In a world where environmental and agrifood challenges demand urgent responses, the CGIAR-led Positive Solutions for Nature (Nature+) initiative is transforming agriculture into a catalyst for ecological regeneration and sustainable development.
In Colombia, CIMMYT has played a key role in implementing several activities under this initiative. These efforts have not only improved agricultural productivity but also promoted biodiversity conservation, sustainable resource management, and the strengthening of rural communitiesâwith a special focus on youth, women, and native maize.
One of the first steps in Colombia was conducting a diagnosis and mapping key actors within agrifood systems across different regions. This assessment identified major challenges such as limited access to native seeds, soil degradation, and lack of access to fair market opportunities for smallholder farmers.
To ensure that promoted practices aligned with local realities and needs, CIMMYT worked closely with farmers to co-create solutions. A significant example was the support given to women producers to conserve native maize varieties. Workshops held in Cesar, Nariño, Putumayo, and Valle del Cauca included childcare spaces, enabling full participation by women.
Another important milestone was facilitating dialogue between producers and niche markets, helping connect farmers growing native maize with potential buyers. This has been key to revitalizing the value chain for these crops. In parallel, twelve community seed banks were strengthened in various regions, ensuring the availability of native varieties and encouraging intergenerational knowledge exchange.
CIMMYT also conducted extensive training activities, benefiting hundreds of farmers in the post-harvest management of native grains and seeds. In workshops held during 2023 and 2024, over 780 producersâmany of them womenâreceived training in practices such as harvesting, drying, shelling, and hermetic storage, which reduced post-harvest losses and improved seed quality.
Infrastructure improvements further supported these efforts. One standout example is the YEL-PUE Cumbe seed bank in Cumbal, Nariñoâestablished with support from CIMMYT and the Bioversity-CIAT Alliance. This seed bank not only conserves agricultural biodiversity but also serves as an intergenerational learning hub, where farmers, students, and technicians share experiences and knowledge.
While challenges remain, the implementation of Positive Solutions for Nature in Colombia has demonstrated that agricultural production can go hand in hand with environmental conservation and community well-being. Thanks to collaborations with research centers such as CIMMYT, many Colombian farmers are now adopting regenerative practices, enhancing agrobiodiversity and boosting resilience to both climate and economic shocks.
Looking ahead, these efforts will continue within the CGIAR Multifunctional Landscapes Science Program. CIMMYT, in collaboration with other CGIAR centers, will focus on participatory varietal selection, business models to enhance the value of agrobiodiversity, connections to niche markets, and the empowerment of women as agents of biodiversity conservation.
In Colombia, the path towards a more sustainable and resilient agriculture is gaining unprecedented momentum. Thanks to the implementation of the Sustainable Agrifood Colombia project, various national and international institutions are collaborating to strengthen food security and agricultural productivity through technological innovations and knowledge management models. Among these collaborations is the Hub methodology, an innovation management model developed in Mexico by CIMMYT, in conjunction with various stakeholders, which is already being successfully replicated in Guatemala, Honduras, and several African countries.
Researchers from CIMMYT engage in dialogue with Colombian technicians and producers (Photo: Sustainable Agrifood Colombia)
The project, coordinated by the Bioversity & CIAT Alliance, has 18 strategic partners for its execution, among which Agrosavia, CIMMYT, and Fenalcecontribute to the maize production system. The objective is to transform the Colombian agri-food sector through the adoption of sustainable agricultural technologies and the strengthening of collaboration networks among producers, researchers, and other key stakeholders.
To this end, pilot regions have been identified where the Hub methodology is implemented, promoting knowledge sharing, validation of innovative practices, and capacity building.
The project articulation meetings and field visits were held in Colombia’s main corn-producing regions: northern Valle del Cauca, Tolima, and CĂłrdoba. During these visits, teams from the Bioversity & CIAT Alliance, AGROSAVIA, Fenalce, and CIMMYT evaluated production conditions, identified strengths and areas of opportunity, and designed strategies for consolidating the innovation territories.
One of the most significant results of these evaluations was the definition of a training plan for producers, researchers, and technicians. This plan, which has already taken its first steps, seeks to provide local stakeholders with tools to improve maize crop yields through sustainable agronomic practices, pest management, and seed conservation.
In November, three workshops were held in different regions of the country. The first two were held in La UniĂłn, Valle del Cauca, and in MonterĂa, CĂłrdoba, with the aim of identifying and involving key stakeholders in the maize production system. The third, held in Vereda Nueva Platanera, Tierralta, CĂłrdoba, focused on seed production and conservation for small producers. Based on these events, a mapping of actors was carried out in order to analyze the interactions within the maize production network. This exercise made it possible to evaluate the degree of innovation adopted by farmers and the influence of different actors, such as technicians, companies, universities, and government institutions, in the dissemination of knowledge and the adoption of sustainable technologies.
