In Busia, Chris Ojiewo from CIMMYT and partners are spearheading the adoption of high-yielding millet varieties to boost food security and tackle climate change. This initiative aims to equip farmers with quality seeds and modern farming techniques, ensuring the sustainable cultivation of millet, a crop resilient to harsh climates.
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Mutoko, a semi-arid area located in Mashonaland east of Zimbabwe, is prone to droughts and unpredictable rainfall patterns. In an effort to tackle the challenges faced by local smallholder farmers in the region, partners of the Resilience Building through agroecological intensification in Zimbabwe (RAIZ) project organized a participatory workshop to amplify the project’s mandate and gather feedback from key stakeholders. The workshop at Mutoko brought together diverse participants from the Women Affairs, Youth, and Agriculture ministries from the government of Zimbabwe, local leaders and council, extension officers, students, and farmers from Wards 10 and 8. Attending farmers and stakeholders expressed interest in the project that would enable them to face challenges and improve agricultural practices in Mutoko.
Working towards climate-smart solutions: the RAIZ project
RAIZ is a collaborative effort between CIMMYT, the French Agricultural Research Centre for International Development (CIRAD), and the University of Zimbabwe. The project is funded by the European Union, and it focuses on recognizing the strategic role of agroecological approaches in tackling climate change and enhancing sustainable agriculture in arid areas. Research operations are underway in Mutoko to produce scientific evidence and contribute to agroecology policy.
Agroecology offers climate-smart solutions that help farmers adapt to changing conditions, mitigate greenhouse gas emissions, conserve natural resources, and promote food security and resilience in the face of climate uncertainties. RAIZ implements ‘Living Labs’ which strengthens collaboration between diverse stakeholders, including farmers and scientists, whose collective insights help develop demand-driven solutions.
During the Mutoko workshop, Professor and Systems Agronomist Regis Chikowo provided context of RAIZ and emphasized on its goal of helping build resilience in farmers through sustainable approaches. “The aim is not only to help farmers adapt to climate change but also to enable them to thrive in the face of adversity,” said Chikowo.
Building synergies between research and farmer realities
To bridge the gap between research and farmer realities, six student-researchers of RAIZ are working on various aspects of building farmer resilience based on agroecological principles. Their study areas comprise of weed control, climate-proofing with resilient small grain varieties, indigenous knowledge systems, and soil health among others. One student-researcher, in collaboration with farmers, is conducting research on weed control and its impact on crop yield. In all, they are set to articulate and tackle climate change in Mutoko.
“Through my research in weed control and how it affects yields, we are hosting trials with some farmers. We are putting into effect mulch practices gumbeze ramwari, and assessing how it affects yields. We are then intercropping maize with cowpea so that farmers spend less time fighting off weeds, while promoting crop diversification,” says Juliet Murimwa, a Ph.D. student.
Knowledge and sources of information on when to expect rains and average temperatures are vital for farmers to better plan the entire planting-to-harvesting operations. Recognizing this, research student Rejoice Nyoni is studying the types and usefulness of climate services information accessed by smallholder farmers in RAIZ project sites.
“My research is centered on understanding whether smallholder farmers are getting enough knowledge from available sources, including radio which is more prominent,” says Nyoni. Farmers have long relied on traditional knowledge systems to predict weather patterns and plan farming activities. However, with climate change, some of these traditional knowledge sources are being altered. “This season, I will be joining our farmers in Mutoko to discuss and understand which indigenous knowledge systems they use to gather information about weather patterns. We want to find ways to ensure that such wisdom does not get lost, as generations are slowly moving away from traditional cultures and norms,” she adds.
CIMMYT’s work in RAIZ operational areas supported by graduate students, is also testing the effectiveness of newly availed local commercial organic fertilizers and how they contribute to climate smartness when used along with conservation agriculture practices. CIMMYT is also leading the development of an agroecology handbook, set to be used by extension staff and other development practitioners.
