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Integrated initiative launches in Nepal, India and Bangladesh

Written by Nur-A-Mahajabin Khan on . Posted in News.

TAFSSA inception workshops in Nepal, India and Bangladesh. (Credit: CIMMYT/CGIAR)

CGIAR, in collaboration with government agencies and other relevant stakeholders, held country launches of the Transforming Agrifood Systems in South Asia (TAFSSA) Initiative in three of its four working locations: Nepal, India and Bangladesh.

TAFSSA, which also operates in Pakistan, aims to deliver a coordinated program of research and engagement, transforming evidence into impact through collaboration with public and private partners across the production-to-consumption continuum. The end result will be productive and environmentally sound South Asian agrifood systems that support equitable access to sustainable healthy diets, as well as contributing to improved farmer livelihoods and resilience, while conserving land, air and groundwater resources.

A vision for South Asian agrifood systems

The three country-level launch events provided a platform for CGIAR’S partners to discuss TAFSSA’s five key areas:

  1. Facilitating agrifood system transformation through inclusive learning platforms, public data systems, and collaborations.
  2. Changing agroecosystems and rural economies to increase revenue and sustain diverse food production within environmental constraints.
  3. Improving access to and affordability of sustainably produced healthful foods through evidence and actions across the post-harvest value chain.
  4. Addressing the behavioral and structural factors of sustainable healthy diets
  5. Building resilience and limiting environmental impact.

The three inception events in Nepal, India and Bangladesh also provided a space for open debate on creating partnerships to achieve common goals, through multidisciplinary conversation on each focal area. Breakout sessions were also held according to emphasis area, explaining the initiative and its components clearly and providing opportunities to brainstorm with participants on how to build more stakeholder-responsive activities.

More than 70 participants attended each inception session, both in-person and online, representing government agencies, CGIAR and its research centers working on TAFSSA, international organizations working in the region, academic institutions, and other key stakeholder groups.

Project endorsements

At the launch event in Nepal on June 9, Temina Lalani Shariff, regional director for South Asia at CGIAR, described TAFSSA as a gateway to the rest of CGIAR’s global research efforts. She explained, “More than 100 partners from around the world will exchange their knowledge, skills and expertise through CGIAR’s new platform to work together for agriculture development.”

Purnima Menon, TAFSSA co-lead and senior research fellow with the International Food Policy Research Institute (IFPRI), presented the project in India on June 15. “The research portfolio and engagement plan we’re proposing is really intending to cut across the food system,” said Menon. “We want to engage people in production systems, people in the middle of the value chain, and consumers, to build the research portfolio. The idea is to do so in a way that is interlinked with the five new CGIAR impact areas and that amplifies CGIAR’s research on the ground.”

Introducing TAFSSA in Bangladesh on July 18, Timothy J. Krupnik, Initiative lead and senior agronomist with the International Maize and Wheat Improvement Center (CIMMYT), stated, “The approach we’ve taken while developing this Initiative was to first look at agrifood crisis issues in South Asia. We evaluated key challenges in this region which has world’s highest concentrations of hunger and poverty.” He highlighted climate change, resource constraints and social structural inequalities, all of which will be addressed by TAFSSA through several focus areas.

Shaikh Mohammad Bokhtiar, Chairman of the Bangladesh Agriculture Research Council (BARC) welcomed these ideas at the TAFSSA Bangladesh launch. “If we want to create an intelligent society or nation, if we want sustainability, we must provide nutrition for all,” said Bokhtiar. “In this region, I believe that combining science, technology and innovation in the TAFSSA initiative will deliver good results.”

Shariff also attended the launch in Bangladesh, where she remarked, “We are here to share a common path to work together to confront the challenges. For that, cooperation is the essential component which is common across Nepal, India and Bangladesh.”

At each of the launch events, TAFSSA was announced as a flagship initiative in South Asia by Martin Kropff, managing director of Resilient Agrifood Systems (RAFS) at CGIAR. He expressed confidence that it would be the first regional program to deliver significant development results and acknowledged that the planned collaboration and partnership with national research institutes would ensure TAFSSA’s success.

Cereal Systems Initiative for South Asia (CSISA) project enters Phase 4.0

Written by Nima Chodon on . Posted in News.

CSISA India core team discuss deliverables for CSISA Phase 4 at the planning meeting held in Vizag, India, in November 2021. (Credit: Wasim Iftikar/CIMMYT)

The eastern Indo-Gangetic plains (EIGP) have a higher density of rural poverty and food insecurity than any other region. The region’s intensive rice-wheat cropping system has large yield gaps, which are far higher than anywhere in South Asia, coupled with an increasing environmental footprint due to conventional agricultural practices.

To sustainably enhance cereal crop productivity and improve smallholder farmers’ livelihoods in Bangladesh, India, and Nepal, the Cereal Systems Initiative for South Asia (CSISA), a science-driven and impacts-oriented regional project led by the International Maize and Wheat Improvement Center (CIMMYT), was launched in 2009.

Over the years, working with public and private partners, CSISA has helped smallholder farmers increase their yield and supported widespread adoption of resource-conserving and climate-resilient farming technologies and practices. Through three phases from 2009 to 2021, the project impacted nearly 8.5 million farmers (mainly smallholders) through its research and agri-system innovation interventions.

A new three-and-a-half-year commitment in India by the Bill & Melinda Gates Foundation reinforces the project’s importance and value in reducing food insecurity and improving overall agri-food systems in the region.

“CSISA, over more than a decade, has built up a strong multi-institutional, interactive, and participatory team at all levels in the region,” said Peter Craufurd, project leader of CSISA in India. “It has developed competencies and skills that include problem-solving agronomy research, cross-cutting tools and analytics, policy reform, and capacity development to strengthen cropping systems for smallholder farmers in the region.”

Overview of CSISA Project investments with direct and indirect programs under each phase since its launch in 2009. (Credit: Timothy Krupnik/CIMMYT)

The overarching objective of CSISA 4.0 is to transform how agronomic research and extension are implemented and embedded in decision-making and policy processes, primarily in India, where CSISA has the most experience and influence. Phase 4.0 will leverage the investments made in India in the third phase and focus on institutionalizing interventions through partnerships with the national and state agricultural systems, including on-ground strategic partnerships with civil society and the private sectors. According to Craufurd, Phase 4.0 will further strengthen the pathways established and scale the impact, particularly the institutional research and development capacity and strategic partnerships thus far established in India, through its seven focussed work areas, including gender empowerment.

“We are confident of our strong partnership with the national systems led by the Indian Council of Agricultural Research (ICAR) to support Indian farmers with improved yield and productivity,” said R.K. Malik, CSISA India coordinator. “Over the last decade, CSISA has built a strong track record for agronomy at scale that can help transform agri-research delivery systems in the region. There is also the opportunity to make CSISA outputs and products portable or useable for other stakeholders addressing food insecurity in the region in the future.”

Implemented jointly with CGIAR partners the International Rice Research Institute (IRRI) and the International Food Policy Research Institute (IFPRI), the initiative has been a successful regional approach to impactful agronomy programming. The CSISA team hopes to continue supporting the smallholder farmers in the region to optimize yield and contribute to the region’s food security.

Women harvest wheat in India. (Photo: J. Cumes/CIMMYT)

Earlier wheat planting will boost yields in eastern India

Written by Sarah Fernandes on . Posted in Blogs.

