Amidst the transition to One CGIAR and COVID-19 lockdowns, the worldâs leading maize and wheat research organizationâs community found the time to slow down and weigh the successes and bottlenecks of this complicated year. More than 400 people spread across the International Maize and Wheat Improvement Centerâs (CIMMYT) 13 offices worldwide gathered for an all-staff virtual event to close 2020.
Aided by world-renowned economist Jeffrey Sachsâ vast experience in detangling global crises, sustainable development and poverty alleviation, staff reflected on the role they play within CGIAR and in helping CIMMYT increase its impact on nutrition security, poverty alleviation and a better world.
Connecting from his home in New York, Sachs urged CGIAR to see beyond the research priorities it set out to accomplish a half a century ago. With the 50th anniversary of CGIAR in 2021, Sachs encouraged CGIAR to think about the research priorities for the next 50 years. âWe’re confronting a probably more systemic and even more complex set of challenges in food in 2021, than perhaps was the case in 1971,â he said.
âWe need to expand the research agenda beyond the still-important focus on improved yields and varieties to consider the food system holistically. Our goal is a global food system that enables healthy diets, sustainable land use, resilience to environmental change, and good livelihoods for farm families.â
âOur goal is a global food system that enables healthy diets, sustainable land use, resilience to environmental change, and good livelihoods for farm families.â
Albeit not as famous as its colleague organizations the Food and Agriculture Organization of the UN (FAO) and the World Food Programme (WFP), CGIAR has been called âessential to feeding our futureâ by Bill Gates. Sachs echoed this sentiment and urged CGIAR to embrace its vital role in âachieving sustainable agriculture and healthy diets for all.â
The next 50 years
As CIMMYT moves into One CGIAR, it will capitalize on its over 50 years of experience, impact and expertise in genetic innovations, systems transformation and tools for resilient agri-food systems and fully embrace One CGIARâs mission of delivering science and innovation that advance transformation of food, land and water systems in a climate crisis.
Throughout 2020, COVID-19 and global conflicts have put an almost impossible pressure on already overwhelmed agricultural production, smallholdersâ livelihoods and global supply chains. As with any system, it requires resilience for its long-term sustainability. âOf course, CGIARâs central goal has been to anticipate the future needs of food production and areas of new resilience such as flood resilience or drought,â said Sachs.
âI would add [for its future strategy to also consider] resilience to social disruptions and disruptions to global supply chains, as we experience with COVID-19 but also with geopolitical tensions,â he advised.
Jeffery Sachs quoted at CIMMYT’s virtual event in December 2020. (Graphic: CIMMYT)
Keeping cereals in the equation
While diversification is important to human diets and the sustainability of agricultural production, we cannot afford to ignore the major cereals. Maize, rice and wheat provide a basic nutritional value, macro- and micronutrients that many people across the globe can afford and access.
Sachs asked CGIAR to look deeply at the question of poverty and food poverty, both in rural and urban areas. âCGIAR has more knowledge of how smallholders are living and how their lives are changing than any other research institution in the world. And I think your work can therefore give tremendous guidance on the overall fight against poverty and on the anticipation of increased urbanization in future years, as agriculture becomes more mechanized, and as smallholders or the children of today’s smallholders leave for urban areas in the coming generation.â
âCGIAR has more knowledge of how smallholders are living and how their lives are changing than any other research institution in the world. And I think your work can therefore give tremendous guidance on the overall fight against poverty.â
Sachs acknowledged the large and important task that CGIAR faces in its future. âAll of this is incredibly difficult. [âŠ] I find the food system challenges to be the most complex of all of the sustainability challenges we face.â
He spoke of the task at hand with urgency and that there is no greater intellectual challenge than the transformation to sustainable agriculture: âThe role of the CGIAR will be unique and indispensable in helping to guide us through those transformations. I think this is the indispensable time for the CGIAR to lay out its new research agenda for the next 50 years to be the one that helps us to achieve the Sustainable Development Goals and the Paris Climate Agreement.â
Natalia Palacios, Maize Quality Specialist at CIMMYT, spoke about the center’s work in Colombia and the future of maize production in the program ‘Tierra de Sueños’ (Land of Dreams).
At present, nearly half of the worldâs population is under some form of government restriction to curb the spread of COVID-19. In Bangladesh, in the wake of five deaths and 48 infections early in the year, the government imposed a nationwide lockdown between March 24 and May 30, 2020. Until April 17, 38 of the countryâs 64 districts were under complete lockdown.
âWhile this lockdown restricted the spread of the disease, in the absence of effective support, it can generate severe food and nutrition insecurity for daily wage-based workers,â says Khondoker Mottaleb, an agricultural economist based at the International Maize and Wheat Improvement Center (CIMMYT).
Of the 61 million people who make up Bangladeshâs employed labor force, nearly 35% are paid daily. In a new study published in PLOS ONE, Mottaleb examines the food security and welfare impacts of the lockdowns on these daily-wage workers â in both farm and non-farm sectors â who are comparatively more resource-poor in terms of land ownership and education, and therefore likely to be hit hardest by a loss in earnings.
Using information from 50,000 economically active workers in Bangladesh, collected by the Bangladesh Bureau of Statistics (BBS), the study quantifies the economic losses from the COVID-19 lockdowns based on daily-wage workersâ lost earnings and estimates the minimum compensation packages needed to ensure their minimum food security during the lockdown period.
Using the estimated daily wage earnings, the authors estimate that a one-day, complete lockdown generates an economic loss equivalent to $64.2 million. After assessing the daily per capita food expenditure for farm and non-farm households, the study estimates the need for a minimum compensation package of around $1 per day per household to ensure minimum food security for the daily wage-based worker households.
In May 2020, the Government of Bangladesh announced the provision of approximately $24 per month to two million households, half of whom will receive additional food provision. While this amount is in line with Mottalebâs findings, he stresses than this minimum support package is only suitable for the short-term, and that in the event of a prolonged lockdown period it will be necessary to consider additional support for other household costs such as clothing, medicine and education.
âWithout effective support programs, the implementation of a strict lockdown for a long time may be very difficult, if poor households are forced to come out to search for work, money and food,â explains Mottaleb. âIn the event of a very strict lockdown scenario, the government should consider issuing movement passes to persons and carriers of agricultural input and output to support smallholder agriculture, wage workers and agricultural value chains.â
When we talk about the impact of agricultural research we often rely on numerical metrics: percent increase in yield, percent decrease in crop loss, adoption rates, etcetera. For farmers on the ground, however, the impact can be much harder to boil down to a few numbers. Hiding behind every statistical table are real stories of dreams dashed or fulfilled, of everyday people trying to survive and flourish.
