Smallholdings represent over 80% of the worldâs farms, mostly located in the Global South, and supply 50% of global food. Enhanced agronomy management has a great potential to increase productivity, sustainability, efficiency and competitiveness of these smallholdings, which is characterized by low and variable yields and profitability, smallholder farming challenges include water scarcity, climate change, low resource use efficiencies and declining soil health. These result in negative impacts on food and nutrition security, equitable livelihoods and ecosystem health.âŻÂ
Smallholder farmers seasonally make critical agronomic decisions regarding crop choice, planting dates and pest, disease, weed, soil fertility and water management, often based on suboptimal practices and information. Traditional agronomic research enhances our understanding of basic processes, but with limited connection to stakeholder demand and often based on outdated approaches. The development, deployment and uptake of interventions is hampered by social, economic and institutional constraints, further confounded by adherence to conventional supply-driven innovation strategies.
Objective
This Initiative aims to deliver an increase in productivity and quality per unit of input (agronomic gain) for millions of smallholder farming households in prioritized farming systems by 2030, with an emphasis on women and young farmers, showing a measurable impact on food and nutrition security, income, resource use, soil health, climate resilience and climate change mitigation.âŻÂ
Activities
This objective will be achieved through:
Facilitating the delivery of agronomy-at-scale solutions, including development and technical/user-experience validation and the co-creation and deployment of gender- and youth-responsive solutions to smallholder farmers via scaling partners.Â
Enabling the creation of value from big data and advanced analytics through the assembly and governance of data and tools; application of existing analytics and solutions for specific use cases; supply of information on climate impacts, inclusivity and sustainability of agronomic solutions; and national agricultural research system capacity strengthening.Â
Driving the next generation of agronomy-at-scale innovationsâŻby addressing key knowledge gaps and facilitating innovation in agronomy research through engagement with partners.Â
Nurturing internal efficiencies for an agile and demand-driven agronomy research and development community through internal organization and external partnerships for prioritization, demand mapping and foresight.Â
The overall objective of the 5-year EU-funded DeSIRA action, led by the International Potato Center (CIP), is to improve climate change adaptation of agricultural and food systems in Malawi through research and uptake of integrated technological innovations.
CIMMYTâs role is focused on the following project outputs:
Identify and develop integrated technology options that effectively provide management options to contribute to reducing risks and increasing resilience and productivity of the smallholder farmersâ agrifood systems in Malawi. Towards this objective, CIMMYT will evaluate drought-tolerant and nutritious maize varieties under conservation agriculture and conventional practices, and assess the overall productivity gains from agronomic and germplasm improvements versus current farming practices.
Develop, test and promote robust integrated pest and disease management strategies to predict, monitor and control existing and emerging biotic threats to agriculture while minimizing risks to farmersâ health and damage to the environment. Towards this objective, CIMMYT will evaluate the effect of striga on maize performance under conservation agriculture and conventional practices; evaluate farmer methods and other alternatives to chemical sprays for the control of fall armyworm; and study the effect of time of planting for controlling fall armyworm.
In 1967 Albert O. Hirschman, the pioneering development economist, published Development Projects Observed. Based on an analysis of a handful of long-standing World Bank projects, the book was an effort, as Hirschman writes in the preface, âto âsingâ the epic adventure of development â its challenge, drama, and grandeur.â He sang this epic not in the register of high development theory, but rather through the ups and downs and unexpected twists of real-world development projects.
Today, a new group of researchers have taken up a similar challenge. Value Chain Development and the Poor: Promise, delivery, and opportunities for impact at scale, a new book edited by Jason Donovan, Dietmar Stoian and Jon Hellin, surveys over two decades of academic and practical thinking on value chains and value chain development. While value chain development encompasses a broad variety of approaches, it has largely focused on improving the ability of small scale, downstream actors â such as smallholders in agri-food value chains â to capture more value for their products or to engage in value-adding activities. Value chain development approaches have also focused on improving the social and environmental impacts of specific value chains. Donovan, Stoian and Hellinâs book assesses these approaches through careful analysis of real-world cases. The book was published with support from the CGIAR Research Programs on Maize and on Policies, Institutions, and Markets.