“For several years, we’ve been building dense data sets with colleagues from the Indian Agricultural Research Council, which have allowed us to unravel complex farm realities through big data analytics, and to determine what agricultural management practices really matter in smallholder systems,” said Andrew McDonald ’94, M.S. ’98, Ph.D. ’03, associate professor of soil and crop sciences in the College of Agriculture and Life Sciences. “This process has confirmed that planting dates are the foundation for climate resilience and productivity outcomes in the dominant rice-wheat cropping systems in the eastern sector in India.”

McDonald is first author of “Time Management Governs Climate Resilience and Productivity in the Coupled Rice-Wheat Cropping Systems of Eastern India,” published July 21 in Nature Food with a consortium of national and international partners, including scientists from the International Maize and Wheat Improvement Center (CIMMYT).

The research was conducted through the  Cereal Systems Initiative for South Asia (CSISA). CSISA, which is led by CIMMYT with the International Rice Research Institute and the International Food Policy Research Institute as research partners, was established in 2009 to promote durable change at scale in South Asia’s cereal-based cropping systems.

Researchers found that farmers in eastern India could increase yield by planting wheat earlier – avoiding heat stress as the crop matures – and quantified the potential gains in yields and farm revenues for the region. They also found that the intervention would not negatively impact rice productivity, a key consideration for farmers. Rice alternates with wheat on the cropping calendar, with many farmers growing rice in the wet season and wheat in the dry season.

The study also provides new recommendations for rice sowing dates and types of cultivars, to accommodate the earlier sowing of wheat.

“Farmers are not just managing single crops. They are managing a sequence of decisions,” said McDonald, who has a joint appointment in the Department of Global Development. “Taking a cropping systems approach and understanding how things cascade and interlink informs our research approach and is reflected in the recommendations that emerged from this analysis. Climate resilient wheat starts with rice.”

The research is the result of years of collaboration with international groups and government agencies in India, which have identified the Eastern Ganges Plain as the area with the most potential growth in production. The region will become essential, McDonald said, as the demand for wheat grows, and climate change makes production more difficult and unpredictable; just this year, record heat waves in March and April and food shortages caused by the war in Ukraine – both of which prompted India’s government to instate a ban on wheat exports – have highlighted the need for increased yields and more sustainable farming practices.

“In the bigger sense, this research is timely because the hazards of climate change aren’t just a hypothetical,” McDonald said. “Many of these areas are stress-prone environments, and extreme weather already constrains productivity. Identifying pragmatic strategies that help farmers navigate current extremes will establish a sound foundation for adapting to progressive climate change.”

Poverty is endemic in the Eastern Ganges Plain, and the region is dominated by small landholders, with varying practices and access to resources. The breadth and specificity of the data collected and analyzed in the study – including field and household survey data, satellite data, and dynamic crop simulations – allowed researchers to understand regional small farms’ challenges and the barriers to change.

“At the end of the day, none of this matters unless farmers opt in,” McDonald said. “There’s a spatial dimension and a household dimension to opportunity.  If we can  target approaches accordingly, then we hope to position farmers to make management changes that will benefit the entire food system.”

The study was co-authored with researchers from the Australian Department of Primary Industries and Regional Development, the International Rice Research Institute, the International Maize and Wheat Improvement Center, the International Food Policy Research Institute, the Indian Council of Agricultural Research and Bihar Agricultural University. The research was supported by the Bill and Melinda Gates Foundation and the U.S. Agency for International Development through grants to the Cereal Systems Initiative for South Asia, which is led by the International Maize and Wheat Improvement Center.

This piece by Caitlin Hayes, was originally posted on the Cornell Chronicle website.

Institutionalizing Monitoring of Crop Variety Adoption using Genotyping (IMAGE)

Written by Rodrigo Ordóñez on . Posted in Uncategorized.

Institutionalizing Monitoring of Crop Variety Adoption using Genotyping (IMAGE) is a five-year program with the aim of establishing, institutionalizing, and scaling routine monitoring of improved variety adoption and turnover using genotyping.

It is led by country teams in Ethiopia, Nigeria and Tanzania, supported by Context Global Development and the Bill & Melinda Gates Foundation.

Reliable monitoring: IMAGE will assess the varieties that farmers are growing of four staple crops within the three target countries and marking the rate of improved variety adoption through recurring surveys and comparative analysis.

Vision for change: IMAGE supports inclusive agricultural transformation by providing insights and evidence for seed sector actors to enhance government agency capacity, improve stakeholder coordination, and lead to better resource allocation for varietal development and commercialization.

Project objectives:

  • Enable a national leadership mandate to monitor crop varieties and adoption
  • Build a network of technical experts and service providers to provide personalized advisory support
  • Establish best practices that enable routine monitoring and produce credible results
  • Form a sustainable funding mechanism based on use cases with government and stakeholder buy-in
  • Advocate for institutional capacity for reliable monitoring programs

IMAGE provides the opportunity to leverage past monitoring pilots and for cross-country learnings while advancing genetic reference libraries, establishing protocol adoption, and building towards institutionalization over five years. This is done through six objectives:

  • Comparable estimates of varietal adoption and turnover will be generated and made available to stakeholders​
  • Standardization of best-practices ​and supporting technologies​
  • Establishment of ​sustainable business cases
  • Pilot study results on varietal identity preservation in seed value chains for each country-crop combination ​
  • Institutionalized system of ​varietal monitoring for long-term, sustainable national partner implementation
  • Generated data used by seed sector stakeholders to make key decisions​

CGIAR Plant Health Initiative formally launched on the International Day of Plant Health

Written by Susan Otieno on . Posted in News.

National, regional, and international partners at the CGIAR Plant Health and Rapid Response to Protect Food Security and Livelihoods Initiative launch in Nairobi, Kenya, on May 12, 2022. (Credit: Susan Otieno)

CGIAR together with national, regional, and international partners kicked off the Plant Health and Rapid Response to Protect Food Security and Livelihoods Initiative also known as the Plant Health Initiative in Nairobi, Kenya, on May 12-13, 2022. The Initiative’s inception meeting was fittingly held on the first-ever International Day of Plant Health on May 12 and was attended by over 200 participants (both in-person and virtual), representing diverse institutions.

The Plant Health Initiative targets a broad range of pests and diseases affecting cereals (especially rice, wheat and maize) and legumes such as beans, faba bean, chickpea, lentil, and groundnut; potato; sweet potato; cassava; banana; and other vegetables.

Speaking at the meeting, CGIAR Plant Health Initiative Lead and Director of Global Maize Program at the International Maize and Wheat Improvement Center (CIMMYT) noted that climate change, together with human activities and market globalization, is aggravating challenges to plant health, including outbreaks of devastating insect-pests and diseases. In addition, according to data from the African Union Partnership on Aflatoxin Control in Africa (AUC-PACA), 40 percent of commodities in local African markets exceed allowable levels of mycotoxins in food, causing adverse effects on diverse sectors, including agriculture, human health, and international trade.

“The CGIAR Plant Health Initiative is, therefore, a timely program for strengthening inter-institutional linkages for effective plant health management especially in the low- and middle-income countries in Africa, Asia, and Latin America, said Prasanna. “This calls for synergizing multi-stakeholder efforts to improve diagnostics, monitoring and surveillance, prediction and risk assessment of transboundary pests and pathogens, and implementing integrated pest and disease management in a gender-responsive and socially inclusive manner.”