A new educational video powerfully dramatizes this point through the story of Jamal Mia and his daughter Rupa. Jamalâs dreams to own a house and see Rupa enroll in college are threatened when his maize crop is attacked by fall armyworm. An encounter with an agricultural extension officer puts Jamal on track to tackle the infestation, save his crop and secure his familyâs wellbeing.
The video was developed by CIMMYT with support from Bangladeshâs Department of Agricultural Extension and the Bangladesh Wheat and Maize Research Institute (BWMRI), as part of a project titled “Fighting back against fall armyworm in Bangladesh.â Supported by USAID’s Feed the Future Initiative and Michigan State University, this CIMMYT-led project works in synergy with the Cereal Systems Initiative for South Asia (CSISA) and with national partners to mitigate the impact of this invasive pest on smallholder farmers’ livelihoods.
The video was filmed in Dinajpur district, Bangladesh, and is available in Bangla with English captions.
Stakeholders in the Accelerating Genetic Gains in Maize and Wheat for Improved Livelihoods (AGG) project have pledged to strengthen efforts to deliver desirable stress tolerant, nutritious and high-yielding maize and wheat varieties to smallholder farmers in a much shorter time. The alliance, comprising funders, national agricultural research systems (NARS), private seed companies, non-governmental organizations, the International Maize and Wheat Improvement Center (CIMMYT) and, for the maize component the International Institute for Tropical Agriculture (IITA), made these assurances during virtual events held in July and August 2020, marking the inception of the 5-year AGG project.
The initiative seeks to fast-track the development of higher-yielding, climate resilient, demand-driven, gender-responsive and nutritious seed varieties for maize and wheat, two of the worldâs most important staple crops. The project is funded by the Bill & Melinda Gates Foundation, the Foreign, Commonwealth & Development Office (FCDO), the U.S. Agency for International Development (USAID), and the Foundation for Food and Agriculture Research (FFAR).
Tackling current and emerging threats
Jeff Rosichan, scientific program director of the Foundation for Food and Agricultural Research (FFAR), acknowledged the significant and ambitious aim of the project in tackling the challenges facing maize and wheat currently and in the future. âWe are seeing the emergence of new pests and pathogens and viral diseases like never before. A lot of the work of this project is going to help us to tackle such challenges and to be better prepared to tackle emerging threats,â he said.
AGG builds on gains made in previous initiatives including Drought Tolerant Maize for Africa (DTMA), Improved Maize for African Soils (IMAS), Water Efficient Maize for Africa (WEMA), Stress Tolerant Maize for Africa (STMA) and Delivering Genetic Gain in Wheat (DGGW), with support from partners in 17 target countries in sub-Saharan Africa (SSA) and South Asia.
Hailu Wordofa, agricultural technology specialist at the USAID Bureau for Resilience and Food Security, underscored his expectation for CIMMYTâs global breeding program to use optimal breeding approaches and develop strong collaborative relationships with NARS partners, âfrom the development of product profiles to breeding, field trials and line advancement.â
Similarly, Gary Atlin, senior program officer at the Bill & Melinda Gates Foundation lauded the move toward stronger partnerships and greater emphasis on the CIMMYT and IITA breeding programs. âThe technical capacity of partners has increased through the years. It is prudent to ensure that national partnerships continue. It is always a challenging environment, this time multiplied by the COVID-19 crisis, but through this collaboration, there is a greater scope to strengthen such partnerships even more,â he said.
Anne Wangui, Maize Seed Health Technician, demonstrates how to test maize plants for maize dwarf mosaic virus (MDMV). (Photo: Joshua Masinde/CIMMYT)
Symbiotic partnerships with great impact
âFrom the NARS perspective, we are committed to doing our part as primary partners to deliver the right seed to the farmers,â said Godfrey Asea, director of the National Crops Resources Research Institute at the National Agriculture Research Organization (NARO), Uganda. âWe see an opportunity to review and to use a lot of previous historical data, both in-country and regionally and to continue making improved decisions. We also reiterate our commitment and support to continuously make improvement plans in our breeding programs.â
Martin Kropff, director general of CIMMYT, recognized the tremendous impact arising from the longstanding cooperation between CIMMYTâs maize and wheat programs and national programs in countries where CIMMYT works. âA wheat study in Ethiopia showed that 90% of all the wheat grown in the country is CIMMYT-related, while an impact study for the maize program shows that 50% of the maize varieties in Africa are CIMMYT-derived. We are very proud of that â not for ourselves but for the people that we work for, the hundreds of millions of poor people and smallholder farmers who really rely on wheat and maize for their living and for their incomes,â he said.
Founder and Chief Executive Officer of East Africa-based Western Seed Company Saleem Esmail expressed optimism at the opportunities the project offers to improve livelihoods of beneficiaries. âI believe we can do this by sharing experiences and by leveraging on the impacts that this project is going to bring, from new technologies to new science approaches, particularly those that help save costs of seed production.â
He, however, observed that while the target of fast-tracking varietal turnover was great, it was a tough call, too, âbecause farmers are very risk averse and to change their habits requires a great deal of effort.â
On his part, director of Crop Research at the Oromia Agricultural Research Institute (OARI) in Ethiopia Tesfaye Letta revealed that from collaborative research work undertaken with CIMMYT, the institute has had access to better-quality varieties especially for wheat (bread and durum). These have helped millions of farmers to improve their productivity even as Ethiopia aims for wheat self-sufficiency by expanding wheat production under irrigation.
âWe expect more support, from identifying wheat germplasm suitable for irrigation, developing disease resistant varieties and multiplying a sufficient quantity of early generation seed, to applying appropriate agronomic practices for yield improvement and organizing exposure field visits for farmers and experts,â he said.
Challenges and opportunities in a time of crisis
Alan Tollervey, head of agriculture research at Foreign, Commonwealth and Development Office (FCDO) and the UK representative to the CGIAR System Council, emphasized the need for continued investment in agricultural research to build a resilient food system that can cope with the demands and pressures of the coming decades. This way, organizations such as CIMMYT and its partners can adequately deliver products that are relevant not only to the immediate demands of poor farmers in developing countries â and the global demand for food generally â but also to address foreseen threats.
âWe are at a time of intense pressure on budgets, and that is when projects are most successful, most relevant to the objectives of any organization, and most able to demonstrate a track record of delivery. CIMMYT has a long track history of being able to respond to rapidly emerging threats,â he said.
