (ADCIN) structure.
Critical role of steering committees for sustainability of ADCIN
The WCA steering committee comprises 14 members: 11 from NARES and three from CGIAR, met in Saly, Senegal in August 2023. The ESA committee comprises 12 members: nine from NARES and three from CGIAR, met in Nairobi, Kenya. Both committees explored their roles and responsibilities.
The ESA and WCA committees proposed, represented, and discussed several strategic areas. They developed and implemented strategies to enhance capacity and infrastructure, promote effective budget management, establish regional learning mechanisms, and lead resource mobilization to ensure sustained support for the DCP initiatives.
Members of the WCA Steering Committee meet in Senegal for a strategic meeting. (Photo: CIMMYT)
AlliThe committees also discussed the network’s vision, terms of reference, committees’ governance (by-laws), and a review of the network agreement. They also defined the network’s aspirations and aligned its resources to regional and national infrastructure needs and priorities.
A significant outcome from the meetings was CIMMYT’s allocation of US $1 million to the committees to facilitate personnel and infrastructure development. This budget allocation was decided upon after careful deliberation on how to best use the available resources to meet the network’s needs. Both committees then agreed to call for proposals in various capacity development areas.
They also elected the leadership for the committees. The WCA committee elected four officials: the chairperson, vice-chairperson, secretary, and financial secretary. The ESA committee elected three officials, including the chairperson, vice-chairperson, and secretary.
Subcommittees were also formed to oversee the operations of the steering committees and ensure a comprehensive approach to achieving the network’s goal. “These subcommittees are focused on capacity development, finance and monitoring, evaluation and learning and networks sustainability,” said Happy Daudi, the ESA steering committee secretary.
Kevin Pixley, director of CIMMYT’s Dryland Crops Program, highlighted the importance of regional steering committees in promoting agricultural progress, food security, nutritional stability, resources, and partnerships.
“The creation of the ADCIN marks a pivotal moment in our collective journey towards sustainable agricultural development,” said Pixley. “By bringing together the expertise and resources of CGIAR and NARES partners, ADCIN embodies our shared commitment to turning the challenges of dryland agriculture into opportunities for growth, resilience, and prosperity for the farmers and the communities we serve.”
The meetings also provided an opportunity for the committees to initiate the selection of a unified name for the network. The African Dryland Crop Improvement Network (ADCIN) was decided through a consensus-driven naming process among network members.
The ADCIN also establishes a critical support network for Africa-NARES and breeding programs through the ESA and WCA regional networks, allowing them to co-design and co-implement projects, leverage regional resources and capacity, and sustain dryland crop improvement activities through alignment of investment with priorities, capacity building, and connect the network to other initiatives.
Accelerating progress: from governance to brand identity
Subsequently, the two committees met in December 2023 to discuss and finalize previously discussed key areas. Significant progress had been made in reviewing and confirming the terms of reference and bylaws, which are required for smooth operations and a clear understanding of the governance structure among all the network members.
Following a thorough review and deliberation, the committees agreed on a set of criteria and a template for the call for proposals. The call was made public in December 2023, with submissions due by January 30, 2024. The ESA and WCA steering committees reviewed the applications and communicated the results to the successful applicants. Out of nearly 100 applications submitted, 19 successful candidates are from WCA and 13 from ESA.
Recognizing the importance of a strong and consistent identity, the steering committees established guidelines for the branding and marking process. Part of this process includes creating a logo, which will be shared with the steering committees and the network for a final selection and approval. This step is crucial in developing a visual identity that reflects the network’s values and objectives.
Reinventing collaborative efforts for the future with a unique model
The network and the steering committees operate on an inclusive model in which CGIAR, NARES, and regional stakeholders collaborate to allocate resources for regional projects. This approach not only addresses each region’s unique needs but also ensures tailored development of infrastructure, human capacity, and coordination, increasing the impact on dryland crop cultivation.
“This is a one-of-a-kind collaborative model that was meticulously developed within the region by both CGIAR and NARES, who jointly decided on strategic priorities for regional projects and allocated a budget to support their region,” said Harish Gandhi, associate program director. “The ‘fit principle’ is critical for infrastructure and human capacity development, as well as improving regional coordination.”
This collaboration is about more than just pooling resources; it’s also about leveraging unique strengths, knowledge, and perspectives to create synergies that will help address complex regional challenges effectively. The network can respond to the specific needs of each region and places the onus of responsibility on the steering committees, allowing them to make critical regional decisions. By ensuring that projects are designed with a thorough understanding of regional needs, ADCIN aims to achieve more long-term and significant results.