The results of these workshops have been encouraging. To date, 220 people have been trained on key issues such as pest management (particularly Dalbulus maydis, which has recently been a serious problem), seed production and conservation, and climate change adaptation strategies. In addition, stakeholder mapping has facilitated the identification of opportunities to strengthen collaborative networks and promote the adoption of innovations in the production system.
One of the key lessons learned has been the importance of constant monitoring in the implementation of sustainable management strategies. Workshop participants have highlighted the need to generate training spaces from the initial stages of cultivation, including the preparation of plots for planting, to maximize the benefits of sustainable practices.
The Hub approach, which has proven to be an effective model in Mexico and other countries, is making significant progress in Colombia. By connecting the actors in the maize value chain, facilitating the generation and socialization of knowledge, and driving innovation from the local level, this methodology represents a comprehensive solution to address the country’s agricultural challenges.
With the coordinated work of institutions, producers, and scientists, Colombia is laying the foundations for a more resilient and competitive agri-food sector. CIMMYT’s experience in implementing the Hub methodology in different regions of the world is an example of how science, innovation, and collaboration can transform the future of Colombian agriculture.
Biofortified corn crop in Colombia (Photo: CIMMYT)
CIMMYT, in collaboration with the Bioversity-CIAT Alliance and the Ministry of Agriculture and Rural Development of Colombia, is contributing to the Sustainable Agri-Food Colombia project. This transformative initiative aims to reshape Colombiaâs agricultural sector by fostering sustainable and resilient agri-food systems. Several research institutions are also part of this mission as strategic implementing partners.
The goal of Sustainable Agri-Food Colombia is to address the environmental and productionchallenges facing Colombian agriculture, while ensuring food security and sustainability. Through the implementation of innovative technologies, better agricultural practices and adaptation to climate change, it aims to improve the competitiveness of Colombian producers and reduce pressure on natural resources. In this sense, the project contributes to the achievement of the United Nations Sustainable Development Goals (SDGs), especially those related to climate action, life on earth and reducing inequalities.Â
CIMMYT is collaborating in this project to join efforts to strengthen farmers’ capacities, as Sustainable Agri-Food Colombia focuses not only on agricultural production, but on the entire agri-food system, seeking to build more inclusive and efficient value chains, from production to the consumer, emphasizing community participation and knowledge transfer in an inclusive manner, involving women, youth and marginalized rural communities in decision-making processes and technology adoption.Â
The collaboration between international CGIAR research centers, such as the Bioversity-CIAT Alliance and CIMMYT, together with key stakeholders in Colombia, demonstrates that the future of agriculture depends on an integrated vision that combines science, innovation and collaboration. This lays the foundation for transforming agriculture and food in Colombia for the benefit of people and the planet.Â
In Colombia, maize is the most important cereal, integral to culture, tradition, and diet. In 2019, Colombia consumed 7.2 million tons of maize, a quarter of which was white-grain maize used for human food (the remainder was yellow-grain maize for animal feed, with a small portion for industrial uses). National production is concentrated in the departments of Meta, Tolima, CĂłrdoba, Huila, and Valle del Cauca. Native and creole maize varietiesâthe latter comprising farmer varieties of mixed native and other ancestriesâare grown for use in traditional dishes or for sale at local markets.
Due to climate change, socioeconomic pressures, and the out-migration of smallholder farmers seeking better livelihoods, native maize varieties and the unique genetic qualities those varieties embody are endangered. We aim to design strategies that benefit smallholders who wish to continue in agriculture and perhaps continue growing native varieties valued in their communities, fostering the conservation and production of native maize. CIMMYT in Mexico has already facilitated commercial linkages between chefs in Mexico City and tourist areas (for example, in the states of Oaxaca, YucatĂĄn, and the State of Mexico), sourcing blue maize landrace grain from farmers in mutually beneficial arrangements.
CIMMYT and local partners have launched an ambitious initiative to map and strengthen the value chain of native maize in the departments of Nariño, Cundinamarca, BoyacĂĄ, Valle del Cauca, and Putumayo to promote beneficial farmer-market linkages and better understand Colombiaâs maize value chain. Carried out under the Nature Positive Initiative of OneCGIAR, the project is documenting maize conservation, marketing, and consumption to design a critical path that strengthens the value chain of Colombian native maize and benefits agriculture and the economy of rural Colombian communities.
Most native maize varieties in Colombia are grown on small plots for home consumption, exchange, and the sale of surplus grain. âThe production is planned so that the percentage of sales is lower than consumption,â explains a farmer from Nariño. âMaize grain is sold in traditional markets, typically on Saturdays or Sundays, most often as fresh white and yellow corn.â
In such markets, farmers may also sell their grain to intermediaries, but only in the markets of Nariño is the sale of creole and native maize varieties acknowledged. Varieties include yellow Capia, white Capia, yellow Morocho, and Granizo, with Chulpe being less common. The grain purchased is used to prepare a variety of traditional dishes and beverages.