Felister Makini, the deputy director general for crops at the Kenya Agricultural Research Organization (KALRO) lauded the fact that AGG not only brings together maize and wheat breeding and optimization tools and technologies, but also considers gender and socioeconomic insights, âwhich will be crucial to our envisioned strategy to achieve socioeconomic change.â
Zambia Agriculture Research Organization (ZARI) maize breeder Mwansa Kabamba noted that the inclusion of extension workers will help to get buy-in from farmers especially as far as helping with adoption of the improved varieties is concerned.
In its lifecycle, the AGG project aims to reduce the breeding cycles for both maize and wheat from 5-7 years currently to 3-4 years. By 2024, at least 150,000 metric tons of certified maize seed is expected to be produced, adopted by 10 million households, planted on 6 million hectares and benefit 64 million people. It also seeks to serve over 30 million households engaged in wheat farming the target countries.
Cover photo: CIMMYT researcher Demewoz Negera at the Ambo Research Center in Ethiopia. (Photo: Peter Lowe/CIMMYT)
A new project, Accelerating Genetic Gains in Maize and Wheat for Improved Livelihoods (AGG), seeks to achieve these results by speeding up genetic gains in maize and wheat breeding to deliver improved, stress resilient, nutritious seed to smallholders in 13 countries in sub-Saharan Africa (SSA) and four in South Asia. The 5-year AGG project is funded by the Bill & Melinda Gates Foundation, the UK Department for International Development (DFID) and the U.S. Agency for International Development (USAID).
The maize component of the project brings together diverse partners, including the International Maize and Wheat Improvement Center (CIMMYT) and the International Institute of Tropical Agriculture (IITA) as co-implementers; national agricultural research systems (NARS); and small and medium-sized (SME) seed companies.
A new project, Accelerating Genetic Gains in Maize and Wheat for Improved Livelihoods (AGG), seeks to achieve these results by speeding up genetic gains in maize and wheat breeding to deliver improved, stress resilient, nutritious seed to smallholders in 13 countries in sub-Saharan Africa (SSA) and four in South Asia. The 5-year AGG project is funded by the Bill & Melinda Gates Foundation, the UK Department for International Development (DFID) and the U.S. Agency for International Development (USAID).
Wheat fields at the Campo Experimental Norman E. Borlaug (CENEB) near Ciudad ObregĂłn, Sonora, Mexico. (Photo: M. Ellis/CIMMYT)
More than 100 scientists, crop breeders, researchers, and representatives from funding and national government agencies gathered virtually to initiate the wheat component of a groundbreaking and ambitious collaborative new crop breeding project led by the International Maize and Wheat Improvement Center (CIMMYT).
The new project, Accelerating Genetic Gains in Maize and Wheat for Improved Livelihoods, or AGG, brings together partners in the global science community and in national agricultural research and extension systems to accelerate the development of higher-yielding varieties of maize and wheat â two of the world’s most important staple crops.
Funded by the Bill & Melinda Gates Foundation, the U.K. Department for International Development (DFID), the U.S. Agency for International Development (USAID), and the Foundation for Food and Agriculture Research (FFAR), the project specifically focuses on supporting smallholder farmers in low- and middle-income countries. The international team uses innovative methods â such as rapid cycling and molecular breeding approaches â that improve breeding efficiency and precision to produce varieties that are climate-resilient, pest and disease resistant and highly nutritious, targeted to farmersâ specific needs.
The wheat component of AGG builds on breeding and variety adoption work that has its roots with Norman Borlaugâs Nobel Prize winning work developing high yielding and disease resistance dwarf wheat more than 50 years ago. Most recently, AGG builds on Delivering Genetic Gain in Wheat (DGGW), a 4-year project led by Cornell University, which ends this year.
âAGG challenges us to build on this foundation and make it better, faster, equitable and sustainable,â said CIMMYT Interim Deputy Director for Research Kevin Pixley.
At the virtual gathering on July 17, donors and partner representatives from target countries in South Asia joined CIMMYT scientists to describe both the technical objectives of the project and its overall significance.
âThis program is probably the worldâs single most impactful plant breeding program. Its products are used throughout the world on many millions of hectares,â said Gary Atlin from the Bill & Melinda Gates Foundation. âThe AGG project moves this work even farther, with an emphasis on constant technological improvement and an explicit focus on improved capacity and poverty alleviation.â
Alan Tollervey from DFID spoke about the significance of the project in demonstrating the relevance and impact of wheat research.
âThe AGG project helps build a case for funding wheat research based on wheatâs future,â he said.
Nora Lapitan from the USAID Bureau for Resilience and Food Security listed the high expectations AGG brings: increased genetic gains, variety replacement, optimal breeding approaches, and strong collaboration with national agricultural research systems in partner countries.
Indiaâs farmers feed millions of people. (Photo: Dakshinamurthy Vedachalam)
Reconnecting with trusted partners
The virtual meeting allowed agricultural scientists and wheat breeding experts from AGG target countries in South Asia, many of whom have been working collaboratively with CIMMYT for years, to reconnect and learn how the AGG project both challenges them to a new level of collaboration and supports their national wheat production ambitions.
âWith wheat blast and wheat rust problems evolving in Bangladesh, we welcome the partnership with international partners, especially CIMMYT and the funders to help us overcome these challenges,â said Director General of the Bangladesh Wheat and Maize Research Institute Md. Israil Hossain.
Director of the Indian Institute for Wheat and Barley Research Gyanendra P. Singh praised CIMMYTâs role in developing better wheat varieties for farmers in India.
âMost of the recent varieties which have been developed and released by India are recommended for cultivation on over 20 million hectares. They are not only stress tolerant and high yielding but also fortified with nutritional qualities. I appreciate CIMMYTâs support on this,â he said.
Executive Director of the National Agricultural Research Council of Nepal Deepak K. Bhandari said he was impressed with the variety of activities of the project, which would be integral to the development of Nepalâs wheat program.
âNepal envisions increased wheat productivity from 2.84 to 3.5 tons per hectare within five years. I hope this project will help us to achieve this goal. Fast tracking the replacement of seed to more recent varieties will certainly improve productivity and resilience of the wheat sector,â he said.
The National Wheat Coordinator at the National Agricultural Research Center of Pakistan, Atiq Ur-Rehman, told attendees that his government had recently launched a âmega projectâ to reduce poverty and hunger and to respond to climate change through sustainable intensification. He noted that the support of AGG would help the country increase its capacity in âvertical productionâ of wheat through speed breeding. âAGG will help us save 3 to 4 yearsâ in breeding time,â he said.