Demand-driven multistakeholder approach

CGIAR Global Science Director for Resilient Agrifood Systems Martin Kropff reiterated the importance of the Initiative, and emphasized the need for a global plant health research-for-development consortium. He mentioned that all the CGIAR Initiatives, including the Plant Health Initiative, are demand-driven and will work closely with national, regional, and international partners for co-developing and deploying innovative solutions.

The chief guest at the event, Oscar Magenya, Secretary of Research and Innovation at Kenya’s Ministry of Agriculture, pointed out the need for a well-coordinated, multisectoral and multistakeholder approach to managing invasive pests and diseases. He recognized CGIAR’s contribution and partnership with the Government of Kenya through CIMMYT, especially in combating maize lethal necrosis and wheat rust in Kenya.

“As government, we invite the CGIAR Plant Health Initiative to partner with us in implementing the Migratory and Invasive Pests and Weeds Management Strategy that was launched recently [by the Kenya Government],” said Magenya.

Implications of Plant Health in Africa and globally

Zachary Kinuya, Director of Crop Health Program at the Kenya Agricultural and Livestock Research Organisation (KALRO) spoke on the importance of plant health management to African stakeholders, and observed that in addition to improved crop production, food and feed safety must be given adequate priority in Africa.

Director of the Plant Production and Protection Division at the UN Food and Agriculture Organization (FAO), Jingyuan Xia applauded CGIAR for launching the global Initiative. Through his virtual message, Xia stated that the goals of the two organizations are aligned towards supporting farmers and policy makers in making informed decisions and ultimately ending global hunger. He added that the CGIAR has strong research capacity in developing and disseminating new technologies.

CIMMYT Director General Bram Govaerts explained how negative impacts on plant health, combined with climate change effects, can lead to global production losses and food system shocks, including the potential to result in food riots and humanitarian crises. He challenged stakeholders in the meeting to resolve tomorrow’s problems today, through collective and decisive action at all levels.

Sarah M. Schmidt, Fund International Agriculture Research Advisor_GIZ Germany making a contribution during the Launch of the Plant Health Initiative. (credit Susan Otieno/CIMMYT)

The German development agency (GIZ) Fund International Agricultural Research (FIA) Advisor Sarah Schmidt said that GIZ supports the Initiative because of its interest in transformative approaches in innovations for sustainable pest and disease management. Recognizing women’s major involvement in farming in Africa, Schmidt said there is a need to empower and equip women with knowledge on plant health as this will result to greater productivity on farms in Africa. “We welcome that the Plant Health Initiative dedicated an entire crosscutting work package to equitable and inclusive scaling of innovations,” she added.

Participants at the launch were also reminded by Ravi Khetarpal, Executive Secretary of the Asia-Pacific Association of Agricultural Research Institutions (APAARI), that the Initiative is now at the critical phase of Implementation and requires diverse actors to tackle different issues in different geographies. Ravi added that biosecurity and plant health are important subjects for the Asia-Pacific region, in view of the emergence of new pests and diseases, and therefore the need to save the region from destructive pest incursions.

Other online speakers at the launch included Harold Roy Macauley, Director General of AfricaRice & CGIAR Regional Director, Eastern and Southern Africa; Nteranya Sanginga, Director General of the International Institute of Tropical Agriculture (IITA) and CGIAR Regional Director, West and Central Africa; and Joaquin Lozano, CGIAR Regional Director, Latin America & the Caribbean.

Reflecting on gender, social inclusion, and plant health

Panel discussions allowed for more in-depth discussion and recommendations for the Initiative to take forward. The panelists delved into the progress and challenges of managing plant health in the Global South, recommending a shift from a reactive to a more proactive approach, with strong public-private partnerships for sustainable outcomes and impacts.

Gender inequities in accessing the plant health innovations were also discussed. The discussion highlighted the need for participatory engagement of women and youth in developing, validating and deploying plant health innovations, a shift in attitudes and policies related to gender in agriculture, and recognition and deliberate actions for gender mainstreaming and social inclusion for attaining the Sustainable Development Goals (SDGs).

B.M. Prasanna speaking at the launch. (credit: Susan Otieno/CIMMYT)

Charting the course for the Initiative

The Plant Health Initiative Work Package Leads presented the Initiative’s five specific work packages and reiterated their priorities for the next three years.

“We are looking forward to taking bold action to bring all players together to make a difference in the fields of farmers all over the world,” said Prasanna.

The Initiative is poised to boost food security, especially in key locations through innovative and collaborative solutions.

For more information, visit the CGIAR Plant Health Initiative page or download a brief. 

Panel Discussion Presentations

“Plant Health Management in the Global South: Key Lessons Learnt So Far, and the Way Forward” moderated by Lava Kumar (IITA) with panelists: Florence Munguti [Kenya Plant Health Inspectorate (KEPHIS)], Maryben Chiatoh Kuo (African Union-Inter-African Phytosanitary Council), Roger Day (CABI) and Mark Edge (Bayer).

 “Scaling Strategy, including Gender and Social Inclusiveness of Plant Health Innovations” moderated by Nozomi Kawarazuka (CIP), with panelists Jane Kamau (IITA), Alison Watson (Grow Asia), Sarah Schmidt (GIZ), Aman Bonaventure Omondi (Alliance Bioversity-CIAT) and Nicoline de Haan (CGIAR Gender Platform)

Work Package Title and Leads

Work Package 1: Bridging Knowledge Gaps and Networks: Plant Health Threat Identification and Characterization

Lead: Monica Carvajal, Alliance of Bioversity-CIAT

Work Package 2: Risk Assessment, data management and guiding preparedness for rapid response

Lead: Lava Kumar, IITA

Work Package 3: Integrated pest and disease management

Lead: Prasanna Boddupalli, CIMMYT

Work Package 4: Tools and processes for protecting food chains from mycotoxin contamination

Lead: Alejandro Ortega-Beltran, IITA

Work Package 5: Equitable and inclusive scaling of plant health innovations to achieve impacts Co-leads:Nozomi Kawarazuka, International Potato Center (CIP), Yanyan Liu, International Food Policy Research Institute (IFPRI)

Representatives from CGIAR leadership, CGIAR Centers, government and other stakeholders stand for a group photo during the launch of the AgriLAC Resiliente Initiative in Guatemala City. (Photo: CGIAR)

AgriLAC Resiliente presented in Guatemala

Written by Rodrigo Ordóñez on . Posted in Press releases.

Representatives from CGIAR leadership, CGIAR Centers, government and other stakeholders stand for a group photo during the launch of the AgriLAC Resiliente Initiative in Guatemala City. (Photo: CGIAR)
Representatives from CGIAR leadership, CGIAR Centers, government and other stakeholders stand for a group photo during the launch of the AgriLAC Resiliente Initiative in Guatemala City. (Photo: CGIAR)

Latin America and the Caribbean possess the largest reserve of arable land on the planet, 30% of renewable water, 46% of tropical forests and 30% of biodiversity. These resources represent an important contribution to the world’s food supply and other ecosystem services. However, climate change and natural disasters, exacerbated by COVID-19, have deteriorated economic and food security, destabilizing communities and causing unprecedented migration, impacting not only the region but the entire world.

Against this regional backdrop, AgriLAC Resiliente was created. This CGIAR Initiative seeks to increase the resilience, sustainability and competitiveness of the region’s agrifood systems and actors. It aims to equip them to meet urgent food security needs, mitigate climate hazards, stabilize communities vulnerable to conflict and reduce forced migration.

