CIMMYT has several offices in the Americas, including global headquarters in Mexico and a regional office in Colombia. Activities are supported by an additional 140 hectares of stations in diverse agro-ecological zones of Mexico. CIMMYTâs genebank in Mexico stores 27,000 maize and 170,000 wheat seed collections â key to preserving the crop genetic diversity of the region. CIMMYT projects range from developing nutritionally enhanced maize to mapping regional climate change hot spots in Central America. The comprehensive MasAgro project aims to increase wheat production in Mexico by 9 million tons and maize production by 350,000 tons by 2030. CIMMYT promotes regional collaboration and facilitates capacity building for scientists, researchers and technicians.
CIMMYT provides a maize doubled haploid (DH) production service at cost to maize breeding programs in Africa and Latin America at its DH facilities in Kenya and Mexico.
This service reduces the time required to develop homozygous maize lines to just over one year, instead of three to seven years using more traditional inbreeding methods. This technology also results in better-quality maize lines: DH maize lines are 100% homozygous, whereas traditional inbreeding generates lines with only approximately 99.2% homozygosity. These advantages help breeders increase their rate of genetic gain: the rate at which the genetic potential of a crop increases in yield over time.
CIMMYT established centralized DH line production facilities for Africa at KALRO-Kiboko, Kenya. A similar facility is also in operation for Latin America at CIMMYTâs experimental station in Agua FrĂa, Mexico. Public and private sector organizations involved in maize breeding can access the DH production service by signing a DH service agreement.
GENNOVATE is a global comparative research initiative which addresses the question of how gender norms influence men, women and youth to adopt innovation in agriculture and natural resource management.
Carried out in conjunction with 11 CGIAR research programs worldwide and across 125 rural communities in 26 countries, this qualitative comparative study aims to provide authoritative research to advance gender-transformative approaches and catalyze change in international agricultural and natural resource management research for development.
In discussion groups and individual interviews, roughly 6,000 rural study participants of different socioeconomic backgrounds and age groups are reflecting on and comparing local womenâs and menâs expected roles and behaviors â or gender normsâ and how these social rules affect their ability to access, adopt, adapt and benefit from innovations in agricultural and natural resource management.
The initiativeâs research process strives to give rural women and men a voice by providing authoritative, contextually grounded evidence on how gender interacts with agricultural innovations. It also aims to strengthen CGIAR research program capacities to know the target beneficiaries, design for them, and be accountable to them.
Central to the qualitative field study is an exploration of womenâs and menâs agency at the core of which is the capacity to make important decisions pertaining to oneâs life. For rural women and men, these decisions relate to agriculture and natural resource management, as well as to other significant events in the private (household) and public (community) spheres.
OBJECTIVES
What are the most important new agricultural practices and technologies for the men and for the women in a given village?
What qualities make a woman or a man a good farmer?
Do young people in this village follow local customs of women doing certain agricultural activities and men others?
Are there differences between a woman who is innovative and a man who is innovative?
The Feed the Future Haiti – Mayi Plus project seeks to improve the quality of maize seed supply, test new varieties for local adaptation and support the development of the maize seed industry in Haiti.
The Buena Milpa project in Guatemala, conducted in collaboration with the countryâs Agricultural Science and Technology Institute (ICTA), is aimed at implementing a sustainable intensification strategy for agriculture while reducing poverty, malnutrition and environmental damage.
The project, managed in collaboration with the U.S. Agency for International Developmentâs Feed the Future program, is based in the highlands of Guatemala, a region recognized for its diversity of maize varieties, flora and fauna. Farmers grow a wide variety of crops, including beans, legumes, pumpkin, fruit trees and native plants.
Through Buena Milpa, CIMMYTâs Sustainable Intensification Strategy for Latin America, with its focus on biodiversity conservation, participative breeding, soil conservation, farm diversification and maize, helps to conserve maize landraces and other important plants in the region.