For CIMMYT Global Wheat Program Director Hans Braun, the gathering was personal as well as professional.
âI have met many of you over the last decades,â he told attendees, mentioning his first CIMMYT trip to see wheat programs in India in 1985. âTogether we have achieved a lot â wheat self-sufficiency for South Asia has been secured now for 50 years. This would not be possible without your close collaboration, your trust and your willingness to share germplasm and information, and I hope this will stay. â
Braun pointed out that in this project, many national partners will gain the tools and capacity to implement their own state of the art breeding strategies such as genomic selection.
âWe are at the beginning of a new era in breeding,â Braun noted. âWe are also initiating a new era of collaboration.â
The wheat component of AGG serves more than 30 million wheat farming households in Bangladesh, Ethiopia, India, Kenya, Nepal and Pakistan. A separate inception meeting for stakeholders in sub-Saharan Africa is planned for next month.
A new project, Accelerating Genetic Gains in Maize and Wheat for Improved Livelihoods (AGG), seeks to achieve these results by speeding up genetic gains in maize and wheat breeding to deliver improved, stress resilient, nutritious seed to smallholders in 13 countries in sub-Saharan Africa (SSA) and four in South Asia. The 5-year AGG project is funded by the Bill & Melinda Gates Foundation, the UK Department for International Development (DFID) and the U.S. Agency for International Development (USAID).
Drought tolerant maize route out of poverty for community-based seed producer, Kenya. (Photo: Anne Wangalachi/CIMMYT)
As plant pests and diseases continue to evolve, with stresses like drought and heat intensifying, a major priority for breeders and partners is developing better stress tolerant and higher yielding varieties faster and more cost effectively.
A new project, Accelerating Genetic Gains in Maize and Wheat for Improved Livelihoods (AGG), seeks to achieve these results by speeding up genetic gains in maize and wheat breeding to deliver improved, stress resilient, nutritious seed to smallholders in 13 countries in sub-Saharan Africa (SSA) and four in South Asia. The 5-year AGG project is funded by the Bill & Melinda Gates Foundation, the UK Department for International Development (DFID), the U.S. Agency for International Development (USAID), and the Foundation for Food and Agriculture Research (FFAR).
The maize component of the project brings together diverse partners, including the International Maize and Wheat Improvement Center (CIMMYT) and the International Institute of Tropical Agriculture (IITA) as co-implementers; national agricultural research systems (NARS); and small and medium-sized (SME) seed companies.
Ambitious targets
At the inception meeting of the maize component of AGG on July 10, 2020, project leaders, partners and funders lauded the ambitious targets that aim to bolster the resilience and better the livelihoods, food and nutritional security of millions of smallholder farmers in SSA. At least 150,000 metric tons of certified seed is expected to be produced, adopted by 10 million households, planted on 6 million hectares by 2024 and benefiting 64 million people.
âWe are developing climate resilient, nutritious, efficient, productive maize varieties for the farming community in sub-Saharan Africa. We will continue to work closely with our partners to develop product profiles, which are centered on the varieties that are really needed,â said CIMMYT Interim Deputy Director for Research Kevin Pixley.
AGG draws a solid foundation from previous projects such as Drought Tolerant Maize for Africa (DTMA), Improved Maize for Africa Soils (IMAS), Water Efficient Maize for Africa (WEMA) and Stress Tolerant Maize for Africa (STMA). Several high-yielding maize varieties that tolerate and/or resist diseases such as maize lethal necrosis (MLN), gray leaf spot (GLS), northern corn leaf blight, maize streak virus (MSV), turcicum leaf blight (TLB) and are drought-tolerant (DT), were developed and released to farmers across SSA. Varieties with nutritional traits such as nitrogen use efficiency (NUE) and quality protein maize (QPM) were also developed in the preceding initiatives.
Drought Tolerant Maize for Africa (DTMA) project monitoring and evaluation takes place in Tanzania. (Photo: Florence Sipalla/CIMMYT)
A matter of âlife or deathâ
âWhen farmers are confronted by aggressive farming challenges, they want products that address those challenges at the earliest opportunity. Waiting for years could mean the difference between life and death,â remarked David Chikoye, the director of Southern Africa Hub at IITA.
A key focus of AGG is to incorporate gender-intentionality – special attention to the needs of women farmers and consumers – from the traits bred into new varieties, through the communication and technology deployment strategies.
âAGG provides an excellent opportunity to reorient our maize breeding, seed scaling and delivery strategies for greater impact on the livelihoods of smallholder farmers, especially women and the disadvantaged communities that are not well reached so far,â said B.M. Prasanna, director of CIMMYT’s Global Maize Program and the CGIAR Research Program on Maize. âOur vision is to accelerate genetic gains to 1.5-2 percent annually across different breeding pipelines in the 13 participating countries in SSA and to reach over 10 million households with improved varieties.â
AGG will strengthen the capacity of partners to achieve and sustain accelerated variety replacement — or turnover — and increase genetic gains in farmersâ fields.
Old vs new
Many improved varieties have been released in the past decade. However, the turnover of old and obsolete varieties with new and improved ones is not happening as quickly as anticipated.
âWe are producing good products and getting them out, but not at the speed that farmers need. How do we make it possible and profitable for seed companies to quickly introduce new hybrids?â posed Gary Atlin, program officer at the Bill & Melinda Gates Foundation. âWe need to move towards a breeding and seed system where we know that we can develop a new product in 4 or 5 years and then get it to the farmers much more quickly. This is a complex problem.â
To enhance AGGâs ability to identify new products that perform well for farmers under their challenging circumstances, on-farm testing will be scaled up significantly.
Guest of honor, Ethiopiaâs Minister of State for Agriculture Mandefro Nigussie, lauded CIMMYTâs support in improving the resilience and productivity of maize and wheat in the country. He observed that this has helped improve maize productivity in Ethiopia from around 2 tons/ha to about 4 tons/ha over the past two decades.
âWe consider such a huge accomplishment as a combination of efforts in germplasm development and breeding efforts of CIMMYT and the Ethiopian national programs. That partnership will flourish further in this new project,â he said.
A farmer in Banke district during monsoon season drought in 2017. (Photo: Anton Urfels/CIMMYT)
Researchers from the Cereal Systems Initiative for South Asia (CSISA) project have been exploring the drivers of smallholder farmersâ underuse of groundwater wells to combat in-season drought during the monsoon rice season in Nepalâs breadbasket â the Terai region.
Their study, published in Water International, finds that several barriers inhibit full use of groundwater irrigation infrastructure.