Guatemala was selected to present this Initiative, which will also impact farmers in Colombia, El Salvador, Honduras, Mexico, Nicaragua and Peru, and will be supported by national governments, the private sector, civil society, and regional and global donors and partners.

At a workshop on June 27–28, 2022, in Guatemala City, partners consolidated their collaboration by presenting the Initiative and developing a regional roadmap. Workshop participants included representatives from the government of Guatemala, NGOs, international cooperation programs, the private sector, producer associations, and other key stakeholders from the host country. Also at the workshop were the leaders from CGIAR research Centers involved in the Initiative, such as the Alliance of Bioversity International and the International Center for Tropical Agriculture (CIAT), the International Maize and Wheat Improvement Center (CIMMYT), the International Potato Center (CIP) and the International Food Policy Research Institute (IFPRI).

Joaquín Lozano, CGIAR Regional Director for Latin America and the Caribbean, presents during the launch of the AgriLAC Resiliente Initiative. (Photo: CGIAR)
Joaquín Lozano, CGIAR Regional Director for Latin America and the Caribbean, presents during the launch of the AgriLAC Resiliente Initiative. (Photo: CGIAR)

Impact through partnerships

“Partnerships are the basis for a future of food security for all through the transformation of food systems in the context of a climate crisis. AgriLAC’s goal of a coordinated strategy and regional presence will facilitate strong joint action with partners, donors, and producers, and ensure that CGIAR science continues to be leveraged so that it has the greatest possible impact,” said Joaquín Lozano, CGIAR Regional Director for Latin America and the Caribbean.

This Initiative is one of many CGIAR Initiatives in Latin America and consists of five research components: Climate and nutrition that seeks to use collaborative innovations for climate resilient and nutritious agrifood systems; Digital agriculture through the use of digital and inclusive tools for the creation of actionable knowledge; Low-emission competitiveness focused on agroecosystems, landscapes and value chains that are low in sustainable emissions; Innovation and scaling with the Innova-Hubs network for agrifood innovations and scaling; and finally, Science for timely decision making and establishment of policies, institutions, and investments for resilient, competitive and low-emission agrifood systems.

“We know the important role that smallholder farmers, both women and men, will play in the appropriation of the support tools that the Initiative will offer, which will allow them to make better decisions for the benefit of their communities. That is why one of the greatest impacts we expect from the project will be the contribution to gender equality, the creation of opportunities for youth, and the promotion of social inclusion,” said Carolina González, leader of the Initiative, from the Alliance of Bioversity International and CIAT.

Bram Govaerts, Director General of CIMMYT, said: “In Guatemala, we have had the opportunity to work side by side with farmers who today, more than ever, face the vicious circle of conflict, poverty and climate change. Through this Initiative, we hope to continue making progress in the transformation of agrifood systems in Central America, helping to make agriculture a dignified and satisfying job and a source of prosperity for the region’s producers.”

“I realize the importance of implementing strategic actions designed to improve the livelihoods of farmers. The environmental impact of development without sustainable planning puts at risk the wellbeing of humanity. The Initiatives of this workshop contribute to reducing the vulnerability of both productive systems and farmers and their families. This is an ideal scenario to strengthen alliances that allow for greater impact and respond to the needs of the country and the region,” said Jose Angel Lopez, Guatemala’s Minister of Agriculture, Livestock and Food.

Bram Govaerts, Director General of CIMMYT (right), presents during the launch of the AgriLAC Resiliente Initiative. (Photo: CGIAR)
Bram Govaerts, Director General of CIMMYT (right), presents during the launch of the AgriLAC Resiliente Initiative. (Photo: CGIAR)

National and regional strategies

AgriLAC Resiliente will also be presented in Honduras, where national partners will learn more about the Initiative and its role in achieving a resilient, sustainable, and competitive Latin America and the Caribbean, that will enable it to achieve the Sustainable Development Goals.

Under the general coordination of CGIAR, other Initiatives are also underway in Guatemala that will synergize with the global research themes toward the transformation of more resilient agrifood systems.

“We are committed to providing a structure that responds to national and regional priorities, needs, and demands. The support of partners, donors and producers will be key to building sustainable and more efficient agrifood systems,” Lozano said.

About CGIAR

CGIAR is a global research partnership for a food-secure future, dedicated to transforming food, land, and water systems in a climate crisis. Its research is carried out by 13 CGIAR Centers/Alliances in close collaboration with hundreds of partners, including national and regional research institutes, civil society organizations, academia, development organizations and the private sector. www.cgiar.org

We would like to thank all Funders who support this research through their contributions to the CGIAR Trust Fund.

About the Alliance of Bioversity International and CIAT

The Alliance of Bioversity International and the International Center for Tropical Agriculture (CIAT) delivers research-based solutions that address the global crises of malnutrition, climate change, biodiversity loss, and environmental degradation. The Alliance focuses on the nexus of agriculture, nutrition and environment. We work with local, national, and multinational partners across Africa, Asia, and Latin America and the Caribbean, and with the public and private sectors and civil society. With novel partnerships, the Alliance generates evidence and mainstreams innovations to transform food systems and landscapes so that they sustain the planet, drive prosperity, and nourish people in a climate crisis.

The Alliance is a CGIAR Research Center. https://alliancebioversityciat.org

About CIMMYT

The International Maize and Wheat Improvement Center (CIMMYT) is an international nonprofit agricultural research and training organization 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 toward a world with healthier, more prosperous people, freedom from global food crises, and more resilient agrifood systems. CIMMYT’s research brings higher productivity and better profits to farmers, mitigates the effects of the climate crisis, and reduces the environmental impact of agriculture.

CIMMYT is a CGIAR Research Center. https://staging.cimmyt.org

About CIP

The International Potato Center (CIP) was founded in 1971 as a research-for-development organization with a focus on potato, sweetpotato and andean roots and tubers. It delivers innovative science-based solutions to enhance access to affordable nutritious food, foster inclusive sustainable business and employment growth, and drive the climate resilience of root and tuber agrifood systems. Headquartered in Lima, Peru, CIP has a research presence in more than 20 countries in Africa, Asia, and Latin America.

CIP is a CGIAR Research Center. https://cipotato.org/

About IFPRI

The International Food Policy Research Institute (IFPRI) provides research-based policy solutions to sustainably reduce poverty and end hunger and malnutrition in developing countries. IFPRI currently has more than 600 employees working in over 50 countries. Global, regional, and national food systems face major challenges and require fundamental transformations. IFPRI is focused on responding to these challenges through a multidisciplinary approach to reshape food systems so they work for all people sustainably.

IFPRI is a CGIAR Research Center. www.ifpri.org

CIMMYT researcher Madhulika Singh (center-right) stands with farmers from self-help groups in the village of Nawtanwa, West Champaran, in India’s Bihar state. CIMMYT works on gender inclusion and participation through partnerships with other organizations and self-help groups. (Photo: CIMMYT)

Being the change you wanted to see as a young girl

Written by Nima Chodon on . Posted in Features.

In the traditional Indian society Madhulika Singh grew up in, girls choosing to study science, technology, engineering or mathematics (STEM) was as radical as choosing a life partner on their own.