Lessons learned
The book takes an unsparing look at what has and hasnât worked in the field of value chain development. It begins by dissecting the drivers of the high degree of turnover in approaches that characterizes the field. The editors argue that âissue-attention cyclesâ among project stakeholders, coupled with monitoring and evaluation metrics that are more focused on tracking project implementation rather than producing robust measurements of their social impact, too often lead to the adoption â and abandonment â of approaches based on novelty and buzz.
The unfortunate consequences are that strengths and limitations of any given approach are never fully appreciated and that projects â and even entire approaches â are abandoned before theyâve had a chance to generate deep social impacts. Moreover, the opportunity to really learn from development projects â both in terms of refining and adapting a given approach to local conditions, and of abstracting scalable solutions from real development experiences â is lost.
A recurring theme throughout the book is the tension between the context-sensitivity needed for successful value chain development interventions and the need for approaches that can be scaled and replicated. Programs must develop tools for practitioners on one hand and demonstrate scalability to funders on the other. For example, a chapter on maize diversity and value chain development in Guatemalaâs western highlands illustrates how an approach that was successful in Mexico â connecting producers of indigenous maize landraces with niche markets â is ill-suited to the Guatemalan context, where most producers are severely maize deficient. And a chapter reviewing guides for gender-equitable value chain development highlights how â for all their positive impact â such guides often overlook highly context- and culturally-specific gender dynamics. Intra-household bargaining dynamics and local masculinities, for example, can play critical roles in the success or failure of gender-focused value chain development interventions.
This new book takes an unsparing look at what has and hasnât worked in the field of value chain development.
Finally, while lauding the valuable impact many value chain development initiatives have achieved, the editors warn against an exclusive reliance on market-based mechanisms, especially when trying to benefit the poorest and most marginalized of smallholders. In the case of Guatemalaâs maize-deficient highland farmers, for example, the development of niche markets for native maize proved to be a poor mechanism for achieving the stated goal of preserving maize biodiversity and farmersâ livelihoods. Non-market solutions are called for. Based on this and similar experiences, the editors note that, while value chain development can be a valuable tool, to truly achieve impact at scale it must be coordinated with broader development efforts.
âThe challenge of ensuring that value chain development contributes to a broad set of development goals requires transdisciplinary, multisector collaboration within broader frameworks, such as integrated rural-urban development, food system transformation, and green recovery of the economy in the post COVID-19 era,â write the editors.
This bracing and clear reflection on the promise and limitations of current development approaches is not only timely; it is perhaps more urgent today than in Hirschmanâs time. While tremendous gains have been made since the middle of the 20th century, many stubborn challenges remain, and global climate change threatens to undo decades of progress. Projects like Value Chain Development and the Poor and the ongoing Ceres2030 initiative provide development practitioners, researchers, funders and other stakeholders a much needed assessment of what can be built upon and what needs to be rethought as they tackle these gargantuan challenges.
Embracing uncertainty
At the time Development Projects Observed was published, the study and practice of development was already entering a crisis of adolescence, as it were. Having achieved quasi-independence from its parent discipline of economics, it had to settle on an identity of its own.
Hirschmanâs book represented one possible way forward â an understanding of development practice as a blend of art and science. The bookâs most famous concept, that of the Hiding Hand, illustrates how plannersâ optimism could fuel enormously complex and challenging projects â undertakings that might never have been attempted had all the challenges been known beforehand. At the same time, projectsâ inevitable failures and shortcomings could spur creative local responses and solutions, thus ensuring their eventual success and rootedness in their specific context.
As Michele Alacevich points out in the Afterword to the bookâs most recent reissue, the World Bankâs response to Hirschmanâs book demonstrates the road that development research and practice ultimately took. The book was disregarded, and the Bank turned to the growing literature on cost-benefit analysis instead. âWhereas Hirschmanâs analysis had placed uncertainty â an unmeasurable dimension â center stage, cost-benefit analysis assimilated it to risk, therefore turning it into something measurable and quantifiable,â Alacevich writes. Faced with a newfound awareness of the limits to the fieldâs powers and abilities â a rite of passage for all prodigies â development institutions appeared to try to outrun these limitations through ever-increasing technification.