Guatemala, where maize is a key food staple, is known for its wide maize biodiversity. The maize fields of most highland farmers are part of farm systems which includes animal husbandry (chickens, sheep or cattle). These complex farm systems diversify diets diet and sources of family income.
A range of soil conservation methods popular with farmers help preserve biodiversity. A variety of grasses, trees and other plants are used to ensure soil and field conservation.
Most of the maize in the region is grown on steep hillsides. Farmers have very little land and use as much of it as possible for crop production. Water and soil conservation practices aim to reduce the propensity to landslides, decrease erosion through soil cover, minimize the effects of erosion and help to settle the materials and soils mobilized through erosion.
The Buena Milpa project improves native maize landraces, increases productivity, improves plant architecture, grain and seed quality, thereby mitigating losses due to the effects of climate change and decreasing maize reserves, especially during periods of seasonal hunger.
Most farmers involved in the project belong to a Mayan ethnic group that has historically been marginalized and excluded from development processes. A social inclusion strategy fosters the participation of indigenous people, women, children, the young and the elderly in order to benefit everyone involved in maize production systems.
Links with other actors foster activities to generate information that raises awareness about how people are socially excluded, to inform and sensitize local actors about social dynamics that limit inclusion.
OBJECTIVES
Natural resource conservation
Soil and water conservation strategies to reduce erosion and maintain soil water
Understand maize diversity in the highlands of Guatemala
System diversification, taking into account different types of farms in the region
Design social inclusion strategy
Set up community seed banks to be the base of biodiversity conservation and participative breeding efforts
Foster innovation and reduce food insecurity and malnutrition
Increase sustainability of maize-based systems in the highlands
Empower farmers and train strategic actors by linking research to farmersâ needs and facilitating information exchange
VĂctor Manuel Villalobos ArĂĄmbula is Mexico’s Secretary of Agriculture and Rural Development and serves ex officio as Honorary Chair of the Board of Trustees.
An expert with over 40 years experience in agronomy, agricultural economy and environment sciences, Villalobos holds an engineering degree in Agronomy from Mexicoâs Agriculture School and an MSc in Plant Genetics from the Graduate College of Chapingo. He holds a PhD in Plant Morphogenesis from the University of Calgary in Alberta, Canada.
He was Director General of the Inter-American Institute for Cooperating in Agriculture, a specialized agency from the Organization of American States, for two consecutive four-year periods from 2010. He was the first Mexican to hold this international position based in Costa Rica.
He has worked in high-level positions for Mexicoâs Government. He has been appointed as Natural Resources Undersecretary, Agriculture Undersecretary and International Affairs Coordinator of Mexicoâs Department of Agriculture. He has served as Principal Biotechnology Officer for the United Nations Food and Agriculture Organization in Rome, Italy, and Director of the Tropical Crops Improvement Program at the Tropical Agricultural Research and Higher Education Center (CATIE) in Costa Rica.
He became a member of the Royal Swedish Academy of Agriculture and Forestry in 2004 for his research in biotechnology, plant production, and conservation of natural and genetic resources. He received an honorary doctorate from CATIE in the same year, and an honorary doctorate from AsunciĂłn University in Paraguay in 2013. In 2015, he received the âGolden Spikeâ award from the Graduate College of Agronomy Engineers and Agriculture and Livestock Professionals in La Paz, Bolivia.
Carolina Rivera (left) shakes the hand of Maricelis Acevedo, Associate Director for Science for Cornell Universityâs Delivering Genetic Gain in Wheat Project and WIT mentor, after the announcement of the WIT award winners.
As a native of Obregon, Mexico, Carolina Rivera has a unique connection to the heart of Norman Borlaugâs wheat fields. She is now carrying on Borlaugâs legacy and working with wheat as a wheat physiologist at the International Maize and Wheat Improvement Center (CIMMYT) and data coordinator with the International Wheat Yield Partnership (IWYP).
