Md. Fazlul Karim is a machinery development officer with CIMMYT’s Sustainable Agrifood Systems (SAS) Program in Bangladesh. He completed an undergraduate and masters degree at Bangladesh Agricultural University in agricultural engineering and technology, with a major in farm power and machinery.
After that, Karim worked as an agricultural engineer under the Government of Bangladesh Enhancement of Crop Production through Improved On-Farm Water Management Technologies project, working in the Department of Agricultural Extension.
In addition, Karim has experience in conducting training for farmers at the Farmers Field School, organizing field days for machinery (including combine harvesters, reapers, rice transplanters and bed planters), supervising and monitoring project works, and providing technical support to beneficiaries.
Md. Rokonnuzzaman Rokon is a machinery development officer with CIMMYT’s Sustainable Agrifood Systems (SAS) program in Bangladesh. He graduated from Hajee Mohammad Danesh Science and Technology University in 2014 with a degree in agricultural engineering, before completing a masters in irrigation and water management at Bangladesh Agricultural University.
After finishing his masters, Rokon joined Solargao Ltd as an assistant engineer to a solar irrigation project, before becoming a lecturer at the Government Shahid Akbar Ali Science and Technology College. He joined CIMMYT in 2022.
Mohammad Shahidul Islam is an agricultural development officer with CIMMYT’s Sustainable Agrifood Systems (SAS) program in Bangladesh.
After graduating in agricultural science, Islam completed a masters in agronomy. He started his professional life with the Palli Karma Sahayak Foundation (PKSF) as a technical officer focusing on poverty reduction, rural service market development, and capacity development.
Islam has been with CIMMYT since 2014 and has a decade worth of experience in agricultural research and development, providing technical and/or management to support the design and implementation of project strategies considering agriculture mechanization, livelihoods, food security, and the empowerment of women. In addition, he has expertise in knowledge management, capacity building, integrated development communications and advocacy to develop and scale-up innovations, using people-centered and community-based development approaches to sustain against climate change penalties that develop their socio-economic condition.
A. N. M. Arifur Rahman is a machinery development officer with CIMMYT’s Sustainable Agrifood Systems (SAS) program in Bangladesh. He is currently working within the agricultural machinery and light engineering sector and is proud to be a member of the CIMMYT family.
Before joining CIMMYT, Rahman worked with Rangpur Dinajpur Rural Service (RDRS) Bangladesh under European Union funded projects and with ACI Motors on agricultural machinery, research and development, extension, scaling up mechanization, value chains and market systems.
Rahman is a proud agricultural engineer, graduated from the Bangladesh Agricultural University with a major in farm power and machinery. He has three national publications on agricultural machinery and additional experience in training, climate smart mechanization, people with disabilities, gender, and emergency responses on floods or natural disasters.
K.M. Zasim Uddin is an agricultural development officer with CIMMYT’s Sustainable Agrifood Systems (SAS) program in Bangladesh. He has a masters in agronomy from Rajshahi University
He is part of projects including the Cereal Systems Initiative for South Asia (CSISA), Fall Armyworm R4D and Management (FAW), Big data analytics for climate-smart agricultural practices in South Asia (Big Data² CSA), and Climate Services for Resilient Development in South Asia (CSRD). His main responsibilities are research and development on agricultural mechanization for the CSISA Mechanization and Extension Activity (CSISA-MEA). He has participated in versatile training, workshops and conference programs across Asia.
Uddin has worked in different national and international non-government organizations and companies for more than 13 years, including in research and development at Syngenta Bangladesh Limited and on the Borga Chasi Unnayan Program at BRAC. He also worked as an agriculture officer under the Char Livelihood Program, funded by the United Kingdom Department for International Development.
Md. Abdul Mabud is a plant pathologist (mycology) working as an agricultural development officer with CIMMYT’s Sustainable Agrifood Systems (SAS) program in Bangladesh. He carries out research and extension work within maize and wheat-based cropping systems with a focus on different innovative crop management practices and technologies, such as agricultural mechanization, better bet agronomy, and conservation agriculture techniques.
