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research: Partnerships

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.

Drought-tolerant maize and use of forecasting in agriculture praised by the Bill & Melinda Gates Foundation

Written by Sarah McLaughlin on . Posted in Features.

The work of maize and wheat scientists at CGIAR and the International Maize and Wheat Improvement Center (CIMMYT) has been featured in the latest Goalkeepers report from the Bill & Melinda Gates Foundation, which launches with the Global Goals Awards on September 20 and an open-to-all live-streamed event on September 21. 

In analysis of why the Ukraine crisis is heavily impacting Africa, the report’s introduction from Bill Gates delves into reasons behind reliance on crop imports. Most farmers in Africa are smallholders with small plots of land and have limited capacity to use fertilizers or have access to irrigation. This means that any shock to the food system, such as the disruption to the global supply chain caused by the Ukraine conflict, hugely impacts the yield levels, threatening food and nutritional security.

Conflict is not the only risk to food systems in Africa. Climate change is the most prominent challenge that the continent’s smallholder farmers continue to face.

Developed through support from the Bill & Melinda Gates Foundation, DroughtTego, a CIMMYT-derived hybrid maize with increased resistance to hotter, drier climates, produces an average of 66% more grain per acre in Kenya. Scaled through public-private partnerships, DroughtTego seeds can increase farmer income by providing more than enough to feed a family of six for an entire year, enabling them to invest the additional money in sending their children to school or building new homes.

CIMMYT and CGIAR scientists have also been using predictive modeling to speed up plant breeding and develop new varieties that can perform well even in drought stress-prone environments of Africa. Artificial intelligence helps in processing the genomic information of crops alongside the environmental data, such as soil samples and satellite imagery. The results create a vision of what farms will need to look like in the future, enabling scientists to determine which type of crop varieties can better succeed in specific locations.

Predictive epidemiological modeling can highlight where plant diseases, such as wheat rust, may possibly spread. An early warning system, developed by a partnership between CIMMYT, the University of Cambridge, the UK Met Office, the Ethiopian Agricultural Research Institute (EIAR), the Agricultural Transformation Institute (ATI) and the Ethiopian Ministry of Agriculture, successfully alerted farmers in Ethiopia to an outbreak of the disease so that they could take preventive measures. The resulting outcome was the country’s largest wheat harvest ever recorded, instead of a devastating rust epidemic.

A LinkedIn post from Bill Gates also emphasized CIMMYT’s research, asking which crop accounts for around 30% of calorie intake for people in sub-Saharan Africa — the answer being “maize”.

Inclusion in this report highlights the global impact of CIMMYT’s work on farmers and world food systems, which is only possible through successful partnerships with organizations like the Bill & Melinda Gates Foundation.

Cover photo: A farmer in Zaka District, Zimbabwe, experiences a drought that could affect crop yields. (Photo: Johnson Siamachira/CIMMYT) 

Why co-creation is vital for sustainable agriculture

Written by Sarah McLaughlin on . Posted in News.

Agricultural mechanization engineer Subash Adhikari adjusts a maize shelling machine on a farmer´s verandah in Rambasti, Kanchanpur, Nepal. (Credit: P. Lowe/CIMMYT)

The adoption of climate-smart agricultural production processes and technologies is a vital strategy in attempts to mitigate the global impacts of climate change without compromising on food security. However, supporting farmers to permanently implement new technologies and approaches requires a deep understanding of their needs, robust training, and effective transfer of knowledge.

At the International Maize and Wheat Improvement Center (CIMMYT), projects across the Global South aim to embed agrifood systems that are sustainable for all.

To share how CIMMYT empowers farmers and develops new technologies, Director General Bram Govaerts attended a panel event hosted by the Business Council for International Understanding (BICU) on September 19. For an audience of foreign government officials, multilaterals, and private sector executives, panelists introduced new perspectives to support global food security efforts and inspire greater collaboration.

Partnership approach

Panelists were asked to explain the technologies that can be unlocked by agricultural financial mechanisms, referencing how research and development is keeping pace with the quick adaptations needed by farmers to address climate change.

Examples from CIMMYT’s participation in the AgriLAC Resiliente CGIAR Initiative, a project for sustainable agricultural development in Latin America and the Caribbean, highlighted the innovative partnerships that are pushing forward research and development in the sector, enabling food systems and actors to act quickly to meet food security needs, mitigate climate hazards, stabilize communities and reduce forced migration.

