CIMMYT, along with other institutions, is enhancing wheat’s heat tolerance through four GRDC investments. These projects focus on identifying heat tolerance traits and developing scalable phenotyping technologies. Utilizing advanced tools like High Performance Liquid Chromatography (HPLC), the Dualex flavonoid meter, and hyperspectral technology, these initiatives aim to create heat-tolerant wheat varieties to ensure resilience against climate change.
Malawi faces a severe food crisis due to droughts from El Niño, severely impacting the maize harvest. CIMMYT experts, including Mazvita Chiduwa, highlight that importing food is the only viable solution to prevent widespread hunger. Immediate donor support is essential to avert disaster and ensure food security for the country.
As the global population approaches the 10 billion mark, the reliance on fertilisers to boost agricultural production has become an essential, yet environmentally challenging, practice. A Century-long dependence on these additives has allowed food production to keep pace with the growth in human population. However, the use of fertilisers across various farming systems is now causing severe ecological stress. The leaching of nitrogen into natural ecosystems, coupled with the release of greenhouse gases, is pushing the Earth’s environmental limits to a critical threshold.
To address this, an ambitious new research initiative aims to shrink the nitrogen footprint of agriculture by developing a breakthrough technology based on nature’s own solutions: a natural process called biological nitrification inhibition (BNI). The Novo Nordisk Foundation has awarded CIMMYT a grant of up to USD 21.1 million to lead an innovation research initiative called CropSustaiN that is designed to reduce the nitrogen footprint of wheat cultivation.
“Success in this initiative could lead to a major shift in agricultural practices globally, benefiting both the planet and farmers’ livelihoods. In addition to using less fertiliser, cost for the farmer will be minimal because all the components are already in the seed. This initiative could, potentially, be extended from wheat cultivation to include other staple crops like maize and rice,” says Claus Felby, Senior Vice President, Biotech, Novo Nordisk Foundation.
“BNI could be a part of how we revolutionise nitrogen management in agriculture. It represents a genetic mitigation strategy that not only complement existing methods but also has the potential to decrease the need for synthetic fertilisers substantially. The mitigation potential of better nitrogen fertiliser management could be as impactful for the Global South as the Green Revolution,” explains Bram Govaerts, Director General, CIMMYT.
Revolutionary mitigation approach
Rooted in a seed-based genetic strategy, BNI leverages a plant’s innate ability to suppress soil nitrification through the release of natural compounds. This approach potentially promises to curb the use and leaching of synthetic nitrogen fertilisers—a significant contributor to greenhouse gas emissions and water pollution—without compromising wheat yield or soil vitality. The BNI-method contrasts with synthetic nitrification inhibitors and could offer a more scalable and cost-effective solution, potentially reducing nitrogen fertiliser usage by 20%, depending on regional farming conditions.
By harnessing the power of genetics in plant seeds, CropSustaiN leverages the natural process of BNI to develop new wheat varieties that require significantly less nitrogen fertiliser. Using conventional breeding, genes from wild crop relatives like wild rye, which have inherently better nitrogen use efficiency, are incorporated. CIMMYT makes such breeding products available to its global network of partners for the international public good.
The agenda for CropSustaiN includes validating BNI efficacy across diverse climates and integrating the technology into mainstream agricultural protocols. While the venture carries success risks, the potential rewards—ranging from widespread BNI adoption to valuable insights into nitrogen management—position it as a pioneering initiative. By ensuring that the seeds developed through this program are accessible to all farmers without exclusive patent rights, the Novo Nordisk Foundation is leading an inclusive approach to agricultural innovation.
CropSustaiN builds on the joint research by the Japan International Research Center for Agricultural Sciences (JIRCAS) and CIMMYT that started in 2015. The initiative has already yielded BNI wheat lines tested over three farming seasons. These innovative crops are now poised for further development and for scaling worldwide, indicating a potential paradigm shift in agricultural practices.
The Novo Nordisk Foundation has already laid the groundwork for CropSustaiN by funding related BNI research at CIMMYT, the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT), Aarhus University, the University of Aberdeen, and the University of Copenhagen -thus fostering an ecosystem for research innovation.