He started his professional life in livelihood development projects and directly worked for organizations supporting children, adolescent women, new mothers, and marginal farmers in rural communities in agricultural development to improve their livelihoods. Mabud also worked on the Food Security for Sustainable Household Livelihood (FoSHoL) project implemented by Action Aid, the Livelihoods Empowerment & Agroforestry (LEAF) project implemented by Intercooperation, the Social & Economic Empowerment of Ultra Poor (SEEUP) project implemented by NETZ & BMZ, and the Sustainable Household Ability to Respond to Development Opportunities (SHOUHARDO) project implemented by CARE.
Azahar Ali Miah is a senior monitoring, evaluation and learning officer with CIMMYT’s Sustainable Agrifood Systems (SAS) project in Bangladesh.
Before joining CIMMYT in 2009, he worked with different development organizations, including projects funded by the World Bank, the Norwegian Agency for Development Cooperation (NORAD), the United Kingdom Department for International Development, the Bill & Melinda Gates Foundation and the United States Agency for International Development (USAID). He also has six years’ experience in the Bangladesh Army.
Miah has a strong ability to identify community strengths and weaknesses from field data collections. He is an excellent team builder and motivator with honed communication and analytical thinking skills. He has seven publications in national and international journals, and is an agricultural economist with an MBA.
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.
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.
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.
Mizanur Rahman is a Monitoring, Evaluation, and Learning Officer with the Sustainable Agrifood System (SAS) program’s Innovation Sciences in Agroecosystems and Food Systems theme across Asia. His role involves developing and implementing logical and conceptual data flows for analytical processes supporting decision-making at the project and donor level. He has more than 18 years of progressive experience with 12 years in research, monitoring, and evaluation.
Maize grain aggregator invests in developing storage for coping with increased grain production. (Credit: Aayush Niroula/CIMMYT)
Him Lal Neupane has been in the business of agriculture for more than a decade. His company Annupurna Suppliers, in Banke District, Nepal, trades in agri products and has an annual turnover of around $626,000, up from $195,000 eight years ago.
Recently, Neupane has been heavily investing in maize. He says involvement from the International Maize and Wheat Improvement Center (CIMMYT) in market strengthening has given him the confidence to go big on the crop. He encountered CIMMYT through the meetings led by the organization in the district, as part of its Nepal Seed and Fertilizer (NSAF) project. In the meetings, he was able to hear perspectives on maize production from leading market experts, as well as government officials. Getting direct access to high level government representatives and agricultural scientists was incredibly fruitful and raised his confidence to invest in maize. He also got to air his own grievances about the industry and learn more from other farmers.
“I learnt that the project was invested in training farmers to produce better quality maize,” said Neupane. “If we get quality products from farmers, I immediately deduced that there is a great chance that the product will keep doing well in the market.”
Neupane’s confidence in investing in maize has increased thanks to market strengthening from CIMMYT. (Credit: Aayush Niroula/CIMMYT)
In 2022, Neupane bought a truck and has been constructing a massive storage facility that can store up to 4 million kilograms of produce. He has plans for proper grading and drying of maize in the facility to sell to industrial buyers.
The majority maize in Nepal is used as feed for the poultry industry, so there is high value for the crop in the market. “Since Nepal is a big consumer of poultry products and will remain so, it is inevitable that locally produced maize will sell,” explained Neupane.
Neupane went into agriculture because he could not secure employment after completing higher education. He grew up learning and practicing farming, so he understood farmers’ plights and wanted to start a company that would improve their lives. He also wants to grow the industry to curb the country’s maize import dependence, which has been affected by recent disruptions like the Ukraine conflict and the pandemic. Annually, Nepal imports around $120 million worth of maize, which depletes the country’s foreign currency reserves.
CIMMYT’s efforts in developing the maize market through value chain coordination and private public partnerships intend to help stakeholders at every level of the industry, from farmers to suppliers like Neupane, whose company’s growth represents a strong reinforcement of confidence in domestic maize production.
Over the years, wheat-based foods have increasingly been incorporated as part of Kenyan meals. One example is packaged bread, which has become a common feature on Kenyan breakfast tables with millions of loaves from industrial bakeries delivered to retail shops daily, countrywide. Another example is chapati — a round unleavened flat bread. Once reserved for special occasions, chapati can now be purchased from roadside venders throughout the capital Nairobi.
