Moksedul Alam Arafat is a hub coordinator for CIMMYT’s Sustainable Agrifood Systems (SAS) program in Bangladesh.
He seeks to improve the adaption and scaling of agricultural mechanization through use of agricultural machineries and local manufacturing companies. He spans disciplines and brings technical knowledge ranging from system agronomy, mechanization and inter-cropping systems for maize.
Shamim Ara Begum is a training coordinator with CIMMYT in Bangladesh. Her work is associated with the Innovation Science for Agroecosystems and Food Systems in Asia research theme in CIMMYT’s Sustainable Agrifood Systems (SAS) program. She works closely with the Cereal Systems Initiative for South Asia Mechanization Extension Activity (CSISA-MEA), Fall Armyworm R4D and Management, and Bangladesh Integrated Pest Management Activity (IPMA) projects.
Begum’s main focus is on different training modules. In addition, she records the training of all CIMMYT projects in Bangladesh and submits KPIs to head office.
A new greenhouse complex, built with financial support from the International Maize and Wheat Improvement Center (CIMMYT), at the Bangladesh Wheat and Maize Research Institute (BWMRI) was inaugurated on 13 August 2022. The greenhouse was built at BWMRI’s headquarters in Dinajpur, Bangladesh.
This complex has a room for generator, a sample preparation room and space for a small laboratory. These upgrades will add new momentum for greenhouse activities and BWMRI and CIMMYT scientists designed the facility to accommodate wheat scientists from Bangladesh and other countries.
The BWMRI has been working to combat wheat blast disease since 2016, with financial and technical support from CIMMYT and other investors. CIMMYT has also assisted the Government of Bangladesh in developing an early warning system for wheat blast.
Because of the challenging phenology of synthetic wheat and introductions from winter and facultative wheat zones, field condition evaluation of these germplasm is difficult and the greenhouse will help ease this hurdle. Additionally, several pathological experiments investigating the biology of wheat blast will now be able to be performed in the new greenhouse facility.
Supplementary activities at the greenhouse include disease screening and research into unlocking the genetics of host resistance. The installation of a diesel generator will keep the greenhouse running in case of power outages.
Md. Sayedul Islam, Secretary of the Ministry of Agriculture, inaugurated the greenhouse complex. Additional attendees at the opening included Shaikh Mohammad Bokhtiar, Executive Chairman of the Bangladesh Agricultural Research Council (BARC), Golam Faruq, Director General of BWMRI, Mirza Mofazzal Islam, Director General of the Bangladesh Institute of Nuclear Agriculture (BINA), Debasish Sarker, Director General of the Bangladesh Agricultural Research Institute (BARI), Md. Benojir Alam, Director General of the Department of Agricultural Extension (DAE), and Md. Abdul Wadud, Executive Director and Additional Secretary at the Bangladesh Institute of Research and Training on Applied Nutrition (BIRTAN). Timothy J. Krupnik, country representative of CIMMYT in Bangladesh, was also present.
Salin Acharya is an assistant research associate with CIMMYT in Nepal. He joined in 2012 to work on cropping system research and farm mechanization for conservation agriculture.
Currently Acharya works on COVID recovery and resilience activity through access to finance for resource poor and marginal farmers, with the aim to support new and existing businesses.
Bharathi Parupalli is a training coordinator with CIMMYT in Bangladesh, leading the training team on mechanization work. Her work is affiliated with the Innovation Science for Agroecosystems and Food Systems in Asia research theme in CIMMYT’s Sustainable Agrifood Systems (SAS) program.
She supports overall management of the mechanization activity within the SAS program and has developed partnerships with national public and private sector players in the agriculture mechanization value chain, with special focus on capacity building. The team’s work highlights real-time tracking of development needs contributing to the increased productivity and sustainability.
Parupalli has also published training modules and manuals on sustainable vegetable production suitable for South and Central Asia.
South Asian countries may see fertilizers scarcity in the next crop cycle as a result of the conflict situation in Ukraine and Russia, cautioned Bram Govaerts, Director General of the International Maize and Wheat Improvement Centre (CIMMYT) and the Borlaug Institute for South Asia (BISA).
The triple threat of climate change, COVID-19 and the conflict between Ukraine and Russia is exacerbating the challenge of how to feed the world, explained Govaerts.
Policy changes had the potential to address the crises, but investing in research and innovation is a fundamental part of solving the current challenges.
Read more: Fertilizer scarcity may hamper crop cycle, cautions scientist
Bram Govaerts, Director General of the International Maize and Wheat Improvement Center (CIMMYT), underscored the need for collaboration to address the challenges of global food shocks, climate change and agricultural trade.