The most commonly grown varieties are intended for the market and probably the regional and urban cultural groups that consume them, such as in Guaitarilla, Nariño, where large crops of white maize are marketed through intermediaries and traders to satisfy demand.
âA variety that is not widely grown may become more prominent due to market changesâsuch as the rise of niche markets,â the research team notes. Good examples are the departments of Pasto, Nariño, and Cundinamarca, where maize is increasingly grown to meet demand from buyers of purple or colored maize.
We have already identified several possible niche markets for smallholder maize varieties:
Fair trade enterprises. They promote the commercialization of national products at fair prices for farmers, offering maize in various forms from regions such as BoyacĂĄ and Cundinamarca.
Restaurants. They use maize in traditional dishes, reinterpretations of Colombian cuisine, and culinary experiments.
Small-scale local intermediaries. Without a fixed physical space, they distribute products to end users and other businesses.
Callanas and ricota, Pasto, Nariño. (Foto: Andrea Gómez)
Significant challenges may hamper these and other possible market opportunities in the maize value chain. Farmers, for example, face high production costs, climate change losses, competition from neighboring countries, dependence on intermediaries for sales, and a lack of land. For their part, buyers struggle with obtaining consistent production volumes from farmers, lack storage infrastructure, and face postharvest pest and disease management challenges.
While they are compelled by the need to feed their families and, if possible, grow enough grain to sell for a profit, smallholder maize farmers have also expressed interest in preserving maize diversity and their cultural practices.
âWe are not interested in growing monocultures for marketing; we grow maize out of love to continue preserving it,â comments a farmer from Nariño. Another farmer adds: âI would grow or sell more if the production were aimed at protecting agrobiodiversity, food security, sovereignty, and preserving cultural practices.â
Focus group with farmers in Córdoba, Nariño on the importance of maize landrace conservation (Picture Janeth Bolaños)
To understand how niche markets could influence the conservation and rescue of native and creole maize in Colombia and, at the same time, design a critical path that strengthens the value chain and promotes fair and efficient niche markets, CIMMYT and its partners are conducting focus group interviews and buyer-meets-seller events. The aim is to mitigate challenges highlighted by the actors and create beneficial conditions for farmers and consumers, promoting a better future for Colombian smallholder farmers.
We deeply thank CIMMYT partners in Colombia for their contributions to this work: Andrea Gomez, Andrea PinzĂłn, and Jeisson RodrĂguez.
A farmer in Nariño, Colombia on a diversified chagra with native maize, potato, oca, squash, fava bean, and other perennial and wild crop harvests. (Photo: GonzĂĄlez, Alpala, PinzĂłn, RodrĂguez, Bolaños, Romero, GonzĂĄlez)
In the mountains of Nariño and the Cauca Valley, Colombiaâas in many other rural regions of Latin Americaâfarming systems are usually family-operated and divided by gender. Women’s and men’s roles are separate and differ in terms of expertise, involvement, and decision-making.
Roles traditionally assigned to women often limit their capacity to bring about changes in agriculture. âFood preparation, house cleaning, family care, and especially childcare, limit their ability to participate in agricultural trainingâ, says a team of CIMMYT specialists who recently carried out a series of participatory diagnostics in these regions of Colombia.
Participatory diagnostics are designed to document and understand farmersâ perspectives on native maize conservation and the desertion of rural regions in order to jointly develop conservation strategies for these regions. However, CIMMYT specialists noted that women farmers struggle to participate and learn when they are burdened with childcare.
Group of women farmers discuss menâs and womenâs roles in native maize conservation in CĂłrdoba, Nariño, Colombia. (Photo: GonzĂĄlez, Alpala, PinzĂłn, RodrĂguez, Bolaños, Romero, GonzĂĄlez)
âEven when women try hard to attend events, they cannot fully take in the new information because they are busy tending to their children.â In response, the event organizers came up with a novel solution: providing childcare during workshops. âSo, mothers can focus on what they are doing during workshops, children partake in organized games and exploratory and artistic activities in a safe space where their mothers can see them.â
During a recent diagnostic “several activities were planned, like board gamesâCIMMYT developed memory and bingo games, as well as snake and ladder board games on principle maize practices and pestsâand some art projects allowing the children to talk about how they interact with the land and what it means to them. At the end, they displayed their work about what they learn with their mothers and family in the tulpa (fire pit) or chagra,” the specialists explain.
âThese types of activities are important and enriching for the children because they replace day-to-day cellphone play with recreational games about agriculture. So, it seems that we should make sure that the local children know about these types of events,â expressed the attendees. They also reflected on how this type of inclusion helps strategies addressing generational replacement, particularly in places like Nariño, where the number of young people in the fields is notably decreasing.
This is how the childrenâwho originally could only hope to be expected to sit silently or play on their phonesâ became an important part of the participatory processes in Nariño. And now, with this support, women from rural communities, donât just have the opportunity to expand their knowledge. They can also make positive contributions to household decisions and phytogenetic resource conservation.