Scientists are conscious of ensuring that solutions to one challenge are not the cause of new problems elsewhere; co-development is essential to this, ensuring the views of all actors are represented. Using the Integrated Agri-food System Initiative (IASI) methodology, created by CIMMYT in partnership with the Alliance of Bioversity International and the International Center for Tropical Agriculture (CIAT), projects can develop strategies and actions with a significant likelihood of supportive public and private investment that will transform food systems.

Expertise from farmers

Even the best agricultural technology in the world is only effective if it is used. When discussing barriers to the implementation of technology, Govaerts emphasized CIMMYT’s mechanization prototyping, co-creation, and experimentation work that bridges the gap between farmers and scientists and encourages adoption of new methods and tools.

Having farming influencers onboard has proved priceless, as these people co-create prototypes and experiments that demonstrate results and offer assured testimony to reluctant stakeholders.

Innovations can transform livelihoods, giving farmers a way to increase income and provide stability and better opportunities for their families – which is the most appealing reason for adoption.

Training programs are also fundamental, ensuring skills and knowledge around new technologies are freely available to farmers, technicians, and researchers. CIMMYT projects such as MasAgro in Mexico, has trained more than 3,000 producers and 400 technicians in sustainable agriculture, with more than 70,000 producers participating in educational events during the pandemic.

Hunger and climate change – a dual problem?

Conversation also centered on whether the development of new technologies is aiming to confront world hunger and climate change as separate issues, or whether solutions can be suitable for both challenges.

Essential actions to mitigate the food crisis require a global perspective, acknowledging that unexpected crises will always arise. For example, Russia and Ukraine account for 28% of the world’s wheat exports, so high prices are linked to supply chain disruption. More than 2.5 billion people worldwide consume wheat-based products, so the effects of these disruptions could mean significant hunger and potential civil unrest. Nations already in crisis, such as Yemen, Sudan and Ethiopia, may be worse hit, but other countries with high dependency on imports like Egypt are also affected.

Govaerts highlighted the inextricable links between the causes of food insecurity and climate change. He underscored CIMMYT’s holistic approach to overcoming widespread impacts on the global food system, such as the concurrent challenges of COVID-19, climate change and the Ukraine crisis, by co-developing lasting solutions incorporating these three elements:

  • Extensive research on climate change adaptation and mitigation in maize and wheat-based production systems across Africa, Asia, and Latin America.
  • Climate focused research aims to help smallholder farmers adapt to climate shocks and to raise and maintain yields profitably and sustainably by reducing greenhouse gas emissions.
  • Capacity building for stakeholders in the development and application of new technologies.

Many other deep disruptions are on their way. It is time to invest in science, research, innovation, technologies, and start practicing teamwork to allow those investments to translate into a better future for the planet, and for us.

About BICU:

BICU is a leading business-supported non-profit education initiative, established by President Eisenhower of the United States in 1955 for the purpose of facilitating public-private partnerships and high-level business to government dialogue.

Singh recognized for wheat crop improvement

Written by Sarah McLaughlin on . Posted in News.

Ravi Singh delivers a lecture during the 61st All India Wheat and Barley Research Workers’ Meet celebrating the fruitful partnership of CIMMYT and ICAR. (Credit: SAWBAR)

Ravi Singh, head of wheat improvement and rust research at the International Maize and Wheat Improvement Center (CIMMYT), received the Sh. VS Mathur Memorial Award 2022 for outstanding contribution in the field of wheat crop improvement from the Society for Advancement of Wheat and Barley Research (SAWBAR).

Singh received the award from T. R. Sharma, Deputy Director General of the Indian Council of Agricultural Research (ICAR) and G. P. Singh, Director of the Indian Institute for Wheat and Barley Research (IIWBR) at ICAR.

As recipient of the award, Singh delivered a lecture during the 61st All India Wheat and Barley Research Workers’ Meet in Gwalior, India, on August 29. He highlighted and praised the partnership between India and CIMMYT as essential for accelerating gains in wheat yield despite the stresses of climate change thanks to improved resilience in new varieties and earlier sowing.

“The ICAR-CIMMYT wheat improvement partnership remains crucial for delivering new varieties with higher rates of genetic gain in farmers’ fields to enhance productivity, climate resilience, disease resistance and nutrition while meeting market needs,” he said.

Successes of the partnership include integrated breeding with a common agenda, commercialized varieties that are adapted to flexible sowing dates including early sowing, diverse and durable resistance to rust diseases, adoption of wheat blast resistant varieties in large areas, biofortified and high-quality varieties, and the move towards mainstreaming of zinc (Zn) biofortification.

Singh also paid homage to the award’s namesake, as VS Mathur’s “wheat varieties once occupied fields of many millions of farmers and provided food and nutrition to many more millions throughout India and beyond”.