Millers and processors in Kenya are highly dependent on imported wheat to meet the strong demand for wheat-based food products. The conflict between Russia and Ukraine, two of the most important sources of imported wheat for Kenya, presents a major threat to millers and industrial bakeries. Prices for bread and chapati are increasing and may continue to increase. Governments and wheat-related industries are looking at short- and long-term options to reduce utilization of imported wheat. One short-term option is the blending of wheat flour with flour derived from locally available crops, such as cassava, millet or sorghum.
Record-high price of wheat
A sign at a flour mill in East Africa shows proportions of wheat from different origins (Argentina, Russia, Ukraine and local) used in that particular day’s production. (Photo: Alison Bentley/CIMMYT)
A visit to local industrial bakeries and wheat flour millers on the outskirts of Nairobi by International Maize and Wheat Improvement Center (CIMMYT) researchers confirmed the effects of record-high global prices of wheat. Global Wheat Program director Alison Bentley and senior economist Jason Donovan had conversations with leaders of industrial bakeries and millers, who gave insights into their grain demands, production processes and sales volumes.
One of the leaders of an established industrial bakery divulged that they use approximately 15,000 tons of wheat flour monthly to make baked products, with only 10% of the wheat obtained locally.
“In the last ten years, local wheat production has comprised about ten to fifteen percent of our cereal mixture for bread, and we were already paying higher prices to farmers compared to import prices. The farmers were already being paid about 30 to 40 dollars more per ton,” a manager of a large baking industry in Kenya explained to the CIMMYT team.
According to government regulations, millers and bakeries must purchase locally produced wheat at agreed prices before they can buy imported wheat. He agreed that though the quality of local wheat is good, the local production cannot compete with the higher volume of imported wheat or its lower price.
Growing wheat in East Africa
It has been more than four months since the Russia-Ukraine conflict unfolded, and since then prices of wheat-based products have been increasing significantly. The current crisis has sparked the debate on low levels of self-sufficiency in food production for many countries. And this is especially the case for wheat in Kenya, and more widely in Africa.
Bentley points out that the biophysical conditions to produce wheat in East Africa are present and favorable. However, more work is needed to strengthen local wheat production, starting with efficient seed systems. Farmers who are interested in growing wheat need access to high performing and stress-tolerant wheat varieties.
CIMMYT Global Wheat Program director, Alison Bentley, observes the bread making process at an industrial bakery on the outskirts of Nairobi, Kenya. (Photo: Susan Otieno/CIMMYT)
Practical response to the crisis
With no certainty as to how long the conflict will continue and climate change resulting in significant crop loss in key production zones, wheat shortages on international markets could become a reality. Blending of wheat flour with locally available crops could be an option as an immediate response to the current scarcity of wheat in East Africa. “Blending [flour] is when for instance five percent of wheat flour is replaced with flour from a different crop such as sorghum or cassava,” Bentley explained.
Donovan added that, though it might seem like a small number, it becomes significant in consideration to the volume of wheat that industries use to make different products, translating into thousands of metric tons. He noted that blending flour therefore has the potential to create a win-win situtation, because it can boost the demand for local crops and address uncertainty and price volatility on international wheat markets.
Consumer acceptance of new products
Different types of flour on supermarket shelves in Kenya. (Photo: Pieter Rutsaert/CIMMYT)
During a full week of engagements with universities, partners, and industry experts in Kenya, the CIMMYT team explored the current interest of the sector in blending wheat flour. Several partners agreed that this could be a potential way forward for the grain industry but all highlighted one key element: the importance of consumer acceptance. If the functionality of the flour or taste would be negatively influenced by blending wheat flour, it would represent a no-go from the industry, even if blends would have higher nutritional benefits or lower prices. “This reinforces the need to understand consumer preferences and evaluate both the functionality of the flour to produce essential food products such as chapati or bread as well as the taste of those products,” Pieter Rutsaert explained.