Given her talents and passion for wheat research, it is no surprise that Rivera is one of the six recipients of the 2019 Jeanie Borlaug Laube Women in Triticum (WIT) Early Career Award. As a young scientist at CIMMYT, she has already worked to identify new traits associated with the optimization of plant morphology aiming to boost grain number and yield.
The Jeanie Borlaug Laube WIT Award provides professional development opportunities for women working in wheat. The review panel responsible for the selection of the candidates at the Borlaug Global Rust Initiative (BGRI), was impressed by her commitment towards wheat research on an international level and her potential to mentor future women scientists.
Established in 2010, the award is named after Jeanie Borlaug Laube, wheat science advocate and mentor, and daughter of Nobel Laureate Dr. Norman E. Borlaug. As a winner, Rivera is invited to attend a training course at CIMMYT in Obregon, Mexico, in spring 2020 as well as the BGRI 2020 Technical Workshop, to be held in the UK in June 2020. Since the awardâs founding, there are now 50 WIT award winners.
The 2019 winners were announced on March 20 during CIMMYTâs Global Wheat Program Visitorsâ Week in Obregon.
In the following interview, Rivera shares her thoughts about the relevance of the award and her career as a woman in wheat science.
Q: What does receiving the Jeanie Borlaug Laube WIT Award mean to you?
I feel very honored that I was considered for the WIT award, especially after having read the inspiring biographies of former WIT awardees. Receiving this award has encouraged me even more to continue doing what I love while standing strong as a woman in science.
It will is a great honor to receive the award named for Jeanie Borlaug, who is a very active advocate for wheat research. I am also very excited to attend the BGRI Technical Workshop next year, where lead breeders and scientists will update the global wheat community on wheat rust research. I expect to see a good amount of women at the meeting!
Q: When did you first become interested in agriculture?
My first real encounter with agriculture was in 2009 when I joined CIMMYT Obregon as an undergraduate student intern. I am originally from Obregon, so I remember knowing about the presence of CIMMYT, Campo Experimental Norman E. Borlaug (CENEB) and Instituto Nacional de InvestigaciĂłn Forestales AgrĂcolas y Pecuario (Inifap) in my city but not really understanding the real importance and impact of the research coming from those institutions. After a few months working at CIMMYT, I became very engrossed in my work and visualized myself as a wheat scientist.
Q: Why is it important to you that there is a strong community of women in agriculture?
We know women play a very important role in agriculture in rural communities, but in most cases they do not get the same rights and recognition as men. Therefore, policies â such as land rights â need to be changed and both women and men need to be educated in gender equity. I think the latter factor is more likely to strengthen communities of women, both new and existing, working in agriculture.
In addition, women should participate more in science to show that agricultural research is an area where various ideas and perspectives are necessary. To achieve this in the long run, policies need to look at current social and cultural practices holding back the advancement of women in their careers.
Q: What are you currently working on with CIMMYT and IWYP?
I am a post-doctoral fellow in CIMMYTâs Global Wheat Program where I assist in collaborative projects to improve wheat yield potential funded by IWYP. I am also leading the implementation of IWYPâs international research database, helping to develop CIMMYTâs wheat databases in collaboration with the centerâs Genetic Resources Program. Apart from research and data management, I am passionate about offering trainings to students and visitors on field phenotyping approaches.
Q: Where do you see yourself in the agriculture world in 10 years?
In 10 years, I see myself as an independent scientist, generating ideas that contribute to delivering wheat varieties with higher yield potential and better tolerance to heat and drought stresses. I also see myself establishing strategies to streamline capacity building for graduate students in Mexico. At that point, I would also like to be contributing to policy changes in education and funding for science in Mexico.
