In conflict-ridden Sudan, Gadarif State in Eastern Sudan is the most important region for sorghum production, with about 5-6 million feddan (5.18-6.22 acres) cultivated on an annual basis on large scale farms equipped with agricultural machinery. However, like the country, the state is covered with vertisols, clay-rich soils that shrink and swell with changes in moisture content, that become waterlogged and cannot be properly cultivated during rainy season.
To address the issue, technical experts from the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT) are mapping areas affected by waterlogging in two localities, namely El Fashaga and El Nahal, to identify the most suitable lands to establish large drainage implementing sites integrated with improved crop varieties of sorghum. This work is part of CIMMYT’s Sustainable Agrifood Systems Approach for Sudan (SASAS) program, which works with farmers and herders to reduce their need for humanitarian assistance in conflict-affected Sudan.
“To address the issue of vertisols affected by water logging in Al Gadarif, the prominent agricultural region in Sudan, we used the map developed by ICRISAT in 2023 and consulted with local farmers to identify 100 hectares El Fashaga and El Nahal localities to improve drainage and avoid waterlogging,” said Gizaw Desta, senior scientist at ICRISAT.
Waterlogging is common on poorly drained soil or when heavy soil is compacted, preventing water from being drained away. This leaves no air spaces in the saturated soil, and plant roots literally drown. Waterlogging can be a major constraint to plant growth and production and, under certain conditions, will cause plant death. In Gadarif state, 2.3 million hectares and 1.8 million hectares of vertisols are under high and moderate waterlogging conditions that impair crop production during the rainy season, leading to food insecurity if not reversed with appropriate agricultural practices.
Experts evaluate the compacted soil. (Photo: CIMMYT)
“For years, my farm has been flooded by water during the rainy season, and I cannot cultivate sorghum as plants die of water suffocation”, said Ali Ahmed, a farmer from Al-Saeeda area of Al-Nahal locality who is affected by waterlogging. “Alternatively, we as farmers affected by waterlogging were forced to cultivate watermelon instead of our main staple food sorghum. This shift in the crops we cultivate is hardly affecting our income. I am glad that ICRISAT is working to establish drainage systems and address waterlogging within our lands.”
“At SASAS, we strive to ensure that farmers have access to fertile lands and other agricultural inputs. We work with our partners to address all problems facing farmers including waterlogging to help farmers continue producing their staple food and cash crops,” said Abdelrahman Kheir, SASAS chief of party in Sudan.
While agricultural food systems feed the world, they also account for nearly a third of the world’s greenhouse gas (GHG) emissions. Reducing the negative environmental footprint of agrifood systems while at the same time maintaining or increasing yields is one of the most important endeavors in the world’s efforts to combat climate change.
One promising mechanism is carbon credits, a set of sustainable agricultural practices designed to enhance the soil’s ability to capture carbon and decrease the amount of GHG’s released into the atmosphere.
Farmers generate these carbon credits based on their reduction of carbon released and then sell these credits in the voluntary carbon market, addressing the critical concern of sustainably transforming agricultural systems without harming farmers’ livelihoods.
Two is better than one
Conservation Agriculture (CA) is a system that involves minimum soil disturbance, crop residue retention, and crop diversification, among other agricultural practices. Its potential to mitigate threats from climate change while increasing yields has made it increasingly popular.
Using remote sensing data and surveys with farmers in the Indian states of Bihar and Punjab, four CIMMYT researchers quantified the effect on farmer’s incomes by combining CA methods with carbon credits. Their findings were published in the April 22, 2024, issue of Scientific Reports.
Previous CIMMYT research has shown that implementing three CA practices: efficient fertilizer use, zero-tillage, and improved rice-water management could achieve more than 50% of India’s potential GHG reductions, amounting to 85.5 million tons of CO2.
“Successfully implemented carbon credit projects could reward farmers when they adopt and continue CA practices,” said Adeeth Cariappa, lead author and environmental and resource economist at CIMMYT. “This creates a win–win scenario for all stakeholders, including farmers, carbon credit businesses, corporate customers, the government, and the entire economy.”
Farmers would enjoy an additional income source, private sectors would engage in employment-generating activities, the government would realize cost savings, and economic growth would be stimulated through the demand generated by these activities.
Less carbon and more income
The researchers found by adopting CA practices in wheat production season, farmers can reduce GHG emissions by 1.23 and 1.97 tons of CO2 per hectare of land in Bihar and Punjab States, respectively.
The researchers determined that CA practices, when combined with carbon credits, could boost farmer income by US $18 per hectare in Bihar and US $30 per hectare in Punjab. In Punjab, however, there is a ban on burning agricultural residue, which reduces potential earnings from carbon markets to US $16 per hectare.
“More farmers engaging CA methods is an overall positive for the environment,” said Cariappa. “But convincing individual farmers can be a struggle. By showing them that carbon credits are another potential source of income, along with increased yields, the case for CA is that much stronger.”
While the potential benefits are significant, there are challenges to linking CA and carbon credits.
“To achieve these potential benefits, carbon credit prices must rise, and projects must be carefully planned, designed, monitored, and implemented,” said Cariappa. “This includes selecting the right interventions and project areas, engaging with farmers effectively, and ensuring robust monitoring and implementation mechanisms.”