In line with the International Year of Millets in 2023, RAIZ actively promotes the cultivation of small grains to enhance the resilience of local farmers. As part of the project, a student researcher is conducting trials in Mutoko to assess the performance of different small grain varieties in the face of climate change. Farmers in Mutoko’s Ward 10 have started experimenting with small grains and have experienced promising yields. A farmer in Mutoko Ward 10, Mudzengera, shared his positive experience with growing sorghum, “Last year we grew three varieties of sorghum. We really liked the new variety as it was not prone to bird attack. On the other hand, the native variety we usually grow is prone to birds feasting on them. We realized good yields which improved household nutrition. I look forward to another farming season with such trials on sorghum,” he says.
A shared vision for a sustainable future
A visioning exercise conducted during the workshop, solicited views from the farmers on how they envision the future of agriculture. The session, facilitated by Isaiah Nyagumbo, senior agronomist at CIMMYT, and marking the initiation of Living Laboratories in the district, started with asking farmers what change and developments they would like to see in their ward after three to four years, with respect to agriculture. The farmers were disaggregated into four groups by gender and ward. The emerging aspirations revolved around the twin goals of safeguarding the environment and enhancing crop yields. Farmers from both wards 10 and 8, expressed a shared desire to improve agricultural marketing infrastructure, agroforestry, and the protection of forests, recognizing the critical role that trees play in mitigating climate change and preserving biodiversity. Mulching, which holds immense potential in conserving soil moisture, and adopting mechanized operations were among other aspirations. Furthermore, the participants expressed interest in cultivating small grains, drought-tolerant maize, use of renewable energy, and leveraging digital platforms.
Climate change poses a threat to yields and food security worldwide, with plant diseases as one of the main risks. An international team of researchers, surrounding professor Senthold Asseng from the Technical University of Munich (TUM), has now shown that further spread of the fungal disease wheat blast could reduce global wheat production by 13% until 2050. The result is dramatic for global food security.
With a global cultivation area of 222 million hectares and a harvest volume of 779 million tons, wheat is an essential food crop. Like all plant species, it is also struggling with diseases that are spreading more rapidly compared to a few years ago because of climate change. One of these is wheat blast. In warm and humid regions, the fungus magnaporthe oryzae has become a serious threat to wheat production since it was first observed in 1985. It initially spread from Brazil to neighboring countries. The first cases outside of South America occurred in Bangladesh in 2016 and in Zambia in 2018. Researchers from Germany, Mexico, Bangladesh, the United States, and Brazil have now modeled for the first time how wheat blast will spread in the future.
Regionally up to 75% of total wheat acreage affected
According to the researchers, South America, southern Africa, and Asia will be the regions most affected by the future spread of the disease. Up to 75% of the area under wheat cultivation in Africa and South America could be at risk in the future. According to the predictions, wheat blast will also continue to spread in countries that were previously only slightly impacted, including Argentina, Zambia, and Bangladesh. The fungus is also penetrating countries that were previously untouched. These include Uruguay, Central America, the southeastern US, East Africa, India, and eastern Australia. According to the model, the risk is low in Europe and East Asia—with the exception of Italy, southern France, Spain, and the warm and humid regions of southeast China. Conversely, where climate change leads to drier conditions with more frequent periods of heat above 35 °C, the risk of wheat blast may also decrease. However, in these cases, heat stress decreases the yield potential.
Dramatic yield losses call for adapted management
The affected regions are among the areas most severely impacted by the direct consequences of climate change. Food insecurity is already a significant challenge in these areas and the demand for wheat continues to rise, especially in urban areas. In many regions, farmers will have to switch to more robust crops to avoid crop failures and financial losses. In the midwest of Brazil, for example, wheat is increasingly being replaced by maize. Another important strategy against future yield losses is breeding resistant wheat varieties. CIMMYT in collaboration with NARs partners have released several wheat blast-resistant varieties which have been helpful in mitigating the effect of wheat blast. With the right sowing date, wheat blast-promoting conditions can be avoided during the ear emergence phase. Combined with other measures, this has proven to be successful. In more specific terms, this means avoiding early sowing in central Brazil and late sowing in Bangladesh.
First study on yield losses due to wheat blast
Previous studies on yield changes due to climate change mainly considered the direct effects of climate change such as rising temperatures, changing precipitation patterns, and increased CO2 emissions in the atmosphere. Studies on fungal diseases have so far ignored wheat blast. For their study, the researchers focused on the influence of wheat blast on production by combining a simulation model for wheat growth and yield with a newly developed wheat blast model. Environmental conditions such as the weather are thus included in the calculations, as is data on plant growth. In this way, the scientists are modeling the disease pressure in the particularly sensitive phase when the ear matures. The study focused on the influence of wheat blast on production. Other consequences of climate change could further reduce yields.