About the Novo Nordisk Foundation
Established in Denmark in 1924, the Novo Nordisk Foundation is an enterprise foundation with philanthropic objectives. The vision of the Foundation is to improve people’s health and the sustainability of society and the planet. The Foundation’s mission is to progress research and innovation in the prevention and treatment of cardiometabolic and infectious diseases as well as to advance knowledge and solutions to support a green transformation of society.
www.novonordiskfonden.dk/en
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 staging.cimmyt.org.
Further information
Jakob Stein, Communications Specialist, jse@novo.dk
CIMMYT is happy to announce six new, improved tropical maize hybrids that are now available for uptake by public and private sector partners, especially those interested in marketing or disseminating hybrid maize seed across the tropical lowlands of South Asia and similar agroecologies in other regions. NARES and seed companies are hereby invited to apply for licenses to pursue national release, scale-up seed production, and deliver these maize hybrids to farming communities.
How does CIMMYT’s improved maize get to the farmer?
The deadline to submit applications to be considered during the first round of allocations is 18 June 2024. Applications received after that deadline will be considered during subsequent rounds of product allocations.
The newly available CIMMYT maize hybrids were identified through rigorous, years-long trialing and a stage-gate advancement process which culminated in the 2023 South Asia Regional On-Farm Trials. The products were found to meet the stringent performance and farmer acceptance criteria for CIMMYT’s breeding pipelines that are designed to generate products tailored in particular for smallholder farmers in stress-prone agroecologies of South Asia.
While wheat acreage has been increasing across the whole of Africa, the sub-Saharan countries account for a significant proportion of the total growth and yield, equaling an area of approximately 3.1 million hectares and a production of more than 9 million tons. However, in recent years, Fusarium head blight (FHB) or head scab has become a major disease in the region, causing significant reductions in yield and quality due to the lack of resistant varieties and management tools.
In China, a successful wheat shuttle breeding program by the Chinese Academy of Agricultural Sciences (CAAS) and CIMMYT for improving FHB has existed since the 1980s. Additionally, CIMMYT and the Jiangsu Academy of Agricultural Sciences (JAAS) have provided an FHB screening station in Nanjing since 2019. With a wealth of experience in confronting the disease, this ongoing partnership can help to solve the challenges currently faced by farmers in Africa.
To this end, CAAS, JAAS, and CIMMYT organized a training workshop on FHB management for Africa, which took place with financial support from China Aid in Beijing and Nanjing, China, between 10 and 23 April 2024. Twenty participants, 45% of which were women, attended the workshop, with specialists in wheat breeding, pathology, seed quarantine, and other related fields at public institutions in Ethiopia, Zambia, and Lesotho.
“This is the first time China has worked with an international organization to conduct an agricultural training workshop for sub-Saharan Africa,” said Zhonghu He, CIMMYT distinguished scientist and country liaison officer in China.
A hands-on demonstration at the Jiangsu Academy of Agricultural Sciences (JAAS) and CIMMYT Fusarium head blight (FHB) precision phenotyping platform helps scientists in Africa to better understand and fight the wheat disease. (Photo: Liu Xiyan/CAAS)
Practical tools to target FHB
Experts from China and CIMMYT shared their successful experiences of FHB management, including breeding resistant varieties. The trainees benefitted from hands-on experience of FHB identification, disease screening (including inoculum preparation, inoculation, and scoring), mycotoxin quantification techniques, and wheat breeding.
At the end of the workshop, the participants were extremely pleased to observe the impressive progress made in China on wheat FHB both on breeding and disease control, and they expressed strong willingness to contribute to collaboration between Africa, China, and CIMMYT on more wheat breeding and research. Netsanet Bacha Hei from the Ethiopian Institute of Agricultural Research (EIAR) was impressed with the scientific and technical expertise provided in the training and mentioned that sub-Saharan Africa needs similar practical trainings to mitigate the threat of FHB. Similar opinions were echoed by Doreen Malekano Chomba from the Zambian Plant Quarantine and Phytosanitary Service (PQPS), who discussed the need to have an effective in-country surveillance and monitoring to assess and manage FHB in the region.
