CIMMYT training courses play a critical role in helping international researchers meet national food security and resource conservation goals. By sharing knowledge to build communities of agricultural knowledge in less developed countries, CIMMYT empowers researchers to aid farmers. In turn, these farmers help ensure sustainable food security. In contrast to formal academic training in plant breeding and agronomy, CIMMYT training activities are hands-on and highly specialized. Trainees from Africa, Asia and Latin America benefit from the data assembled and handled in a global research program. Alumni of CIMMYT courses often become a significant force for agricultural change in their countries.
The LIPS-ZIM program led by CIMMYT and partners, addresses livestock disease challenges in Zimbabwe. This collaborative effort aims to enhance livestock productivity and control diseases affecting smallholder farmers.
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New drought-resistant sorghum varieties bring hope for farmers in Africa
Scientists have identified drought-resistant, high-yielding sorghum genotypes that have the potential to revolutionize agriculture in dry regions of Africa. Sorghum, a staple food for millions in sub-Saharan Africa, has long been threatened by devastation from drought.
But now, researchers from the African Centre for Crop Improvement, the Institute of Agricultural Research (IAR), the International Maize and Wheat Improvement Center (CIMMYT), and the University of Life Sciences have discovered genetic resources that thrive under adverse conditions, yielding promising results and providing hope for a future that is more sustainable.
The study looked at 225 sorghum genotypes in various conditions, including non-stressed conditions and pre- and post-anthesis drought stress. The researchers used advanced statistical analysis, such as the additive main effects and multiplicative interaction (AMMI) method, to identify the most resilient and high-yielding genotypes.
The results revealed a vast diversity in the genetic resources of sorghum and provided a pathway for selecting promising genotypes for regions prone to drought. In addition, the study highlighted the significant impact of environmental conditions on grain yield, with genotypes showing variable responses to different growing environments.
For example, genotypes G144 (Kaura Short Panicle-1) and G157 (Kaura Mai Baki Kona) displayed higher grain yield in drought-stressed environments and were among the top performers. Not only do these genotypes outperform registered cultivars, but they also possess traits valued by farmers, making them ideal candidates for future breeding programs. In addition to drought tolerance, genotypes G119 and G127 displayed remarkable stability and high yield under non-stressed conditions, showing their potential as all-around performers in a variety of environments.
Farmers in dry areas of sub-Saharan Africa that are characterized by pre- and post-anthesis drought stress stand to gain a great deal from these newly identified sorghum strains. Adoption of these high-yielding and drought-resistant genotypes could increase food production and strengthen farmers’ resilience against the effects of climate change.
The findings of these super sorghum genotypes offer farmers facing the challenges of climate change a glimmer of hope. By adopting these new drought-resistant strains, African farmers can improve their food security and strengthen their communities, paving the way for a more resilient and sustainable future.
In a strategic move to improve food security and promote agricultural development, Syngenta Foundation Nigeria, one of the key partners in the Dryland Crops Program (DCP), has introduced a new initiative known as the AVISA Farmers’ Hub. The initiative was launched at an event in the Murya Community of Obi Local Government Area in the Nasarawa State of North Central Nigeria. The Farmers’ Hub aims to support and empower farmers in the region, contributing to the overall objectives of the DCP.
The introduction of the Farmersâ Hub comes at a time when smallholder farmers in the region are grappling with limited access to essential resources such as knowledge, high-quality inputs, modern technology, and reliable markets, all of which are critical for achieving high-quality agricultural productivity.
A farmers’ hub (FH) is an all-inclusive commercial platform that provides diverse inputs such as seeds, seedlings, fertilizers, and crop protection products, as well as price and weather information. In addition, it provides farmers with value-added services such as aggregation, cleaning, sorting and grading of produce, bulk sales, training, equipment leasing and rental, financing, and trade credit. Smallholder farmers can now take advantage of the opportunities provided by the Farmers’ Hub by transitioning from subsistence agriculture to a commercially oriented system.
During the event, the Country Program Manager of Syngenta Foundation Nigeria, Isaiah Gabriel, emphasized the foundation’s dedication to commercializing AVISA crops: “The foundation is working to facilitate the commercialization of cowpea, sorghum, groundnuts, and pear millet.â Gabriel also emphasized the importance of raising awareness among farmers and establishing a platform that provides smallholder farmers with improved seeds, seedlings, fertilizers, mechanization, and other value-added services. He urged farmers in the state to maximize their utilization of the Farmers’ Hub and its services, which are intended to facilitate improved seed production and service delivery.