On March 4, 2019, staff from the International Maize and Wheat Improvement Center (CIMMYT) welcomed Gerd MĂŒller, Germanyâs Federal Minister of Economic Cooperation and Development (BMZ), for a short visit to CIMMYTâs global headquarters in Mexico. Before exploring the campus and sitting down to hear about CIMMYTâs latest innovations in maize and wheat research, Minister MĂŒller challenged the scientists gathered there by asking: âIs a world with no hunger actually possible?â
âIt is possible, but it will require a lot of research and development activities to get there,â replied CIMMYTâs director general, Martin Kropff.
With $3.5 billion generated in benefits annually, CIMMYT is well positioned for Minister MĂŒllerâs challenge. CIMMYT works throughout the developing world to improve livelihoods and foster more productive, sustainable maize and wheat farming. Its portfolio squarely targets critical challenges, including food insecurity and malnutrition, climate change and environmental degradation. In addition, over 50 percent of maize and wheat grown in the developing world is based on CIMMYT varieties.
Germany has generously supported CIMMYT’s work for decades in a quest to answer this very question, which aligns with the German governmentâs agenda to improving food and nutrition security, the environment and livelihoods.
âCIMMYT is working to find ways to allow developing countries to grow maize and wheat on less land so that a larger percentage of it can be freed for nutritious and higher value cash crops. This requires better seeds that are adapted to biotic and abiotic stressors, smarter agronomy and machinery, which CIMMYT develops with partners,â Kropff explained.
CIMMYT works between smallholders and small companies to create an incentive on one side to grow varieties and on the other side, to increase demand for quality grain that will ultimately become the tortillas and bread on customersâ dinner tables. These sustainable sourcing and breeding efforts depend on the breathtaking diversity of maize and wheat housed at CIMMYTâs genebank, the Wellhausen-Anderson Plant Genetic Resources Center, which is supported by German funding along with solar panels that generate clean energy for the genebank.
Through funding for the CGIAR Research Program on WHEAT and the CIM Integrated Experts Program, Germanyâs GIZ and BMZ have also supported CIMMYT research into gender and innovation processes in Africa, Central and South Asia, enhancing gender awareness in both projects and rural communities and mainstreaming gender-sensitive approaches in agricultural research. As a result, CIMMYT researchers and partners have increased gender equality in wheat-based cropping systems in Ethiopia, reduced the burden of womenâs wheat cleaning work in Afghanistan, and hosted a series of training courses promoting the integration of gender awareness and analysis in research for development.
In addition, the CIM Integrated Experts program has allowed CIMMYT to increase its efforts to scale up agricultural innovations and link research to specific development needs. With support from GIZ and in collaboration with the PPPLab, in 2018 CIMMYT researchers developed a trial version of the Scaling Scan, a tool which helps researchers to design and manage scaling at all project phases: at the beginning, during and after implementation.
CIMMYT is committed to improving livelihoods and helping farmers stay competitive through increasing labor productivity and reducing costs. CIMMYTâs mechanization team works to identify, develop, test and improve technologies that reduce drudgery and enable smallholders in Mexico, sub-Saharan Africa and South Asia to adopt sustainable intensification practices, which require greater farm power and precision. In Ethiopia, CIMMYT has an ongoing collaboration with the GIZ/BMZ green innovation center â established as part of the ONE WORLD â No Hunger initiative â and is working with GIZ in Namibia to provide knowledge, expertise and capacity building on conservation agriculture. This includes the organization of training courses to mechanics and service providers on everything from the use to the repair of machinery and small-scale mechanization services.
âWeâre on a mission to improve livelihoods through transforming smallholder agriculture, much of which depends on empowering women, scaling, market development and pushing for policies that would create the right incentives. Partnerships with local and international stakeholders such as Germany are at the core of CIMMYTâs operations and allow for us to have global impact,â said Kropff.
CIMMYT’s director of innovative business strategies, Bram Govaerts (left), explained that three changes are needed to reduce the environmental impact of food systems in Mexico: innovation in production practices, reduction of food waste, and change of diets. (Photo: CIMMYT)
MEXICO CITY (CIMMYT) â The International Maize and Wheat Improvement Center (CIMMYT) was invited to discuss the findings of the EAT-Lancet Commission report and its implications for Mexico, during a launch event hosted by Mexicoâs Health Department on March 4, 2019.