Participants gather for the opening ceremony of the workshop at the Chinese Academy of Agricultural Sciences (CAAS) in Beijing. (Photo: Li Simin/CAAS)
Xu Zhang, who heads the FHB research program at JAAS, is very appreciative of the collaborative work that has been going on for several decades between CIMMYT and China, highlighting that the workshop represents another step in understanding and managing FHB in sub-Saharan Africa and beyond, Zhang said, JAAS and CIMMYT has grown together through strong partnership.
“This training lays firm groundwork for future China-Africa-CIMMYT collaboration on mitigating the threat of FHB and improving wheat production and food security in sub-Saharan African countries,” said He.
Agricultural stakeholders in Tanzania, including CIMMYT, are preparing to implement a major project to combat soil acidity, affecting 32.7 million hectares of land. Led by the Tanzania Agricultural Research Institute (TARI), the initiative aims to improve crop production by promoting the use of agricultural limes and enhancing soil health management. This effort is part of the GAIA project, focusing on equipping farmers with essential agronomic knowledge to boost yields and productivity.
In Dodoma, Tanzania, CIMMYT, ILRI and TALIRI with USAID funding of US$2M, launch the AID-L project to enhance poultry farming among youth and women. Targeting 18,000 farmers, it involves cost-sharing, advisories, and media resources to reduce poultry morbidity. Implemented across eight districts, the initiative aims to benefit 3 million people as part of the broader AID-I project, addressing a significant contributor to Tanzania’s agricultural GDP.
Australia’s smallest seed company, Rebel Seeds, has achieved a significant milestone with the Australian Hard classification for Borlaug 100, a wheat variety introduced in 2015 through the CIMMYT-Australia-ICARDA Germplasm Evaluation (CAIGE) project. This classification allows Borlaug 100 to be delivered into H2 segregations at bulk-handling sites across Queensland and northern New South Wales, benefiting local growers with better prices and enhancing its export potential. The success of Borlaug 100 underscores CIMMYT’s crucial role in providing resilient, high-yielding wheat varieties suited to diverse growing conditions globally.
Maize is the second most important cereal in Laos after rice, driven primarily by the demand for animal feed in neighboring countries such as China, Thailand, and Vietnam. Laos has an export-oriented maize sector, with most of the country’s production destined for these markets. The sector reached its peak in 2016, when production levels hit 6 metric tons per hectare across an area of 0.26 million hectares.
Over 90% of Laos’s maize production relies on rain-fed agriculture, with maize grain and stover serving as the primary source of feed for smallholder farmers who depend on mixed crop and livestock farming systems for their livelihoods. However, between 2016 and 2022, total maize area and production declined significantly, contracting by 64% and 70%, respectively. Several factors contributed to this decline, including volatile market prices, competition from cassava and other crops, rising production costs, and yield losses due to pests, diseases, and soil nutrient degradation because of monocropping.
Additionally, Laos relies on imported hybrid maize seed, primarily from Thailand and Vietnam, which creates a dependence on external suppliers and exposes farmers to price fluctuations. Recognizing the importance of improving maize productivity and sustainability, the Laotian government is taking steps to enhance local capacity for seed production and ensure access to affordable high-quality feed.
Enhancing local hybrid maize seed production
Recognizing the importance of enhancing the availability and accessibility of quality maize seed and feed, CIMMYT and Laos’s National Agriculture and Forestry Research Institute (NAFRI) have initiated the evaluation of high-yielding maize hybrids for both grain and stover quality. In 2023, 12 yellow-kernel maize hybrids developed by the CIMMYT-Asia breeding program underwent evaluation in Laos. The same set of hybrids is undergoing evaluation in 2024 to identify stable and suitable germplasm. According to Siviengkhek Phommalath, director of the rice and cash crop research center at NAFRI, the 2023 evaluation provided promising results, with at least two hybrids performing better or on par with widely grown commercial ones in Laos. These hybrids exhibit high productivity, particularly in terms of grain and stover quality. However, further validation is planned for 2024, with the introduction of additional testing sites to assess performance across various environments.