Speaking at a Strengthening AR4D in South Asia workshop on Thursday, September 1, Govaerts highlighted the work of CIMMYT’s Borlaug Institute of South Asia (BISA) project.
“The collaborative, inclusive approach of BISA (Borlaug Institute for South Asia) is more relevant than ever today. In an era when the challenges of food and nutrition insecurity — exacerbated by climate change, poverty, and inequality — cannot be solved by one sector,” he explained.
Read more: Fragile global food system calls for a collaborative approach
Punjab Chief Minister Bhagwant Mann met with experts from the International Maize and Wheat Improvement Center (CIMMYT) to promote crop diversification and use of Direct Sowing Rice (DSR) Basmati as part of the Borlaug Institute for South Asia (BISA) project.
In a meeting with CIMMYT Director General Bram Govaerts, water shortages were an integral part of the discussion. Mann encouraged use of BISA models across the state that require less water consumption than other methods, without impacting farmers’ income.
Mann also highlighted the potential of crops like maize, pulses, oilseeds, vegetables, bamboo, popular, and fruit such as guava and kinoo.
Read more: CM holds parleys with experts of BISA to give major push to crop diversification in the state
Hybrid seeds exhibit a significant potential to boost on-farm productivity and attain food security. Still, the availability, affordability and accessibility of such quality seeds remain a challenge for farmers in South Asia. Primarily driven by the demand from the poultry industry, maize productivity in the region is increasing annually. Yet, the hybrid maize seed coverage is below 50% in most South Asian countries.
In continuation of its capacity-building initiatives, the International Maize and Wheat Improvement Center (CIMMYT) conducted an International Training Workshop on Quality Hybrid Maize Seed Production and Seed Business Management in South Asia on August 15-18, 2022, in Kathmandu, Nepal. The four-day hybrid training was jointly organized by Nepal’s Seed Quality Control Center, Nepal Agricultural Research Council (NARC), Seed Entrepreneurs’ Association of Nepal and CGIAR’s Seed Equal Initiative. Primarily, the event aimed at strengthening the capacity of seed stakeholders on the latest advances in quality hybrid maize seed production and establishing competitive hybrid seed business strategies.
Around 60 participants comprising of private seed company owners, national and international seed system specialists, maize breeders, crop inspectors, seed agronomists, marketers, policymakers and researchers working in hybrid seed production and marketing attended the training. Representatives were invited from Nepal, India, Bangladesh and Pakistan.
Principal trainer, John MacRobert, shared examples and knowledge in the principles of hybrid maize seed production and seed business. Former principal scientist of CIMMYT, MacRobert is currently the managing director of Mukushi Seeds Pvt Ltd in Zimbabwe and director of Quality Seed Pvt Ltd in South Africa. The training also involved group discussions and exercises on preparing a seed road map as well as developing profitable seed business plans. The participants used a seed business model canvas tool to chart their production plans, develop marketing strategies and diagnose profit. In 2018, MacRobert trained 15 private seed companies from Nepal and Pakistan on hybrid seed business mentorship course in Kathmandu. Since then, the participants brought in and shared rich practical experiences from their own businesses and regulatory organizations during this year’s program.
Joining MacRobert were 14 national and international experts from CIMMYT and other institutions, who delivered sessions related to hybrid maize breeding principles and techniques, seed quality control measures and regulations, and variety registration and licensing policies and procedures.
The forum offered an excellent learning opportunity for the national and international participants to exchange knowledge and experiences from seed specialists on developing competitive hybrid maize and seed production technologies that will bring cost-efficiency in production and maximize crop yields and business profits. It also served as a ground for establishing networks and collaborations. The mutual learnings will contribute to building national and regional partnerships in the seed sector.
Participants reflected on the learnings and benefits gained from the comprehensive course, which they would apply to improve maize productivity in their respective countries.
Muhammad Aslam, assistant professor from the University of Agriculture Faisalabad in Pakistan, acknowledged the opportunity provided to him and his university. He mentioned the support of CIMMYT in Pakistan in strengthening the local maize seed industry, where the market share of local seed companies is gradually increasing due to the elite germplasm support and capacity development efforts by CIMMYT. He added that the practical knowledge gained from the training will enhance the university students’ skills.
An ode to seeds
During the closing session of the training, Govinda Prasad Sharma, Secretary of the Ministry of Agriculture and Livestock, handed over diverse maize seeds to the NARC and seven private seed company partners of the Nepal Seed and Fertilizer (NSAF) project. CIMMYT acquired the elite maize parental lines and breeder seeds from its international maize breeding hubs in Mexico, Zimbabwe, Colombia and India. The seeds have the potential of yielding 6-7 metric tons per hectare for synthetics and more than 10 metric tons for hybrids–a significant increase from 3-5 metric tons of local seeds. More importantly, given the current climate challenges Nepali farmers are facing, these climate-resilient seeds reach maturity earlier than local varieties which reduces their exposure to drought. These seeds will also withstand Fall Armyworm infestations, a devastating pest threatening maize production in Nepal.