Inconsistent rainfall has repeatedly damaged paddy crops in Nepal over the last years, even though most agricultural lands are equipped with groundwater wells. This has contributed to missed national policy targets of food self-sufficiency and slow growth in cereal productivity.
A key issue is farmersâ tendency to schedule irrigation very late in an effort to save their crops when in-season drought occurs. By this time, rice crops have already been damaged by lack of water and yields will be decreased. High irrigation costs, especially due to pumping equipment rental rates, are a major factor of this aversion to investment. Private irrigation is also a relatively new technology for many farmers making water use decisions.
After farmers decide to irrigate, queuing for pumpsets, tubewells, and repairs and maintenance further increases irrigation delays. Some villages have only a handful of pumpsets or tubewells shared between all households, so it can take up to two weeks for everybody to irrigate.
To address these issues, CSISA provides suggestions for three support pathways to support farmers in combatting monsoon season drought:
1. Raise awareness of the importance of timely irrigation
To avoid yield penalties and improve operational efficiency through better-matched pumpsets, CSISA has raised awareness through agricultural FM radio broadcasts on the strong relationship between water stress and yield penalties. Messages highlight the role of the plough pan in keeping infiltration rates low and encouraging farmers to improve irrigation scheduling. Anecdotal evidence suggests that improved pump selection may decrease irrigation costs by up to 50%, and CSISA has initiated follow-up studies to develop recommendations for farmers.
Social interaction is necessary for purchasing fuel, transporting and installing pumps, or sharing irrigation equipment. These activities pose risks of COVID-19 exposure and transmission and therefore require farmers to follow increased safety and hygiene practices, which may cause further delays to irrigation. Raising awareness about the importance of timely irrigation therefore needs to go hand in hand with the promotion of safe and hygienic irrigation practices. This information has been streamlined into CSISAâs ongoing partnerships and FM broadcasts.
2. Improve community-level water markets through increased focus on drought preparedness and overcoming financial constraints
Farmers can save time by taking an anticipatory approach to the terms and conditions of rentals, instead of negotiating them when cracks in the soil are already large. Many farmers reported that pump owners are reluctant to rent out pumpsets if renters cannot pay up front. Given the seasonality of cash flows in agriculture, pro-poor and low interest credit provisions are likely to further smoothen community-level water markets.
Quantified ethnographic-decision tree based on householdsâ surveys of smallholder decision to use groundwater irrigation in Nepalâs Terai. (Graphic: Urfels et al., 2020)
3. Prioritize regional investment
The study shows that delay factors differ across districts and that selectively targeted interventions will be most useful to provide high returns to investments. For example, farmers in Kailali reported that land access issues — due to use of large bullock carts to transport pumpsets — and fuel shortages constitute a barrier for 10% and 39% of the farmers, while in Rupandehi, maintenance and tubewell availability were reported to be of greater importance.
As drought is increasingly threatening paddy production in Nepalâs Terai region, CSISAâs research shows that several support pathways exist to support farmers in combatting droughts. Sustainable water use can only be brought up to a scale where it benefits most farmers if all available tools including electrification, solar pumps and improved water level monitoring are deployed to provide benefits to a wide range of farmers.
The pursuit for higher and more stable yields, alongside better stress tolerance, has dominated maize breeding in Africa for a long time. Such attributes have been, and still are, essential in safeguarding the food security and livelihoods of smallholder farmers. However, other essential traits have not been the main priority of breeding strategies: how a variety tastes when cooked, its smell, its texture or its appearance.
They are now gradually coming into the mainstream of maize breeding. Researchers are exploring the sensory characteristics consumers prefer and identifying the varieties under development which have the desired qualities. Breeders may then choose to incorporate specific traits that farmers or consumers value in future breeding work. This research is also helping to accelerate varietal turnover in the last mile, as farmers have additional reasons to adopt newer varieties.
In the last five years, the International Maize and Wheat Improvement Center (CIMMYT) has been conducting participatory variety evaluations across East Africa. First, researchers invited farmers and purchasers of improved seed in specific agro-ecologies to visit demonstration plots and share their preferences for plant traits they would like to grow in their own farms.
In 2019 and 2020, researchers also started to facilitate evaluations of the sensory aspects of varieties.
Fresh samples of green maize, from early- to late-maturing maize varieties, were boiled and roasted. Then, people assessed their taste and other qualities. The first evaluations of this kind were conducted in Kenya and Uganda in August and September 2019, and another exercise in Kenyaâs Machakos County took place in January 2020.
Similar evaluations have looked at the sensory qualities of maize flour. In March 2020, up to 300 farmers in Kenyaâs Kakamega County participated in an evaluation of ugali, or maize flour porridge. Participants assessed a wider range of factors, including the aroma, appearance, taste, texture on the hand, texture in the mouth and overall impression. After tasting each variety, they indicated how likely they would be to buy it.
Participants were asked to rate the texture of different maize varieties, cooked as ugali, at a sensory evaluation in Kakamega County, Kenya. (Photo: Joshua Masinde/CIMMYT)
Participants were asked to rate the smell of different maize varieties, cooked as ugali, at a sensory evaluation in Kakamega County, Kenya. (Photo: Joshua Masinde/CIMMYT)
Participants taste ugali at a sensory evaluation in Kakamega County, Kenya. (Photo: Joshua Masinde/CIMMYT)
Cooks prepare ugali, or maize flour porridge, with different maize varieties at a sensory evaluation in Kakamega County, Kenya. (Photo: Joshua Masinde/CIMMYT)
At a sensory evaluation in Kakamega County, Kenya, different types of ugali were cooked using maize flour from several varieties. (Photo: Joshua Masinde/CIMMYT)
Ugali made with different maize varieties is served to participants of a sensory evaluation in Kakamega County, Kenya. (Photo: Joshua Masinde/CIMMYT)
Tastes differ
âFarmers not only consume maize in various forms but also sell the maize either at green or dry grain markets. What we initially found is green maize consumers prefer varieties that are sweet when roasted. We also noted that seed companies were including the sensory characteristics in the maize varietiesâ product profiles,â explained Bernard Munyua, Research Associate with the Socioeconomics program at CIMMYT. âAs breeders and socioeconomists engage more and more with farmers, consumers or end-users, it is apparent that varietal profiles for both plant and sensory aspects have become more significant than ever before, and have a role to play in the successful turnover of new varieties.â
For researchers, this is very useful information, to help determine if it is viable to bring a certain variety to market. The varieties shared in these evaluations include those that have passed through CIMMYTâs breeding pipeline and are allocated to partners for potential release after national performance trials, as well as CIMMYT varieties marketed by various seed companies. Popular commercial varieties regions were also included in the evaluations, for comparison.