Following thorough evaluations across multiple years and environments, the most suitable dual-purpose maize hybrids will be allocated to NAFRI by CIMMYT along with their parental lines, to kickstart local seed production. However, the capacity of national partners needs to be strengthened to initiate local hybrid maize seed production effectively, and this necessitates the integration and coordination of efforts among all stakeholders in the seed and feed value chains in Laos.
Capacity building across seed and feed value chains
In response to the need for capacity building in local hybrid seed production and ensuring a consistent supply of high-quality seed and feed to Laotian smallholder farmers, NAFRI has collaborated with CIMMYT under the CGIAR Sustainable Intensification of Mixed Farming Systems (SIMFS), Seed Equal, and Plant Health Initiatives to organize an international training workshop on enhancing access to quality maize seed and feed in the crop-livestock farming system of Lao PDR, which took place from May 7-9, 2024.
Workshop participants. (Photo: NAFRI)
The three-day interactive workshop, held in Vientiane, brought together 28 specialists from various organizations, including NAFRI, Souphanou Vong University, the Upland Agriculture Research Center (UARC), Provincial Agriculture and Forestry Offices (PAFO), as well as maize seed importers and grain traders from different provinces within the country.
The first day was dedicated to understanding the challenges and opportunities of the maize seed value chain. Participants were divided into three groups based on their practical backgrounds and invited to discuss challenges, stakeholder roles, and develop actionable recommendations for better coordination across value chains. This multi-stakeholder platform aimed to comprehend the challenges and opportunities of the crop-livestock farming nexus and integrate them into a more sustainable and productive system. It also served as a forum to promote synergistic partnerships among value-chain actors in enhancing local access to good quality seed and feed. The following days focused on various essential components of quality hybrid seed production, including understanding product profiles and market segments, realizing the economics of hybrid maize seed production, seed quality assurance, management of maize pests and diseases, and enhancing maize stover quality.
A collaborative approach
Workshop participants highlighted the challenges they face in acquiring maize seeds from external sources, citing inconsistent delivery times and limited availability of preferred varieties as factors that posed significant operational constraints. “The development of a competitive domestic maize seed system would ensure timely seed supply for farmers and save resources for the nation,” said Maisong Yodnuanchan, an agripreneur from Xiangkhouang province. His concerns resonated with fellow agripreneurs Bounmy Si and Teuang Sophapmixay, from Oudomxay and Hua Phan provinces, respectively, who both acknowledged the challenges associated with the current reliance on imported seeds and the potential benefits of a sustainable, locally produced seed supply.
CIMMYT and NAFRI open a workshop session. (Photo: NAFRI)
The training workshop offered valuable insights into addressing these concerns, providing a comprehensive overview of effective seed system development and the technical aspects of seed production applicable to a wide range of crops beyond maize. “This is the first ever training I received in my career and the knowledge gained will be directly applicable to my research activities at the UARC,” said researcher Malay Soukkhy. Recognizing the unique context of Laos compared to most of its neighboring countries with more established seed systems, AbduRahman Beshir, CIMMYT’s seed systems specialist for Asia and the lead trainer and facilitator for the workshop, emphasized the need for a collaborative approach to develop a custom solution for Laos. The workshop itself exemplified this collaborative spirit, incorporating a variety of engaging formats such as group discussions, lectures, assignments, and participant presentations. Subject matter specialists from CIMMYT offices in Nepal, India, and Kenya, as well as experts from Alliance Bioversity-CIAT and ILRI offices in Asia, shared valuable experiences applicable to Laos’s seed and feed systems.
Cementing partnerships
While addressing the participants, Timothy J. Krupnik, regional director for CIMMYT’s Sustainable Agrifood Systems Program in Asia, opened the workshop by acknowledging the invaluable support of NAFRI for organizing the event and collaborating under the CGIAR mixed farming initiative. He highlighted the imminent finalization of a Memorandum of Understanding (MoU) between CIMMYT and NAFRI, which will pave the way to further cement partnerships and establish a long term CIMMYT operations in Laos.