Local farmers have conversations with the CGIAR Initiative on Agroecology partners in Zimbabwe during the co-designing process. (Photo: CIMMYT)
In the rural districts of Mbire and Murehwa in Zimbabwe, the CGIAR Agroecology Initiative (AE-I) has embarked on a comprehensive strategy that places farmers’ opinions at the heart of interventions to tackle the multifaceted challenges of agroecosystems. Recognizing challenges such as pest and disease outbreaks, periodic drought, inadequate grazing lands, and limited access to quality seeds and livestock breeds, the AE-I team has initiated a collaborative process involving various stakeholders to develop tailored agroecological solutions.
This integrated approach emphasizes active participation and cooperation among agricultural extension services, including the Department of Agricultural Technical and Extension Services of Zimbabwe (AGRITEX), food system actors (FSAs), and technology providers. These organizations have collaborated to form Agroecology Living Landscapes (ALLs) to identify, test, and iterate relevant innovations.
“This collaborative innovation and ongoing co-designing cycle empower local communities and fosters agricultural sustainability, positioning Zimbabwe as a model for agroecology transition,” said Vimbayi Chimonyo, CIMMYT scientist and crop modeler. “With these efforts, the AE-I is improving current agricultural practices but also building a foundation for future resilience in Zimbabwe’s rural districts.”
A representation diagram of the co-designing cycle.
To ensure a well-informed process, the AE-I research team began its efforts by identifying dominant value chains in the two districts. In Murehwa, these included horticulture, maize, groundnuts, and poultry; while in Mbire, sorghum, cotton, and livestock. Challenges noted included production constraints (availability of improved seed and labor), biophysical constraints (water availability, increased incidents of fall armyworm), economic (market access) and social (agency).
Next, the AE-I research team, and the ALLs conducted a series of surveys, focus group discussions, and key informant interviews to understand existing opportunities that might address the challenges and aid in strengthening the value chains. The AE-I team discovered opportunities related to addressing labor shortages and improving access to improved technologies.
As a result, the research team introduced appropriate scale machinery, suggested seed and livestock fairs to increase access to agroecological inputs, established a series of demonstration plots to showcase technologies that improve water use, and increased mitigation efforts for fall armyworm. After introducing machinery, seed and livestock fairs, and testing the technologies during the 2022/23 season, AE-I returned to ALL members to discuss the impact the activities had on their production systems and determine if any modifications were necessary.
Participants suggested increased visibility of the new technologies and methods, so the AE-I team enhanced demonstration plots and added 100 baby plots during the 2023-24 farming season.
Integrating adaptive testing and feedback yielded valuable information from farmers, providing a strong base for further adaptations in the 2023-24 farming season. This continuous engagement promoted adaptive and context-specific solutions within the AE-I, ensuring that interventions aligned with evolving community needs.
Technologies being tested
To achieve the visions of each ALL, context-specific technologies are being tested to ensure synergy across the identified value chains and collaboration among different food system actors.
Technology/Innovation
Description
Demo plots
2022-23: Twenty mother plots were established to compare the performance of cereal planted in, push-pull, and conventional practices on productivity, rainwater use efficiency, and pest biocontrol.
2023-24: Additional treatments, including biochar, live mulch, and traditional treatments, were introduced. One hundred eleven baby plots were established where farmers adapted mother protocols to suit their contexts.
Farmer Field Days
Conducted for the established demonstration plots in Mbire and Murehwa, these field days showcased the technologies to a broader audience and acted as an agent of evaluation and feedback for the AE-I team.
Mechanization
A service provider model was adopted to introduce appropriate scale machinery, addressing the drudgery associated with farming operations. Equipment provided included threshers, basin diggers, two-wheel tractors, rippers, mowers, chopper grinders, and balers. Training on operation, repair, and maintenance was also provided.
Capacity building
Yearly work plans, co-designed by ALLs, identification of training needs, gaps, and priorities. Facilitated by AGRITEX, these trainings equip farmers with knowledge essential to facilitate agroecology transition and fulfil ALL visions.
Monitoring and evaluation is a valuable component in the co-designing process where the AE-I establishes a feedback loop, engaging farmers and government stakeholders in participatory monitoring and evaluation. This ongoing exercise analyzes various indicators across different experimental treatments, providing valuable insights into the effectiveness and suitability of these approaches within the agricultural context. This continuous analysis leads to further co-designing of tailored solutions for facilitating the agroecology transition.
Farmers and stakeholders from AGRITEX welcomed and appreciated the co-designing process, as they felt empowered by the entire process. They expressed how it gives them ownership of the technologies being implemented through the AE-I project.
The success of the AE-I in the Mbire and Murehwa districts hinges on active participation and collaboration among FSAs. By continuously evaluating and integrating feedback on innovations and addressing challenges through context-specific interventions, the initiative is paving the way for adopting agroecological practices in farming, enhancing the resilience of local food systems.
This original piece was written by Craig E. Murazhi, Telma Sibanda, Dorcas Matangi, and Vimbayi G. P. Chimonyo.
CIMMYT proudly announces that Distinguished Scientist and Head of Wheat Physiology, Matthew Reynolds, has been honored with the prestigious 2024 International Crop Science Award by the Crop Science Society of America (CSSA). Reynolds has advanced CIMMYT’s mission by promoting global partnerships that strengthen plant science, expand the center’s international reach, and provide young scientists with opportunities to engage in agricultural research.