The report, published earlier this year, aims to offer an in-depth scientific analysis of the worldâs food production systems and their impact on the planet and human health. It proposes a âplanetary health dietâ that balances nutrition with sustainable food production.
âOur first objective was to develop healthy diets for the 10 billion people who will inhabit the planet in 2050â, said Juan Ăngel Rivera Dommarco, Director General of Mexicoâs Public Health Institute and member of the EAT-Lancet Commission. According to Dommarco, the healthy diet recommended for Mexico had to increase the intake of fruits, vegetables, legumes and whole grains to avert chronic diseases and combat malnutrition and obesity.
The report also makes several recommendations to reduce the environmental impact of food production, taking into account planetary boundaries. âThe world needs to sustainably intensify food production and to produce basic foodstuffs of higher nutritional valueâ, said Fabrice DeClerck, EATâs Science Director.
âIf anybody is able to manage the complex systems that will sustainably yield the volume of nutritious food that the world needs, thatâs the farmerâ, said Bram Govaerts, Director of Innovative Business Strategies at CIMMYT. âIn Mexico, more than 500 thousand farmers already innovate every day and grow maize, wheat and related crops under sustainable intensification practices that CIMMYT and Mexicoâs Agriculture Department promote with MasAgroâ.
VĂctor Villalobos ArĂĄmbula, Mexicoâs Secretary of Agriculture, said that the EAT-Lancet Commission report recommendations were very much in line with the strategic public policies that Mexico plans to implement in the coming years.
From left to right: Fabrice DeClerck, Science Director at the EAT Foundation; Hugo LĂłpez-Gatell RamĂrez, Mexicoâs Undersecretary for Prevention and Promotion of Health; Teresa Shamah Levy, Deputy Director General for Evaluation and Surveys Research at Mexicoâs Public Health Institute; Jorge Alcocer Varela, Mexicoâs Secretary of Health; VĂctor Villalobos ArĂĄmbula, Mexicoâs Secretary of Agriculture; Bram Govaerts, Director of Innovative Business Strategies at CIMMYT; Rut KrĂŒger Giverin, Norwayâs Ambassador to Mexico; Juan Ăngel Rivera Dommarco, Director General of Mexicoâs Public Health Institute; and Olav KjĂžrven, Chief Strategic Officer at the EAT Foundation. (Photo: CIMMYT)
Palmira (Colombia), February 14, 2019 â AGROSAVIA, Colombiaâs leading not-for-profit organization for agricultural research and technology transfer, the International Center for Tropical Agriculture (CIAT) and the International Maize and Wheat Improvement Center (CIMMYT) have signed a five-year agreement that aims to boost maize production.
The new project will develop maize varieties adapted to the countryâs farming conditions, and will promote sustainable intensification technologies and practices among Colombian farmers.
âWe should be able to release the first high-yielding maize variety for Colombia in three yearsâ, said Bram Govaerts, CIMMYTâs director of Innovative Business Strategies and regional representative for the Americas.
To achieve this goal, CIMMYT will provide AGROSAVIAâs breeding program with two thousand advanced lines, developed by combining native maize from Colombia with conventionally improved varieties.
âAt both institutions we believe that Colombia can increase production to close the big gap between domestic maize consumption and importsâ, said AGROSAVIAâs Executive Director, Juan Lucas Restrepo. âWith this agreement, we will have more powerful local capacities and once again a Colombian maize research program for Colombiansâ.
Although experts agree that Colombian farmers could potentially produce more than 10 tons per hectare, the countryâs average yield is currently 3.6 tons per hectare.
âWith this agreement, the sister CGIAR centers CIMMYT and CIAT give a first step in the implementation of Maize for Colombia, an ambitious plan that will sustainably increase Colombiaâs maize output by building on the learnings and achievements of a successful project implemented in Mexico called MasAgro,â said Govaerts.