NAFRI’s Director General, Chanthakhone Bualaphan, presided over the workshop and emphasized the importance of continued collaboration between CIMMYT and NAFRI. Bualaphan requested CIMMYT’s continued focus on capacity building in Laos, encompassing both human resource development and institutional strengthening. She further highlighted the establishment of a specific target for domestic hybrid maize seed production, aligning with the government’s self-sufficiency goals. To translate plans into action, Bualaphan emphasized the need for future training programs to be more action-oriented and practical. She concluded by reiterating NAFRI’s unwavering support for CIMMYT’s expanded activities in Laos, with the ultimate objective of significantly improving the livelihoods of Laotian farmers. The workshop culminated with the presentation of certificates to participants and the development of a collaborative follow-up plan for deploying well-tailored maize germplasm within the mixed farming system of Laos.
Stakeholders collaborate in a two-day workshop to discuss the inclusive development of maize value chains in Nepal. (Photo: CIMMYT)
From April 3-4, 2024, CIMMYT hosted the International Conference on Strengthening Maize Value Chains in Nepal, organized in collaboration with the Ministry of Agriculture and Livestock Development, the Department of Agriculture (DOA), the National Agriculture Research Council (NARC), and the Agri Enterprise Center (AEC) of the Federation of Nepali Chamber of Commerce and Industry (FNCCI), with support from the United States Agency for International Development (USAID).
“Maize holds the potential to yield manifold benefits for farmers, the private sector, and the Government of Nepal, through the development of an efficient market system,” said Judith Almodovar, acting director of the Economic Growth Office at USAID Nepal. With this in mind, the two-day conference held in Kathmandu brought together government officials, policymakers, industry leaders, and experts from Nepal and the wider region to explore avenues for advancing the country’s maize sub-sector. It served as a platform for participants from India, Bangladesh, and Nepal, representing various functions of the maize value chain to share and exchange innovative commercial maize production, post-harvest, supply chain, and marketing models and policies aimed at improving efficiency, ensuring sustainability, and fostering competitiveness.
Addressing the opening session, Honorable Minister of Agriculture, Jwala Kumari Sah, highlighted the Government of Nepal’s priority to increase maize production and marketing, emphasizing the need to provide maize for food, feed, and fodder to boost incomes and improve livelihoods. While highlighting objectives and expectations from the conference, Country Representative for CIMMYT in Nepal, Dyutiman Choudhary, shared information about CIMMYT’s mandate and global expertise in maize science, as well as interventions to develop a maize seed-to-feed model in Nepal. The organization’s model fosters public-private farmer partnerships for commercial maize production as a key approach to develop an inclusive and sustainable maize sub-sector in the country. “As a result, maize yields have doubled in Nepal and farmer gate prices have increased by 50% in the last two years,” Choudhary explained.
CIMMYT scientists and partners engage in a panel discussion on maize commercialization. (Photo: CIMMYT)
Recommendations for sustainable improvement
The conference involved five different technical sessions over the course of two days, each focused on various themes related to production, marketing, international best practices, and policies. Experts from Bangladesh, India, and Nepal were involved in insightful discussions and shared valuable knowledge and experience for advancing the commercialization of the maize sub-sector in Nepal.
Participants made recommendations for the sustainable improvement of national maize production and commercialization to meet the growing demand for food, feed, and fodder while reducing reliance on imports. These include developing high-yielding, short-duration, stress-tolerant maize varieties, and identifying models for commercial maize production, post-harvest, storage, market linkages, and supportive policies for improved investment and coordination among public sectors, market actors, and service providers to meet national maize demand.
At the closing session, Govinda Prasad Sharma, secretary at the Ministry of Agriculture and Livestock Development (MOALD), notified attendees that MOALD is in the process of strengthening a national strategy for maize commercialization and that the learning from the conference will provide valuable inputs. He added that the participation of experts from neighboring countries has provided deep insights for policy development.
CIMMYT’s Bread Wheat Breeding Program analyzed top wheat genotypes over 14 years, aiming to boost grain yield (GY) and stability. Results at the Norman E. Borlaug Research Station in Mexico showed an annual GY gain of 0.96%, driven by enhancements in biomass, grain filling rate, and radiation use efficiency. This underscores CIMMYT’s success in delivering high-yielding wheat varieties globally and suggests potential future gains through diverse genotype intercrossing.