Revolutionizing wheat breeding for climate resilience
Reynolds develops wheat breeding technologies aimed at improving climate resilience and the productivity of wheat cropping systems. His research has unveiled the physiological bases of yield potential and abiotic stress resistance in wheat. Reynolds’s efforts reveal the genetic underpinnings of complex traits, facilitating the development of hardier wheat varieties from diverse gene pools.
Global collaboration and impact
Reynolds promotes international collaboration among wheat scientists. He leads key initiatives such as the International Wheat Yield Partnership (IWYP) and the Heat and Drought Wheat Improvement Consortium (HEDWIC). These collaborations leverage collective expertise and have resulted in significant outputs, including high-yield lines tested at approximately 200 sites globally, which confirm innovative routes to enhanced yields and climate resilience.
Mentorship and educational contributions
Reynolds’s laboratory at CIMMYT is a hub for mentoring young scientists. He has provided open-access manuals on phenotyping, translated into four languages, to support global research efforts. His extensive publication record covers crop physiology, genomics, and pre-breeding. Since 2018, Reynolds has consistently ranked in the top 1% of researchers in his field by Web of Science. In 2024, Matthew Reynolds also received the Research.com Plant Science and Agronomy in Mexico Leader Award for placing 53rd in the world and 1st in Mexico.
International Crop Science Award
The International Crop Science Award recognizes creativity and innovation in transforming crop science practices, products, and programs on an international level. The award acknowledges scientists who have achieved global impact through long-lasting knowledge generation that strengthens international crop science.
For more information on the 2024 awards, including award descriptions, please visit CSSA Awards or contact awards@sciencesocieties.org.
Florence Mutize’s thriving fields of maize, in Bindura, a small town in Mashonaland Central region of Zimbabwe, serve as living proof of the successes of Conservation Agriculture (CA), a sustainable cropping system that helps reverse soil degradation, augment soil health, increase crop yields, and reduce labor requirements while helping farmers adapt to climate change. The seeds of her hard work are paying off, empowering her family through education and ensuring that a nutritious meal is always within reach.
“I have been dedicated to these CA trials since 2004, starting on a small plot,” said Mutize. “Now, with years of experience and adaptation to changing climates, I’ve seen my yields increase significantly, harvesting up to a tonne of maize on a 30 by 30m plot using direct seeding and ripping techniques together with crop residue to cover the soil and rotating maize with soybean.”
Mutize is one of many mother trial host farmers implementing CA principles through the CGIAR Ukama Ustawi regional initiative in Bindura. A mother trial is a research approach involving testing and validating a suite of climate-smart agriculture technologies to identify the best-performing ones which can then be adopted on a larger scale.
Nestled in the Mazowe valley, Bindura experiences a subtropical climate characterized by hot, dry summers and mild, wet winters, ideal for agricultural production. But the extremes of the changing climate, like imminent dry spells and El Niño-induced threats, are endangering local farmers. Yet, smallholder farmers like Mutize have weathered the extremes and continued conducting mother trials, supported by the agriculture extension officers of the Agricultural and Rural Development Advisory Services (ARDAS) Department of the Ministry of Lands, Agriculture, Fisheries, Water and Rural Development.
“Where I once harvested only five bags of maize, rotating maize with soybeans now yields 40 bags of maize and 10 bags of soybeans,” Mutize proudly shares.
The UU-supported CA program also extends to farmers in Shamva, like Elphas Chinyanga, another mother trial implementer since 2004.
Elphas Chinyanga and his son inspect maize cobs in their field. (Photo: CIMMYT)
“From experimenting with various fertilization methods to introducing mechanized options like ripping and direct seeding, these trials have continuously evolved,” said Chinyanga. “Learning from past experiences, we have gotten much more benefits and we have incorporated these practices into other fields beyond the trial area. I am leaving this legacy to my children to follow through and reap the rewards.”
Learning has been a crucial element in the dissemination of CA technologies, with CIMMYT implementing refresher training together with ARDAS officers to ensure that farmers continue to learn CA principles. As learning is a progressive cycle, it is important to package knowledge in a way that fits into current training and capacity development processes.
Pre-season refresher training with mother trial host farmers and extension in Hereford, Zimbabwe. (Photo: CIMMYT)
This process could also be labelled as “scaling deep” as it encourages farmers to move away from conventional agriculture technologies. Reciprocally, scientists have been learning from the experiences of farmers on the ground to understand what works and what needs improvement.
Inspired by the successes of his peers in Shamva, Hendrixious Zvomarima joined the program as a host farmer and saw a significant increase in yields and efficiency on his land.
“For three years, I have devoted time to learn and practice what other farmers like Elphas Chinyanga were practicing. It has been 14 years since joining, and this has been the best decision I have made as it has improved my yields while boosting my family’s food basket,” said Zvomarima.
The longevity and success of the initiative can be attributed to committed farmers like Mutize, Chinyanga, and Zvomarima, who have been part of the program since 2004 and are still executing the trials. Farmer commitment, progressive learning, and cultivating team spirit have been the success factors in implementing these trials. CIMMYT’s long-term advocacy and learning from the farmers has been key to a more sustainable, resilient, and empowered farming community.
While maize is the primary staple food crop in Zambia, its productivity on farmers’ fields reaches on average only about 20 percent of what it could achieve with good agronomic practices. Some reasons for this inefficiency are use of traditional varieties, low fertilizer use, and ineffective weed and pest control.