The Farmers’ Hub was established with the goal of resolving access issues, optimizing yields, aggregating grains, and overcoming market challenges. Finally, the hub hopes to improve food security and increase the income of smallholder farmers.
Prof. Mary Yeye, the National Coordinator of AVISA, commended the initiative and emphasized the importance to farmers of taking advantage of the project and making prudent use of its resources as she addressed the participants.
Experts in attendance, that included Prof. Lucky Omoigui, a seed system specialist from the International Institute of Tropical Agriculture (IITA), Prof. SG Gaya, a groundnut breeder from Bayero University Kano (BUK), and Prof, Alhassan Lalihu from the Federal University Lafia, discussed several of the obstacles to high agricultural productivity. These factors include restricted access to improved seeds, expensive fertilizers, and security concerns. The experts lauded the Farmers’ Hub as the final step in delivering resources to smallholder farmers. In addition, they urged all levels of government to intensify efforts to subsidize input costs and improve farmers’ security.
The program manager of the Nasarawa State Agricultural Development Program, Emmanuel Alanama, responded by thanking Syngenta Foundation for selecting Nasarawa State for this significant project. He acknowledged that 75 to 80 percent of the state’s population are farmers and expressed the willingness of the state government to collaborate and support any agricultural initiatives.
Rowland Alaku, manager of the Farmers’ Hub, assured farmers that they would have guaranteed access to quality seeds. The farmers in attendance expressed their gratitude for the initiative and promised to utilize the hub fully in order to benefit their own farming endeavors.
Other dignitaries in attendance included Prof. Johnson Onyibe from Ahmadu Bello University (ABU), Zaria; Dr. Teryima Iorlamen from the University of Agriculture, Makurdi; and several village heads. More than 150 farmers, stakeholders, and government officials attended the event, highlighting its importance.
CIMMYT scientist, Kindie Tesfaye, emphasizes the importance of user-centered climate information services and agricultural extension. These tools enable farmers to make informed decisions, manage risks, and increase productivity, contributing to food security.
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Farmers, stakeholders, and partners, including seed companies, Hamara Chicks, PHI Commodities, the International Livestock Research Institute (ILRI), BioHUB Trust (BHT), Kurima Machinery and Technology, and Zimplow Limited, participated in the Seed and Livestock Fair in the Mbire and Murewa districts of Zimbabwe, which showcased indigenous and improved seed varieties and different technologies to strengthen crop and livestock value chain systems.
Initiated by CIMMYT in 2022, as the CGIAR Initiative on Agroecology, these series of fairs have become instrumental in bringing agrodealers closer to farmers and showcasing sustainable technologies and innovations that have the potential to strengthen production systems. It was also an opportunity for the agroecology initiative team to provide feedback to farmers and stakeholders on ongoing activities and technologies that were being tested since the initiative’s inception in Zimbabwe. By adopting a multi-partner approach, these fairs bring local food systems actors together to ensure food and nutrition security and improved income for farmers.
“The agroecology initiative has been collaborating with an array of organizations and institutes that can support our mission towards promoting agroecology and improving farming production, including other CGAIR entities like IWMI and ILRI, Hamara Group, Ecolyfe, and PHI Commodities,” said Dorcas Matangi, research associate at CIMMYT.
This year’s edition of the seed and livestock fair “Fostering Synergies: Diverse Crops, Livestock and Inclusive Communities” advocated for enhancing synergies within the farm to foster sustainable agroecology transitions for resilient food and nutrition outcomes. With over 800 farmers and stakeholders participating, the event provided a vibrant platform for knowledge sharing, exploration of indigenous and improved seed varieties, and sensitization of innovative technologies.
“The seed and livestock fairs hosted by the agroecology initiative bring together farmers and food system actors from all walks of life to foster learning around agroecology, which includes the importance of diversity (crop and livestock) while also appreciating local innovations in the respective area,” said Jesca Mapfinya, a Murewa farmer.
The right seed, assures a good harvest
Various seed companies participated in the fair to showcase different seeds which are well adapted in Murewa and Mbire districts. Each agroecological region in Zimbabwe is unique, with adaptable seed varieties that are either landrace or improved. Local landraces and many underutilized crop species are adapted to weather and climate variability, climate change, and extreme weather such as drought and heat stress. Farmers indicated that their motivations for growing landraces are related to sustainable farming systems suitable for social, cultural, nutritional, and agronomic traits. Their place in rural communities remains important, providing much-needed functional diversity and social capital. Including improved varieties within the basket of options can further intensify production systems in these communities.