The introduction of the new high-yield corn variety, INIA 608 – ALLIMASARA, in Peru represents a significant collaboration between CIMMYT and the National Institute of Agricultural Innovation (INIA). This variety, developed through advanced crossbreeding techniques at the El Porvenir Agricultural Experimental Station, showcases CIMMYT’s pivotal role in enhancing agricultural productivity globally. By boosting yield capacities significantly up to 40% per hectare, this initiative not only supports the livelihoods of local farmers but also advances sustainable agricultural practices in challenging environmental conditions.
This is a competitive program in which early- and mid-career NARS scientists from focus countries* are invited to express their motivation to join a CIMMYT research team, e.g. sorghum, pearl millet, finger millet, groundnut, chickpea, or pigeon pea improvement in West or Eastern Africa, on an adjunct basis. This program aims to strengthen partnerships between CIMMYT and NARS scientists while empowering the emerging generation of scientists through world-class networking and research opportunities contributing to a regional vision of crop improvement.
Adjunct Scientists will focus on their main discipline, e.g. crop breeding, seed systems, socioeconomics, or data management, by partnering with an appropriate CIMMYT scientist. The Adjunct Scientist will work closely with the hosting CIMMYT scientist to jointly strengthen each other’s research programs. The Adjunct and his/her CIMMYT host scientist will jointly participate and learn together from exchange visits, proposal writing, strategic meetings, and travel to research fields or conferences.
Candidates must be active employees of a National Agricultural Research Institution in an AVISA-Transition project target country* with a Ph.D. in an appropriate field, awarded not more than 10 years before applying, or an MSc with a proven record of leading breeding programs for 5-10 years. The deadline for applications is June 22, 2024.
Soil is the foundation of agriculture, and healthy soil is critical to the entire ecosystem. However, soil health is under threat today as many factors make soil unhealthy, leading to significant losses in farming. CIMMYT in India has been addressing these issues in partnership with national and international institutions, while CIMMYT’s SBP program in Türkiye aims to deliver high-yielding wheat germplasm that is resistant to SBP and supports the International Soil-Borne Pathogens Research & Development Center (ISBPRDC) of Türkiye. It also facilitates knowledge exchange and technology transfer to support joint research and development activities to improve soil health.
On arrival, the group of scientists and professors from Bihar was welcomed by Metin Türker, director general of Agricultural Research and Policies (TAGEM). Talking about the intricate nexus of agriculture, climate, and technology, Türker emphasized varietal developments to irrigation advancements and engaged in lively discussions with the group, fueled by a shared vision for agricultural sustainability.
Led by Abdelfattah A. Dababat, CIMMYT country representative in Türkiye and the leader of the SBD program, the scientists and professors from India ventured into the heart of research institutions, immersing themselves in the latest innovations in wheat improvement and plant pathology. Their journey took them from Ankara to Eskisehir and ended at the Abant Izzet Baysal University, Bolu, where they were greeted by passionate experts eager to share their knowledge. Bonds were forged amid lectures and laboratory demonstrations, and ideas ignited, paving the way for future collaborations.
Visit to Ankara Province
The participants visited the Field Crops Central Research Institute and were introduced to the TAGEM Seed Gene Bank and Herbarium. Participants were acquainted with seed processing and preservation methods with live demonstrations. Following that, participants visited the Plant Protection Central Research Institute in Ankara, where its Director Ayse Ozdem gave an overview of the institute’s mandates and research work. Participants had the opportunity to explore the plant pathology laboratory and learn about major crop diseases in Türkiye and their control measures.
Participants later visited winter wheat trial sites at the research station in Haymana, a district of Ankara province. The group then interacted with Mesut Keser, ICARDA’s wheat breeder who specializes in winter and facultative wheat while working on the International Winter Wheat Improvement Program (IWWIP). This was followed by a visit to the pathology field experiments, a breeder seed production area, and an experimental trial for evaluating Syngenta TYMIRIUM® technology at the research station.