Closing the gap between potential and realized yields would have major benefits for farmers in Zambia, both in terms of income and food security at the household and national levels. One possibility to increase maize productivity is by increasing crop diversity through the inclusion of legumes in maize-based farming systems. This could be done through intercropping, growing legumes in the rows between maize plants, or crop rotations and alternating maize and legumes in the same field from season to season.
CIMMYT scientists, along with collaborators from the Zambia Agriculture Research Institute (ZARI) and the University of Zambia’s School of Agricultural Science, set out to determine which cropping systems might lead to increased productivity for maize farmers in Zambia and their results were published in the journal Field Crops Research.
“There is great potential in Zambia to increase yields to help ensure food security,” said Mulundu Mwila, PhD candidate and scientist at ZARI. “We wanted to determine the cropping systems that offered the most benefits.”
Setting up the study
For this research, ZARI and CIMMYT scientists established maize-based cropping systems trials, comprising maize monocropping, and maize-legume rotations and intercrops under both ‘conventional’ tillage, and Conservation Agriculture, across 40 farms in a variety of agroecological zones in Zambia. The team also conducted household surveys in the same communities hosting the on-farm trials to determine the share of households with enough cultivated land to benefit from the tested cropping systems.
Researchers found that the tested cropping systems produced more maize per hectare compared to non-trial host farms in the same region. The greatest positive effect uncovered was that maize-legume rotations in Zambia’s Eastern Province had the potential to increase maize yield by 1 to 2 tons per hectare, per growing season. “The Eastern Province trials showed better results because of stable and adequate rainfall amounts and distribution and because of using groundnut as a rotation crop,” said Mwila.
Researchers attributed the small effect of legumes on maize yield in the Southern Province to low levels of biomass production and nitrogen fixation, due to low and erratic rainfall, and to low residue incorporation because of livestock grazing. Conversely, the small effect of legumes on maize yield in the Northern Province might be attributed to the high rainfall amount in the region, leading to high rates of leaching of residual nitrogen during the growing season as well as the use of common beans as the preceding crop.
Finding the right amount of land
With evidence showing the potential benefits of maize-legume rotations, the availability of land is a constraint for small farms across sub-Saharan Africa, thus it is important to quantify the land area needed for farmers to implement maize-legume rotations.
“Our findings match prior research showing the benefits of maize-legume rotations in Eastern Zambia” said Silva. “However, implementing maize-legume rotations remains a challenge for many smallholders due to small farm sizes.”
Nearly 35, 50, and 70% of the surveyed farms in the Northern, Eastern, and Southern Provinces, respectively, had enough land to achieve the same level of maize production obtained on their farm with the yields of the maize-legume rotations tested in the on-farm trials. “With our findings showing increased maize yields, and our efforts to determine the amount of land needed for food and nutrition security at household level, the next steps can be to facilitate methods to disseminate this information to policy makers and to farmers that have enough land area to benefit from diversified cropping systems,” said Silva.
For farmers with not enough land to reap the benefits of maize-legume rotations, intercropping legumes within the maize has shown promising results. The researchers also call for further research to specify the contributing factors to small farms not seeing benefits from maize-legume rotations.
Scientists from the Research Institute of Plant Genetic Resources in Uzbekistan (RIPGR) attended training on gene bank management and genetic resources, coordinated by CIMMYT-Türkiye on 13-20 April 2024. Hosted at the Turkish Department of Agricultural Economics and Project Management (TAGEM), the training is supported by the World Bank Group, which is helping Uzbekistan to modernize the country’s agriculture. With one of the highest levels of wheat consumption in Central Asia, the modernization project aims to increase Uzbekistan’s wheat yield and meet demand for the crop.
The course included lectures on status and activity of the Turkish Seed Germplasm Bank (TSGB), policy instruments and international perspectives on plant genetic resources, herbarium techniques, biotechnology studies, and genetic resources. Uzbek scientists also became acquainted with scientific laboratories, visiting the field station in İkizce Gölbaşı and learned about the breeding, pathology, and agronomy activities at the station as well as the collaboration activities between CGIAR Research Centers and TAGEM.
Country-wide expertise
In addition to sessions at CIMMYT’s office in Türkiye, participants also visited the National Gene Bank in Ankara and the National Gene Bank of Izmir.
At the latter location, experts delivered sessions on a range of topics, such as the Plant Diversity and Genetic Resources Program of Türkiye; in vitro and cryopreservation techniques; the conservation, data recording, and documentation of plant genetic resources; conservation and utilization of vegetable genetic resources; conservation studies on mushroom genetic resources; studies on wheat genetic resources and wheat breeding at the international winter wheat breeding program; regional collaboration to combat wheat rust disease in Central and West Asia and North Africa (CWANA); and international winter wheat breeding strategies.
In addition to the seminar sessions, the participants also visited several locations to familiarize themselves with scientific processes in field and laboratory conditions. They visited the field gene banks, guided by Fatih Çağir, who provided brief information about the fruit genetic resources activities of Türkiye. They also visited the plant collection activities and herbarium techniques laboratory, the National Gene Bank, Herbarium, Fungarium & Seed Physiology Laboratory of the Plant Genetics Resources Department & Plant Tissue Center, and the Regional Cereal Rust Research Center.
The importance of the training course for Uzbek scientists is to study the system of rational use, conservation, and management of plant genetic resources of Türkiye and to introduce new innovative knowledge in Uzbekistan. It also consists of discussing aspects related to bilateral cooperation and sustainable development in the field of plant genetic resources as well gene bank management.