Singh, a CIMMYT scientist, receives the Sh. VS Mathur Memorial Award for his outstanding contribution in the field of wheat crop improvement. (Credit: SAWBAR)

About SAWBAR:

SAWBAR was founded in 2007 and is housed at ICAR-Indian Institute of Wheat and Barley Research Karnal (Haryana) India. The Society presently has 300 life members and more than 320 annual and student members. SAWBAR is playing a significant role in bringing wheat and barley researchers on one platform for the exchange of innovative research and dissemination of knowledge related to the latest research happenings in the area of wheat and barley improvement. Annually, SAWBAR gives awards to pioneer cereal workers in various award categories. 

About the Sh. VS Mathur Mathur Memorial Award:

The Sh. VS Mathur Memorial Award was constituted in year 2018 in the memory of eminent wheat worker Sh. VS Mathur. Mathur was one of the pioneer wheat workers who worked tirelessly with MS Swaminathan and HK Jain and developed a large number of high-yielding wheat varieties viz. Heera, Moti, Janak (HD 1982), Arjun (HD 2009), HD 2177, HD 2182, HD 2204, HD 2236, HD 2278, HD 2281, HD 2285, HD 2329, HD 2307 and HD 2327 for various regions of India.

Greenhouse upgrades at BWMRI for wheat blast research

Written by Sarah McLaughlin on . Posted in News.

Md. Sayedul Islam inaugurated the greenhouse complex along with Golam Faruq and Md. Benojir Alam. (Credit: Timothy J. Krupnik/CIMMYT)

A new greenhouse complex, built with financial support from the International Maize and Wheat Improvement Center (CIMMYT), at the Bangladesh Wheat and Maize Research Institute (BWMRI) was inaugurated on 13 August 2022. The greenhouse was built at BWMRI’s headquarters in Dinajpur, Bangladesh.

This complex has a room for generator, a sample preparation room and space for a small laboratory. These upgrades will add new momentum for greenhouse activities and BWMRI and CIMMYT scientists designed the facility to accommodate wheat scientists from Bangladesh and other countries.

The BWMRI has been working to combat wheat blast disease since 2016, with financial and technical support from CIMMYT and other investors. CIMMYT has also assisted the Government of Bangladesh in developing an early warning system for wheat blast.

Because of the challenging phenology of synthetic wheat and introductions from winter and facultative wheat zones, field condition evaluation of these germplasm is difficult and the greenhouse will help ease this hurdle. Additionally, several pathological experiments investigating the biology of wheat blast will now be able to be performed in the new greenhouse facility.

Supplementary activities at the greenhouse include disease screening and research into unlocking the genetics of host resistance. The installation of a diesel generator will keep the greenhouse running in case of power outages.

Visitors to the newly constructed greenhouse at the Bangladesh Wheat and Maize Research Institute. (Credit: Rezaul Kabir/BWMRI)

Md. Sayedul Islam, Secretary of the Ministry of Agriculture, inaugurated the greenhouse complex. Additional attendees at the opening included Shaikh Mohammad Bokhtiar, Executive Chairman of the Bangladesh Agricultural Research Council (BARC), Golam Faruq, Director General of BWMRI, Mirza Mofazzal Islam, Director General of the Bangladesh Institute of Nuclear Agriculture (BINA), Debasish Sarker, Director General of the Bangladesh Agricultural Research Institute (BARI), Md. Benojir Alam, Director General of the Department of Agricultural Extension (DAE), and Md. Abdul Wadud, Executive Director and Additional Secretary at the Bangladesh Institute of Research and Training on Applied Nutrition (BIRTAN). Timothy J. Krupnik, country representative of CIMMYT in Bangladesh, was also present.

CM holds parleys with experts of BISA to give major push to crop diversification in the state

Written by Sarah McLaughlin on . Posted in In the media.

Punjab Chief Minister Bhagwant Mann met with experts from the International Maize and Wheat Improvement Center (CIMMYT) to promote crop diversification and use of Direct Sowing Rice (DSR) Basmati as part of the Borlaug Institute for South Asia (BISA) project.

In a meeting with CIMMYT Director General Bram Govaerts, water shortages were an integral part of the discussion. Mann encouraged use of BISA models across the state that require less water consumption than other methods, without impacting farmers’ income.

Mann also highlighted the potential of crops like maize, pulses, oilseeds, vegetables, bamboo, popular, and fruit such as guava and kinoo.

Read more: CM holds parleys with experts of BISA to give major push to crop diversification in the state

Excellence in Agronomy Initiative commences in Africa

Written by Sarah McLaughlin on . Posted in News.