Visit to TZARI in Eskisehir
Scientists also had a chance to visit the Transitional Zone Agricultural Research Institute located in the Central Anatolian Plateau of Türkiye. The institute’s director Sabri Cakir welcomed the participants and briefed them about the ongoing research activities of the institute and its relevance to agriculture in Türkiye. Savas Belen gave a general overview of the institute and the breeding program, while Abdullah Tane Kilinc presented a glimpse of the activities of the Department of Plant Pathology. Professor Halil Toktay gave an overview of plant parasitic nematodes in wheat and potato, followed by Gül Erginbas Orakci who discussed the importance of managing soil-borne pathogens.
Beyhan Akin, wheat breeder at CIMMYT, gave a presentation on CIMMYT’s breeding activities in Türkiye, and Oğuz Önder presented fertilizer application on the quality of Bread Wheat and the importance of foliar fertilization in crops.
Thereafter, participants visited the plant pathology laboratory where Abdelfattah A. Dababat and Gül Erginbas-Orakci gave an overview of laboratory methods to study Cereal Cyst Nematodes and Root-Lesion Nematodes with live demonstrations. Innovative approaches to tackle the Plant-Parasitic Nematodes in agriculture were also discussed. In the agronomy laboratory, Oğuz Önder gave a live demonstration for estimating plant grain and biomass yield by optical sensor-based technologies. Participants also had the opportunity to explore the soil science laboratory and become familiar with state-of-the-art equipment used for soil nutrient analysis.
Visit to Bolu
The participants visited Abant Izzet Baysal University, in Bolu, where the Rector Professor. Mustafa Alişarlı welcomed them. This was followed by presentations and discussions on burning issues in agriculture. Professor Senol Yildiz gave a presentation on soil health assessment and management. Professor Halil Kütük of the Department of Plant Protection gave a brief overview of the latest research advancement in biological control of major crop diseases. In continuation, Abdelfattah A. Dababat gave an overview of the cereal cyst nematode and their management. The discussion led to a brainstorming session on soil health management, soil-borne diseases, soil microbiome, and the challenges of using microorganisms for soil health improvements. The major challenges and opportunities for agriculture development under changing climate scenarios in India and Türkiye were also discussed.
The training course exposed participants to the latest research and technologies for soil and root health management to increase agricultural productivity and profitability immediately and into the future. During the entire visit, participants working in different fields (soil science, agronomy, plant breeding, and microbiology) interacted with Türkiye’s expert counterparts to discuss their work and share valuable research insights. Several topics and technologies relevant to global agriculture, like zero tillage, climate-resilient agriculture, precision input management, hidden hunger, and digital agriculture, were discussed. Participants also explored future opportunities for bilateral research collaborations between India and Türkiye.
Participants expressed their deepest gratitude to the CIMMYT team at Türkiye, led by Abdelfattah A. Dababat, for arranging an effective training program and for the support provided at every step. “Your careful planning and thoughtful execution have created an environment where learning flourishes and connections are made. Thank you for your invaluable contribution to our learning journey,” said the participants. Participants also expressed their sincere thanks to the Ministry of Agriculture, Türkiye, and the BISA team for coordinating this training and making the entire experience seamless and impactful for all involved. Special thanks were offered to the Government of Bihar for supporting the travel of scientists from India for this training program under the climate-resilient agriculture project in the state.
I am Grace Malaicha, a proud native of the Zidyana Extension Planning Areas in Central Malawi, where my journey with Conservation Agriculture (CA) began. In 2005, I observed neighboring farmers practicing CA techniques on their land. Intrigued and inspired, I decided to embark on this path myself, joining the CA program initiated by CIMMYT and Total LandCare in 2006. I started practicing it on my demonstration plot and observed that yields were getting higher from the second year onwards.
My dedication to CA has changed not only myself but also influenced other members of my farming community. As a mother trial host farmer under the CGIAR Initiative: Diversification for resilient agribusiness ecosystems in East and Southern Africa today, I have been implementing different treatments, which include maize doubled-up legume system and improved drought-tolerant maize varieties planted under CA on flat land and comparing it to the traditional ridge tillage system that involves substantial soil movement.