The delegation from Uzbekistan, on behalf of the Ministry of Agriculture of the Republic of Uzbekistan, and the director of the Research Institute of Plant Genetic Resources, Zafarjon Mashrapovich Ziyaev, expressed their deep gratitude to the organizers and departments for this training course.
Walking methodologies for CIMMYT’s South Pacific hub (Photo: CIMMYT)
“We know about what CIMMYT has done with the hubs here in Mexico, so we’re trying to understand how this methodology works, what happens within the research platforms, in the parcels, the relationship between these two spaces, the technological menus, and how that menu is reaching up to farmers,” says Emmanuel Ekom, from the Ernest and Young team (organization which in the framework of Excellence in Agronomy, a CGIAR initiative) studies how innovation is rising in agriculture.
“We understand that CIMMYT in Mexico has been able to create an innovation approach that prioritizes the farmer. I came from Nigeria with my team, and we are delving ourselves into this approach to comprehend its functioning and see if we can replicate these brilliant ideas in several other countries of the Global South. So, we have visited many interesting hubs in all Mexico,” says Emmanuel.
“One of the most interesting things we were able to experience in one of the hubs was that the mayor from a small town was trained by CIMMYT staff. He understood what the agriculture conservation involves and had contributed to share this knowledge to his people”, mentions Emmanuel who also highlights the participation and inclusion from both private, public, and teaching institutions in the operation of the hubs.
“You could see their faces fill with excitement, especially farmer women when they were talking about how much time they could have saved if they had used the technology developed by CIMMYT and its collaborators. Such methodology is not only making life easier, but it’s also driving farmer women to increase their incomes and helping them save time so that they concentrate on other things. Just the same, I was able to see how the gender-based approach is coping with CIMMYT’s goal and that’s impressive”, says Emmanuel.
“I saw first-hand how the hubs’ function had made an impact on farmers lives, but the most interesting part was seeing both hubs’ managers and farmers get along very well. Every time we went to a parcel, our plan was to only visit one farmer but sometimes we ended up visiting 10 or 15, and the manager would go and chat with them. And I think that’s amazing”, says Emmanuel, for whom the experience of the hubs in Mexico will allow him to draw up the path to replicate this methodology in other latitudes.
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.
Group photo of the panelists at the AFSH Summit in Nairobi (Photo: Marion Aluoch)
Improving soil health is critical to sustainable agriculture, and for addressing climate change, tackling environmental challenges, and enhancing food security. Through projects by CIMMYT and partners, potential scalable solutions are under development, but additional work is still required.
“To effectively scale up soil health initiatives, we need to prioritize investments and establish a framework that maximizes returns,” said Bram Govaerts, CIMMYT director general, during the 2024 Africa Fertilizer and Soil Health (AFSH) Summit in Nairobi, Kenya. “It is crucial to use simple, quantifiable indicators for systematic assessments and decision-making, and to broaden these indicators to foster investment from public, private, and civil actors.”
As a keynote speaker in the “Strategies to Foster Africa’s Resilience to the Global Fertilizer Crisis” parallel session, Govaerts highlighted the intertwined challenges of soil health and fertilizer accessibility. “95% of our food comes from the soil, yet in 14 countries the cost of fertilizer has more than doubled. Fertilizers contribute to 2% of global greenhouse gas emissions and are often mismanaged—overused in some regions and underutilized in others.”
The transition to a more sustainable and climate-resilient approach to soil health and fertilizer use requires a comprehensive structure that considers broader aspects of agricultural sustainability. “To enhance soil health effectively, a clear framework is necessary that includes investment prioritization, integrated soil management, extension and advisory services, and the utilization of data and technology,” Govaerts added.
This recommended framework included identifying and prioritizing investment opportunities, balancing organic and inorganic inputs, strengthening extension systems, and leveraging technology to provide farmers real-time advice.
One practical example of effective soil health management in practice is CIMMYT’s Southern Africa Accelerated Innovation Delivery Initiative (AID-I) Rapid Delivery Hub. The project helps farmers cope with high fuel and fertilizer prices by providing them with innovative tools and information to manage cost and supply disruptions. This addresses systemic weaknesses in agriculture by accelerating market-based delivery of improved seed, fertilizer, and critical information to farmers.
“Under AID-I, rapid soil testing has been prioritized. Collaborating with the International Fertilizer Development Center (IFDC) and mobile soil labs like those in Zambia exemplify innovative data point collection strategies,” said Govaerts.
During the panel discussion, Anne Muriuki, principal research officer at the Kenya Agricultural and Livestock Research Organization (KALRO) highlighted the key challenges that African countries face in accessing fertilizers during global crises and the impact on agricultural productivity. “Farmers face scarcity and high costs, leading to reduced yields and increased reliance on unsustainable fertilizers. These issues not only reduce agricultural productivity, but they also aggravate food insecurity and economic instability.”
David Nielsen, a former World Bank official, stressed the importance of having site-specific soil information and investing in human capital and educational institutions to increase soil science expertise and improve the availability of site-specific information. “These two issues should be high priorities. They are crucial, especially when fertilizer access is limited, but they remain vital even with adequate fertilizer supply.”
Douglas Kerr, vice president of business development at the IFDC discussed how governments, international non-governmental organizations (NGOs), and the private sector can collaborate to ensure continuous access to fertilizer during a global crisis. The Sustain African Program was an example of IFDC’s role in gathering market information and developing a concept that has since been integrated into ongoing operations. “In a nutshell, multi-stakeholder collaboration needs to be open, transparent, supportive, and unified.”