While wheat acreage has been increasing across the whole of Africa, the sub-Saharan countries account for a significant proportion of the total growth and yield, equaling an area of approximately 3.1 million hectares and a production of more than 9 million tons. However, in recent years, Fusarium head blight (FHB) or head scab has become a major disease in the region, causing significant reductions in yield and quality due to the lack of resistant varieties and management tools.
In China, a successful wheat shuttle breeding program by the Chinese Academy of Agricultural Sciences (CAAS) and CIMMYT for improving FHB has existed since the 1980s. Additionally, CIMMYT and the Jiangsu Academy of Agricultural Sciences (JAAS) have provided an FHB screening station in Nanjing since 2019. With a wealth of experience in confronting the disease, this ongoing partnership can help to solve the challenges currently faced by farmers in Africa.
To this end, CAAS, JAAS, and CIMMYT organized a training workshop on FHB management for Africa, which took place with financial support from China Aid in Beijing and Nanjing, China, between 10 and 23 April 2024. Twenty participants, 45% of which were women, attended the workshop, with specialists in wheat breeding, pathology, seed quarantine, and other related fields at public institutions in Ethiopia, Zambia, and Lesotho.
“This is the first time China has worked with an international organization to conduct an agricultural training workshop for sub-Saharan Africa,” said Zhonghu He, CIMMYT distinguished scientist and country liaison officer in China.
A hands-on demonstration at the Jiangsu Academy of Agricultural Sciences (JAAS) and CIMMYT Fusarium head blight (FHB) precision phenotyping platform helps scientists in Africa to better understand and fight the wheat disease. (Photo: Liu Xiyan/CAAS)
Practical tools to target FHB
Experts from China and CIMMYT shared their successful experiences of FHB management, including breeding resistant varieties. The trainees benefitted from hands-on experience of FHB identification, disease screening (including inoculum preparation, inoculation, and scoring), mycotoxin quantification techniques, and wheat breeding.
At the end of the workshop, the participants were extremely pleased to observe the impressive progress made in China on wheat FHB both on breeding and disease control, and they expressed strong willingness to contribute to collaboration between Africa, China, and CIMMYT on more wheat breeding and research. Netsanet Bacha Hei from the Ethiopian Institute of Agricultural Research (EIAR) was impressed with the scientific and technical expertise provided in the training and mentioned that sub-Saharan Africa needs similar practical trainings to mitigate the threat of FHB. Similar opinions were echoed by Doreen Malekano Chomba from the Zambian Plant Quarantine and Phytosanitary Service (PQPS), who discussed the need to have an effective in-country surveillance and monitoring to assess and manage FHB in the region.
Participants gather for the opening ceremony of the workshop at the Chinese Academy of Agricultural Sciences (CAAS) in Beijing. (Photo: Li Simin/CAAS)
Xu Zhang, who heads the FHB research program at JAAS, is very appreciative of the collaborative work that has been going on for several decades between CIMMYT and China, highlighting that the workshop represents another step in understanding and managing FHB in sub-Saharan Africa and beyond, Zhang said, JAAS and CIMMYT has grown together through strong partnership.
“This training lays firm groundwork for future China-Africa-CIMMYT collaboration on mitigating the threat of FHB and improving wheat production and food security in sub-Saharan African countries,” said He.
In Dodoma, Tanzania, CIMMYT, ILRI and TALIRI with USAID funding of US$2M, launch the AID-L project to enhance poultry farming among youth and women. Targeting 18,000 farmers, it involves cost-sharing, advisories, and media resources to reduce poultry morbidity. Implemented across eight districts, the initiative aims to benefit 3 million people as part of the broader AID-I project, addressing a significant contributor to Tanzania’s agricultural GDP.
Participants at the SAS Africa implementation roadmap retreat. (Photo: Maria Monayo/CIMMYT)
Stronger partnerships, innovation, and agile science for impact were resounding themes when CIMMYT researchers from the Sustainable Agrifood Systems (SAS) program in Africa gathered in Nairobi to develop the program’s implementation roadmap in alignment with the CIMMYT 2030 Strategy.
The three-day retreat from 25-28 March, attended by research teams from the eastern, western, southern, and Horn regions of Africa, provided a platform to share insights and chart a course towards sustainable agricultural development for the continent.