Genomics is a wide theme of interest for geneticists. As part of the efforts to advance on this subject, Fernando H. Toledo, associated scientist in agricultural statistics at the International Maize and Wheat Improvement Center (CIMMYT), is working on the research of genomic selection models to increase accuracy. His research considers several complex traits and environmental conditions under climate change scenarios.
The research in which Toledo works is multidisciplinary â it involves genetics and breeding knowledge, as well as statistics and computer science. âThis work is fundamental for the breeding and farming community. Our aim is to allow breeders to pursue precise selection of new genetic materials with good performance and ensuring food security in the field under varying environmental conditions.â
Fernando H. Toledo was born in SĂŁo Paulo, Brazil, but grew up in Curitiba, ParanĂĄ, one of the biggest agricultural states in the country. He obtained his engineering degree, with a major in crop science, at ParanĂĄ Federal University.
He got his masterâs degree in genetics and plant breeding at Lavras Federal University, under the supervision of Magno Ramalho, one of the most prestigious breeders in Brazil. During his Ph.D. in quantitative genetics at the Agricultural College of the University of SĂŁo Paulo, Fernando was advised by Roland Vencovsky, known as the father of quantitative genetics in the country. âThe main lesson I took from both of them was that biometrics science must try to answer the breedersâ questions.â
CIMMYTâs work is highly relevant to breeding activities in Brazil. It dates back to the 1950s when Brazilian breeders and geneticists took maize populations and varieties to be important resources of their current germplasm. âThe public and private sectors in Brazil recognize the importance of CIMMYT, which awoke my interest in working in a relevant institute for agriculture in developing countries.â
In 2015, Toledo applied for a postdoctoral position at the Biometrics and Statistics Unit of the Genetic Recourses Program at CIMMYT. He started working as an associate scientist in 2017.
As part of this unit, Toledo is currently involved in the planning and analysis of field trials comprising phenotypic and genomic data. He is developing new models and methods for these analysis as well as plant breeding simulations. âGenomic selection has been used over CIMMYTâs breeding programs before but there are still a lot of improvements to implement, so new models of analysis can be tested under simulated scenarios, which results in better recommendations for breeders.â
On top of that, he is implementing new open-source high-performance software products to facilitate the use of cutting-edge methods for data analysis. âI really like the connection we can build at CIMMYT in terms of practical work for breeders and the development of new statistical methods, models, tools and software we release to attend their requirements, with the main aim of improving precision during the selection of the best genetic materials.â
Led by Juan Burgueño, senior biometrician and head of the Biometrics and Statistics Unit, Toledo is training students, scientists and partners regarding statistical concepts and data analysis. âThese trainings courses are a great opportunity to share our work with others and to learn the scientistsâ needs in order to improve our capabilities.â
Toledoâs main inspiration to continue his work at CIMMYT is having the opportunity to generate knowledge for others in developing countries. âOur work is driven by the breedersâ needs and that usually helps them to improve their understanding by using what we developed for them and making it a forward-backward relation, which is fascinating.â
Haiti has the lowest maize yields in Latin America and the Caribbean, and around half of the population is undernourished. Five hurricanes in the past decade and a magnitude 7.0 earthquake in 2010 have only exacerbated these issues. In 2017, CIMMYT sent 150 tons of new and improved maize seed to the Caribbean nation to jump-start its maize seed sector, improve food security and decrease malnutrition. It was the largest seed shipment to any country in CIMMYT’s history.
In this episode, CIMMYT’s Seed Systems Lead for Africa and Latin America, Arturo Silva Hinojosa, discusses why CIMMYT sent this seed and organized trainings, how they overcame major roadblocks, and what’s in store for the future.
Learn more about the project by reading “Seeds of Hope” from the CIMMYT 2017 Annual Report.