CGIAR researchers and partners outside the International Livestock Research Institute (ILRI) campus in Addis Ababa, Ethiopia, where the workshop took place. (Credit: Enawgaw Shibeshi/CIMMYT)

The Excellence in Agronomy for Sustainable Intensification and Climate Change Adaptation Initiative launched in east and southern Africa on July 28-29 in Addis Ababa, Ethiopia, at a workshop with panel discussions and ideation sessions to determine key actions for the project.

The Initiative aims to deliver agronomic gain at scale for millions of smallholder farming households in prioritized farming systems, with emphasis on supporting women and young farmers, to demonstrate measurable impact on food and nutrition security, income, water use, soil health and climate resilience.

Co-creation of agricultural solutions with farmers is integral to the Initiative through the engagement of modern tools, digital technologies, and behavioral science.

At the workshop, participants created a shared understanding of the Initiative’s goals for the region, laid groundwork for in-country planning and implementation, and increased visibility of the Initiative. Attendees agreed on the need to reevaluate beyond the boundaries of traditional agronomic practices and microeconomic challenges, considering policies at national and regional levels.

Roundtable discussions between participants highlight priorities and opportunities for the Excellence in Agronomy Initiative in east and southern Africa. (Credit: Enawgaw Shibeshi/CIMMYT)

Combining expertise from across CGIAR research centers, private sector actors and government agriculture departments, the Initiative takes a data-based approach to offer demand-driven solutions. This was of particular appeal to Eyasu Elias, deputy minister at Ethiopia’s Ministry of Agriculture, who described the approach as “truly commendable” in comparison to conventional supply-driven approaches.

Elias, who was represented by a delegate at the event, highlighted Ethiopia’s current three priorities: managing acid soils; managing Vertisols so they utilize their natural productive potentials; and adopting practices that mitigate the formation of salt-affected soils.

“Attaining food security will be a tremendous challenge under current conditions,” explained Elias’ representative. “More than ever, we need innovative agronomic solutions that enhance nutrient use efficiencies; we need solutions that can be crafted from locally available alternatives. Collaborations that allow co-creation, co-design and participatory technology generation along these lines are appreciated from our end.”

CIMMYT is prominent in global climate-food systems conversations, new study shows

Written by Mike Listman on . Posted in Publications.

Published in Nature Scientific Reports, a new study describes an innovative method to assess the reach and impacts of knowledge and partnerships created as part of the work of research-for-development organizations.

It uses text mining and the analysis of social networks and hyperlinks to draw inferences from publicly available digital sources, including institutional repositories, scientific databases, and social media.

“The method can uncover narratives, dynamics, and relationships that are hidden from traditional bibliometric analyses,” said Tek Sapkota, a cropping systems and climate change specialist at the International Maize and Wheat improvement Center (CIMMYT) and co-author or the study, which also involved the University of Coimbra, Portugal, and the University of Molise, Italy.

“Nearly 90 percent of CIMMYT’s research is related to climate change and its impact on food systems and vice-versa, so we assessed that to illustrate our new, web-based analytical framework. This novel approach can help research-for-development organizations to leverage online data and measure their impact.”

Read the full study: Digital artifacts reveal development and diffusion of climate research

Cover photo: Twitter mentions network for the International Maize and Wheat Improvement Center official account (@CIMMYT). (Credit: Nature Scientific Reports)

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.

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

Aguas Firmes

Written by Bea Ciordia on . Posted in Uncategorized.

The Aguas Firmes project aims to introduce and promote the adoption of conservation agriculture technologies at scale to obtain sustainable crop yields with higher productivity in irrigated environments in Calera, Zacatecas. It also seeks to address water use efficiency by adapting and promoting appropriate technologies in the volume of water applied in irrigation.

Objectives

  • Facilitate the adoption of sustainable intensification practices on more than 4,000 hectares over the next three years to reduce the water footprint of participant farmers
  • Recharge two of Mexico’s most exploited aquifers by restoring forests and building green infrastructure

Women in agriculture mechanization in Bangladesh

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

Agriculture mechanization in Bangladesh connects local manufacturers of machinery parts (which is mainly done by the country’s light engineering industry) and the operation of those machines, generally run by machinery solution providers. These two workforces are equally male-dominated. The reasons behind this are social norms, and family and community preconceptions, coupled with the perception that women cannot handle heavy machinery. But a deeper look into this sector shows us a different reality, where many women are working enthusiastically as part of agriculture mechanization.

The International Maize and Wheat Improvement Center (CIMMYT) is supporting women to work in light engineering workshops, and to become entrepreneurs by providing machinery solutions to farmers.