“Primarily, we sell seed varieties and build farmer capacity around appropriate agronomic practices. The seed fairs are a good platform to match seeds and systems and allows a farmer to provide feedback about our seed varieties and how they are performing in the respective areas,” said Onesmous Satenga, SeedCo.
Building crop and livestock synergies
For the first time since the inception of the fairs, livestock such as cattle, sheep, goats, chicken and rabbits were displayed. Partners, including ILRI and the Hamara Chicks, who are into sasso chicken and feed production, reiterated the importance of crop diversity for improved livestock nutrition. ILRI and the Grasslands Research Institute exhibited various local feedstocks and alternative livestock feed grasses and also presented several feed formulations. Farmers also provided feedback on the feeding strategies employed for different livestock.
“We feed cattle with poultry litter, maize grain, maize stover, and groundnut shells in various proportions depending on the availability of these feed sources. Forage legumes such as velvet bean (mucuna pruriens) and lablab (lablab purpureus) have been introduced, and we have started to grow these for feed,” said Samson Tashaya, Murewa farmer.
Of keen interest to farmers and stakeholders was the sasso breed of chickens that the Hamara Group was promoting.
“We have recently joined as partners with CIMMYT and are promoting hybrid chicken production, especially sasso, here in Murewa ward 27 and 4. This is our first time coming to this seed fair, and it was a learning opportunity. The interactions with farmers were really good,” said Alan Norton, team leader at Hamara Chicks.
Modernizing smallholder production systems
Mechanization experts from Kurima Machinery and Zimplow shared their recommendations at the fair. They acknowledged that farmers rely heavily on scarcely available labor and production activities that are backbreaking. They advocated for modern production systems to produce more food and support economic transformation. Experts from Kurima Machinery and Zimplow demonstrated several machines that could aid farmers in various on-farm activities.
“This fair has come at the right time as I begin land preparation for my pfumvudza (conservation agriculture plots). I have seen how the basin digger works, and I am keen to purchase an instrument to make my work much easier,” said Chief Chisunga, Mbire.
âThis crop season’s outlook is still unclear, but weather experts have warned of an intense El Nino event likely to happen in the second half of the season. Technologies such as conservation agriculture can ensure good moisture retention in crop fields, and it needs to be paired with good agronomic practices,” said Tafadzwanashe Mabhaudhi, climate and food systems expert.
CIMMYT Ethiopia signed a memorandum of understanding (MoU) in November 2023 with the Addis Ababa-based private food processing company Alvima Foods Complex Plc, in an effort to encourage durum wheat production among smallholder farmers and create market linkage in selected woredas of Oromia and Amhara regional states.
The MoU, which is part of CIMMYT Ethiopiaâs overall durum wheat project aiming to reinvigorate durum wheat production in the country, was signed by Workneh Rikita, Alvima general manager, and Kindie Tesfaye, CIMMYT Ethiopiaâs senior scientist.
The MoU aims primarily to create market linkage between farmers and manufacturers, in a context of a sharp decrease of durum wheat production. âPrior to the 1980s, 80% of the wheat produced in Ethiopia was durum, but in 2016 our nationwide research on wheat showed that the durum wheat coverage was 5%, which stands in contrast to the countryâs effort to industrialize the economy and substitute import goods with local produceâ, said Kindie Tesfaye, CIMMYT durum wheat project leader. “We, as CIMMYT, want to encourage farmers to produce good quality durum wheat in quantity, and teach them about contract farming by creating market linkage with produce receivers like Alvima.â
âCooperation, not business ventureâ
Established in 2011, Alvima Foods Complex initially centered its operations around importing and exporting agro-food products. In 2017, the company set up a pasta and flour processing factory and contracted 800 farmers to produce durum wheat. âAt first, our objective was to produce premium quality pasta, unlike most processing companies in the country which produce pasta from hard wheat or mixed wheat,â said Workneh Rikita, Alvimaâs general manager. In the absence of binding rules, the project failed and Alvima resigned to import durum wheat. âThe law on contract farming was constituted recently and the difficulties to access foreign currency (therefore to import goods), which led us to turn our attention back to our initial projectâ, said Workneh Rikita.