“Genetic materials that will not only enhance yield but diversify the gene pool of crops in Nepal is extremely important,” said Lynn Schneider, deputy director of the Economic Growth Office at United States Agency for International Development (USAID) Nepal. “Agriculture must combat climate change and malnutrition, which are critical for the South Asia region. So, I am really proud that we are working on these areas,” shared Schneider.
“Food security is a priority for the Government of Nepal,” explained Sharma. He mentioned maize as an essential commodity from the food and feed perspective for South Asia and plans to collaborate with the private sector and donor organizations to increase maize productivity in the country. “The event will definitely help in augmenting the activities and accelerate the pathway towards achieving food and feed security,” he added.
Moreover, a certificate of appreciation was presented to Nepal’s National Maize Research Program to recognize their effective collaboration in hybrid maize varietal promotion and source seed distribution. Similarly, three partner seed companies of the project were also recognized for the breakthrough in becoming the first recipients of the Government of Nepal’s research and development license to register and produce hybrid seeds on a commercial basis.
CIMMYT also launched an assessment report on Cereal Seeds Value Chain in Nepal that provides evidence-based recommendations for developing Nepal’s formal cereal seed sector, specifically maize and rice. The publication highlights the need for a well-performing seed system where high-quality seeds of a wide range of varieties and crops are produced and available in time and affordable to farmers.
Deepak Bhandari, executive director of NARC, also congratulated the authors and expressed the significance of formulating and implementing inclusive strategies to build a vibrant seed industry in Nepal. He also acknowledged the event organizers for conducting an exceptional international workshop on hybrid maize seeds for the public and private seed stakeholders.
Cover photo: Training attendees gather to discuss competitive hybrid maize seed production technologies and build relationships with seed systems professionals. (Credit: Bandana Pradhan/CIMMYT)
Subash Adhikari is an agricultural machinery engineer in CIMMYT’s Cereal Systems Initiative for South Asia (CSISA) project in Nepal, which aims to strengthen cereal systems through using improved technology in seed variety, management and mechanization. The project is currently working on its Covid response, helping returned migrants and vulnerable and marginalized groups to access the financial and technical assistance necessary for their livelihood in agriculture production.
Adhikari started his career as a field research technician and conducted several research projects on the validation of agricultural machinery in Terai, Nepal. He later worked in the promotion and scaling of the machinery.
Adhikari is currently working to involve the private sector as a major partner in promoting technology and developing mechanics for repairing machinery with minimum help from the development project. He is interested in mapping machinery, photography and work management.
The Excellence in Agronomy for Sustainable Intensification and Climate Change Adaptation Initiative launched in east and southern Africa on July 28-29 in Addis Ababa, Ethiopia, at a workshop with panel discussions and ideation sessions to determine key actions for the project.
The Initiative aims to deliver agronomic gain at scale for millions of smallholder farming households in prioritized farming systems, with emphasis on supporting women and young farmers, to demonstrate measurable impact on food and nutrition security, income, water use, soil health and climate resilience.
Co-creation of agricultural solutions with farmers is integral to the Initiative through the engagement of modern tools, digital technologies, and behavioral science.
At the workshop, participants created a shared understanding of the Initiative’s goals for the region, laid groundwork for in-country planning and implementation, and increased visibility of the Initiative. Attendees agreed on the need to reevaluate beyond the boundaries of traditional agronomic practices and microeconomic challenges, considering policies at national and regional levels.
Combining expertise from across CGIAR research centers, private sector actors and government agriculture departments, the Initiative takes a data-based approach to offer demand-driven solutions. This was of particular appeal to Eyasu Elias, deputy minister at Ethiopia’s Ministry of Agriculture, who described the approach as “truly commendable” in comparison to conventional supply-driven approaches.
Elias, who was represented by a delegate at the event, highlighted Ethiopia’s current three priorities: managing acid soils; managing Vertisols so they utilize their natural productive potentials; and adopting practices that mitigate the formation of salt-affected soils.
“Attaining food security will be a tremendous challenge under current conditions,” explained Elias’ representative. “More than ever, we need innovative agronomic solutions that enhance nutrient use efficiencies; we need solutions that can be crafted from locally available alternatives. Collaborations that allow co-creation, co-design and participatory technology generation along these lines are appreciated from our end.”