Charlotte Hebebrand, director of communications and public affairs at the International Food Policy Research Institute (IFPRI), emphasized the need to increase fertilizer production within Africa, improve access to markets, and address response constraints to reduce shocks. “A major focus is on repurposing subsidies. It is sensitive but critical to determine the most efficient way to support farmers and promote soil health.”
Mehti Filali, senior vice president of OCP in West Africa, highlighted successful case studies from Ethiopia and Nigeria, where domestic initiatives and regional cooperation have resulted in significant agricultural growth. “Ethiopia has doubled crop production and created tailored fertilizer formulas, while Nigeria’s initiative has consolidated fertilizer procurement, created jobs, and saved US $250 million in foreign exchange. OCP’s contribution, though modest, has been critical, marked by significant milestones such as soil testing and the development of blending units.”
As Africa continues to face these challenges, the response must be dynamic, drawing on both local knowledge and scientific data. Robust data governance is essential for integrating soil health into market-driven decision-making, promoting crop diversification, and integrating organic and inorganic inputs for sustainable agriculture. “Let us remember the importance of integrating soil fertility management in a step-by-step manner, prioritizing action tailored to specific locations and conditions. Sophisticated extension systems, backed up by robust data, are crucial,” Govaerts concluded.
A farmer in Nariño, Colombia on a diversified chagra with native maize, potato, oca, squash, fava bean, and other perennial and wild crop harvests. (Photo: González, Alpala, Pinzón, Rodríguez, Bolaños, Romero, González)
In the mountains of Nariño and the Cauca Valley, Colombia—as in many other rural regions of Latin America—farming systems are usually family-operated and divided by gender. Women’s and men’s roles are separate and differ in terms of expertise, involvement, and decision-making.
Roles traditionally assigned to women often limit their capacity to bring about changes in agriculture. “Food preparation, house cleaning, family care, and especially childcare, limit their ability to participate in agricultural training”, says a team of CIMMYT specialists who recently carried out a series of participatory diagnostics in these regions of Colombia.
Participatory diagnostics are designed to document and understand farmers’ perspectives on native maize conservation and the desertion of rural regions in order to jointly develop conservation strategies for these regions. However, CIMMYT specialists noted that women farmers struggle to participate and learn when they are burdened with childcare.
Group of women farmers discuss men’s and women’s roles in native maize conservation in Córdoba, Nariño, Colombia. (Photo: González, Alpala, Pinzón, Rodríguez, Bolaños, Romero, González)
“Even when women try hard to attend events, they cannot fully take in the new information because they are busy tending to their children.” In response, the event organizers came up with a novel solution: providing childcare during workshops. “So, mothers can focus on what they are doing during workshops, children partake in organized games and exploratory and artistic activities in a safe space where their mothers can see them.”
During a recent diagnostic “several activities were planned, like board games—CIMMYT developed memory and bingo games, as well as snake and ladder board games on principle maize practices and pests—and some art projects allowing the children to talk about how they interact with the land and what it means to them. At the end, they displayed their work about what they learn with their mothers and family in the tulpa (fire pit) or chagra,” the specialists explain.
“These types of activities are important and enriching for the children because they replace day-to-day cellphone play with recreational games about agriculture. So, it seems that we should make sure that the local children know about these types of events,” expressed the attendees. They also reflected on how this type of inclusion helps strategies addressing generational replacement, particularly in places like Nariño, where the number of young people in the fields is notably decreasing.
With this in mind, including young people in program development and design is key to “ensuring a future rural population, given that they introduce the community to new, fresher ideas and visions,” says Don José, a farmer from Córdoba, Nariño, making note of how the Herederos del Planeta Los Tucanes represents a victory. It is a space where girls, boys, and young people can use their voices to influence issues related to natural reserves, their education, and the preservation of native seeds.
This is how the children—who originally could only hope to be expected to sit silently or play on their phones— became an important part of the participatory processes in Nariño. And now, with this support, women from rural communities, don’t just have the opportunity to expand their knowledge. They can also make positive contributions to household decisions and phytogenetic resource conservation.
Girls make a presentation about their territory to their mothers and fathers, based on the activities during the workshops in Nariño, Colombia. (Photo: González, Alpala, Pinzón, Rodríguez, Bolaños, Romero, González)
“Yes ma’am, the children’s space was the best because that way we were able to focus on the topics,” reported a woman in Cumbal. This is an example of how an agricultural extension strategy requires us to identify the preferences, interests, and incentives of men and women in relation to their gender roles in order to create environments that facilitate the development of sustainable agricultural technologies and practices. We must understand that the work women farmers perform both in the fields and within the household are inextricable from each other.
These types of strategies are crucial for combatting the environmental and food crisis because small-scale farmers implement sustainable agrifood systems and promote agrobiodiversity conservation. We find the resources essential for agrifood security in their milpas, orchards, backyards, and chagras—in Mexico and Colombia—where they handle, use, and preserve native crops and determine the selection of improved climate-resilient varieties.
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
With 96% of its population engaged in farming and crop production, residents of the province of Niassa in the northern part of Mozambique rely heavily on agriculture for both their own nutritional needs and household income.