A total of 819 people participated in the evaluation exercises in Kenya and Uganda, 54% of them female.
âCurrently, there is increasing demand by breeders, donors, and other agricultural scientists to understand the modalities of trait preferences of crops by women and men farmers,â said Rahma Adam, Gender and Development Specialist at CIMMYT.
Bags of seeds with a diversity of maize varieties are displayed before being cooked at a sensory sensory evaluation in Kakamega County, Kenya. (Photo: Bernard Munyua/CIMMYT)
Thatâs the way I like it
For Gentrix Ligare, from Kakamega County, maize has always been a staple food in her family. They eat ugali almost daily. The one-acre farm that she and her husband own was one of the sites used to plant the varieties ahead of the evaluation exercise. Just like her husband, Fred Ligare, she prefers ugali that is soft but absorbs more water during preparation. âI also prefer ugali that is neither very sticky nor very sweet. Such ugali would be appropriate to eat with any type of vegetable or sauce,â she said.
Fernandes Ambani prefers ugali that emits a distinct aroma while being cooked and should neither be very sweet nor plain tasting. For him, ugali should not be too soft or too hard. While it should not be very sticky, it should also not have dark spots in it. âWhen I like the taste, smell, texture and appearance of a particular variety when cooked, I would definitely purchase it if I found it on the market,â he said.
While the task of incorporating all the desired or multiple traits in the breeding pipeline could prove complex and costly, giving consumers what they like is one of the essential steps in enhancing a varietyâs commercial success in the market, argues Ludovicus Okitoi, Director of Kenya Agricultural and Livestock Organizationâs (KALRO) Kakamega Center.
âDespite continuously breeding and releasing varieties every year, some farmers still buy some older varieties, possibly because they have a preference for a particular taste in some of the varieties they keep buying,â Okitoi said. âIt is a good thing that socioeconomists and breeders are talking more and more with the farmers.â
Advancements in breeding techniques may help accelerate the integration of multiple traits, which could eventually contribute to quicker varietal turnover.
âPreviously, we did not conduct this type of varietal evaluations at the consumer level. A breeder would, for instance, just breed on-station and conduct national performance trials at specific sites. The relevant authorities would then grant their approval and a variety would be released. Things are different now, as you have to go back to the farmer as an essential part of incorporating end-user feedback in a varietyâs breeding process,â explained Hugo de Groote, Agricultural Economist at CIMMYT.
When farmers in rural Kasungu, Malawi, are asked to list some of the challenges they face, much of what they say is to be expected. Crop pests, climate change, low soil fertility, and lack of improved seed and purchasing power â these are faced by smallholders across districts and the country as a whole.
But there is one surprising response. âSometimes itâs difficult to get feedback from research centers on what does and doesnât work,â says Maxwell Phiri.
Capacity building and knowledge transfer are key elements of agricultural development work, but there is often a gap between research, outreach and extension to farmers. New techniques and crop varieties tested at experimental stations can take a while to reach rural communities, who want solutions to the challenges they are facing in real time.
âBut now itâs easier for us because the research is being done here.â Phiri points to the farmer field school in Msambafumu, a few hectares of communal land where 23 smallholders from the surrounding area meet regularly to learn about new technologies and farming techniques.
At the school they have been able to learn first-hand about improved and new agricultural practices and technologies. Following an introduction to climate-smart agriculture practices, they have moved on to agroforestry, learning about the benefits of intercropping drought-tolerant maize with pigeon peas and fruit trees. âWeâve even started practicing climate-smart agriculture in our own fields and planting agroforestry trees,â says Ntendeleza Mwale, a member of the field school in Msambafumu and chair of a network of 17 schools in the district. âNow everybody is growing fruit trees at home.â
âWe didnât know that potatoes, millet and sorghum could grow here, because we thought the soil wasnât suitable, but the school has showed us what is possible,â explains Maxwell Phiri (first from left). âYou learn a lot of things in a group that you might not learn on your own.â (Photo: Emma Orchardson/CIMMYT)
Back to school
A farmer field school is a group of 25-30 farmers, led by a master trainer, who come together to solve common challenges faced in their local area, such as soil degradation or poor water availability. Since 2014, the Government of Malawi has been using this innovative approach to help farmers learn about and improve their production systems through the KULIMA project. With support from a CGIAR consortium led by the International Potato Center (CIP), 15 schools have been established across the districts of Kasungu, Mulanje and Mzuzu, including master training hubs and outreach centers run by NGOs.
The overall objective is to increase agricultural productivity and diversification by upscaling climate-smart technologies,â explains Mathinda Sopo, a monitoring and evaluation specialist and project manager at the International Maize and Wheat Improvement Center (CIMMYT). âMaster trainer candidates are selected in each district and then invited to sit down with researchers and identify their core production challenges. The plans are then developed collaboratively and based on agroecological zone.â
In February 2020, a new cohort of trainees arrived at the Lisasadizi Regional Training Center in Kasungu, where the Ministry of Agriculture coordinates trainings on four key topics â soil health, climate change, pests and diseases and nutrition â in collaboration with the UN Food and Agriculture Organization (FAO) and the CGIAR consortium, supported by the German development agency GIZ.
The 13-week residential course is mostly practical but does include some classroom-based study and a community outreach component. Guided by a facilitator â usually a researcher or extension worker â participants are encouraged to learn from their experiences as they conduct experiments in their own fields, make observations and evaluate results throughout the cropping season. Outside of the core curriculum, they are free to investigate additional topics of their own choice.
After completing the course, master trainers move back to their respective areas to help train facilitators, who are ultimately responsible for running the field schools with support from NGO extension staff.
âThe CGIAR centers bring in technologies they want to promote like improved crop varieties, but there are ongoing evaluations throughout the process to respond to newly emerging challenges such as fall armyworm,â says Sopo. âThereâs also a review at the end of each season to discuss lessons learned and knowledge gaps.â
CIMMYT, for example, is focusing on promoting drought-tolerant, quality protein maize (QPM), and provitamin A maize, as well as climate-smart agriculture practices. At Msambafumu, the group have been comparing five improved maize varieties with local ones. âSo far weâve seen that the new varieties have bigger yields and cob sizes,â says Mwale. âVarieties like Chitedze 2 QPM and MH43A are also early maturing and are more nutritious.â
Farmers at the field schools in Msambafumu and Tiyese, in Malawi, have been surprised to find that banana trees can be grown in their area. (Photo: Emma Orchardson/CIMMYT)
At the field school in Tiyese, Malawi, farmers are using two adjacent maize plots to compare the effects of leaving crop residue on their field. (Photo: Emma Orchardson/CIMMYT)
Learning by doing
A few kilometers down the road, in Galika village, members of the Tiyese field school have been learning how to control a variety of pests and diseases. So far, they have been taught about different pesticides and the benefits of using inoculant on soya beans and ground nuts to improve soil fertility, and how to identify and mitigate disease in susceptible potato varieties. They have also been learning how to apply Aflasafe while crops are still in the field to reduce aflatoxins in maize and groundnuts.