Rudriksha Rai Parajuli is a Technical Partnerships Manager with CIMMYT’s Cereal Systems Initiative for South Asia (CSISA) project in Nepal. She has worked in the areas of farm-based agriculture research, extension, and adoption of sustainable soil management practices.
Parajuli’s professional experience is on building resilience of farmers in rural parts of Nepal whose livelihoods depend on agriculture and forest. She has worked on mainstreaming gender and social inclusion in development activities, and has extensive experience of leading policy influence and policy reform work with the Nepal Government and with non-government stakeholders.
At CIMMYT, Parajuli oversees implementation of the CSISA program, looking specifically at the adoption of mechanization, inclusion of poor and disadvantaged populations, and access to finance for individuals and small and medium agri-business who want to recover business lost to the COVID-19 pandemic.
Published in Nature Scientific Reports, a new study describes an innovative method to assess the reach and impacts of knowledge and partnerships created as part of the work of research-for-development organizations.
It uses text mining and the analysis of social networks and hyperlinks to draw inferences from publicly available digital sources, including institutional repositories, scientific databases, and social media.
“The method can uncover narratives, dynamics, and relationships that are hidden from traditional bibliometric analyses,” said Tek Sapkota, a cropping systems and climate change specialist at the International Maize and Wheat improvement Center (CIMMYT) and co-author or the study, which also involved the University of Coimbra, Portugal, and the University of Molise, Italy.
“Nearly 90 percent of CIMMYT’s research is related to climate change and its impact on food systems and vice-versa, so we assessed that to illustrate our new, web-based analytical framework. This novel approach can help research-for-development organizations to leverage online data and measure their impact.”
Read the full study: Digital artifacts reveal development and diffusion of climate research
Cover photo: Twitter mentions network for the International Maize and Wheat Improvement Center official account (@CIMMYT). (Credit: Nature Scientific Reports)
The eastern Indo-Gangetic plains (EIGP) have a higher density of rural poverty and food insecurity than any other region. The region’s intensive rice-wheat cropping system has large yield gaps, which are far higher than anywhere in South Asia, coupled with an increasing environmental footprint due to conventional agricultural practices.
To sustainably enhance cereal crop productivity and improve smallholder farmers’ livelihoods in Bangladesh, India, and Nepal, the Cereal Systems Initiative for South Asia (CSISA), a science-driven and impacts-oriented regional project led by the International Maize and Wheat Improvement Center (CIMMYT), was launched in 2009.
Over the years, working with public and private partners, CSISA has helped smallholder farmers increase their yield and supported widespread adoption of resource-conserving and climate-resilient farming technologies and practices. Through three phases from 2009 to 2021, the project impacted nearly 8.5 million farmers (mainly smallholders) through its research and agri-system innovation interventions.
A new three-and-a-half-year commitment in India by the Bill & Melinda Gates Foundation reinforces the project’s importance and value in reducing food insecurity and improving overall agri-food systems in the region.
“CSISA, over more than a decade, has built up a strong multi-institutional, interactive, and participatory team at all levels in the region,” said Peter Craufurd, project leader of CSISA in India. “It has developed competencies and skills that include problem-solving agronomy research, cross-cutting tools and analytics, policy reform, and capacity development to strengthen cropping systems for smallholder farmers in the region.”
The overarching objective of CSISA 4.0 is to transform how agronomic research and extension are implemented and embedded in decision-making and policy processes, primarily in India, where CSISA has the most experience and influence. Phase 4.0 will leverage the investments made in India in the third phase and focus on institutionalizing interventions through partnerships with the national and state agricultural systems, including on-ground strategic partnerships with civil society and the private sectors. According to Craufurd, Phase 4.0 will further strengthen the pathways established and scale the impact, particularly the institutional research and development capacity and strategic partnerships thus far established in India, through its seven focussed work areas, including gender empowerment.
“We are confident of our strong partnership with the national systems led by the Indian Council of Agricultural Research (ICAR) to support Indian farmers with improved yield and productivity,” said R.K. Malik, CSISA India coordinator. “Over the last decade, CSISA has built a strong track record for agronomy at scale that can help transform agri-research delivery systems in the region. There is also the opportunity to make CSISA outputs and products portable or useable for other stakeholders addressing food insecurity in the region in the future.”
Implemented jointly with CGIAR partners the International Rice Research Institute (IRRI) and the International Food Policy Research Institute (IFPRI), the initiative has been a successful regional approach to impactful agronomy programming. The CSISA team hopes to continue supporting the smallholder farmers in the region to optimize yield and contribute to the region’s food security.