“They say women hold up half the sky. I believe they should hold up as much and contribute equally in STEM too,” says Singh, now an agriculture specialist at the International Maize and Wheat Improvement Center (CIMMYT).

In her early teens she saw her mother, a school headmaster, comfortably navigate her career along with her domestic responsibilities without a sweat. She later saw a similar example in her sister-in-law. “I grew up thinking ‘there is so much that a woman is capable of,’ whether at home or her workplace,” Singh recalls.

This strong idea of women’s potential led her to pursue studies in science. “Many women before me, like my mother’s generation, were encouraged to take up [careers in] humanities — become a teacher, or pursue home management courses — to ensure a smooth transition once married,” Singh explains. She hoped this would change during her time and that following a career in STEM would be a matter of choice — not gender.

Singh’s goals and ambitions were very clear from the very beginning. In school, she was interested in biology, particularly plant studies and botany. Her inquisitive nature was reflected in her projects and presentations, scoring her high grades. She demonstrated a thorough understanding of plant physiology and her passion for the subject. The budding scientist always wanted to know more and to do more, which Singh feels resonates with her current research and publications.

A popular quote attributed to Mahatma Gandhi says “Be the change you want to see in the world.” When Singh chose to take up plant science in graduate school and then agriculture science for her doctorate, she became the change she had hoped to see in her home and society as a young girl. With the support from her family but a skeptical society, she went ahead and pursued a career in STEM, beginning her research on maize genotypes and conservation agriculture. In 2013 she joined CIMMYT as a physiologist.

CIMMYT researcher Madhulika Singh takes notes while talking to farmers about their rice-wheat cropping practice in Nalanda, Bihar state, India. (Photo: CIMMYT)
CIMMYT researcher Madhulika Singh takes notes while talking to farmers about their rice-wheat cropping practice in Nalanda, Bihar state, India. (Photo: CIMMYT)

Helping farmers transition to conservation agriculture

Singh currently works in her home state of Bihar for the Cereal Systems Initiative for South Asia (CSISA), led by CIMMYT. She is engaged with over ten thousand farmers from the states of Bihar and Uttar Pradesh, supporting the adoption of  conservation agriculture practices.

Farming is vital for the region, as nearly 70% of the population is engaged in agriculture and extension services. However, food and livelihoods are threatened by the small size of farms, low incomes, and comparatively low levels of agricultural mechanization, irrigation and productivity.

Singh and her colleagues have led the transition from traditional farming to sustainable intensification practices — like early wheat sowing, zero tillage and direct-seeded rice — which have helped smallholder farmers increase their yield potential substantially.

“We believe a project like CSISA, along with the government and partners, can help advance and support in realizing the full agriculture potential of these regions,” Singh explains.

Roots in the soil

Her grandparents were farmers. “To be able to care for the land that provided you nourishment and a living was always admired upon,” she says. As a crop scientist, Singh’s family acknowledges her work as an extension of the services her grandparents practiced.

Sustained by this motivation and encouragement, Singh feels reassured of her role: joining other scientists, partners and farmers to make agriculture sustainable and our communities food-secure.

“The fact that the data we generate from our experiments serve as building blocks in the generation of knowledge and help farmers optimize the cost of inputs and increase their productivity is fulfilling and enriching to me,” Singh expresses.

Apart from working to build the capacity of farmers and extension workers, Singh supports the implementation of field trials and community-based technology demonstrations. She also helps refine key agricultural innovations, through participatory testing, and optimizes cropping systems in the region.

Leading the way for for the next generation

A true representative of the STEM community, Singh is always learning and using her experience to give back to society. She has co-authored numerous books and contributed to journals, sharing her knowledge with others.

Other women leaders in STEM have inspired Singh in her professional life, including CIMMYT’s former deputy director general for research Marianne Banziger. Singh believes Banziger was trailblazing and that young girls today have many female role models in STEM that can serve as inspiration.

The change is already here and many more young women work in STEM, pursuing excellence in agriculture sciences, engineering and research studies contributing to as well as claiming “half the sky.”

Cover photo: CIMMYT researcher Madhulika Singh (center-right) stands with farmers from self-help groups in the village of Nawtanwa, West Champaran, in India’s Bihar state. CIMMYT works on gender inclusion and participation through partnerships with other organizations and self-help groups. (Photo: CIMMYT)

Explore our coverage of International Women’s Day 2022.

CIMMYT scientist receives award for weed research

Written by Nima Chodon on . Posted in News.

Ram Kanwar Malik (center) with his team in Bihar, India, during a field visit.
Ram Kanwar Malik (center) with his team in Bihar, India, during a field visit.

Today the Weed Science Society of America (WSSA) announced the Honorary Member award for Ram Kanwar Malik, senior scientist at the International Maize and Wheat Improvement Center (CIMMYT). This award is given every year to a person who has made outstanding contributions to weed science “through their research, teaching, publishing and outreach.”

Malik’s early engagement in agricultural sustainability led to initiatives exploring herbicide resistance evolution and management, zero tillage, and other resource-conservation technologies. At the Cereal Systems Initiative for South Asia (CSISA) — a regional project led by CIMMYT — Malik and his colleagues helped promote the practice of early wheat sowing to beat terminal heat stress, resulting in increased wheat yield in India’s eastern Indo-Gangetic Plains.

“WSSA’s Honorary Member award is one of the highest recognitions bestowed by the Weed Science Society of America,” said Krishna Reddy, Chair of the WSSA 2022 Award Committee. “[The] Honorary Member is selected for meritorious service to weed science, among non-members from North America or any weed scientist from other countries. Only one person per year is awarded this membership. Dr. Malik’s significant research in weed science and his collaborative effort to deliver solutions for farmers in developing countries like India is inspirational.”

The award was presented virtually at the 2022 annual meeting of WSSA, held in Vancouver, Canada.

Transforming rice–wheat systems

<em>Phalaris minor</em> is a pernicious weed that affects crops like wheat and substantially reduces its yield potential.
Phalaris minor is a pernicious weed that affects crops like wheat and substantially reduces its yield potential.

Malik has worked extensively in the Indo-Gangetic Plains, leading many initiatives and innovations over the years, in collaboration with national and international partners. The WSSA award highlights Malik’s inspiring work in tackling herbicide resistance problems, first reported in India by his team in 1993. Malik was instrumental in developing a management solution for herbicide-resistant Phalaris minor, a pernicious weed in wheat crops. The integrated weed management system he helped develop raised wheat yield capacity significantly for farmers in the Indo-Gangetic Plains.

“The WSSA Honorary Member award reiterates the importance of agronomic management for sustained weed control strategies across cropping systems,” Malik said. “CIMMYT and partners, including the Australian Centre for International Agricultural Research (ACIAR), were the first to introduce zero tillage in wheat as part of a strategy to manage weed resistance problems in India. It is an honor that WSSA has recognized this collective work of ours,” he acknowledged.

Malik has devoted more than thirty years to transforming agricultural systems in the Indo-Gangetic Plains, working closely with farmers and partners, and building the capacity of national agricultural and research extension systems. he is a firm believer in farmers’ participation: “Large-scale adoption of sustainable agricultural practices is possible when we work together to leverage technologies which are mutually agreed by partners and meet farmers’ needs.”

Malik is a fellow of the Indian Society of Agronomy and the Indian Society of Weed Science (ISWS), which granted him the Lifetime Achievement Award. He has also received the Outstanding Achievement Award from the International Weed Science Society (IWSS) and the 2015 Derek Tribe Award from the Crawford Fund.