CIMMYT researchers Sarah Kariuki and Pieter Rutsaert, both Markets and Value Chain Specialists, and Maria Itria Ibba, Head of the Wheat Quality Lab, are therefore engaging with local millers and universities in Kenya to design bread and chapati products derived from different wheat blends, to include blends comprised of 5%, 15% and 20% of cassava or sorghum. Lab testing and preliminary consumer testing will be used to identify the most promising products. These products will be taken to the streets in urban and peri-urban Nairobi to assess consumer tastes and preferences, through sensory analysis and at-home testing.
The market intelligence gained will offer foundational support for CGIAR’s Seed Equal Initiative to accelerate the growth of a demand-driven seed system. By gathering and analyzing consumer preferences on selected crops for blending, such as from farmers and milling industries, Donovan pointed out that CGIAR breeding will continue to make informed choices and prioritize breeding for specific crops, that seek to address specific challenges, therefore having greater impact.
Donovan noted that data and information from the studies will provide much needed evidence and fill information gaps that will support governments, millers, processors and farmers to make decisions in response to the evolving wheat crisis.
Wheat at a CIMMYT field trial. (Photo: H. Hernandez Lira/CIMMYT)
As the Russia-Ukraine war continues to degrade global food security, a new analysis lays out concrete actions that governments and investors must do now to mitigate near-term food security risks and stabilize wheat supplies, while transitioning toward long-term resilience.
“The Russia-Ukraine war will impact global food security over months — if not years,” said CIMMYT Global Wheat Program Director and lead author Alison Bentley. “We now need to move beyond defining the problem to implementing practical actions to ensure stable supply, safeguard the livelihoods of millions of vulnerable people and bring resilience to our global agrifood system.”
The war in Ukraine and trade sanctions against Russia are triggering a level of volatility that could easily overwhelm existing mitigation mechanisms. More than 2.5 billion people worldwide consume wheat-based foods; those in lower- to middle-income countries dependent on imports from Russia and Ukraine are particularly affected. Some of the world’s poorest countries, such as Bangladesh, Sudan and Yemen, rely heavily on Russian and Ukrainian wheat. Given the highly interconnected nature of contemporary agrifood systems, few will remain unaffected by this new global food shock.
Mitigate the immediate crisis
The first priority, according to the authors, is to mitigate the immediate crisis by boosting wheat production in existing high- and low-productivity areas, ensuring grain access and blending wheat flour with other low-cost cereals. Bundled agronomic and breeding improvements and sustainable farming practices can reduce dependence on imported grain and fertilizer, while coordinated, multilateral policies can help conserve grain stocks for human consumption and avert trade restrictions.
Increase the resilience of wheat supply
In the medium term, the authors emphasized the need to increase the local, regional, and global resilience of the wheat supply. This can be done by expanding production within agro-ecological boundaries, supporting national wheat self-sufficiency and providing technical assistance, to increase the production of high-yielding disease-resistant wheat and to mainstream capacity for pest and disease monitoring.
Transition to system-level resilience
Finally, to reach crucially needed resilience in the world’s agrifood system, long-term measures must be taken that encompass agroecosystem diversity, address gender disparities in agriculture and rural communities and sustain increased investment in a holistic, agrifood transition.
“The current global food crisis underscores and compounds existing inequalities in our global food system,” Bentley said. “A transition to agrifood system resilience requires us to urgently balance global food supply needs with the multi-layered challenges of climate change, achieving gender equity, nutritional sufficiency and livelihood security.”
The International Maize and Wheat Improvement Center (CIMMYT) is an international organization focused on non-profit agricultural research and training that empowers farmers through science and innovation to nourish the world in the midst of a climate crisis.
Applying high-quality science and strong partnerships, CIMMYT works to achieve a world with healthier and more prosperous people, free from global food crises and with more resilient agrifood systems. CIMMYT’s research brings enhanced productivity and better profits to farmers, mitigates the effects of the climate crisis, and reduces the environmental impact of agriculture.
CIMMYT is a member of CGIAR, a global research partnership for a food secure future dedicated to reducing poverty, enhancing food and nutrition security, and improving natural resources.
Jannatul Ferdous Asha is a Machinery Development Officer working with CIMMYT’s Sustainable Agrifood Systems (SAS) program in Bangladesh. She joined CIMMYT in 2019.
Asha completed an undergraduate degree in agricultural engineering and a masters degree in farm power and machinery at Bangladesh Agricultural University.