Alvima Foods Complex general manager added that his company didnât sign the agreement as a business venture but as an advantageous cooperation to learn from. He thanked CIMMYT for agreeing to work with his company and expressed his hopes for its success.
The current durum wheat market in Ethiopia is unpredictable as prices are set by the brokers, which heavily disadvantages the growers. The objective of the memorandum of understanding is to address such market challenges faced by farmers, affording them guaranteed market opportunities at a fair price.
As part of the agreement between Alvima Foods Complex and the durum wheat growers in target districts of the Amhara and Oromia regional states, CIMMYT will leverage on its expertise to help the farmers produce more and in good quality. Alvima will access the produce from farmersâ cooperatives directly, without the intervention of middlemen, to guarantee better incomes to producers. Moreover, CIMMYT is training farmers on use of climate information, accessing climate advisories, video-based production trainings, and crop disease management.
âIf the farmers get the premium price for their produce, they will be encouraged to continue producing better wheat,â said Kindie Tesfaye. âWe want the cooperation to be sustainable and to create direct links between farmers and local food processors (such as AVLIMA). The MoU will also benefit Ethiopia by decreasing imports of processed food items.â
A multilayered challenge to durum wheat production
Supported by the Bill and Melinda Gates Foundation, CIMMYT and Digital Green (an organization creating digital tools to assist farmers) have been conducting durum wheat improved varieties were insufficiently promoted; the seed was not made adequately accessible to farmers; productivity was perceived by farmers as being low; and market linkage was poor. These multilayered challenges led farmers to prioritize bread wheat varieties, according to Kindie Tesfaye.
In response, CIMMYT structured its support around three main pillars: the organization helps farmers access seeds together with Oromiaâs Seed Enterprise, provides farmers with digital advisory services to improve their productivity, and works with the private and public sectors to upgrade market linkages, as with the memorandum of understanding signed with Alvima Foods Complex Plc.
Staff from the Queensland Department of Agriculture and Fisheries (DAF), Agriculture Victoria, Food and Fibre Gippsland, and Bowen Gumlu Growers Association joined B.M. Prasanna (Maize Program Director at CIMMYT & CGIAR Plant Health Initiative Lead) on 19th October 2023 to learn about CIMMYTâs efforts and experiences with fall armyworm management at the global scale, and to build partnerships between CIMMYT and Australian institutions for future collaboration on plant health management.
At the online meeting, Prasanna shared CIMMYTâs research and development on FAW management in maize, including breeding for insect-pest resistance, screening maize germplasm against FAW under artificial infestation, and collaborative approaches on integrated pest management of FAW.
Key points from the discussion:
Dr Prasanna responded to several queries from the participants of the meeting. Australian researchers and CIMMYT showed interest in further research collaboration. Dr Ramesh Raj Puri, DAF Extension Officer, facilitated the meeting.
An international cohort of scientists representing 12 countries gathered at the Kenya Agricultural and Livestock Research Organization (KALRO) station in Njoro for a comprehensive training course aimed at honing their expertise in wheat rust pathology.
The two-week program âEnhancing Wheat Disease Early Warning Systems, Germplasm Evaluation, Selection, and Tools for Improving Wheat Breeding Pipelines,â was a collaborative effort between CIMMYT and Cornell University and supported by the Wheat Disease Early Warning Advisory System (DEWAS) and Accelerating Genetic Gains in Maize and Wheat projects.
With a mission to bolster the capabilities of National Agricultural Research Systems (NARS), the training course attracted more than 30 participants from diverse corners of the globe.
Maricelis Acevedo, a research professor of global development at Cornell and the associate director of Wheat DEWAS, underscored the initiativeâs significance. âThis is all about training a new generation of scientists to be at the forefront of efforts to prevent wheat pathogens epidemics and increase food security all over the globe,â Acevedo said.
First initiated in 2008 through the Borlaug Global Rust Initiative, these training programs in Kenya have played a vital role in equipping scientists worldwide with the most up-to-date knowledge on rust pathogens. The initial twelve training sessions received support from the BGRI under the auspices of the Durable Rust Resistance in Wheat and Delivering Genetic Gain in Wheat projects.