He remains passionate about and invested in changing the lives of farmers through better-bet agronomy and by leading innovative research at CIMMYT.

About the Weed Science Society of America (WSSA)

Founded in 1956, WSSA is a nonprofit scientific society that encourages and promotes the development of knowledge concerning weeds and their impact on the environment.

A group of farmers involved in participatory rice breeding trials near Begnas Lake, Pokhara, Nepal. (Photo: Neil Palmer/CIAT/CCAFS)

From diagnosis to action on social equity

Written by Rodrigo Ordóñez on . Posted in Blogs.

A group of farmers involved in participatory rice breeding trials near Begnas Lake, Pokhara, Nepal. (Photo: Neil Palmer/CIAT/CCAFS)
A group of farmers involved in participatory rice breeding trials near Begnas Lake, Pokhara, Nepal. (Photo: Neil Palmer/CIAT/CCAFS)

As CGIAR develops 33 exciting new research Initiatives, it is essential for its new research portfolio to move beyond “diagnosing gender issues” and to supporting real change for greater social equity. Gender-transformative research and methodologies are needed, co-developed between scientists and a wide range of partners.

To advance this vision, gender scientists from ten CGIAR centers and key partner institutions came together from October 25 to 27, 2021, in a hybrid workshop. Some participants were in Amsterdam, hosted by KIT, and others joined online from Canada, the Philippines and everywhere in between.

The workshop emerged from gender scientists’ desire to create a supportive innovation space for CGIAR researchers to integrate gender-transformative research and methodologies into the new CGIAR Initiatives.

The organizing team calls this effort GENNOVATE 2, as it builds on GENNOVATE, the trailblazing gender research project which ran across the CGIAR between 2014 and 2018.

GENNOVATE 2 promises to help CGIAR Initiatives achieve progress in the Gender, Youth and Social Inclusion Impact Area. It will also advance change towards Sustainable Development Goals 5 and 10 on gender and other forms of inequality.

In the workshop, participants sought to:

  • Share and develop ideas, methods and approaches to operationalize gender-transformative research and methodologies. Working groups focused on an initial selection of CGIAR Initiatives, representing all the Action Areas of CGIAR:
    • ClimBeR: Building Systemic Resilience against Climate Variability and Extremes; (Systems Transformation)
    • Securing the Asian Mega-Deltas from Sea-level Rise, Flooding, Salinization and Water Insecurity (Resilient Agrifood Systems)
    • Sustainable Intensification of Mixed Farming Systems (Resilient Agrifood Systems)
    • Market Intelligence and Product Profiling (Genetic Innovation)
  • Build on the significant investments, methods, data, and results from the original GENNOVATE.
  • Conceive a community of practice for continued sharing, learning and collaboration, across and within Initiatives, to accelerate progress on gender and social equity.
Participants at the GENNOVATE 2 workshop in Amsterdam, the Netherlands, in October 2021.
Participants at the GENNOVATE 2 workshop in Amsterdam, the Netherlands, in October 2021.

Joining a vibrant community

GENNOVATE 2 is envisioned to complement the CGIAR GENDER Platform and the proposed new CGIAR gender-focused research Initiative, HER+.

“We have several gender methodology assets in CGIAR, and GENNOVATE is one of them,” said Nicoline de Haan, Director of the CGIAR GENDER Platform, opening the workshop. “We want to make sure we cultivate and grow the efforts started during GENNOVATE and move forward important lessons and practices in the new CGIAR portfolio.”

The team of scientists behind GENNOVATE 2 wants to support a vibrant community of researchers who “work out loud.” They will document and share their research methodologies, experiences and insights, in order to accelerate learning on gender issues and scale out successes more quickly.

The ultimate objectives of GENNOVATE 2 are to:

  • Develop and deepen a set of methodologies expected to directly empower women, youth, and marginalized groups in the targeted agri-food systems
  • Contribute to normative change towards increased gender equality across different scales, ranging from households to countries.
  • Generate and build an evidence base on the relationship between empowering women, youth and marginalized people, and moving towards climate-resilient and sustainable agri-food systems — and vice versa.

“An example of the added value GENNOVATE 2 can bring to CGIAR Initiatives is understanding what maintains prevailing gender norms in research sites, and also at relevant institutional and political levels,” said Anne Rietveld, gender scientist at the Alliance of Bioversity International and CIAT, and co-organizer of the workshop. “This will enable CGIAR scientists, partners and policymakers to design locally relevant gender-transformative approaches and policies for more impact. We can do this by building on our GENNOVATE 1 evidence base, adapting methods from GENNOVATE 1 and co-developing new methods in GENNOVATE 2.”

Participants at the GENNOVATE 2 workshop in Amsterdam, the Netherlands, in October 2021.
Participants at the GENNOVATE 2 workshop in Amsterdam, the Netherlands, in October 2021.

What’s next?

The workshop showed that many scientists from CGIAR and partner institutes are motivated to invest in the vision of GENNOVATE 2. Achieving impact in the Gender, Youth and Social Inclusion Impact Area will require concerted efforts and inputs from scientists on the ground.

“There is a groundswell of experience and enthusiasm that you, we, this group brings. We need answers and we can and should work together to make this a reality,” remarked Jon Hellin, Platform Leader – Sustainable Impact in Rice-based Systems at the International Rice Research Institute (IRRI), and co-lead of the ClimBeR Initiative.

The organizing team listed concrete actions to follow the workshop:

  • Developing processes and spaces for discussing methodological advancements among the gender scientists in these four Initiatives which other Initiatives can tap into, contribute to and become part of.
  • To develop these shared and integrated methodologies and approaches into a GENNOVATE 2 conceptual and methodological roadmap — to contribute to the CGIAR Gender, Youth, and Social Inclusion Impact Area and guide other Initiatives, as well as bilateral research
  • To develop a position paper articulating what can be achieved through concerted efforts to integrate gender and social equity more effectively into the Initiatives, to showcase gender-transformative research methods for further development and implementation. The aim of the position paper is to influence global science leaders and CGIAR leadership in how they include issues of social equity in the Initiatives.
  • To support these conversations, learnings and harmonization processes through setting up a community of practice, where the “practice” to be improved is the practice of advancing gender research methodologies to go from diagnosis to action. This will start with a core group of enthusiastic researchers and then will expand as it gains momentum, so that all researchers in the various Initiatives interested in social equity can contribute
  • To seek funding opportunities to support the activities outlined above.

The GENNOVATE 2 organizing team welcomes the participation of interested CGIAR Initiatives as they move forward. The organizing team will also help strengthen interactions with external resource people and research networks, in to cross-pollinate new knowledge and innovations.

If you would like to know more about GENNOVATE 2, please contact Anne Rietveld, Gender Scientist at the Alliance of Bioversity International and CIAT and Hom Gartaula, Gender and Social Inclusion Specialist at the International Maize and Wheat Improvement Center (CIMMYT).

The GENNOVATE 2 workshop was supported with funds from the CGIAR Research Programs on Roots Tubers and Bananas, Maize, and Wheat.

Workshop organizers Anne Rietveld (Alliance), Cathy Rozel Farnworth (Pandia Consulting, an independent gender researcher), Diana Lopez (WUR) and Hom Gartaula (CIMMYT) guided participants. Arwen Bailey (Alliance) served as facilitator.