Girls make a presentation about their territory to their mothers and fathers, based on the activities during the workshops in Nariño, Colombia. (Photo: GonzĂĄlez, Alpala, PinzĂłn, RodrĂguez, Bolaños, Romero, GonzĂĄlez)
âYes maâam, the childrenâs space was the best because that way we were able to focus on the topics,â reported a woman in Cumbal. This is an example of how an agricultural extension strategy requires us to identify the preferences, interests, and incentives of men and women in relation to their gender roles in order to create environments that facilitate the development of sustainable agricultural technologies and practices. We must understand that the work women farmers perform both in the fields and within the household are inextricable from each other.
These types of strategies are crucial for combatting the environmental and food crisis because small-scale farmers implement sustainable agrifood systems and promote agrobiodiversity conservation. We find the resources essential for agrifood security in their milpas, orchards, backyards, and chagrasâin Mexico and Colombiaâwhere they handle, use, and preserve native crops and determine the selection of improved climate-resilient varieties.
A team of women researchers that are part of the Latin American Maize Network participated in the training given by CIMMYT in the framework of the TechMaiz project. (Photo: Francisco AlarcĂłn and Fernando Garcilazo/CIMMYT)
Female scientists from four different Latin American countries have come together to work on TechMaiz, a project supported by the International Maize and Wheat Improvement Center (CIMMYT), and continue the organizationâs commitment to inclusivity and inclusion.
The scientists spent four days in November at CIMMYTâs headquarters in Mexico to contribute to the training plan, which focused on genetic improvement, soil conservation, seed storage, analysis of the nutritional quality of grain and innovation management in the hub model of maize cultivation.
This training allowed the researchers from Ecuador, Colombia, Guatemala and Peru to discuss the use of new technological tools for sustainable intensification of production systems of small and medium farmers, as well as the challenges on the road to moving from efficiency to resilience.
The scientists involved in this training within the framework of the TechMaiz project were:
Liliana Atencio S. – A Colombian who works at the Colombian Agricultural Research Corporation (AGROSAVIA). She is an agricultural engineer with a masterâs degree in agronomic science. This includes an emphasis on plant physiology and she has additional experience in transient and forage crop improvement programs.
Ana Pincay – An Ecuadorian working at the Santa Catalina Experimental Station of the National Institute of Agricultural Research (INIAP) as an agricultural researcher. Sheâs also a biotechnology engineer.
Alicia Medina –Â A Peruvian who is based at the National Institute of Agrarian Innovation (INIA) as a researcher. She is an agricultural engineer and has a masterâs degree in development planning.
MarĂa Gabriela AlbĂĄn – She has several responsibilities, including co-investigator, coordinates the academic-financial part and is a professor of the agronomy engineering career at the San Francisco de Quito University (USFQ) in Ecuador. She is an agribusiness engineer with a masterâs degree in agricultural sciences with an emphasis on agricultural business development. AlbĂĄn also has a diploma in design, management, and evaluation of development projects.
Karen Agreda – An agronomist engineer in agri-production systems. She has a postgraduate degree in alternative fruit and vegetable production and works as a specialized researcher in the validation and technology of transference program at the Institute of Agricultural Science and Technology (ICTA) in Guatemala.
Visiting a research plot under the guidance of Nele Verhulst, Cropping Systems Agronomist with CIMMYT’s Sustainable Agrifood Systems (SAS) program. (Photo: Francisco AlarcĂłn and Fernando Garcilazo/CIMMYT)
Weaving bonds of trust to generate changes
Following a period of continuous interaction, the researchers identified not only a number of shared challenges in their respective countries, but also how much complementary and concrete opportunities for teamwork are created when bonds of trust and teamwork are strengthened.
âIn addition to strengthening knowledge, thereâs also the relationship between researchers and institutions, understanding the role of each member of the team is important and allows us to make greater progress,” said Atencio. “For example, Alicia works on improvement, Ana on the use of bio-inputs, and Karen on transfers and linking. We all see that there are opportunities in agriculture for innovation by using tools such as e-agrology. The result of this is that generational change is becoming more and more urgent.â
Proposing more ambitious projects, but also clearer and more precise ones, is part of the learning the researchers plan to take with them. The scientists are determined to share this information with their teams and colleagues, along with integrative approaches that are designed to strengthen the human talent of each institution.
âIn Ecuador, we practice the agriculture of conservation, but we didnât know the concept of not removing the soil,â Picay said. âIt is always a good decision to invest in training, as it refreshes the thought, opens the mind and triggers actions.â
The TechMaĂz project will continue in 2023 with its third year of implementation, promoting national meetings to promote and disseminate the use of sustainable technologies for maize production. CIMMYT training for members of the Latin American Maize Network is also expected to continue.