This yearâs training aims to prepare global scientists to protect against disease outbreaks that threaten wheat productivity in East Africa and South Asia. The course encompassed a wide array of practical exercises and theoretical sessions designed to enhance the participantsâ knowledge in pathogen surveillance, diagnostics, modeling, data management, early warning assessments, and open science publishing. Presentations were made by DEWAS partners from the John Innes Centre, Aarhus University, the University of Cambridge and University of Minnesota.
The course provided practical, hands-on experience in selecting and evaluating wheat breeding germplasm, race analysis and greenhouse screening experiments to enhance knowledge of rust diseases, according to Sridhar Bhavani, training coordinator for the course.
âThis comprehensive training program encompasses diverse aspects of wheat research, including disease monitoring, data management, epidemiological models, and rapid diagnostics to establish a scalable and sustainable early warning system for critical wheat diseases such as rusts, fusarium, and wheat blast,â said Bhavani, wheat improvement lead for East Africa at CIMMYT and head of wheat rust pathology and molecular genetic in CIMMYTâs Global Wheat program.
An integral part of the program, Acevedo said, was the hands-on training on wheat pathogen survey and sample collection at KALRO. The scientists utilized the international wheat screening facility at KALRO as a training ground for hot-spot screening for rust diseases resistance.
Daisy Kwamboka, an associate researcher at PlantVillage in Kenya, said the program provided younger scientists with essential knowledge and mentoring.
âI found the practical sessions particularly fascinating, and I can now confidently perform inoculations and rust scoring on my own,â said Kwamboka said, who added that she also learned how to organize experimental designs and the basics of R language for data analysis.
DEWAS research leaders Dave Hodson, Bhavani and Acevedo conducted workshops and presentations along with leading wheat rust experts. Presenters included Robert Park and Davinder Singh from the University of Sydney; Diane Sauders from the John Innes Centre; Clay Sneller from Ohio State University; Pablo Olivera from the University of Minnesota; Cyrus Kimani, Zennah Kosgey and Godwin Macharia from KALRO; Leo Crespo, Susanne Dreisigacker, Keith Gardner, Velu Govindan, Itria Ibba, Arun Joshi, Naeela Qureshi, Pawan Kumar Singh and Paolo Vitale from CIMMYT; Chris Gilligan and Jake Smith from the University of Cambridge; and Jens GrÞnbech Hansen and Mogens S. HovmÞller from the Global Rust Reference Center at Aarhus University.
âI thoroughly enjoyed the knowledge imparted by the invited experts, along with the incredible care they have shown us throughout this wonderful training.â
Narain Dhar, Borlaug Institute for South AsiaÂ
For participants, the course offered a crucial platform for international collaboration, a strong commitment to knowledge sharing, and its significant contribution to global food security.
âThe dedication of the trainers truly brought the training to life, making it incredibly understandable,â said Narain Dhar, research fellow at the Borlaug Institute for South Asia.
The event not only facilitated learning but also fostered connections among scientists from different parts of the world. These newfound connections hold the promise of sparking innovative collaborations and research endeavors that could further advance the field of wheat pathology.
Smallholder mechanization out scaling depends upon the availability of skilled mechanics who are fully oriented with machinery operation. However, this crucial skillset is often identified as a missing link. In many instances, lack of care or regular checks and the absence of readily available mechanics has led to the failure of mechanization projects in sub-Saharan Africa, with frequent machine breakdowns and equipment left sitting idle long after a project intervention. Across smallholder farming communities, this phenomenon can be seen through the presence of obsolete and abandoned machinery often serving as breeding grounds for birds.
The Feed the Future Zimbabwe Mechanization and Extension Activity, funded by the United States Agency for International Development (USAID), aims to break this vicious cycle by improving the skillset of local mechanics and helping them stay in tune with evolving innovations in farm machinery. Implemented by CIMMYT, this activity targets existing mechanics across ten districts in Zimbabwe, offering specialized maintenance services to providers who own machinery. Through investing in their training, local capacity to troubleshoot, service and repair machinery will increase.
Gaining practical experience
 The program approaches training through full immersion and a deep dive into the individual components of key equipment. Workstations are set up to include a diesel engineâwhich forms the core of most of the machineryâa two-wheel tractor and post-harvest machines such as the multi-crop thresher, feed-chopper grinder and peanut butter machine.  For most of the participants, the workshop presents them with first-hand experience of handling such machinery.