Participants were: Renee Bullock (ILRI); Afrina Choudhury (WorldFish); Marlene Elias (Alliance); Gundula Fischer (IITA); Eleanor Fisher (The Nordic Africa Institute/ClimBeR); Alessandra Galie (ILRI); Elisabeth Garner (Cornell University/Market Intelligence); Nadia Guettou (Alliance); Jon Hellin (IRRI); Deepa Joshi (IWMI); Berber Kramer (IFPRI); Els Lecoutere (CGIAR GENDER Platform); Angela Meentzen (CIMMYT); Gaudiose Mujawamariya (AfricaRice); Surendran Rajaratnam (WorldFish); Bela Teeken (IITA), among others.

External experts who provided methodological inputs were: Nick Vandenbroucke of Trias talking about institutional change; Shreya Agarwal of Digital Green talking about transformative data; Katja Koegler of Oxfam Novib talking about Gender Action Learning Systems (GALS) for community-led empowerment; and Phil Otieno of Advocates for Social Change (ADSOCK) talking about masculinities and working with men.

New CSISA Infographic highlights the impact of the CIMMYT’s Soil Intelligence System (SIS)

Written by Nima Chodon on . Posted in News.

In agriculture, good soil management is a pillar of productive systems that can sustainably produce sufficient and healthy food for the world’s growing population.

Soil properties, however, vary widely across geography. To understand the productive capacity of our soils, we need high-quality data. Soil Intelligence System (SIS) is an initiative to develop comprehensive soil information at scale under the Cereal Systems Initiative for South Asia (CSISA) project in India. SIS is led by the International Maize and Wheat Improvement Centre (CIMMYT) in collaboration with ISRIC – World Soil Information, International Food Policy Research Institute (IFPRI), and numerous local partners on the ground.

Funded by the Gates Foundation, the initiative launched in 2019 helps rationalize the costs of generating high-quality soils data while building accessible geo-spatial information systems based on advanced geo-statistics. SIS is currently operational in the States of Andhra Pradesh, Bihar and Odisha where the project partners collaborate with state government and state agricultural universities help produce robust soil health information.

Farmers are the primary beneficiaries of this initiative, as they get reliable soil health management recommendations to increase yields and profits sustainably while state partners, extension and agricultural development institutions and private sector benefit primarily by expanding their understanding for agricultural interventions.

Modern Soil Intelligence System Impact

CIMMYT’s SIS Project lead Balwinder Singh said, “The Soil Intelligence Systems initiative under CSISA is an important step towards the sustainable intensification of agriculture in South Asia. SIS has helped create comprehensive soil information – digital soil maps – for the states of Andhra Pradesh, Bihar and Odisha. The data generated through SIS is helping stakeholders to make precise agronomy decisions at scale that are sustainable.”

Since its launch in December 2019, a wider network and multi-institutional alliances have been built for soil health management and the application of big data in addressing agricultural challenges. In the three states the infrastructure and capacity of partners have been strengthened to leverage soil information for decision-making in agriculture by devising new soil health management recommendations. For example, in the state of Andhra Pradesh, based on SIS data and outreach, State Fertilizer and Micronutrient Policy (SFMP) recommendations were created. Similarly, soil health management zones have been established to strengthen the fertilizer distribution markets enabling farmers with access and informed choices.

“Soil Intelligence System delivers interoperable information services that are readily usable by emerging digital agricultural decision support systems in India”, noted Kempen Senior Soil Scientist at ISRIC.

The three-part infographic highlights the impact of SIS initiative in the select three States and emphasizes the importance of SIS in other parts of the country as well.

Farmer Anita Naik stands for a photograph next to her maize field. (Photo: Nima Chodon/CIMMYT)

It’s Rural Women’s Day, from dawn to dusk

Written by Nima Chodon on . Posted in Features.

Over 70% of rural women in India are engaged in agriculture. Women carry out a large portion of farm work, as cultivators and agricultural laborers, but in most cases they are not even counted and recognized as farmers. Millions of Indian rural women also carry the burden of domestic work, a job that is undervalued and unrecognized economically.

On the International Day of Rural Women, October 15, the focus is on their contributions to growing food and feeding families. The often invisible hands of rural women play a pivotal role in food security and sustaining rural communities.

Today, we have a glimpse at the daily life of farmer Anita Naik.

She hails from the village of Badbil, in the Mayurbhanj district of India’s Odisha state, surrounded by small hills and the lush greenery of Simlipal National Park.

Naik belongs to a tribal community that has long lived off the land, through farming and livestock rearing. Smallholder farmers like her grow rice, maize and vegetables in traditional ways — intensive labor and limited yield — to ensure food for their families.

Married at a young age, Naik has a son and a daughter. Her husband and her son are daily-wage laborers, but the uncertainty around their jobs and her husband’s chronic ill health means that she is mostly responsible for her family’s wellbeing. At 41, Naik’s age and her stoic expression belie her lifelong experience of hard work.

The small hours

Naik’s day begins just before dawn, a little past 4 a.m., with household chores. After letting out the livestock animals — goats, cows, chicken and sheep — for the day, she sweeps the house’s, the courtyard and the animal shed. She then lights the wood stove to prepare tea for herself and her family, who are slowly waking up to the sound of the crowing rooster. Helped by her young daughter, Naik feeds the animals and then washes the dirty dishes from the previous evening. Around 6:30 or 7 a.m., she starts preparing other meals.

During the lean months — the period between planting and harvesting — when farm work is not pressing, Naik works as a daily-wage worker at a fly ash brick factory nearby. She says the extra income helps her cover costs during emergencies. “[I find it] difficult to stay idle if I am not working on the farm,” she says. However, COVID-19 restrictions have affected this source of income for the family.

Once her morning chores are over, Naik works on her small plot of land next to her house. She cultivates maize and grows vegetables, primarily for household consumption.

Naik started growing maize only after joining a self-help group in 2014, which helped her and other women cultivate hybrid maize for commercial production on leased land. They were supported by the International Maize and Wheat Improvement Center (CIMMYT) through the Cereal Systems Initiative for South Asia (CSISA) maize intensification program.

Every year from June to October, Naik also work on this five-acre leased farmland, along with the other group members. She is involved from planting to harvest — and even in marketing.

“There are eleven women members in our self-help group, Biswa Jay Maa Tarini. Thanks to training, awareness and handholding by CSISA and partners, an illiterate like me is currently the president of our group,” said an emotional Anita Naik.

Anita Naik (first from left) meets with her self-help group Biswa Jay Maa Tarini in village of Badbil, in the Mayurbhanj district of India’s Odisha state. Together, they work on a five-acre lease land, where they grow maize commercially. (Photo: CIMMYT)
Anita Naik (first from left) meets with her self-help group Biswa Jay Maa Tarini in village of Badbil, in the Mayurbhanj district of India’s Odisha state. Together, they work on a five-acre lease land, where they grow maize commercially. (Photo: Nima Chodon/CIMMYT)

Not quite done yet

A little further away from her house, Naik has a small field where she grows rice with the help of her husband and son. After checking in on her maize crop on the leased land, Naik works in her paddy the rest of the day. She tends to her land diligently, intent on removing the weeds that keep springing up again and again in the monsoon season.

“It is back-breaking work, but I have to do it myself as I cannot afford to employ a laborer,” Naik laments.