Routes to amplifying research impact
In her opening remarks, SAS Program Director, Sieglinde Snapp, emphasized the importance of grounding the CIMMYT 2030 Strategy in the African context and the urgent need for actionable plans to address pressing challenges in agrifood systems. Snapp drew attention to the significance of collaboration with public, private, and civil society stakeholders, highlighting how inclusive partnerships are essential for driving meaningful change. She urged the team to focus on turning strategic vision into tangible plans, with clear milestones to track progress.
“Humanity pulled together and got to the moon in the 60s. Conventional science and engineering got us there,” said Snapp. “However, when we have high uncertainty and high-value conflicts, we need to have all stakeholders at the table. We need to do action science and think of what the actual science looks like.”
Christian Witt, senior program officer at the Bill & Melinda Gates Foundation, delivered a keynote address focusing on the importance of advancing agronomy globally and exploring opportunities at the national level. He advocated for a balanced approach to tackling macroeconomic challenges while fostering grassroots innovation that augments impact. He also underscored the CIMMYT 2030 Strategy’s critical role across CGIAR, calling for a pivot in funder influence towards a unified, demand-driven research methodology.
Bill & Melinda Gates Foundation Senior Program Officer, Christian Witt, gives a keynote speech on advancing global agronomy. (Photo: Maria Monayo/CIMMYT)
Deep diving into the strategy
The retreat also featured a panel discussion on the CIMMYT 2030 Strategy. From the value of strategic partnerships to the need for excellence in research and delivery, the panel highlighted the key pillars of CIMMYT’s strategy and underscored the importance of aligning efforts with global priorities and challenges.
Participants discussed the role of data systems for agile agronomy, noting the need for innovative methodologies to harness the vast amount of data available. They placed key focus on empowering farmers, particularly through initiatives like the BACKFEED Farmer Agency. This inclusive feedback system enables knowledge co-creation via mobile phones, fostering networking among farmers of diverse backgrounds. Regular and spontaneous interactions facilitate data collection, addressing social exclusion in agricultural information channels faced by those with multiple vulnerabilities.
Paswel Marenya, SAS associate program director for Africa, shared thought-provoking insights on the Pathways to Impact. He demonstrated how complementarity and bundled approaches, impact orientation, evidence-supported scaling, subsidiarity, localization, and training of farmers and communities, and inclusive seed systems, can transform food systems.
During an analysis of the strategy in the African context, central inquiry focused on identifying areas where SAS could deliver the greatest value. Discussions revealed a consensus on several key priorities: the need of developing and implementing policies from the ground up, addressing the specific needs of smallholder farmers, enhancing capacity for sustainable development, ensuring inclusivity for youth and women, expanding innovative solutions, and encouraging regional collaboration. These common themes highlight a united drive towards comprehensive and impactful agricultural advancement across Africa’s diverse landscapes.
On implementing the strategy, attendees discussed a range of plans and proposals:
Diversify from maize to alternative crops, such as pigeon peas.
Engage stakeholders in agile agronomy discussions to identify impact pathways.
Train the private and public sectors for climate-smart agriculture.
Address concerns regarding prevailing inefficiencies within the formal seed system and the lack of business models for non-hybrid seeds like groundnut or wheat.
Identify opportunities for financial inclusion through aggregator and off-taker models.
Consider the importance of mechanization policies, markets, and extension services.
Engage strategically in the humanitarian-development-peace nexus, as the majority of food insecurity is found in conflict areas.
Improve nutrition education and meet local demand for nutritious crops like pigeon pea and groundnut.
Consider the role of data and analytics in humanitarian-development-peace pathways, policy engagement for building value chains, and the significance of impact pathways.
Promote the importance of open science, data sharing, and addressing gaps between product enhancement and production.
Participants discuss how SAS can further contribute to CIMMYT’s 2030 Strategy. (Photo: Maria Monayo/CIMMYT)
Eyes on the future
In reflections at the end of the retreat, Snapp reiterated the importance of investing in soil resilience through agile agronomy and participatory research to foster collaboration and inclusivity in decision-making processes. She focused on the significance of foresight targeting and market intelligence, particularly in regions grappling with soil degradation and the impact of the climate crisis. Her presentation highlighted key priorities for driving impactful agricultural development, including effective data management, climate adaptation, and alignment of existing solutions with climate goals. The interconnectedness of foresight targeting, seed systems, and agile agronomy was underscored, emphasizing the importance of collaboration and addressing essential topics like nitrogen and climate change. Additionally, Snapp reiterated the crucial role of collaborative efforts between different teams and organizations in effectively advancing agricultural research and development initiatives.