 Andy Chagudhuma and Tendai Machonesaâfrom Bikita and Chiredzi, respectivelyâwere among the first ten mechanics to participate in the five-day training. âI learned about all the machines here,â says Chagudhuma, âbreaking them apart and fixing them. We worked through different scenarios while perfecting our knowledge on the operation of all the machinery.â With new skills gained, they eagerly await the opportunity to offer their expertise to service providers in their local areas, and a newfound confidence fuels their commitment to providing support through repair and maintenance work.
 However, one remaining challenge is the notable absence of female participants in the training. While the field of mechanics is often male-dominated, the Mechanization Activity seeks to promote a gender-inclusive environment for local mechanics and service providers through awareness meetings and skills training. In the future, more machinery and technical trainings will be targeted specifically towards women as a way to redress this imbalance.
Overall, the benefits of the training echo far beyond the workshop itself. Through the skills acquired, opportunities for additional income generation increase, and the participation of rural youths in mechanization-oriented businesses and a thriving local economy are possible. By empowering local mechanics, the Mechanization Activity not only breathes life into their communities and the machinery sector but also paves the way for one of the projectâs key objectivesâthe establishment of successful and entrepreneurial service providers.
CIMMYT Director General, Bram Govaerts, shed some light on the role that SOILS-S2P plays in regenerative approaches to the food system and improved soil health.
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To address agriculture’s 25% contribution to global greenhouse gas emissions, researchers created AGREE. This user-friendly tool, which UC Davis and CIMMYT developed, helps estimate emissions from various agricultural activities.
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In Ethiopia, regional government representatives endorsed in October 2023 the National Framework on Climate Services (NFCS), a tool designed to guide the establishment and delivery of climate services in key sectors: water and energy, agriculture, health, disaster risk management, and environmental protection.
This endorsement by regional state representatives marks an important step towards the implementation at regional and zonal levels of the NFCS, which was adopted at the national level in 2020.
The adoption of the Framework concluded a two-day workshop organized by the Ethiopian Meteorological Institute in partnership with CIMMYT through the AICCRA project, which aims to scale climate-smart agriculture and climate information services for the benefit of millions of small-scale farmers in Ethiopia. The workshop was also attended by ministers, state ministers and heads of federal offices from the sectors affected by climate change.
Responding and adapting to climate change requires that all affected sectors cooperate and collaborate, stressed Fetene Teshome, General Manager of the Ethiopian Meteorological Institute, in his opening remarks. Experts and regional and local representatives should come together to establish a system that can gather quality information and disseminate it to its users, he added.
âWe canât tackle climate change easily, so we have to find ways to live with it and use it to our benefit,â said Habtamu Itefa, minister of water and energy. He urged the workshop participants to approach the NFCS as a system designed to outlive governments and called them to play an essential role in its implementation in their respective regions, zones, districts and kebeles (sub-districts).
âClimate services will bring meaningful changes in agricultureâ
Among the sectors most affected by climate change, agriculture accounts for about 40% of the GDP and employs more than 80% of the population, making it the backbone of the Ethiopian economy. It is thus crucial to address climate change impacts on the sector.
CIMMYT Senior Scientist, Kindie Tesfaye, explained how the AICCRA project works to enhance access to climate information services and validated climate-smart agriculture technologies in six African countries, including Ethiopia. As a stakeholder of the project, CIMMYT is training farmers, development agents, and local agricultural experts, and other agricultural value chain actors on the use of climate advisory services in collaboration with LERSHA, a digital platform providing farmers with contextualized weather forecast, inputs, mechanization and financial advisory services.
âWe consider climate as a major problem for the countryâs agricultural activities because the sector is heavily dependent on rain-fed production system and we believe that implementing this national framework on climate services will bring meaningful changes to the sector enabling it to manage climate risks successfully,â said Kindie Tesfaye.
The AICCRA project supported strengthening the function of the NFCS coordination team for multi- stakeholder engagement, supporting the endorsement of the framework and providing training on resource mobilization for its implementation. The project is also building capacity at different levels, promoting climate smart agriculture.
Productive in-depth discussions
Prior to the NFCS endorsement, participants shared inputs from their respective regions and sectors, providing inputs to the framework. Delegates mostly discussed capacity building needs, information delivery channels, synergetic cooperation among government institutions and mobilization of resources for implementation.
On the second day of the workshop, four different papers were presented on a seasonal climate update for the 2023 Bega season (October to December), on the impacts outlook for the upcoming Bega season, on the national state of the climate, and on climate risk management in agriculture extension.