But the most pressing challenge is fall armyworm, says Matolino Zimba, a member of the Tiyese field school. âWeâve been trying new methods for controlling it,â he explains. âLast year we planted mucuna beans in our banana orchard as a cover crop. Later we soaked mucuna leaves in water and poured the solution on the infested maize and noticed that the worms were dying.â
Zimba is satisfied with the learning methods at the field school. âThis approach is better for us because we get to see the process, rather than just receiving an explanation.â
Emily Kaponda agrees. She first joined the group after noticing that participating farmers were getting higher yields by using new planting methods. âThe school has a smaller plot of land than I do, but their bundles of maize were much larger,â she explains.
Since joining the field school, she has learned how to increase her yields, how to conserve moisture in the soil using zero-tillage farming and the importance of diversifying her familyâs diets. âWeâre learning how we can use cassava or sweet potato as a starch, instead of only using maize.â
Zimba and Kaponda are both excited to be trying out QPM and provitamin A maize varieties, as well as new varieties of cassava, orange-fleshed sweet potato, improved groundnuts, biofortified beans and bananas. Much like their peers at Msambafumu, they had not known that many of these could be grown in the area, and the group has already started planning to multiply planting materials to use in their own fields next year.
âThese groups are really inspirational,â says Sopo. âMost members are already practicing things theyâve learned at their school and are getting positive results.â
Sopo is already seeing success stories from schools established one year ago, but collaboration will need to be sustained to ensure lasting progress. A new research initiative, Development-Smart Innovations through Research in Agriculture (DeSIRA), will help to maintain the positive feedback loop by investigating emerging issues raised during on-farm experiments. âWe can take farmer observations from the study plots to DeSIRA for further research, and the outputs from that will complement KULIMA.â
Farmers at the field school in Msambafumu, Malawi, begin preparing the soil for their next set of experiments. (Photo: Emma Orchardson/CIMMYT)
Matolino Zimba checks on the emerging maize crop, which has been covered in crop residue to conserve moisture, at the field school in Tiyese, Malawi. (Photo: Emma Orchardson/CIMMYT)
A maize farmer in southern Ethiopia. (Photo: S. Samuel/CCAFS)
Because of unpredictable climate conditions, agricultural production in Ethiopia faces uncertainties during both the growing and harvesting seasons. The risk and uncertainty are bigger for smallholder farmers, as they canât protect themselves from climate-related asset losses. Access to insurance schemes, climate information and other tools could help to minimize climate risks for smallholder farmers.
A new collaborative project launched in Ethiopia aims to reduce agricultural investment risk. The Capacitating African Stakeholders with Climate Advisories and Insurance Development (CASCAID-II) project builds on learnings from the CASCAID-I project in West Africa. It will target Ethiopia, Ghana and Senegal, focusing not only on smallholder farmers but on the food value chain as a whole. In a context of increasing integration of farmers into urban markets, the project will improve agricultural productivity, food security and profitability of agricultural enterprises.
The International Maize and Wheat Improvement Center (CIMMYT) will partner with the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT) and the University of Florida, with the support of the CGIAR research program on Climate Change, Agriculture and Food Security (CCAFS).
Kindie Tesfaye, CIMMYT, presents an overview of climate services in Ethiopia. (Photo: Simret Yasabu /CIMMYT)
Physical and digital tools across the value chain
In October 2019, thirty partners gathered for the CASCAID-II project launch and meeting in Addis Ababa, Ethiopia. They agreed on the project goals, a set of priority research questions and a schedule of activities for the next two years.
Partners also reviewed the tools that could be used to deliver climate advisories and agricultural insurance products, ensuring that all the actors in the value chain are engaged from the start. Team members aim to embed services in existing physical and digital (âphygitalâ) data infrastructures and to collect user feedback, so performance can be improved. Users will be segmented according to advanced socioeconomic and agro-ecological factors, so they can be targeted more efficiently with appropriate services and climate-smart agriculture options. The project will draw on real-time and multi-scale yield forecasting for better preparedness and decision-making.
Project partners agreed to start with the CCAFS Regional Agricultural Forecasting Tool (CRAFT) for sub-national yield forecasting in Ethiopia and to develop climate advisories and insurance services in line with the needs of the Ministry of Agriculture.
Participants of the launch of the digital agro-climate advisory platform gather for a group photo. (Photo: Semu Yemane/EIAR)
Precise data from scientists to farmers
In a related development, Ethiopia recently launched a digital agro-climate advisory platform, which offers great potential to improve farmersâ management of climate-induced risks, facilitate technology adoption and improve livelihoods.
Speaking at the platformâs launch ceremony, Eyasu Abraha, advisor to the Minister of Agriculture, thanked development partners for supporting the establishment of the platform in the timely move towards digitalization and use of precise data.
The platform incorporates location-specific climate information, as well as soil- and crop-specific best-bet agronomic management recommendations for farmers, development agents and extension officers. It automates crop-climate modeling and uses technologies such as text messaging, interactive voice response (IVRS) and smartphone apps for dissemination.
A woman sells maize at the market in Sidameika Tura, Arsi Negele, Ethiopia. (Photo: Peter Lowe/CIMMYT)
Disclaimer: The views and opinions expressed in this article are those of the authors and do not necessarily reflect the official views or position of the International Maize and Wheat Improvement Center (CIMMYT).
While all eyes are on Lombardy, Madrid, New York and Wuhan, what do we know about the impact of COVID-19 on the rural poor and on food security in developing countries? How can the impact of the crisis be moderated? What positive breakthroughs could be provoked by this shock to move us into a better ânew normalâ? What can donors and implementing organizations do to support low- and middle-income countries during and beyond this crisis?
Members of the Agriculture and Rural Development working group of the international Scaling Up community of practice held a virtual meeting to discuss these questions and how scaling-up innovations could help to recover from the current crisis and mitigate future ones.
Poor rural communities are particularly vulnerable
When it comes to a highly contagious disease, being in a rural area sounds better than being in a busy city, but that is a deceptive impression. Smallholder farmers often are older than average and hence more vulnerable to the virus, and they have less access to health services.