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CIMMYT’s development and release of six new wheat varieties in Ethiopia, aimed at combating rust diseases and increasing yields, underscore its pivotal role in advancing agricultural self-sufficiency and productivity in the country. These varieties, covering the majority of Ethiopia’s wheat cultivation area, highlight CIMMYT’s significant contribution to enhancing food security and agricultural resilience.
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Implementing partners of the Southern Africa Accelerated Innovation Delivery Initiative (AID-I) project, or MasAgro Africa, converged in Arusha, Tanzania, for the project’s first annual review and planning meeting. The event, which brought together 58 participants from 28 allied organizations coordinating and implementing activities as part of the flagship USAID-funded initiative, provided an opportunity to review progress towards targets set at the project launch in September 2022. During the event, partners also took time to collaboratively plan for stronger implementation in the project’s second year, while discussing challenges faced in the previous year and coming up with practical solutions for these. Similar planning meetings took place in Malawi and Zambia during the same month.
Speaking during the meeting’s opening session, USAID Tanzania Mission Feed the Future Coordinator Melanie Edwards expressed excitement about the achievements of in-country partners in the past year. “The Tanzania component of the project was performing very well,” she said, “and it was exciting to see the proposals coming, meaning that the number of partners was expanding.” Edwards noted that there is still a lot more to be done by the AID-I project and a call for new partner proposals was going to be issued soon to augment ongoing work. She also emphasized the importance of expanding the number of partners and was eager to see planned activities for the second year of the project.
Speaking on behalf of the Government of Tanzania—a key partner in the AID-I initiative—Abel Mtembenji outlined the government’s priorities: increasing productivity, creating decent jobs, enhancing extension services, improving resilience for food security, and expanding market and credit access. Mtembenji was pleased that AID-I interventions aligned with these and encouraged stakeholders to coordinate their efforts with the Tanzanian government to enhance the sustainability of project activities. He further encouraged stakeholders to notify the government of their initiatives to foster collaboration during implementation. Mtembenji recognized the support from USAID, through CIMMYT and thanked all partners for their participation and contribution to agricultural development in Tanzania.
Showcasing early successes
The AID-I initiative provides targeted assistance to up to three million African smallholder farmers by improving soil health and fertilizer management; strengthening local seed systems; connecting to financial products and services; and delivering extension and advisory services. An update presentation made by SAS Program Manager Grace Mwai revealed that through its 42 partners across Malawi, Tanzania, and Zambia, AID-I had in the past 12 months set up 125 mega-demonstrations for the 2022-2023 season. Forty-two of these were managed by farmer groups themselves, with 60% managed by women.
Across all three project countries, AID-I also reached approximately 5.3 million farmers with various agronomic advisory messages through radio and television, 160,000 listeners through interactive voice response (IVR) messages. Over 9,000 farmers were linked to inputs and outputs markets, of which 40% were women. Mwai added that the project had also conducted 5,143 seed company demonstrations—of which 2,400 took place in Tanzania—and had harvested and processed 13,000 metric tons of certified maize and legume seed, which was expected to directly benefit around one million smallholder farmers across the hub.
To highlight achievements from the first project year, partners showcased their products through posters and display items like seed packets during a structured session based on the World Café method. This activity allowed participants to interact and ask questions about various innovations being scaled under AID-I. More than ten partners displayed their products, and all participants at the meeting were given 15 minutes to visit other tables and share how many tons of seed they had produced and how many farmers they could reach during the season.
On the second day of the meeting, partners organized themselves into three small groups based on the three AID-I pillars—Seed Systems, Agriculture Advisories, and Market Linkages—to discuss forthcoming activities and what they hoped to do better in the coming season. The meeting concluded with discussions on issues including financial reporting, establishing and nurturing collaborations, and leveraging technology for improved project outcomes. During his closing remarks, Legume and Seed Systems Specialist under AID-I, Peter Setimela, emphasized the importance of timely proposal submission for the second year.