Naik finally takes a break around 1 p.m. for lunch. Some days, particularly in the summer when exhaustion takes over, she takes a short nap before getting back to removing weeds in the rice fields.

She finally heads home around 4 p.m. At home, she first takes the animals back into their shed.

Around 6 p.m., she starts preparing for dinner. After dinner, she clears the kitchen and the woodstove before calling it a night and going to bed around 8 or 9 p.m.

“The day is short and so much still needs to be done at home and in the field,” Naik says after toiling from early morning until evening.

Tomorrow is a new day, but chores at home and the work in the fields continue for Naik and farmers like her.

Anita Naik lights up her wood fire stove to prepare food, at her family home in the village of Badbil, in the Mayurbhanj district of India’s Odisha state. (Photo: CIMMYT)
Anita Naik lights up her wood fire stove to prepare food, at her family home in the village of Badbil, in the Mayurbhanj district of India’s Odisha state. (Photo: Nima Chodon/CIMMYT)

Paradigm change

Traditionally farmers in and around Naik’s village cultivated paddy in their uplands for personal consumption only, leaving the land fallow for the rest of the year. Growing rice is quite taxing as paddy is a labor-intensive crop at sowing, irrigating, weeding and harvesting. With limited resources, limited knowledge and lack of appropriate machinery, yields can vary.

To make maximum use of the land all year through and move beyond personal consumption and towards commercial production, CIMMYT facilitated the adoption of maize cultivation. This turned out to be a gamechanger, transforming the livelihoods of women in the region and often making them the main breadwinner in their families.

In early 2012, through the CSISA project, CIMMYT began its sustainable intensification program in some parts of Odisha’s plateau region. During the initial phase, maize stood out as an alternative crop with a high level of acceptance, particularly among women farmers.

Soon, CIMMYT and its partners started working in four districts — Bolangir, Keonjhar, Mayurbhanj and Nuapada — to help catalyze the adoption of maize production in the region. Farmers shifted from paddy to maize in uplands. At present, maize cultivation has been adopted by 7,600 farmers in these four districts, 28% of which are women.

CIMMYT, in partnership with state, private and civil society actors, facilitated the creation of maize producers’ groups and women self-help groups. Getting together, farmers can standardize grain quality control, aggregate production and sell their produce commercially to poultry feed mills.

This intervention in a predominantly tribal region significantly impacted the socioeconomic conditions of women involved in this project. Today, women like Anita Naik have established themselves as successful maize farmers and entrepreneurs.

See our coverage of the International Day of Rural Women.
See our coverage of the International Day of Rural Women.

Cover photo: Farmer Anita Naik stands for a photograph next to her maize field. (Photo: Nima Chodon/CIMMYT)

Tracing the evolution of 50 years of maize research in CGIAR

Written by Steven M on . Posted in News.

CGIAR turned 50 in 2021. To mark this anniversary, two independent and highly reputed experts have authored a history of CGIAR maize research from 1970 to 2020.

The authors, Derek Byerlee and Greg Edmeades, focused on four major issues running through the five decades of CGIAR maize research: the diversity of maize-growing target environments, the role of the public and private sectors in maize research in the tropics, the approaches adopted in reaching smallholder farmers in stress-prone rainfed tropical environments with improved technologies, and the need for maintaining strong financial support for international maize research efforts under the CGIAR.

The work of the International Maize and Wheat Improvement Center (CIMMYT), the International Institute of Tropical Agriculture (IITA) and the CGIAR Research Program on Maize (MAIZE) and its partners features prominently in this account. The authors also reviewed the history of maize policy research undertaken by the International Food Policy Research Institute (IFPRI).

The authors bring a unique perspective to the challenging task of tracing the evolution of maize research in CGIAR as both “insiders” and “outsiders.” While they worked as CIMMYT researchers in the 1990s, and later on as reviewers of various projects/programs, both are currently unaffiliated with CIMMYT. Byerlee is affiliated with the School of Foreign Service at Georgetown University, Washington DC, USA, and Edmeades is an independent scholar based in New Zealand.

“A clear-eyed and unbiased appreciation of our past — both successes and missteps — can only enrich our efforts, make better progress, and effectively meet the challenges of the present and the future,” wrote B.M. Prasanna, director of CIMMYT’s Global Maize Program and of the CGIAR Research Program MAIZE , in the foreword.

According to Prasanna, “The challenges to the maize-dependent smallholders in the tropics are far from over. Optimal, stable and long-term investment in international maize improvement efforts is critical.”

Disclaimer: The CGIAR Research Program MAIZE supported only the review, formatting, and online publication of this document. The findings and conclusions are completely of the authors, and do not necessarily represent the institutional views of CIMMYT, IITA, IFPRI or CGIAR and its partners.

Field workers in Ethiopia weight the grain. (Photo: Hailemariam Ayalew/CIMMYT)

Revisiting the inverse size-productivity relationship

Written by Rodrigo Ordóñez on . Posted in News.

Field workers in Ethiopia weight the grain. (Photo: Hailemariam Ayalew/CIMMYT)
Field workers in Ethiopia weight the grain. (Photo: Hailemariam Ayalew/CIMMYT)

Quantifying agricultural productivity relies on measures of crop production and land area. Those measures need to be accurate, but it is often difficult to source reliable data. Inaccurate measurements affect our understanding of the relationship between agricultural productivity and land area.

Researchers examined the sensitivity of empirical assessments of this relationship to alternative measurement protocols. Scientists from the International Maize and Wheat Improvement Center (CIMMYT), Trinity College Dublin and the International Food Policy Research Institute (IFPRI) analyzed different methods of plot-level production and area measurement.

The study, to be published, is said to be the first to evaluate errors along the two dimensions —production and area — in all available measurement techniques.

Researchers found that errors from both production and area measurements explain the estimated inverse productivity-size relationship. When using a combination of the most accurate measures for yield and area — full plot harvest and total station — the inverse relationship vanishes. Consistent with previous studies, the study also shows that addressing one of the other sources of error — for example, either production or area estimates — does not eliminate the bias associated with measurement error.

For this study, the research team collected and used a unique dataset on maize production from Ethiopia, addressing measurement issues commonly found in other datasets that hinder accurate estimation of the size-productivity relationship. Specifically, the researchers considered six alternative land area measures: farmers’ self-reported estimates; estimates from low-cost old generation consumer-grade dedicated GPS receivers that have frequently been used in field data collection by research organizations over the past decade; estimates from single- and dual-frequency mobile phone GPS receivers; compass-and-rope estimates; and total station theodolite measurement.

An enumerator in Ethiopia measures grain moisture. (Photo: Hailemariam Ayalew/CIMMYT)
An enumerator in Ethiopia measures grain moisture. (Photo: Hailemariam Ayalew/CIMMYT)

Most cost-effective measurement methods

The study also provides a cost-effectiveness analysis of the different measurement methods. According to the researchers, the most expensive combination to use is full harvest yield with total station measurement. The cost is potentially prohibitively high for traditional surveys involving large samples.

It concludes that the optimal combination is crop-cut random quadrant measurements coupled with GPS measurement. This offers the best value for money of all the methods considered, since the results for the productivity-size regressions are like what is found when the gold-standard for yield and area measurement protocols are used.

Development of Smart Innovation through Research in Agriculture (DeSIRA)

Written by Emma Orchardson on . Posted in Uncategorized.

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.

CIMMYT’s 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 farmers’ 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 farmers’ 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.