But what does CA mean to me? It is more than just a set of principles that I apply like minimum soil disturbance, mulching, and crop rotation. CA reduces drudgery, secures yields, and maintains productivity in times of climate change. CA has changed my approach to farming, transforming my once conventional maize monocrop into a diverse maize-legume system. By intercropping with two crops, I have spread the risk of unanticipated crop failure, while incorporating groundnut, cowpeas, and pigeon pea into the mix, which are more drought tolerant. I increased the land area under CA and tried it on many other crops including different legumes as rotation or intercrops, birds-eye chili, vegetables, and cassava.
Over the years, I have witnessed firsthand the harsh realities of a changing climate in central Malawi, from intense heat to prolonged droughts and erratic rainfall patterns. This year, 2024, has even been worse due to the prolonged dry spells between January and February, and the erratic rainfall during this time. Despite these challenges, our CA plots have continued to thrive, showcasing the resilience and adaptability of climate-smart farming practices.
Grace trains farmers on Conservation Agriculture. (Photo: Christian Thierfelder/CIMMYT)
Recognizing the power of knowledge sharing and from the encouragement by CIMMYT and Total LandCare, I started to train fellow farmers, both locally and across borders. At first, I worked with women groups around my homestead and trained about 100 female farmers on the principles of CA. I was fortunate to be given the opportunity to train other farmers in other districts of Malawi. Since 2008, I have also trained farmers in eastern Zambia and from Mozambique where all farmers speak my language Chichewa. Farmers believe other farmers more and are now realizing the benefits of implementing CA in their own fields.
I enrolled to be a local trainer in CA within my community in 2016. My passion for teaching and catalyzing change has led to the adoption of CA by numerous farmers. I embrace my commitment to ongoing learning through carefully implementing these CA trials and playing an active role during awareness meetings.
My life had changed so much. I was speaking on the radio and television. In 2012, the Minister of Agriculture visited my plot, and I was asked to speak in front of a Parliamentary Committee about my experiences as a smallholder woman farmer in Malawi. I spoke about what women can do in agriculture and what changes I made on my land. From representing my country at high level meetings, each step has shaped me into a resilient and empowered woman.
However, my journey has not been without obstacles, including hardships in my personal relationship. In 2012, I made the decision to join my husband in South Africa where I took up menial jobs to earn a living, abandoning my plot back home. But my true passion lay in farming, and I decided to make the bold decision to come back home, leaving my husband and continue with farming. Through perseverance and determination, I have overcome these challenges, and I am now much stronger.
Grace Malaicha stands in her field. (Photo: Christian Thierfelder/CIMMYT)
Today, I stand with pride in front of my CA plot, not only sustaining my family but also sending all my children to school. I now converted all my land to conservation agriculture, 3ha are under maize and 2ha under groundnuts. Beyond farming, I have investments in housing, claiming rentals in the nearby town of Salima to sustain my financial income and expand in farming.
I will continue on this path as I learned so much over the years and believe that CA may be the only climate-smart agriculture response in reach of smallholder farmers that everybody can apply, and I will continue to support others as a champion of CA.
Soil is the foundation of agriculture, and healthy soil is critical to the entire ecosystem. However, soil health is under threat today as many factors make soil unhealthy, leading to significant losses in farming. CIMMYT in India has been addressing these issues in partnership with national and international institutions, while CIMMYT’s SBP program in Türkiye aims to deliver high-yielding wheat germplasm that is resistant to SBP and supports the International Soil-Borne Pathogens Research & Development Center (ISBPRDC) of Türkiye. It also facilitates knowledge exchange and technology transfer to support joint research and development activities to improve soil health.
Participants later visited winter wheat trial sites at the research station in Haymana, a district of Ankara province. The group then interacted with Mesut Keser, ICARDA’s wheat breeder who specializes in winter and facultative wheat while working on the International Winter Wheat Improvement Program (IWWIP). This was followed by a visit to the pathology field experiments, a breeder seed production area, and an experimental trial for evaluating Syngenta TYMIRIUM® technology at the research station.
Beyhan Akin, wheat breeder at CIMMYT, gave a presentation on CIMMYT’s breeding activities in Türkiye, and Oğuz Önder presented fertilizer application on the quality of Bread Wheat and the importance of foliar fertilization in crops.