In Central and West Asia and North Africa (CWANA), agri-food systems are under pressure from resource depletion, population growth, and food insecurity. CIMMYT’s work is vital, focusing on sustainable agricultural practices and innovative technology to enhance productivity and resilience. Research and development efforts are critical in addressing the environmental and socio-economic challenges of agriculture in this diverse and dynamic region.
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A climate resilient agriculture program for the state of Bihar, India, launched in 2019 by the Borlaug Institute for South Asia (BISA) and the state government, was operating in 190 villages and had by 2022 improved water, soil nutrient, energy, labor and time use efficiency by at least 20% with around 35% higher yields and a reduced environmental footprint, as well as helping rice-wheat farmers to diversify their production with crops such as maize, millet and mungbean, among others.
This is just one of the achievements cited in a recent 2023 end-of-year reflection involving members of the BISA Executive Committee in New Delhi, India, including Bram Govaerts, director general of CIMMYT and BISA, and Arun Kumar Joshi, managing director of BISA.
“BISA has achieved significant milestones and is progressing towards organizational goals,” said Joshi. “The long-standing and productive partnership with the Indian Council of Agricultural Research (ICAR) and agricultural councils of other countries in South Asia became more robust, as strategies that focused on building capacities and improving seed systems for the whole of South Asia were implemented.”
Established jointly by CIMMYT and ICAR in 2011, BISA is a non-profit international research institute dedicated to food, nutrition, livelihood security and environmental rehabilitation in South Asia, home to more than 300 million undernourished people. Its work harnesses the latest genetic, digital, resource management technologies, and research-for-development approaches.
BISA’s flagship projects benefit millions of farmers and include the Atlas of Climate Adaptation in South Asian Agriculture (ACASA), the testing of experimental wheat that carries grass genes associated with the inhibition of nitrification in the soil near crop roots, a climate resilient agriculture program for South Asia, and implementation of the CGIAR Fruit and Vegetables for Sustainable Healthy Diets (FRESH) initiative.
“Of the top 10 bread wheat varieties in India, 6 are derived from the ICAR-CIMMYT-BISA collaboration,” Joshi explained.
“BISA has grown tremendously in the last few years,” said Govaerts. “The diverse arena of projects shows the capabilities and potential that BISA holds today. The flagship programs are undoubtedly creating a huge impact and would contribute to solving tomorrow’s problems today.”
BISA has renewed and diversified its research projects each year, according to T.R. Sharma, deputy director general of Crops, ICAR. “BISA’s impact on genetic innovation in wheat through ICAR-CIMMYT-BISA collaboration is indeed praiseworthy,” he said. Govaerts also attended an interactive session with CIMMYT-BISA India staff, presenting an analysis of the CIMMYT 2030 strategy and encouraging everyone’s contributions towards the goals.
In the central region of Mexico, specifically in Guanajuato, Heineken, and CIMMYT have teamed up to help barley farmers and suppliers adopt environmentally friendly farming practices.
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The Nepal Agricultural Research Council (NARC) and CIMMYT are partnering to advance actions to revolutionize agriculture in Nepal. The collaboration, announced at a planning meeting between the two organizations on October 16, 2023, aims to enhance food security and improve the livelihoods of farmers in the country. With their combined expertise, NARC and CIMMYT will chart a new course in agricultural development, bringing hope and prosperity to Nepal’s farming communities.
Previous collaborative efforts developing new crop varieties have helped to strengthen Nepal’s national research framework. In a recent statement, Sreemat Shrestha, NERC chief at the NARC, highlighted CIMMYT’s significant contributions. Shrestha emphasized CIMMYT’s role in introducing revolutionary advancements, such as digital file mapping, market segmentation and advanced agricultural land use technologies.
CIMMYT Country Representative in Nepal, Dyutiman Choudhary, gave the presentation and led the meeting. During the event, he presented a comprehensive explanation of the vast relationship that exists between CIMMYT and NARC. He emphasized the historical significance of this partnership and discussed the various aspects that contribute to the strength of their combined efforts.
NARC expanding global influence and enhancing research impact
In an effort to strengthen its position on the global stage, NARC has set forth a clear mission to enhance capacity development, broaden its influence worldwide and establish a coalition of highly trained scientists to elevate the quality and impact of research.