They also depend on field laborers that are not able to travel from surrounding villages to help with planting, weeding and harvesting. To process crops, smallholder farmers need to transport crops to processing centers, which may be closed, as are the markets where they obtain agricultural inputs or sell farm products. Large international agrobusiness firms, which supply inputs and purchase local famersâ products may withdraw, at least temporarily, from the rural economies. There are already reports of farmers feeding cattle strawberries and broccoli in India, as they are unable to get their goods to the market.
Most farmers also depend on non-farm and off-farm activities for their livelihoods, as they may be field laborers for other farmers, work in the processing industry or work in construction. Interrupted transportation and closures pose serious challenges to maintain safe business continuity throughout the rural economy. The risk is not only that immediate rural production, food deliveries, exports, employment and incomes will collapse, but also that planting for next yearâs crops will be disrupted.
It is key to differentiate between global and local supply chains, which will suffer in different ways. For example, in Uganda, supermarkets are open but small, informal markets are closed. In past crises, governments have focused on the survival of global value chains over local ones. Small, rural businesses are more likely to close permanently than large international ones.
Globally, international support for agriculture and rural development has been lagging in recent years. Â Today, the international support from aid agencies and NGOs is interrupted, as travels are restricted and community meetings are prohibited. With increased donor attention to a domestic and international health crisis, aid for rural communities may drop precipitously.
Men transport wheat straw on donkey karts in Ethiopiaâs Dodula district. (Photo: Peter Lowe/CIMMYT)
Opportunities for an improved ânew normalâ as we respond to the crisis
The short-term response to help minimize the impact of the COVID-19 crisis on the rural poor is critical, but we also need to support the shaping of a ânew normalâ where rural food systems are resilient, profitable and inclusive for poor rural communities. Members of the Scaling Up community of practice explored various ideas.
First, the COVID-19 pandemic could present opportunities to break silos and show how closely health and agriculture are related.
âCOVID-19 cuts across sectors and jurisdictions in ways that single organizations and established governance structures are ill-equipped to accommodate,â said Larry Cooley, Scaling Expert and Founder and President Emeritus of Management Systems International (MSI)
For example, rural agricultural extension networks could be used to disseminate information on health awareness and education around COVID-19 and collect data on local impacts. This may cause and provide relief in the short term, but may also provide opportunities for collaboration in the long run.
âOur agricultural networks go deep into the rural areas and we are training our agri-entrepreneurs in India to disseminate health messages, products and services to help address COVID-19,â said Simon Winter, Executive Director of the Syngenta Foundation.
âAt the African Development Bank we are providing emergency relief finance and re-purposing funding to have a link with COVID-19,â said Atsuko Toda, the bankâs Director of Agricultural Finance and Rural Development.
Second, a ânew normalâ could also mean an even stronger independence from externally funded projects, experts and solutions to more local ownership and expertise in rural areas, something that the community of practice has been promoting strongly. We could help to support more autonomy of the farmer, a strong local market and scale-up local value chains. Strengthening the capacity of small and medium enterprises linking farmers to urban markets could help ensure stability in future economic shocks.
âGovernments and donor âprojectsâ looked too much at export and global value chains. I see great opportunities to scale up local and regional input and output value chains that benefit local farmers and small and medium enterprises,â said Margret Will, expert on value chains.
Third, the COVID-19 pandemic presents an opportunity to accelerate the scaling of innovations.
âLack of access to labor could be disrupting harvesting and planting in our Feed the Future countries, accelerating an already predominant trend of migration, especially among the young, to urban areas. We see a looming need for mechanization of farms at scale, using mini-tillers, planters, harvesters and other time- and labor-saving equipment,â said Mark Huisenga, Senior Program Manager for the USAID Bureau for Resilience and Food Security.
Masimba Mawire collects bare maize cobs after removing the grain using a mechanized maize sheller in Zimbabwe. (Photo: Matthew OâLeary/CIMMYT)
Rural communities that use more ecological intensive practices, such as conservation agriculture and push-pull farming or safe storage practices are less dependent on external inputs and labor.
The current crisis forces us to use digital communication systems, replace human work with digital tools where possible and use technology to help target interventions. Both the public and private sector could build on this opportunity to invest in increased access to internet, electricity and other digital resources, including in impoverished areas. All these technological innovations can help farmers to better cope with the constraints of COVID-19 and any future crises or stresses to the food system, while also making agriculture more productive and more attractive to the young.
âThe pandemic creates an opportunity to accelerate the use of digital technologies in smallholder agriculture, not only for extension advice but to crowdsource information about COVID-19 impacts,â said Julie Howard, Senior Advisor for the Center for Strategic and International Studies (CSIS).
Finally, COVID-19 will change our global governance system, and the agriculture, research and development sector has a role to play in this transformation. A systems change must focus on dietary diversity and food safety and security, paying attention to the rural poor in low- and middle-income countries. We can work together to scale cross-sector platforms to build solid networks and scale-up innovations to strengthen sustainable and resilient food systems.
Systems change beyond the agricultural sector, sustainability through local ownership and uptake of innovations that support profitable and resilient agricultural and related rural activities are key components of how the Scaling Up Community of Practice approaches scaling. A systems change is imminent, and it is important to support a transformation in a direction where local markets, rural labor and regional economies come out stronger in the long term. This requires vision, expertise, mobilization of resources, information sharing and crowdsourced leadership, and the network of scaling experts can contribute to this.
The Agriculture and Rural Development working group of the international Scaling Up community of practice is made up of individuals from more than 100 official donors, foundations, think tanks, research and development organizations united by their interest in scaling the impact of innovations on food security and rural poverty. Areas of particular interest for the group include designing for scale, using scaling frameworks, learning about scaling, responsible scaling, sustainability and system thinking. Members of the working group include professionals with vast experience from the field, and the group explicitly tries to learn from the application of complex concepts such as sustainability, systems change and scaling in real world settings by local actors. In addition to quarterly virtual meetings, the working group encourages and supports exchanges among its members on a variety of subjects. Participation in, and management of, the Agriculture and Rural Development working group is done on a purely voluntary basis.
About the Authors:
Lennart Woltering â Scaling catalyst at CIMMYT and chair of the Agriculture and Rural Development working group.
Johannes Linn â Non-resident Senior Fellow at Brookings and former Vice President of the World Bank.
Maria Boa â Scaling coordinator at CIMMYT and secretary of the Agriculture and Rural Development working group
Mary Donovan â Communications Consultant at CIMMYT.