Famers in Niassa face many challenges in achieving successful agricultural development, including a 60% yield gap between male head of household farms and female led farms and while improved crop varieties are available, their rate of adoption is uneven across the province.
Implemented by CIMMYT in partnership with key collaborators and supported by Irish Aid, the Transformative Dryland Crops Project aims to enhance food security and boost incomes for more than 14,000 farm families in Niassa.
Delegation from CIMMYT and the Embassy of Ireland led by Moses Siambi, Africa’s regional director, and Adrian Fitzgerald, chief of cooperation at the Embassy of Ireland, during discussions at the launch of the Transformative Dryland Crops Project in Mozambique. (Photo: Mozambique)
Speaking at the launch meeting, Niassa’s Secretary of State, Lina Maria da Silva Portugal said, “This project focuses on leveraging technology and innovative approaches to bolster resilience and sustainability which will benefit all of Niassa.”
The Transformative Dryland Crops Project will focus on crops known for their drought tolerance, such as pigeon peas, groundnuts, common beans, and soybeans. By adopting a ‘hub-model’ approach, the project will enhance learning and technology dissemination, facilitating collaboration among farmers, farmer organizations, service providers, buyers, and processors. This collaborative effort will ensure the effective implementation of the project and maximize its impact on the ground.
“Through collaborative efforts with local stakeholders, we aim to narrow the gender yield gap, increase adoption rates of improved crop varieties, and enhance overall agricultural productivity, said Irish AID Ambassador, Adrian Fitzgerald.
Governor of Lichinga, Judite Massengele, Niassa’s capitol, said, “The launch of this project marks a significant milestone in the journey towards enhancing food security and improving livelihoods here in Niassa.”
Governor of Niassa, Judite Massengele, hosts a meeting in her office during the launch of the transformative dryland crops project in Mozambique. (Photo: Mozambique)
Transformative changes
Besides increased agricultural productivity, enhanced food security, and income generation, the Transformative Dryland Crops Project promotes gender equity, increases resilience to climate shocks, implements sustainable resource management, builds capacity among farmers and extension agents and facilitates inclusive market systems.
“The Transformative Dryland Crops Project will impact many different parts of the agricultural system of Niassa,” said Moses Siambi, CIMMYT Africa regional director. “The key part of our implementation plan is the knowledge that all these systems and stakeholders are interconnected and any intervention in one of part of the system must account for its effects on the entire system in order to be sustainable.”
As the world grapples with climate change, resilient crops such as millets play an increasingly important role. Their ability to thrive in low soil fertility and limited moisture levels makes them ideal for Africa’s changing climate. However, despite their potential, it remains largely untapped.
In an initiative to address the untapped potential and the growing challenges associated with the cultivation of pearl and finger millets in Africa, a high-profile discussion convened experts from various fields. This session, part of a workshop titled “Bottlenecks to Expansion of Pearl and Finger Millets in Africa,” organized by the Bill & Melinda Gates Foundation in collaboration with the Senegalese Institute of Agricultural Research (ISRA) and CIMMYT, aimed to identify and prioritize key bottlenecks in crop improvement.
A panel of experts from different organizations discuss the importance of national and international initiatives in promoting crop improvement and millet innovations, emphasizing collaboration as a key driver of agricultural progress. (Photo: Marion Aluoch/CIMMYT)
Significance of the International Year of Millets
The United Nations General Assembly declared 2023 the International Year of Millets to raise awareness of and direct policy attention to the nutritional and health benefits of millets and their suitability for cultivation under adverse and changing climatic conditions. The program highlighted the critical need to promote sustainable agriculture and enhance food security by adopting climate-resilient crops like millets, which play an important role in mitigating the effect of climate change, due to their adaptability to adverse and changing climatic conditions.
“We have been actively engaged in gathering input and support from all over the world, not just from Africa and Asia but also from regions like Latin America and Eastern Europe,” said Makiko Taguchi of the Food and Agriculture Organization (FAO). “This year has seen a surge in interest and collaboration in the millet community and we are excited about the possibilities that lie ahead,” she added.
Makiko Taguchi of the Food and Agriculture Organization (FAO) emphasizes the significance of the 2023 International Year of Millets. Kevin Pixley, director of CIMMYT’s Dryland Crops Program, attentively listens. (Photo: Marion Aluoch/CIMMYT)
National strategies to enhance millet production
In an effort to ensure food security and achieve production goals over the next five years in Senegal, a strategic plan encompassing various key initiatives will be implemented to meet the demands of millets.
Hamidou Diallo, from the Ministry of Agriculture, Rural Equipment, and Food Sovereignty of Senegal (MAERSA), summarized the strategy. First, is a focus on enhancing production and productivity. Second, the plan calls for the use of high-quality seeds and collaboration with ISRA to provide foundational seeds. Third, aiming to equip producers with the necessary tools and equipment. Last, the plan seeks to increase the overall cultivated area of millets.
“We align ourselves with the needs of the local community. By doing this, it ensures that the initiatives undertaken are not only impactful but also resonate with the agricultural landscape and the needs of the communities served,” said Diallo.