The issue-attention cycles identified by Stoian and Donovan may represent a new, more frenetic and self-defeating iteration of this discomfort with uncertainty. If so, Value Chain Development and the Poor serves as an urgent call for development institutions and practitioners to make peace with the messiness of their vocation. As Hirschman observed decades ago, only by embracing the uncertainty and art inherent in development work can its students and practitioners further the enormously complex scientific understanding of the endeavor, and, crucially, generate broad and lasting social change.
Cover image: A researcher from the International Maize and Wheat Improvement Center (CIMMYT) demonstrates the use of a farming app in the field. (Photo: C. De Bode/CGIAR)
Incompatibility of surveys did not allow big-picture analysis, so a team of CGIAR researchers began tackling the household survey interoperability problem in 2015. They invited the global research-for-development community to contribute to the open-access dataset, which today includes more than 30,000 interviews conducted in 33 countries.
Broad adoption of the standardized survey tool may help guide international efforts to address smallholder challenges related to climate change, food security, nutrition, farm productivity, and social inclusion.
How big do farms need to be to enable farmers to escape poverty by farming alone? And what alternative avenues can lead them to sustainable development? New paper explores how much rural households can benefit from agricultural intensification.
Around 115Â members of the CGIAR breeding community, plus others representing national programs, universities, funders and the private sector, met for a three-day discussion of how to co-develop the next generation of advanced breeding programs that will improve the rate at which resource-poor farmers are able to adopt improved varieties that meet their needs.
The annual Excellence in Breeding Platform (EiB) Contributorâs meeting, held this year in Amsterdam from 13-15 November, caps a year of engagement with CGIAR Centers and national agricultural research system (NARS) partners around the world.
Paul Kimani, from the University of Nairobi, speaks during the meeting. (Photo: Sam Storr/CIMMYT)
“Although breeding is one of the oldest functions in CGIAR, we have never had a meeting like this with scientists from all the centers,” said Michael Baum, director of Biodiversity and Crop Improvement at the International Center for Agricultural Research in the Dry Areas, (ICARDA). “Within CGIAR, plant breeding started as a science, but now we are looking at how to implement it not as a science but as an operation, as it is done in the private sector, so there are many new concepts.”
Key items on the agenda for November were new tools to develop product profiles and create improvement plans that will define the modernization agenda in each center and across the Platform itself, based in part on the Breeding Program Assessment Tool (BPAT) that most Centers completed in 2018.
Ranjitha Puskur, gender research coordinator at the International Rice Research Institute (IRRI), started an animated discussion on how to incorporate gender into product design by thinking about customer segments.
Tim Byrne from AbacusBio introduced methods for identifying farmer preferences to be targeted by breeding programs.
IRRI’s Ranjitha Puskur started a discussion on how to incorporate gender into product design. (Photo: Sam Storr/CIMMYT)
In breakout sessions, contributors were able to have detailed discussions according to their various specializations: phenotyping, genotyping and bioinformatics/data management. The direct feedback from contributors will be incorporated into EiB workplans for training and tool development for the coming year.
A key outcome of the meeting was an agreement to finalize the product profile tool, to be made available to EiB members in early December 2018. The tool helps breeders to work with other specialisms, such as markets, socioeconomics and gender, to define the key traits needed in new products for farmers. This helps to focus breeding activities towards areas of greatest impact, supports NARS to play a greater role, and creates accountability and transparency for donors, in part by defining the geographic areas being targeted by programs.
“Breeding trees is different to the annual crops,” said Alice Muchugi, genebank manager at the World Agroforestry Centre (ICRAF), “but we are seeing what we can borrow from our colleagues. By uploading what we are doing in maps, for example, donors are able to perceive the specific challenges we are undertaking.”
EiB’s George Kotch describes his vision of product profiles. (Photo: Sam Storr/CIMMYT)
“I think we have realized there are lot of challenges in common, and the Platform is helping us all work on those,” said Filippo Bassi, durum wheat breeder at ICARDA. “I like to see all the people around the room, if you look at the average age there is a big shift; the number of countries present also tells you a lot.”
Tabare Abadie, R&D external academic outreach lead at Corteva Agriscience, also saw the meeting as a good opportunity to meet a broader group of people. “One of the take homes I hear is [that] there are a lot of challenges, but also a lot of communication and understanding. For me as a contributor it’s an incentive to keep supporting EiB, because we have gone through those changes before [at Corteva], and we can provide some know-how and experience of what happens,” Abadie explained.