The plenary discussion that followed was led by Fetene Teshome and offered an opportunity to the participants to raise their concerns on the implementation of the framework in their respective regional states. Many of the participants reflected on how the framework can accommodate the different ecology of various areas and how it can upgrade or replace dysfunctional meteorology infrastructures.
The Climate Risk Curriculum module that was prepared by AICCRA for agricultural extension workers was also launched during the workshop.
Staff of the Nepal Seed and Fertilizer (NSAF) project conducted a three-day âtraining of trainersâ workshop on integrated soil fertility management and related practices for commercial rice farming, for 50 agricultural technicians from 50 farm cooperatives in districts of mountainous midwestern Nepal and its lowland Terai Region.
Held in Nepalgunj, midwestern Nepal, the workshop focused on the â4Rsâ for soil fertilizationâright source, right rate, right time, and right placeâalong with other best farming and soil nutrient stewardship practices for rice-based farming systems.
âSubject matter was comprehensive, covering variety selection, transplanting, weeding, management of nursery beds, fertilizer, irrigation, controlling pests and diseases and proper handling of rice grain after harvest,â said Dyutiman Choudhary, NSAF project coordinator and scientist at CIMMYT. âTopics relating to the integrated management of soil fertility included judicious application of organic and inorganic fertilizer, composting and the cultivation of green manure crops such as mungbean and dhaincha, a leguminous shrub, were also included.â
Support to sustainably boost Nepalâs crop yields
With funding from the United States Agency for International Development (USAID), the NSAF project promotes the use of improved seeds and integrated soil fertility management technologies, along with effective extension, including the use of digital and information and communication technologies.
Agriculture provides livelihoods for two-thirds of Nepalâs predominantly rural population, largely at a subsistence-level. Rice is the nationâs staple food, but yields are relatively low, requiring annual imports worth some $300 million, to satisfy domestic demand.
Workshop participants attended sessions on digital agri-advisories using the Geokrishi and PlantSat platforms and received orientation regarding gender and social inclusion concerns and approachesâcrucial in a nation where 70% of smallholder farmers are women and exclusion of specific social groups remains prevalent.
âTopics in that area included beneficiary selection, identifying training and farmer field day participants, and support for access to and selection of improved seed and small-scale farm equipment,â explained Choudhary. âThe participants will now go back to their cooperatives and train farmers, local governments and agrovets on improved rice production.â
Nepal scientists and national research programs have partnered with CIMMYT for more than three decades to breed and spread improved varieties of maize and wheat and test and promote more productive, resource-conserving cropping systems, including rotations involving rice.
On July 17-18, 2023, 87 wheat scientists gathered to learn about new approaches and methods for wheat improvement in Faisalabad, Pakistan. CIMMYT and the Wheat Research Institute, Faisalabad (WRI-FSD) jointly organized a two-day training. The course covered two topics: high throughput genotyping technologies and high throughput phenotyping platforms. The trainees, who were able to attend in person or remotely and 27% of whom were women, hailed from 17 NARES partners across Pakistan.
After being welcomed by the Director General of Ayub Agricultural Research Institute (AARI), Akhtar Ali, and CIMMYTâs Country Representative, TP Tiwari, participants received an update on the status of wheat in Pakistan from Muhammad Sohail, national wheat coordinator for the Pakistan Agricultural Research Council (PARC). Subsequently, WRI-FSD Director, Javed Ahmed, discussed wheat research in Punjab, where over 70% wheat is grown in Pakistan. Kevin Pixley, interim director of CIMMYTâs Global Wheat Program, joined the proceedings remotely for a conversation about CIMMYT’s and CGIARâs collaboration with NARES. Participants discussed the modelâs successes, bottlenecks, the role of NARES, and the potential for capacity development. The conversation generated broad interest and suggestions for enhancing the partnershipâs effectiveness. Akhtar Ali, Muhammad Sohail, and Javed Ahmed all spoke very highly about CIMMYT’s support in Pakistan.
This event was organized as part of a collaborative project entitled âRapid development of climate resilient wheat varieties for South Asia using genomic selectionâ that is jointly managed by Kansas State University and CIMMYT with funding from the USAID Feed the Future program.
âTraining emphasized the need for an output-oriented researcher that covered the development of climate-resilient wheat varieties, given the environmental challenges we are experiencing like, drought and heat, and highlighted the importance of innovative methodologies and advanced tools for high throughput phenotyping and genotyping for sustainable and resilient wheat production in Pakistanâ said Muhammad Ishaq, a senior research officer and one of the training participants from Kohat Research Station, Khyber Pakhtunkhwa.