Smallholdings represent over 80% of the worldâs farms, mostly located in the Global South, and supply 50% of global food. Enhanced agronomy management has a great potential to increase productivity, sustainability, efficiency and competitiveness of these smallholdings, which is characterized by low and variable yields and profitability, smallholder farming challenges include water scarcity, climate change, low resource use efficiencies and declining soil health. These result in negative impacts on food and nutrition security, equitable livelihoods and ecosystem health.âŻÂ
Smallholder farmers seasonally make critical agronomic decisions regarding crop choice, planting dates and pest, disease, weed, soil fertility and water management, often based on suboptimal practices and information. Traditional agronomic research enhances our understanding of basic processes, but with limited connection to stakeholder demand and often based on outdated approaches. The development, deployment and uptake of interventions is hampered by social, economic and institutional constraints, further confounded by adherence to conventional supply-driven innovation strategies.
Objective
This Initiative aims to deliver an increase in productivity and quality per unit of input (agronomic gain) for millions of smallholder farming households in prioritized farming systems by 2030, with an emphasis on women and young farmers, showing a measurable impact on food and nutrition security, income, resource use, soil health, climate resilience and climate change mitigation.âŻÂ
Activities
This objective will be achieved through:
Facilitating the delivery of agronomy-at-scale solutions, including development and technical/user-experience validation and the co-creation and deployment of gender- and youth-responsive solutions to smallholder farmers via scaling partners.Â
Enabling the creation of value from big data and advanced analytics through the assembly and governance of data and tools; application of existing analytics and solutions for specific use cases; supply of information on climate impacts, inclusivity and sustainability of agronomic solutions; and national agricultural research system capacity strengthening.Â
Driving the next generation of agronomy-at-scale innovationsâŻby addressing key knowledge gaps and facilitating innovation in agronomy research through engagement with partners.Â
Nurturing internal efficiencies for an agile and demand-driven agronomy research and development community through internal organization and external partnerships for prioritization, demand mapping and foresight.Â
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 27â28, 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).
JoaquĂn 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. AgriLACâs 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 JoaquĂn 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 GonzĂĄlez, 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.â
“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, Guatemalaâs Minister of Agriculture, Livestock and Food.
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 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.
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.
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.
With the participation of more than 30 researchers from four CGIAR Centers located in the Americas, a planning workshop for a new CGIAR Research Initiative, AgriLAC Resiliente, was held on April 4â6, 2022. Its purpose was to define the implementation of activities to improve the livelihoods of producers in Latin America, with the support of national governments, the private sector, civil society, and CGIARâs regional and global funders, and partners.
âThis workshop is the first face-to-face planning meeting aimed at defining, in a joined-up manner and map in hand, how the teams across Centers in the region will complement each other, taking advantage of the path that each Center has taken in Latin America, but this time based on the advantage of reaching the territories not as four independent Centers, but as one CGIAR team,â says Deissy MartĂnez BarĂłn, leader of the Initiative from the Alliance of Bioversity International and CIAT.
AgriLAC Resiliente is an Initiative co-designed to transform food systems in Latin America and the Caribbean. It aims to increase resilience, ecosystem services and the competitiveness of agrifood innovation systems in the region. Through this Initiative, CGIAR is committed to providing a regional structure that enhances its effectiveness and responds better to national and regional priorities, needs and demands.
This Initiative is one of a number that the CGIAR has in Latin America and the Caribbean 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;
Competitiveness with low emissions, focused on agroecosystems, landscapes and value chains, low in sustainable emissions;
Innovation and scaling with the Innova-Hubs network for agrifood innovations and their scaling up;
Science for timely decision making and the establishment of policies, institutions and investments in resilient, competitive and low-emission agrifood systems.
The regional character of these CGIAR Initiatives and of the teams of researchers who make them a reality in the territories with the producers, was prominent in the minds of the leadership that also participated in this workshop. Martin Kropff, Global Director, Resilient Agrifood Systems, CGIAR; JoaquĂn Lozano, Regional Director, Latin America and the Caribbean, CGIAR; Ăscar Ortiz, Acting Director General of the International Potato Center; JesĂșs Quintana, Manager for the Americas of the Alliance of Bioversity International and CIAT; and Bram Govaerts, Director General of the International Maize and Wheat Improvement Center (CIMMYT), all stated the importance of CGIAR being central to every discussion in which the teams are co-constructing a greater consensus on what AgriLAC Resliente is, what it wants to achieve, the approach it will use, and the goals it aims to achieve through synergies among its five components.
Acting as an integrated organization is also an opportunity for CGIAR to leverage co-developed solutions and solve local challenges in the global South related to climate change and agrifood systems transformation. âBuilding the new CGIAR involves tons of collaboration and coordination. In this AgriLAC Resiliente workshop, we have had a dialogue full of energy focused on achieving real impactâ highlighted Bram Govaerts. He continued, âthis is an occasion to strengthen teamwork around this CGIAR Initiative in which the Integrated Agrifood System Initiative approach will be applied in the Latin American region, which is a very interconnected regionâ he pointed out.