“With this ambitious agenda, NARC is poised to make significant strides in scientific advancement, and CIMMYT will be a valued partner with us the entire time,” said Shrestha.
Sieglinde Snapp, director of Sustainable Agrifood Systems (SAS) at CIMMYT, while acknowledging the challenges the world is facing, such as air and water quality issues, rising food prices, emphasized the importance of agriculture in addressing these challenges and further innovations like new genetic research, molecular biology and AI.
“I am excited about the progress CIMMYT and NARC have already achieved in Nepal,” said Snapp. “I encourage all of us to continue our efforts together, because collective action is necessary for meaningful change.”
Snapp highlights the need for technology adoption and mentions the transformation of wheat value chains, particularly in reducing women’s labor through introducing machines and spare parts. She praises the commitment to balance input and output and cites an example of helping farmers during a fertilizer crisis.
CIMMYT’s new focus at play in Nepal
Timothy Krupnik, CIMMYT regional director for SAS, provided insights into the organization’s growth and global influence in over 80 countries. Krupnik highlighted CIMMYT’s transition from its primary focus on breeding and genomics to its engagement to include other factors, such as agronomy, on-farm participatory research, socioeconomic studies and comprehensive agrifood systems.
“This shift in focus enhances CIMMYT’s understanding of the broader agricultural landscape and contributes to more comprehensive solutions,” said Krupnik. “Remarkable progress has been achieved in hybrid maize development and seed production, and we look forward to continuing to work with our Nepali partners.”
The meeting discussed various agricultural technology and innovation topics, including machinery, remote sensing, GIS toolsand greenhouse gas emission reduction strategies. NARC officials stressed the significance of enhancing capacity, especially in digital agriculture, to prepare Nepal for present and future climate challenges. Specific focus was on utilizing predictive crop modeling and simulation techniques to ensure crop resilience in the face of changing climate scenarios.
Global concerns are escalating as population growth, climate challenges and regional conflicts contribute to a food crisis. CIMMYT, in collaboration with 13 countries, is registering 160 drought-tolerant maize varieties to address changing climatic conditions, underscoring the need for unified efforts in global agricultural organizations.
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On December 9, 2023, CIMMYT and the World Vegetable Center (WorldVeg) signed a memorandum of understanding (MoU) to further promote research and development, capacity strengthening activities and facilitate joint learning and the exchange of information and technology between the two organizations.
Sustainable diversification of food systems, good agricultural practices and safe and sustainable development of cereal and vegetable production systems and agrifood value chains sits at the core of this partnership.
The ultimate objective of the MoU is to further contribute to the achievement of the Sustainable Development Goals (SDGs), in particular SDG1 and SDG2, enhancing food and nutrition security, reducing rural and urban poverty and increasing employment opportunities in particular for women and youth.
CIMMYT and the World Vegetable Center are already partners in the Southern Africa Accelerated Innovation Delivery Initiative Rapid Delivery Hub (AID-I). Through this program, it is distributing seed kits directly to vulnerable populations such as pregnant and lactating mothers and children under five, as well as improving soil health, promoting the production of traditional African vegetables, and increasing employment opportunities through building vegetable businesses. Recent impacts in Zanzibar are a good example.
“This collaboration between CIMMYT and WorldVeg is a testament to the potential of collective action, highlighting sustainable solutions and community empowerment as essential elements in combating malnutrition and enhancing overall well-being. We are building on the foundation already established by our collaborations within the Accelerated Innovation Delivery (AID-I) project in southern and eastern Africa,” said CIMMYT Director General, Bram Govaerts. “CIMMYT is excited to expand our connection with WorldVeg to bring innovations to even more people as crop diversification encourages improved nutrition.”
“The World Vegetable Center is proud to deepen our work with CIMMYT. Reaching the Sustainable Development Goals will require not only advanced technologies but also systems to deliver those innovations to the people that need them most and this partnership will enable both priorities,” said Director General of the World Vegetable Center, Marco Wopereis. “Promoting and enhancing the availability of nutritious vegetables and cereals are vital to achieving these aims.”
By providing farmers with more options, CIMMYT and WorldVeg will promote the cultivation of diverse crops that are essential for a balanced and nutritious diet particularly among vulnerable communities around the world. By raising awareness about the significant benefits of incorporating different vegetables and cereals into daily diets, the partnership will inspire and encourage millions of people to fully embrace diversification and improved nutrition.