“There are still a lot of gaps to fill, but this is a good start,” said Thanda Dhliwayo, maize breeder at the International Maize and Wheat Improvement Center (CIMMYT). “We need to get everyone involved, from leadership down to the guys working in the field.”
Michael Quinn, director of the CGIAR Excellence in Breeding Platform, discusses the CGIARâs initiative on crops to end hunger.
CSRD workshop participants. Photo: M. Asaduzzaman/CIMMYT
DHAKA, Bangladesh (CIMMYT) â Scientists from across South and Southeast Asia launched a new agenda earlier this week to boost community involvement in developing climate information and extension messaging services across the region.
âKey to climate services is emphasis on the service,â said Timothy Krupnik, a systems agronomist at the International Maize and Wheat Improvement Center (CIMMYT) and South Asia project leader for Climate Services for Resilient Development (CSRD).
Researchers know how the regionâs farmers will be affected by climate change thanks to the development of climate models and other analyses, but there still is a lack of a strong support system that allows farmers to practically use this information.
âWe must be able to rapidly extend information to farmers and others who require climate information to inform their decision making, and to assure that research outputs are translated in an easy to understand way that communicates to farmers, extension workers and policy makers,â said Krupnik. âEqually important is feedback from farmers on the quality of climate services so they can be adapted and improved over time.â
The researchers, who gathered in Dhaka, Bangladesh for a three-day workshop from September 17-19, 2017, evaluated how climate and agricultural extension advisories are currently produced and conveyed, and identified opportunities on how to improve these services for farming communities across Bangladesh, India, Indonesia, Myanmar, Nepal, Philippines, Sri Lanka and Vietnam.
âCSRDâs activities are relevant to the U.S. governmentâs commitment to building resilience of smallholder farmers and to ensure increased production, as well bolster country resilience,â said David Westerling, acting economic growth office director and Feed the Future team leader for the United States Agency for International Developmentâs mission in Bangladesh. âThat is why we are behind this effort.â
During the workshop, delegates assessed different ways to incorporate seasonal climate forecasts into farmer decision making, using several African countries as examples. Â For example, participants learned how to simply but effectively depict probabilistic forecasts in graphs to farmers during a group work discussion.
There were also experience sharing sessions on information and communication technology (ICT) in agricultural climate services. Giriraj Amarnath, researcher at the International Water Management Institute, Ishwor Malla, service director for ICT at Agri Private Limited and Md. Nadirruzzaman, assistant professor at the Independent University, Bangladesh indicated that ICT can be a cost-effective approach to transfer information to farmers who can, in turn, improve crop productivity using climate information shared their observation and experiences.
While ICT can serve as an important tool, participants emphasized the need for more face-to-face extension and interaction with farming communities to build trust in forecasts that would otherwise not be fully understood by downloading a mobile application or receiving an SMS message.
An analysis to identify strengths, weaknesses, opportunities and threats for climate services in each country and across countries was completed to examine how participants can collaborate in south-south exchanges to support ongoing work in agricultural climate services.
On the last day of the workshop, climate index-based agricultural insurance was also discussed, after which participants proposed new institutional arrangements to improve agricultural climate information flow to farmers in each of their countries.
Elisabeth Simelton, climate change scientist at the World Agroforestry Centre in Vietnam and project manager at the Consortium Research Program on Climate Change, Agriculture, and Food Security (CCAFS), said the workshop provided an interesting platform where scientists and climate service providers from different countries were able to meet and exchange their experiences and ideas through interactive formats, so that everybody can take something new and useful back to their respective countries.
The Climate Services for Resilient Development (CSRD) is a global partnership that connects climate science, data streams, decision support tools, and training to decision-makers in developing countries.The workshop was sponsored by the United States Agency for International Development on behalf of CSRD and is collaboratively organized by CIMMYT and CSRD through the SERVIR Support Team. This work was also implemented as part of the CGIAR Research Program on CCAFS. Read more about the workshop, participants and sponsors here.Â
At this yearâs UN Climate Talks, CIMMYT is highlighting innovations in wheat and maize that can help farmers overcome climate change. Follow @CIMMYT on Twitter and Facebook for the latest updates.