As the world heats up and water grows scarce, threatening the productivity of humankindâs preferred crops, breeder Marcela Carvalho Andrade and her colleagues at the International Maize and Wheat Improvement Center (CIMMYT) are working to toughen maize, drawing resilience traits from landraces, the forerunners of modern maize.
For decades, scientists have sought to utilize the hardiness of maize landraces, which evolved over millennia of farmer selection for adaptation to diverse and sometimes harsh local settings in Mexico, Central and South America.
But crossing elite varieties with landraces brings along wild traits that are difficult and costly to purge, including lower grain yields, excessive tallness or a tendency to fall over in strong winds. For this and for their genetic complexity, landraces are seldom used directly in breeding programs, according to Andrade.
Crosses that home in on genetically complex traits
âOur strategy is to cross selected landraces with elite maize lines, thus developing improved lines that can be directly incorporated and recycled in breeding programs,â explained Andrade, who joined CIMMYT in 2016.
The traits sought include better resilience under high temperatures, drought conditions or the attacks of rapidly-evolving crop diseases. âAll these features will be critical for the future productivity of maize,â said Andrade.
One of the worldâs three most important crops, maize contributes over 20% of the calories in human diets in 21 low-income countries, as well as being used in industry, biofuels, and feed for livestock and poultry.
Andrade and the maize breeding team develop new lines that carry a 75 percent genetic contribution from the elite source and 25 percent from a landrace. The aim she said is to get the good components from both sides, while broadening maizeâs genetic diversity for use by breeders and ultimately farmers.
The resulting lines and hybrids are tested for yield, resilience and overall agronomic performance, under both normal growing conditions and âstressedâ environments; for example, in plots grown at sites with high temperatures or reduced water availability.
âWe can thus identify landraces that offer traits of interest, as well as generating improved breeding lines to strengthen the resilience of elite maize without reducing its yield,â said Andrade, noting that the research employs conventional cross-pollination and selection.
According to Andrade, CIMMYT has carried out large-scale molecular analysis of its maize seed collections, which number around 28,000 and comprise landraces from 70 countries.
âOver the past years, CIMMYT has used genetic diversity analyses of its maize collections to select landraces for use in drought tolerance breeding or for finding lines that are resistant to newly important diseases such as Maize Lethal Necrosis or Tar Spot,â she explained. âGenetic diversity analysis allows us to narrow the number of candidate landrace sources that we need to cross and assess in the field.â
The viral disease Maize Lethal Necrosis (MLN) has devastated crops in eastern Africa since its appearance there in 2011.
The researchers have also found landrace sources of resilience against Tar Spot Complex, a maize disease of the Americas that can cause 50 percent or greater yield losses in infected crops.
Benefiting breeding and farmers
Andrade said the breeding team expects to release a first wave of landrace-derived, improved maize lines in 2019, some featuring enhanced drought tolerance and others that provide better resistance to Tar Spot.
âThe lines we offer will be freely available to breeders worldwide and must yield well and show superior resilience,â Andrade explained. âThey will have reasonable agronomicsâear and plant height and standability, for example. The lines will not be perfect, but breeders wonât hesitate to use them because weâve ensured that they are superior for at least one crucial trait and reasonably competitive for most other traits.â
From Brazil to the world
Growing up in a small town and having direct contact with her fatherâs dairy farm in Minas Gerais, a mainly rural state in Brazil, Andrade finds her CIMMYT work enormously satisfying. âMy dad and a few uncles were farmers and complained some years that their crops didnât yield well,â she says. âI knew I wanted to help them somehow.â
Andrade obtained Bachelor and Masterâs degrees in agronomy/plant science from the Universidade Federal de Lavras (UFLA), one of Brazilâs premier institutions of higher education. She later completed a Doctorate in Genetics and Plant Breeding at UFLA, in partnership with Ohio State University.