To cap off three days of intense discussions and strategy-building, participants took part in fun team-building activities that echo CIMMYT’s core values of excellence, integrity, and teamwork.
Stakeholders collaborate in a two-day workshop to discuss the inclusive development of maize value chains in Nepal. (Photo: CIMMYT)
From April 3-4, 2024, CIMMYT hosted the International Conference on Strengthening Maize Value Chains in Nepal, organized in collaboration with the Ministry of Agriculture and Livestock Development, the Department of Agriculture (DOA), the National Agriculture Research Council (NARC), and the Agri Enterprise Center (AEC) of the Federation of Nepali Chamber of Commerce and Industry (FNCCI), with support from the United States Agency for International Development (USAID).
“Maize holds the potential to yield manifold benefits for farmers, the private sector, and the Government of Nepal, through the development of an efficient market system,” said Judith Almodovar, acting director of the Economic Growth Office at USAID Nepal. With this in mind, the two-day conference held in Kathmandu brought together government officials, policymakers, industry leaders, and experts from Nepal and the wider region to explore avenues for advancing the country’s maize sub-sector. It served as a platform for participants from India, Bangladesh, and Nepal, representing various functions of the maize value chain to share and exchange innovative commercial maize production, post-harvest, supply chain, and marketing models and policies aimed at improving efficiency, ensuring sustainability, and fostering competitiveness.
Addressing the opening session, Honorable Minister of Agriculture, Jwala Kumari Sah, highlighted the Government of Nepal’s priority to increase maize production and marketing, emphasizing the need to provide maize for food, feed, and fodder to boost incomes and improve livelihoods. While highlighting objectives and expectations from the conference, Country Representative for CIMMYT in Nepal, Dyutiman Choudhary, shared information about CIMMYT’s mandate and global expertise in maize science, as well as interventions to develop a maize seed-to-feed model in Nepal. The organization’s model fosters public-private farmer partnerships for commercial maize production as a key approach to develop an inclusive and sustainable maize sub-sector in the country. “As a result, maize yields have doubled in Nepal and farmer gate prices have increased by 50% in the last two years,” Choudhary explained.
CIMMYT scientists and partners engage in a panel discussion on maize commercialization. (Photo: CIMMYT)
Recommendations for sustainable improvement
The conference involved five different technical sessions over the course of two days, each focused on various themes related to production, marketing, international best practices, and policies. Experts from Bangladesh, India, and Nepal were involved in insightful discussions and shared valuable knowledge and experience for advancing the commercialization of the maize sub-sector in Nepal.
Participants made recommendations for the sustainable improvement of national maize production and commercialization to meet the growing demand for food, feed, and fodder while reducing reliance on imports. These include developing high-yielding, short-duration, stress-tolerant maize varieties, and identifying models for commercial maize production, post-harvest, storage, market linkages, and supportive policies for improved investment and coordination among public sectors, market actors, and service providers to meet national maize demand.
At the closing session, Govinda Prasad Sharma, secretary at the Ministry of Agriculture and Livestock Development (MOALD), notified attendees that MOALD is in the process of strengthening a national strategy for maize commercialization and that the learning from the conference will provide valuable inputs. He added that the participation of experts from neighboring countries has provided deep insights for policy development.
Soil is the foundation of agriculture, and healthy soil is critical to the entire ecosystem. However, soil health is under threat today as many factors make soil unhealthy, leading to significant losses in farming. CIMMYT in India has been addressing these issues in partnership with national and international institutions, while CIMMYT’s SBP program in Türkiye aims to deliver high-yielding wheat germplasm that is resistant to SBP and supports the International Soil-Borne Pathogens Research & Development Center (ISBPRDC) of Türkiye. It also facilitates knowledge exchange and technology transfer to support joint research and development activities to improve soil health.
On arrival, the group of scientists and professors from Bihar was welcomed by Metin Türker, director general of Agricultural Research and Policies (TAGEM). Talking about the intricate nexus of agriculture, climate, and technology, Türker emphasized varietal developments to irrigation advancements and engaged in lively discussions with the group, fueled by a shared vision for agricultural sustainability.