One of the main results of this workshop is an opportunity to carry out the integration of the CGIAR teams in the implementation of the AgriLAC Resiliente Initiative, with applied science and the decisive role of the partners at each point of the region, as mechanisms for change.
In 2022, the research teams will begin to lay the groundwork for implementing the Initiativeâs integrative approach to strengthen the innovations to be co-developed with partners and collaborators in the Latin American region, that encompass the interconnected nature of the global South.
A multi-disciplinary team of agricultural researchers and development practitioners is proposing a new approach to tackle the shortcomings of global food production systems that degrade the environment, greatly contribute to climate change and fail to deliver healthy diets for a growing population.
The new methodology developed by the International Maize and Wheat Improvement Center (CIMMYT) in collaboration with the Alliance of Bioversity International and the International Center for Tropical Agriculture (CIAT) aims to transform national food systems by achieving consensus between multiple stakeholders and building on successful participatory agricultural research experiences.
According to a peer-reviewed paper published today in the journal PLOS ONE, the Integrated Agri-food System Initiative (IASI) âis designed to generate strategies, actions, and quantitative, [Sustainable Development Goals] SDGs-aligned targets that have [a significant] likelihood of supportive public and private investmentâ.
The IASI methodology is based on successful integrated development projects implemented by CIMMYT in Mexico and Colombia, the latter in partnership with the Alliance Bioversity-CIAT, which engaged multiple public, private and civil sector collaborators in local maize systems enhancement. These initiatives took advantage of sociopolitical âwindows of opportunityâ that helped build multiple stakeholder consensus around health, nutrition, food security and development aspirations in both countries.
âCIMMYTâs integrated development approach to maize systems transformation in Mexico and Colombia laid the foundations of the IASI methodology by overcoming government transitions, annual budget constraints and win-or-lose rivalry between stakeholders in favor of equity, profitability, resilience and sustainability,â said Bram Govaerts, chief operating officer and Integrated Development Program director at CIMMYT.
Ultimately, the IASI methodology offers public officials and development practitioners the possibility to transform food systems by scaling out innovative farming practices and technologies that lead to sustainably managed natural resources and improved nutrition and food security.
The main steps to implement the IASI methodology are:
Diverse experts examine the current status and the business-as-usual scenario based on analysis of the socioeconomic, political, and sectoral context and model-based projections;
Stakeholders determine a preferred future scenario based on assessment of national implications, and define drivers of change toward a desired scenario;
Defined criteria are applied to stakeholder and expert inputs to validate drivers of change and to identify strategies and actions â for example, public policies, value chain and market interventions, and biotechnology applications â that can steer toward the preferred future scenario, which are then reviewed and prioritized by high-level decision makers;
Stakeholders agree on measurable targets and tangible, time-bound actions toward the preferred future scenario;
Stakeholders build shared commitment to a tactical implementation plan among traditional, non-traditional, and new partners;
Ongoing stakeholder engagement is organized around an online dashboard that tracks actions and progress toward targets and supports course correction and coordinated investment.
Following these steps, the authors of the IASI methodology propose to build a âglobal food systems transformation networkâ to co-design and co-implement agricultural development projects that bring together multiple partners and donors for global agricultural systems transformation.
As the approach is refined and further applications are built, it is expected that this network will harness efforts to initiate a new field of research and global practice on âintegrated methodologies for food system transformation and innovationâ â analogous to the fields of business administration and organizational development.
IASI serves as the backbone of new CGIAR Regional Integrated Initiatives, which draw on capacities from regional international agricultural research centers and programs to deliver global agri-food system transformation.
Natalia Palacios, Maize Quality Specialist at CIMMYT, spoke about the center’s work in Colombia and the future of maize production in the program ‘Tierra de Sueños’ (Land of Dreams).
Andrea GardeazĂĄbal has many titles â Monitor, Evaluation and Learning Manager, ICT for Agriculture â but the core of what she does is knowledge management. She merges monitoring, evaluation, accountability and learning (MEAL) with information communication technologies (ICT) to transform data into something meaningful.
A political scientist by training, GardeazĂĄbal knows the power of data and statistics. As she began working on ICT-for-development projects in the field, she observed a lack of understanding of ICT and how the development sector could take advantage of these tools.
âI knew this was progressing very fast; that this was the future. Everyone was talking about ICT and the future with the internet of things, and social media was just getting started,â she said. So she asked herself, how could the development sector take advantage of these new technologies?
GardeazĂĄbal was working on projects bringing computers to rural areas in Colombia, which did not have internet connection or electricity. The problem could not be solved simply with a machine. She wanted to understand how to use ICT for development in a meaningful way. This triggered an interest in MEAL, to understand how ICT benefits the development sector, or does not, and to reintegrate that information into project design and impact.
After working in ICT for civil participation, education and microfinance, she joined CIMMYT with the mission to understand ICT for agriculture. Now she merges ICT tools with MEAL, leading the design, development and operation of systems for data collection, data cleaning, data analysis and data visualization with the Integrated Development programâs projects in Colombia, Guatemala and Mexico.