At the conclusion of the training, Javed, direct of WRI Faisalabad, commended CIMMYTâs support and suggested continuing the pace of training. Dr. Tiwari stressed the importance of such efforts will help Pakistanâs scientists develop and deploy climate resilient, impactful wheat varieties to boost wheat production and reduce wheat imports in the country.
CIMMYT targets some of the worldâs most pressing problems: ending poverty, ensuring food for the future, mitigating climate change and improving the lives of farmers and consumers (especially women). CIMMYT is a CGIAR Research Center and has long been the worldâs leading center for research on maize and wheat. This research capacity is being harnessed to achieve the crucial goals of climate resilience, and food and nutrition security.
Most of the worldâs people depend on annual grain crops for their survival. Yet some of the worldâs poorest men and women produce cereals. Annual grain farming has exacerbated climate change. The worldâs great challenges of achieving climate resilience and nutrition security are being addressed by focusing CIMMYTâs research and development (R&D) on maize, and wheat, as well as on underutilized grain and legume crops.
Highlights from the 2022 Annual Report:
Annual cereal farming tends to release carbon into the atmosphere, while degrading the soil. Improving the soil takes years, and the high annual variation in weather demands long-term experiments. Field trials by CIMMYT over many years show that farmers can return carbon to the soil by using minimum tillage, rotating cereals with legumes, and by applying animal manure and strategic amounts of nitrogen fertilizer. As soil fertility improves, so do farmersâ yields.
Eleven million farmers in India alone produce maize, usually without irrigation, exposing families to climate-related disaster. Twenty new hybrids bred by CIMMYT out-perform commercial maize, even in drought years. One thousand tons of this heat-tolerant maize seed have now been distributed to farmers across South Asia.
Some wheat is rich in zinc and iron, which prevent anemia, especially in children. Yet naturally-occurring phytic acid in wheat blocks the bodyâs absorption of these minerals. A technique developed by CIMMYT lowers the cost of assaying phytic acid, so plant breeders in developing countries can identify promising lines of wheat faster. CIMMYT is also helping to reduce food imports by learning how other crops, like cassava and sorghum, can be blended with wheat to make flours that consumers will accept.
Some wheat hotspots are warm, dry, and subject to plant diseases. CIMMYT collaborates with plant breeders worldwide through the International Wheat Improvement Network (IWIN) to test promising new wheat lines in these tough environments. As more places become warmer and drier with climate change, CIMMYT and allies are developing wheat varieties that will thrive there.
Harvesting more maize in the future will depend on higher yields, not on planting more land. In plant breeding programs in Africa, South Asia and Latin America, CIMMYT and partners are already developing maize varieties and hybrids that will be released in just a few years. A review of these efforts reveals that annual yield increases will be about twice the rate achieved from 1973 to 2012.
Sorghum, millets, pigeon pea, chickpea and groundnuts have been favorite food crops in Africa for centuries. They are already adapted to warm, dry climates. CIMMYT is now working with national research programs to ensure that new crop varieties have the traits that male and female farmers need. Seed systems are being organized to produce more of Africaâs preferred crops.
Researchers can only breed new crop varieties if someone saves the old ones from extinction. CIMMYT does that with its world-class collection of wheat and maize seed. In 2022, CIMMYTâs two separate wheat and maize germplasm banks were combined into one. Modern techniques, such as vacuum-sealed seed packets and QR codes, allow rapid response to requests for seed from plant breeders around the world.
CIMMYT is helping Nepali farmers to plant maize in the lowlands, in the spring, when most land lies fallow. In 2022, CIMMYT provided training and investment to 2,260 farmers (35% women), who earned, on average, an additional $367 in one year. The added income allowed these farmers to invest in health care and schooling for their children.
Mexican farmers are saving money, harvesting more and selling their grain more easily. Some 4,000 farmers are now selling on contract to food manufacturing companies. The farmers lower production costs by using CIMMYT innovations in irrigation, fertilizer application and ecological pest control. Yields increase, the soil improves, and farmers find a ready market for their harvest.
The stories we have highlighted in this article are just some of the ones included in the Annual Report. See the full text of all the stories in âHarvesting Successâ to learn how CIMMYT scientists are doing some of the most important research, for some of the worldâs best causes.