Led by Abdelfattah A. Dababat, CIMMYT country representative in Türkiye and the leader of the SBD program, the scientists and professors from India ventured into the heart of research institutions, immersing themselves in the latest innovations in wheat improvement and plant pathology. Their journey took them from Ankara to Eskisehir and ended at the Abant Izzet Baysal University, Bolu, where they were greeted by passionate experts eager to share their knowledge. Bonds were forged amid lectures and laboratory demonstrations, and ideas ignited, paving the way for future collaborations.
Visit to Ankara Province
The participants visited the Field Crops Central Research Institute and were introduced to the TAGEM Seed Gene Bank and Herbarium. Participants were acquainted with seed processing and preservation methods with live demonstrations. Following that, participants visited the Plant Protection Central Research Institute in Ankara, where its Director Ayse Ozdem gave an overview of the institute’s mandates and research work. Participants had the opportunity to explore the plant pathology laboratory and learn about major crop diseases in Türkiye and their control measures.
Participants later visited winter wheat trial sites at the research station in Haymana, a district of Ankara province. The group then interacted with Mesut Keser, ICARDA’s wheat breeder who specializes in winter and facultative wheat while working on the International Winter Wheat Improvement Program (IWWIP). This was followed by a visit to the pathology field experiments, a breeder seed production area, and an experimental trial for evaluating Syngenta TYMIRIUM® technology at the research station.
Visit to TZARI in Eskisehir
Scientists also had a chance to visit the Transitional Zone Agricultural Research Institute located in the Central Anatolian Plateau of Türkiye. The institute’s director Sabri Cakir welcomed the participants and briefed them about the ongoing research activities of the institute and its relevance to agriculture in Türkiye. Savas Belen gave a general overview of the institute and the breeding program, while Abdullah Tane Kilinc presented a glimpse of the activities of the Department of Plant Pathology. Professor Halil Toktay gave an overview of plant parasitic nematodes in wheat and potato, followed by Gül Erginbas Orakci who discussed the importance of managing soil-borne pathogens.
Beyhan Akin, wheat breeder at CIMMYT, gave a presentation on CIMMYT’s breeding activities in Türkiye, and Oğuz Önder presented fertilizer application on the quality of Bread Wheat and the importance of foliar fertilization in crops.
Thereafter, participants visited the plant pathology laboratory where Abdelfattah A. Dababat and Gül Erginbas-Orakci gave an overview of laboratory methods to study Cereal Cyst Nematodes and Root-Lesion Nematodes with live demonstrations. Innovative approaches to tackle the Plant-Parasitic Nematodes in agriculture were also discussed. In the agronomy laboratory, Oğuz Önder gave a live demonstration for estimating plant grain and biomass yield by optical sensor-based technologies. Participants also had the opportunity to explore the soil science laboratory and become familiar with state-of-the-art equipment used for soil nutrient analysis.
Visit to Bolu
The participants visited Abant Izzet Baysal University, in Bolu, where the Rector Professor. Mustafa Alişarlı welcomed them. This was followed by presentations and discussions on burning issues in agriculture. Professor Senol Yildiz gave a presentation on soil health assessment and management. Professor Halil Kütük of the Department of Plant Protection gave a brief overview of the latest research advancement in biological control of major crop diseases. In continuation, Abdelfattah A. Dababat gave an overview of the cereal cyst nematode and their management. The discussion led to a brainstorming session on soil health management, soil-borne diseases, soil microbiome, and the challenges of using microorganisms for soil health improvements. The major challenges and opportunities for agriculture development under changing climate scenarios in India and Türkiye were also discussed.
The training course exposed participants to the latest research and technologies for soil and root health management to increase agricultural productivity and profitability immediately and into the future. During the entire visit, participants working in different fields (soil science, agronomy, plant breeding, and microbiology) interacted with Türkiye’s expert counterparts to discuss their work and share valuable research insights. Several topics and technologies relevant to global agriculture, like zero tillage, climate-resilient agriculture, precision input management, hidden hunger, and digital agriculture, were discussed. Participants also explored future opportunities for bilateral research collaborations between India and Türkiye.