For certified seed to reach a farmer’s field for cultivation, it passes through many hands – international and national breeding programs, government regulatory agencies, private seed companies, and retailers or agrodealers. These organizations each play an important role in the design, testing, production and distribution of improved maize and wheat varieties.
Together, these processes, actors, and the relationships between them form a seed system, which incorporates the production, conservation, exchange, and use of propagation materials for crops. As defined by the CGIAR Community of Excellence for Seed Systems Development (COE), seed systems are complex, involving arrangements between public and private sectors, layers of regulation, and years of research and development, and are specific to each crop, country, agroecological environment and market context.
The International Maize and Wheat Improvement Center (CIMMYT) has extensively researched and worked with the facets and actors of cereal seed systems in Latin America, Asia and Africa, specifically in relation to cereal crops, and with maize and wheat in particular.
The role of CIMMYT scientists in supply and demand
Breeding teams use traditional and advanced techniques to identify improved maize and wheat breeding lines according to the desired traits determined by farmers and consumer markets. In addition to higher grain yields, other preferred traits include more and larger grains or fruit, resistance to pests and diseases, tolerance to environment pressures (such as drought or poor soils), better nutritional quality, or flavor and ease of processing.
These lines are used for further breeding, testing, seed multiplication by public and private sector partners. Others engage in varietal testing on farmers’ fields and support seed companies in production.
To foster smallholder farmers’ access to these improved varieties, CIMMYT implements a seed systems strategy divided into supply side development, concerning breeding and seed production, and demand side development, covering issues related to variety distribution and uptake. On the supply side, CIMMYT scientists’ work is carried out in three phases:
On the demand side, CIMMYT scientists work to support seed systems development though its work on:
Gender-sensitive seed systems
A team of social scientists at CIMMYT with expertise in economics, gender and marketing works to understand the needs and preferences of farmers, consumers, and the agroindustry for new varieties. They develop retail strategies, such as targeted marketing, in-store seed assessment support and price incentives, promote the adoption of better policies in support of seed companies and seed markets.
CIMMYT explores mechanisms to help seed companies adapt their products to women’s preferences. Research shows that beyond yield potential, women seek different characteristics in seeds than men. For example, women are more inclined to favor a variety with a longer grain shelf life. Similarly, when women engage in participatory variety selections, they tend to make more objective evaluations of varieties than men.
Our experts advance strategies to promote inclusive and effective delivery systems, helping both female and male farmers obtain the seed that works best for their specific needs. This ongoing model gives CIMMYT feedback from farmers and public and private sector partners, which informs subsequent breeding research.
Why are cereal seed systems important?
CIMMYT contributes to new improved seeds getting to farmers, consumers and agroindustry, which ultimately leads to lasting positive impacts in terms of food security and economic development.
Cereals such as maize and wheat play a critical role in global food security. Increasing their productivity in the Global South remains a key developmental priority. Smallholders face increasing pressure to sustain and increase their yields in the face of three main issues: climate change, which increases the frequency of severe drought, floods, and pest and disease outbreaks; rapidly rising costs of inputs, such as land, labor, fertilizer; and unfavorable marketing conditions for their grain.
As a critical entry point for improved agricultural technology, seed systems are in urgent need of improvement and modernization. Since the onset of the Green Revolution in the 1960s, the discovery, development, and delivery of improved seed for smallholder farmers has remained an essential part of global and local initiatives to increase smallholder productivity.
What does a sustainable, inclusive, and productive seed system look like?
For the future, there are serious challenges for expanding and deepening the impact from investments in breeding. Market intelligence systems are urgently needed to support breeding teams in future product design and evidence-based prioritization. Innovation is needed in terms of how actors within the systems inform and support farmers to experiment with new seeds.
CIMMYT is working with CGIAR partners to implement a new, 10-year strategy. Effective seed systems achieve the widespread adoption of varieties that capture the gains from crop improvement and connect actors along the value chain so that all can benefit from a productive crop, from seedbank to soil. In close collaboration with national agricultural research systems (NARS), CGIAR has had historic success introducing improved cultivars to smallholder producers of staple crops, with high return on investment. However, there is still some standing criticism that large, public breeding programs take a technologically-biased and supply-pushed approach to agricultural innovation.
Cereal crop breeding programs can become more demand-oriented by employing more market segmentation strategies – breaking down target client markets into smaller, more geographically and demographically specific groups – and developing a more accessible description and profile of its products. Using similar approaches, CGIAR is likely to expand demand-oriented programs in genetic innovation and seed systems development in the new phase of operations.
Cover photo: Staff members bag maize at the Demeter Seeds warehouse. (Photo: Emma Orchardson/CIMMYT)