Ensuring intended results
Monitoring, learning, accountability and evaluation is crucial to ensure CIMMYT delivers on its objectives. Monitoring means ensuring that operations in the field are happening as planned. Rather than waiting until the end of the project when the donor asks for a report, GardeazĂĄbalâs team monitors operations in the field on a quarterly or yearly basis. The team, both in the field and at headquarters, uses this data to check that the project is achieving what was intended and make interventions or adjustments if necessary.
Evaluation looks at project results and evidence. The team collects evidence for every single data point that they have, and then evaluates that evidence for impact and results in the field. This data is not only related to yield increase, but includes sustainable production, capacity development, and adequate technology adaptation and adoption processes.
Accountability is transparency with funders, so that everyone involved in a project is accountable for the processes, decisions and impact. CIMMYT is able to show progress through a transparent relationship with funders.
Learning happens after the team collects information, produces results evaluations, and understands what was done well and where the process had to be redirected. This information can then inform design of new projects or project phases. âWe use the data and analysis of each project to redesign or modify our plans for the next project or even what kinds of projects we want to conduct,â GardeazĂĄbal said.
Andrea GardeazĂĄbal merges ICT tools with monitoring, evaluation, accountability and learning to improve project design. (Photo: Francisco AlarcĂłn/CIMMYT)
What ICT can offer
In the past, a MEAL team would collect data from a representative sample at the start of the project, then go back to the office and analyze that data. At the end of the project, the team would complete the same exercise, to see the difference from what they gathered at the beginning.
With ICT tools, researchers are able to gather and analyze robust data more quickly and can communicate efficiently with the beneficiaries of a project throughout its course. Artificial intelligence and machine learning algorithms can help in understanding large sets of data so that this information can strengthen and streamline the MEAL process and project impact.
âWe donât need to wait until the end of the project for the results in the field or to have a sense of what the farmers are saying and achieving. We have a lot of tools, from the ICT side, that help make monitoring and evaluation more efficient,â GardeazĂĄbal explained.
An international award recognized some of these ICT tools earlier this year. GardeazĂĄbal formed part of the winning team with members from the Alliance of Bioversity International and CIAT and the International Institute for Applied Systems Analysis (IIASA) working on groundbreaking data systems and tools that help over 150,000 farmers in Mexico.
The team tracked over 500 variables over different farming plots and analyzed them with geographic, weather and market data to help identify the best management practices for each plot. This information â including historic yield potential, local benchmarks, windows of opportunity, recommended agricultural practices and commodity price forecasting â is available to farmers through an app called AgroTutor (Android, iOS).
The importance of an enabling environment
However, GardeazĂĄbal cautions against the idea that technology on its own is going to end poverty or increase food security.
âICT is a vehicle for innovation in agriculture. Just having an app in the field is not enough to generate the change that we are actually looking for. You need an enabling environment, a network, engagement of the farmers and the buy-in of scientists to take advantage of ICT tools.â
From drones and satellite imagery to artificial intelligence, ICT tools can help CIMMYT carry out its mission by streamlining the data gathering and analytics processes.
However, this work is not done in isolation from the environment surrounding it. CIMMYT does not only work on increasing yields, but also manages resources and local networks in efficient ways. Teams must monitor data on air quality, water use and efficient information flows, analyze this data, and then return to the field with recommendations for the most sustainable production within integrated agri-food systems.
CIMMYT researcher Bram Govaerts participates in the World Food Prize and Borlaug Dialogue.
The director of the Integrated Development program and Representative for the Americas at the International Maize and Wheat Improvement Center (CIMMYT), Bram Govaerts, has been elected as Fellow by the leading professional organization of agronomists in the United States.
The American Society of Agronomy (ASA) presented this award to Govaerts for his outstanding contributions to the field of agronomy.
âHis initiatives, excellence in science for impact and the partnerships he inspired have resulted in improved nutrition, nature conservation, and national and international resilience and food securityâ, announced the ASA in a news release.
Being an ASA Fellow is the highest honor offered by the organization, with only 0.3% of active and emeritus members holding this distinction.
The awarding body recognized Govaerts as an international authority in maize and wheat cropping systems who works for a successful transition to sustainable intensification of small-scale farming in Africa, Asia and Latin America.
âBram engages from the field in a remote village all the way up to the office of the president, and from livelihoods and social inclusion to science and business development, in a tireless effort to generate systems change creating sustainable agri-food systems for nutrition, nature conservation and peace,â said Sanjay Rajaram, ASA Fellow, 2014 World Food Prize Laureate, distinguished scientist and retired CIMMYT Wheat Program director, who nominated Govaerts to the ASAâs Fellows Committee.
âI am honored and grateful for receiving this award which shows, above all, that CIMMYT stands for impact and sound science that saves millions of lives, a duty to humanity that we must never compromise,â Govaerts said.