Participants expressed their deepest gratitude to the CIMMYT team at Türkiye, led by Abdelfattah A. Dababat, for arranging an effective training program and for the support provided at every step. “Your careful planning and thoughtful execution have created an environment where learning flourishes and connections are made. Thank you for your invaluable contribution to our learning journey,” said the participants. Participants also expressed their sincere thanks to the Ministry of Agriculture, Türkiye, and the BISA team for coordinating this training and making the entire experience seamless and impactful for all involved. Special thanks were offered to the Government of Bihar for supporting the travel of scientists from India for this training program under the climate-resilient agriculture project in the state.
Map: BISA works with National Agricultural Research Systems (NARS) of South Asia to develop ACASA.
Atlas of Climate Adaptation in South Asian Agriculture (ACASA) is different from many projects supported by our team. I would love to dive into the promising features of the ACASA platform and the exciting technical advances being made, but I want to focus here on how the Borlaug Institute for South Asia (BISA) has organized this program for greater and longer-term impact.
BISA is a strong regional partner and is the lead institution for the ACASA program. In fact, we could have simply asked BISA to build the ACASA platform and known they would make a great technical product. However, our goal is not just to have great technical products, but also to improve the lives of small-scale producers. For any great technical product to deliver impact, it must be used.
From day one, the ACASA program has not just kept the users’ needs in mind, indeed they have kept the users themselves engaged on the project. By establishing strong, financially supported partnerships with the National Agricultural Research Systems (NARS) in Bangladesh, India, Nepal, and Sri Lanka, they are achieving four key outcomes, among many others:
Benefit from local expertise regarding national agricultural practices, climate risks, and solutions
Leverage NARS connections to national and subnational decision makers to inform product requirements
Establish national ownership with a partner mandated to support users of the product
Strengthen climate adaptation analytics across South Asia through peer-to-peer learning.
These outcomes lead to more accurate and appropriate products, user trust, and the long-term capacity to maintain and update the ACASA platform. The latter being essential given the constantly improving nature of our understanding of and predictions around climate and agriculture.
If this model of working has such advantages over “if you build it, they will come”, you might wonder why we do not use it in all cases. This approach requires divergence from business-as-usual for most researchers and is not without a cost. The BISA team are not only putting deep emphasis on the technical development of this product, but they are also spending considerable time, effort, and budget to create a program structure where the NARS are catalytic partners. The NARS teams are empowered on the project to contribute to methodologies used beyond their national boundaries, they have the task of making the best data available and validating the outputs, the responsibility of understanding and representing stakeholder requirements, and the ownership of their national platform for long-term use. BISA has developed a structure of accountability, provided funding, facilitated team-wide and theme-specific workshops, and shared decision-making power, which all presents additional work.
In the end, we encouraged this approach because we see too many decision support tools and platforms developed by international researchers who merely consult with users a few times during a project. These efforts may result in building captivating products, meeting all the needs brainstormed by the research team, but their future is sitting in a dusty (and unfortunately crowded) corner of the internet. While this approach seems fast and efficient, the efficiency is zero if there is no value gained from the output. So, we look for other ways to operate and engage with partners, to work within existing systems, and to move beyond theoretically useful products to ones that are used to address needs and can be evolved as those needs change. BISA has been an exemplary partner in building and supporting a strong ACASA team, and we are eager to see how each NARS partner leverages the ACASA product to generate impact for small-scale producers.
Tess Russo is a senior program officer at the Bill & Melinda Gates Foundation, based in Seattle, United States.
Soil is the foundation of agriculture, and healthy soil is critical to the entire ecosystem. However, soil health is under threat today as many factors make soil unhealthy, leading to significant losses in farming. CIMMYT in India has been addressing these issues in partnership with national and international institutions, while CIMMYT’s SBP program in Türkiye aims to deliver high-yielding wheat germplasm that is resistant to SBP and supports the International Soil-Borne Pathogens Research & Development Center (ISBPRDC) of Türkiye. It also facilitates knowledge exchange and technology transfer to support joint research and development activities to improve soil health.
Participants later visited winter wheat trial sites at the research station in Haymana, a district of Ankara province. The group then interacted with Mesut Keser, ICARDA’s wheat breeder who specializes in winter and facultative wheat while working on the International Winter Wheat Improvement Program (IWWIP). This was followed by a visit to the pathology field experiments, a breeder seed production area, and an experimental trial for evaluating Syngenta TYMIRIUM® technology at the research station.
Beyhan Akin, wheat breeder at CIMMYT, gave a presentation on CIMMYT’s breeding activities in Türkiye, and Oğuz Önder presented fertilizer application on the quality of Bread Wheat and the importance of foliar fertilization in crops.