Painting her own dream

Rokeya Begum, 39, has been working in Uttara Metal Industries for three and half years, clearing up and assisting her male colleagues in paint preparation. All this time, she wanted to be the one doing the painting.

Begum was one of the 30 young women from Bogura, Northern Bangladesh, recently trained by CIMMYT through the Cereal Systems Initiative for South Asia-Mechanization Extension Activity (CSISA-MEA). They learnt various aspects of the painting trade and related operational techniques, such as mixing colors, the difference between primer and topcoats, and health and safety in the workplace.

Now the focus is on job creation for women in the sector. CIMMYT has initiated discussions with established enterprises to recruit women as painters in their workshops, with all the benefits of their male counterparts.

Having completed painting training, Begum practices spray painting for an hour every day. Her employer is happy with her finished work and plans to promote her to the position of painter. Begum says, “I’m so happy to have learned a new technique — plus I really enjoy the work.” Her current pay of $12 per week will increase by 50% when she starts her new job.

Alongside training, this mechanization activity is working to create a decent and safe working environment for women, including adequate, private and safe spaces, such as bathrooms and places to take breaks.

Seedling of an entrepreneur

For the first time ever, in the last monsoon aman rice cultivation season, Kulsum Akter, 30, earned $130, by selling rice seedlings she had grown to be planted out by mechanical rice transplanters. Two years ago, Akter’s husband Md. Abdul Motaleb bought a rice transplanter with the assistance of a government subsidy from the Government of Bangladesh’s Department of Agricultural Extension. While he invested $5,000 in the machine, his skills in operating it were sub-par.

Supported by the USAID-funded Feed the Future Bangladesh Mechanization and Extension Activity, Motaleb was trained in mechanized rice transplanter operation by a private company, The Metal Pvt. Ltd.

Akter was in turn trained in special techniques for growing seedlings so they can be planted out using a rice transplanting machine. CIMMYT then provided technical and business guidance to this husband-and-wife duo, enabling them to embark confidently on a strong business venture. Key training topics included growing mat-type seedlings for machines, business management, cost-benefit analysis, product promotion and business expansion concepts. Motaleb went on to provide mechanical transplanting services to other farmers in the locality.

Meanwhile, Akter was inspired to take the lead in preparing seedlings as a business venture to sell to farmers who use mechanical rice transplanters. Akter invested $100 in the last aman season, by the end of which she had earned $230 by selling the seedlings in just one month. This success has encouraged her to prepare seedlings for many more farmers during the winter rice production season. “The training in rice transplanter operation and seedling preparation was a gift for us. I’m trying to get more women into this business — and I’m pretty optimistic about it,” Akter says. Through the Mechanization and Extension Activity, CIMMYT aims to create more than 100 women entrepreneurs like Akter who will contribute to the mechanization of agriculture through their work as service providers.

CSISA-MEA’s work increases women’s capacity to work in the agricultural mechanization sector and manage machinery-based businesses through technical and business training. Through opportunities like these, more women like Begum and Akter will be enabled to achieve self-sufficiency and contribute to the development of this sector.

Cereal Systems Initiative for South Asia Mechanization Extension Activity (CSISA-MEA) is funded by the United States Agency for International Development (USAID) Feed the Future initiative.

Cover photo: The CSISA-MEA project increases women’s capacity to work in the agricultural mechanization sector, therefore achieving self-sufficiency. (Abdul Momin/CIMMYT)

Moses Siambi

Moses Siambi

Written by Emma Orchardson on . Posted in Uncategorized.

Moses Siambi is CIMMYT’s Regional Representative for Africa and Country Representative for Kenya.

Jelle Van Loon

Written by Emma Orchardson on . Posted in Uncategorized.

Jelle Van Loon is an agricultural engineer with a PhD in biosystems modelling, and over a decade of experience in agricultural research for development in Latin America. He currently serves as Associate Director for Latin America of CIMMYT’s Sustainable Agrifood System Program, leading research initiatives aimed at building pathways towards resilient food systems and long-term rural development. Leading the innovations for development team, he coordinates a transdisciplinary team, including aspects like farmers market linkages and responsible sourcing, capacity development, and community-based outreach and explores the multiple interfaces between adaption, adoption and scaling from a socio-technical viewpoint in research for agricultural development.

In addition, Jelle has ample expertise in scale-appropriate mechanization from smallholder farm solutions to precision agriculture applications, has actively progressed to work in innovation systems thinking, and in addition he serves CIMMYT as representative for Latin America in which he focusses this line of work to establish impactful partnerships and innovative business models.