Born in Belgium, Govaerts studied Bioscience Engineering at K.U. Leuven, where he earned a masterâs degree in the same subject with specialization in Soil Conservation and Tropical Agriculture. Research stays in Ethiopia and Mexico sparked his interest in sustainable intensification of small-scale farming systems. He achieved a doctoral degree in Bioscience Engineering â Soil Science, also from K.U. Leuven.
Govaerts cut his teeth as cropping systems expert at CIMMYT, where he progressed from post-doctoral fellow to his current position. He received the Norman Borlaug Field Award in 2014 from the World Food Prize Foundation. Govaerts has co-authored over 90 peer-reviewed publications. He is a member of the Sustainable Development Solutions Network on Data and Statistics (TReNDS) for the Sustainable Development Goals and A.D. White Professor-at-Large at Cornell University.
The Biofortified Maize for Improved Human Nutrition project conducts field research both at CIMMYT and with partners on breeding for increased pro-vitamin A and Zinc content in both Africa and Latin America. The project grant is renewed annually and has been in operation since 2004.
Key activities include supporting early and mid-late product development, evaluation and release in Mexico and target countries in southern Africa, food science and retention studies. Molecular breeding and biochemical analysis are key components for successful breeding, and the project also involves technical backstopping for partners in both regions.
Objectives
Conduct field research on breeding for increased pro-vitamin A for target countries in Africa
Conduct field research on breeding for increased Zinc for product evaluation and release
Conduct essential research to deploy analytical tools and marker assisted selection or genomic selection methods in micronutrient breeding work
Facilitate the dissemination, promotion and consumption of biofortified crops
CIMMYT colleagues pose for a photo at the 23rd Latin American Maize Reunion. (Photo: Carlos Alfonso Cortes Arredondo/CIMMYT.)
Latin America is the birthplace of maize and home to much of its genetic diversity. Maize is a main staple food across the continent and plays an important role in local culture and gastronomy. However, maize faces many challenges, from climate change related stresses such as drought and heat to emerging pests and diseases. Maize experts, as well as scientists from other key crops, from around the world came together to discuss these challenges and how to solve them at the 23rd Latin American Maize Reunion and 4th Seed Congress, held October 7-10 in Monteria, Colombia.
The reunion began with a welcome address from Luis Narro, a senior maize scientist with the International Maize and Wheat Improvement Center (CIMMYT). Narro thanked participants for coming from throughout the region and discussed the history of the event. âWhy are we here today? Because maize is one of the most important crops of this century. This should be both a challenge and incentive for us to continue our work with maize, as it is a crop with huge demand,â he said.
In the inaugural session, Deyanira Barrero, general manager of the Colombian Agricultural Institute (ICA) and Jorge E. Bedoya, president of the Society of Colombian Farmers, highlighted the importance of seeds and strategies to ensure the quality and future of Colombia and Latin Americaâs agri-food systems.
The event was organized by the Colombian Corporation for Agricultural Research (Agrosavia), the Colombian Seed and Biotechnology Association (Acosemillas), the National Federation of Cereal and Legume Growers (Fenalce), the Latin American maize network, and the International Maize and Wheat Improvement Center (CIMMYT). Four CIMMYT scientists presented at the reunion, sharing their experience with and perspectives on agronomy, seed systems, native maize and strategies to increase resilience to climate change.
Nele Verhulst, senior scientist at CIMMYT, presented on the development of management practices for conservation agriculture as well as post-harvest technologies in Latin America, particularly Mexico and Central America. She emphasized the importance of crop management in maize so that improved seeds can reach their maximum potential in terms of yield and profitability. The seed systems lead for Africa and Latin America with CIMMYTâs Global Maize Program, Arturo Silva, shared his experience in these regions strengthening maize seed systems and working to accelerate variety replacement with newer, better seeds. Terry Molnar, maize breeder at the Center, studies native maize varieties to identify characteristics such as disease resistance that can be used to develop improved maize varieties for smallholder farmers. Kai Sonder, head of CIMMYTâs Geographic Information System (GIS) unit, presented on the potential impact of climate change on global and regional maize production.
The reunion closed with the award session for the winners of the MAIZE Youth Innovators Awards 2019 – Latin America. The awards, an initiative of the CGIAR Research Program on Maize (MAIZE), seek to recognize the contributions of young women and men who are implementing innovations in Latin American maize-based agri-food systems.
Winners of the MAIZE Youth Innovators Awards 2019 â Latin America pose for a photo with their awards. (Photo: Carlos Alfonso Cortes Arredondo/CIMMYT.)
Two additional awards were given at the close of the reunion, one to Alberto Chassiagne, maize seeds systems specialist for Latin America at CIMMYT, who received first place in the scientific poster competition at the reunion for his work âProposed model to generate seed production technology for maize hybridsâ. Another award went to Luis Narro for his contributions to maize in Latin America throughout his career.