Hamidou Diallo from Senegal’s Ministry of Agriculture, Rural Equipment, and Food Sovereignty (MAERSA) highlights the government’s strategic plan for meeting the country’s millet demand. (Photo: Marion Aluoch/CIMMYT)
Innovative initiatives for the Dryland Crops Program
Kevin Pixley, director of the Dryland Crops Program (DCP) and Wheat Program director a.i. at CIMMYT, highlighted four initiatives in which the program is involved. One is the establishment of the Africa Dryland Crops Improvement Network, comprising national program scientists and led by the steering committee from Eastern and Southern Africa (ESA) and Western and Central Africa (WCA). Their mandate is examining investments in capacity development and infrastructure and shape breeding programs. Second, a legumes mining project at Colorado State University, focusing on genetic diversity and using big data tools to identify resilient traits. Third, working on gene editing projects such as reducing rancidity in pearl millets in countries that are open to these technologies. Last, the Vision for Adapted Crops and Soils (VACS) project, that will include millets as a prioritized crop. These initiatives are crucial for creating pathways to improve farmers’ livelihoods and popularize millets.
“Creating an effective pathway is critical to these approaches. We need to find innovative ways to reach more farmers with options to improve their livelihood and popularize millets across different market segments,” said Pixley.
Kevin Pixley, director of the Dryland Crops Program at CIMMYT, discusses CIMMYT’s current initiatives as Hamidou Diallo (MAERSA, Senegal) and Makiko Taguchi (FAO) listen. (Photo: Marion Aluoch/CIMMYT)
CIMMYT’s program on Dryland Crops is at the forefront to improving breeding and seed systems, with the aim to improve the livelihoods of small-scale producers and consumers of these crops in sub-Saharan Africa.
Aware of the changing needs of the global community, CIMMYT has begun on a journey to advance research and broaden its impact by implementing the Dryland Crops Program. This approach is based CIMMYT’s 2030 Strategy, which has the potential to shape the future of agriculture as a catalyst of climate resilience, sustainable and inclusive agricultural development, and food and nutrition security.
The program is critical in promoting climate resilience, sustainable agricultural practices, and food and nutrition security in sub-Saharan Africa. CIMMYT is working on dryland crops like millets and legumes, which have untapped potential for contributing to food security, particularly in climate-vulnerable regions.
Research and innovative labs
Geoff Morris from Colorado State University shared insights on the recently concluded United States Agency for International Development (USAID) Innovation Lab on Sorghum and Millets. This activity spanned the entire value chain from trait discovery to breeding program support to the development of value-added products. The most successful projects, in his opinion, were those led by African-based scientists.
“It is essential for Africa scientists to be in the driver sear to ensure that research agenda aligns with their needs,” he said. “There is a gap in knowledge not about what we know here but about what U.S. researchers know about supporting African breeders. It’s crucial for researchers to define the needs to guide effective collaborations,” said Morris.
Pioneering role in millet sector growth
The International Crops Research Institute for the Semi-Arid Tropics (ICRISAT) has contributed significantly to driving growth in the millet sector, including innovation generation and knowledge sharing. Damaris Odeny, ICRISAT India, highlighted the organization’s contributions particularly in the agri-business incubation platform. The platform serves as a bridge, identifying suitable technologies to specific regions and supporting local entrepreneurs in deploying these technologies to reach smallholder farmers. While the model has been successful in India, its adoption in Africa has been slower, owing to regional differences and varying levels of investments.
Damaris Odeny of ICRISAT India shares insights on ICRISAT’s impact on the agri-business incubation platform. (Photo: Marion Aluoch/CIMMYT)
The Feed the Future Innovation Lab for Crop Improvement, managed by USAID and Cornell University efforts in fostering regional collaborations funds a center for innovations across regions, fostering regional collaborations that are critical for sharing knowledge and resources, benefiting not only regions within Africa but also further afield.
“Moving forward, we should align these initiatives and identify synergies to maximize their impact. This approach will encourage greater engagement and the adoption of innovative solutions at the local level,” said Odeny.
The path forward for millets in Africa and beyond is not only promising but essential for addressing issues of food security, climate resilience, and sustainable development. This can be accomplished by aligning these initiatives with global sustainability goals and focusing on innovative, collaborative efforts.
Changing the narrative through communication
Turning to the power of communication, Douglas Gayeton, co-founder of The Lexicon emphasized the role of effective messaging in changing people’s perceptions of millets.
“When consumers understand what they are purchasing and how it aligns with their values, they can make informed decisions that benefit the entire food system,” said Gayeton.
He also underscored the importance of changing the narrative around millets. He emphasized the importance of shifting away from terms like ‘neglected’ and ‘orphaned’ crops to more positive empowering language that resonates with consumers and policy makers.
“In order to change the food system, we must provide consumers with information at the point of purchase that applies to their values. By linking that benefit to consumer values, this approach has the potential to significantly expand millet markets,” said Gayeton.
Douglas Gayeton, co-founder of The Lexicon, emphasizes the role of effective messaging while Geoff Morris from Colorado State University shared insights on research and innovation labs on sorghum and millets. (Photo: Marion Aluoch/CIMMYT)
The discussions highlighted the valuable lessons to be learned from the efforts to enhance millet utilization in Africa and other regions. The collaboration across various sectors, from government to research institutions and the private sector, highlights the multifaceted approach in addressing the challenges facing millet cultivation and utilization. Recognizing the significance of local engagement and the empowerment of local scientists underscores a crucial lesson: solutions need to be tailored to the specific context, utilize local knowledge, and address local needs to ensure sustainability. In addition, the significant impact of communication in reshaping perceptions about millets demonstrates the importance of storytelling in shaping consumer behavior and policy.
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.”
Mentorship and educational contributions