About CIMMYT
CIMMYT is a cutting edge, non-profit, international organization dedicated to solving tomorrow’s problems today. It is entrusted with fostering improved quantity, quality, and dependability of production systems and basic cereals such as maize, wheat, triticale, sorghum, millets, and associated crops through applied agricultural science, particularly in the Global South, through building strong partnerships. This combination enhances the livelihood trajectories and resilience of millions of resource-poor farmers, while working towards a more productive, inclusive, and resilient agrifood system within planetary boundaries.
CIMMYT is a core CGIAR Research Center, a global research partnership for a food-secure future, dedicated to reducing poverty, enhancing food and nutrition security and improving natural resources. For more information, visit cimmyt.org.
About the World Vegetable Center
The World Vegetable Center (WorldVeg) is an international non-profit institute for vegetable research and development. It mobilizes resources from the public and private sectors to realize the potential of vegetables for healthier lives and more resilient livelihoods.
WorldVeg’s globally important genebank, improved varieties, production and postharvest methods help farmers to increase their vegetable harvests, raise incomes in poor rural and urban households, create jobs, and provide healthier, more nutritious diets for families and communities. With headquarters in Taiwan, field operations are led from regional centers in Benin, India, Mali, Tanzania and Thailand, and through offices in other key countries.
In Zimbabwe, CIMMYT is studying the long-term effectiveness of integrated farming practices, including tillage, no-tillage, mulching with maize residues, and cowpea rotation. This experiment in a distinct agricultural context provides insights into sustainable strategies and soil carbon stocks.
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British Prime Minister Rishi Sunak announced a new partnership between the CGIAR and the British Government at the Global Food Summit.
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In a collaborative effort to tackle global food challenges, Melinda Yerka, an associate professor in the Department of Agriculture, Veterinary & Rangeland Sciences and her team are partnering with sorghum breeders at the CIMMYT. Together, they’re extending the reach of sorghum varieties to developing nations.
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Representatives from various sectors in Tanzania met to discuss the challenges and opportunities in the country’s groundnut value chain, with the aim of establishing a platform for dialogue among stakeholders involved in groundnut production and distribution.
The meeting was organized by TEMNAR Co. Ltd., and brought together key stakeholders including farmers, government officials, research institutes, NGOs, and partners such as Ruvuma Commercialization and Diversification of Agriculture (RUCODIA), SWISSAID, and Vodacom. All participants affirmed the meeting’s overall impact and significance, acknowledging that the event would help lay a strong foundation for the growth of groundnut farming, particularly in Mtwara and Lindi regions.
The meeting featured presentations from scientists at the Tanzania Agricultural Research Institute (TARI) — who addressed topics such as groundnut agronomy and seed technology — and representatives from TEMNAR, who outlined strategies to facilitate effective collaboration among stakeholders and achieve mutually beneficial outcomes. Discussions centered on topics such as groundnut varieties, market demands, and the importance of quality and cleanliness throughout the production process. Trust in business relationships was identified as a key factor for success.
Participants at the meeting shared innovative ideas and identified opportunities for strengthening the sector. They highlighted, for example, the need for aggregators to specify their groundnut volume requirements and the application of simple technologies — such as hand push planters and threshing machines — to increase production efficiency. They also emphasized the importance of planting new TARI-bred groundnut varieties to meet market demand, and the establishment of additional seed multiplication farms to increase seed availability.
Another key component of the meeting was assessing the challenges faced by local groundnut farmers. These include the shortage of good groundnut seed, limited agronomical knowledge, and the labor-intensive nature of planting, harvesting, and picking the crop. To address these challenges, participants suggested making agricultural inputs and tools more accessible to farmers, conducting technology demonstrations, and establishing seed multiplication farms across different districts.
Both farmers and aggregators expressed their commitment to making changes in their farming practices; aggregators are now able to access groundnuts easily through phone calls, while farmers enjoy improved access to markets and better prices. A number of follow-up actions have also been planned as a result of the meeting, such as product buyback initiatives during the harvest season and the establishment of field days to help reach more farmers and aggregators at the local level.