She credits CIMMYT maize scientist Terry Molnar, her supervisor and mentor, with teaching her the complex ins and outs of maize breeding. âI am a plant breeder and worked previously with vegetables, but I learned the practical aspects of maize breeding from Terry.â
Looking ahead, Andrade sees herself continuing as a plant breeder. âI donât see myself working in anything else. I would eventually like to lead my own program but, at this point in my career, Iâm happy to help transfer landrace traits to modern maize varieties.â
TEXCOCO, Mexico (CIMMYT) â Food security is heavily dependent on seed security. Sustainable seed systems ensure that a variety of quality seeds are available to farming communities at affordable prices. In many developing countries, however, farmers still lack access to the right seeds at the right time.
In the past, governments played a major role in getting improved seed to poor farmers. These days, however, the private sector plays a leading role, often with strong support from governments and NGOs.
âInterventions in formal seed systems in maize have tended to focus on improving the capacity of seed producing companies, which are often locally owned small-scale operations, to produce and distribute quality germplasm,â says Jason Donovan, Senior Economist at International Maize and Wheat Improvement Center (CIMMYT). âThese local seed companies are expected to maintain, reproduce and sell seed to underserved farmers. Thatâs a pretty tall order, especially because private seed businesses themselves are a fairly new thing in many countries.â
Prior to the early 2000s, Donovan explains, many seed businesses were partially or wholly state-owned. In Mexico, for example, the Instituto Nacional de Investigaciones Forestales, AgrĂcolas y Pecuarias (INIFAP) produced seed and supplied it to a market-oriented entity which was responsible for distribution. âWhat weâre seeing now is locally owned private seed businesses carving out their space in the maize seed market, sometimes in direct competition with multinational seed companies,â he says. In Mexico, around 80 locally owned maize seed producing businesses currently exist, most of which have been involved in CIMMYTâs MasAgro Maize project. These are mostly small businesses selling between 150,000 and 500,000 kg of hybrid maize per year.
In the following Q&A, Donovan discusses new directions in research on value chains, the challenges facing private seed companies, and how new studies could help understand their capacities and needs.
How does research on markets and value chains contribute to CIMMYTâs mission?
Weâre interested in the people, businesses and organizations that influence improved maize and wheat seed adoption, production, and the availability and quality of maize and wheat-based foods. This focus perfectly complements the efforts of those in CIMMYT and elsewhere working to improve seed quality and increase maize and wheat productivity in the developing world.
We are also interested in the nutrition and diets of urban and rural consumers. Much of the work around improved diets has centered on understanding fruit and vegetable consumption and options to stimulate greater consumption of these foods. While there are good reasons to include those food groups, the reality is that those arenât the segments of the food market that are immediately available to or able to feed the masses. Processed maize and wheat, however, are rapidly growing in popularity in both rural and urban areas because thatâs what people want and need to eat first. So the question becomes, how can governments, NGOs and others promote the consumption of healthier processed wheat and maize products in places where incomes are growing and tastes are changing?
This year, CIMMYT started a new area of research in collaboration with A4NH, looking at the availability of processed maize and wheat products in Mexico City â one of the worldâs largest cities. Weâre working in collaboration with researchers form the National Institute of Public Health to find out what types of wheat- and maize-based products the food industry is selling, to whom, and at what cost. At the end of the day, we want to better understand the variation in access to healthier wheat- and maize-based foods across differences in purchasing power. Part of that involves looking at what processed products are available in different neighborhoods and thinking about the dietary implications of that.
Your team has also recently started looking at formal seed systems in various locations. What direction is the research taking so far?
Our teamâs current priority is to advance learning around the private sectorâs role in scaling improved maize varieties. We are engaged with three large projects: MasAgro Maize in Mexico, Stress Tolerant Maize for Africa (STMA) and the Nepal Seed and Fertilizer Project (NSFP). We are looking to shed light on the productive and marketing capacities of the privately owned seed producing businesses and their ability to get more seed to more farmers at a lower cost. This implies a better understanding of options to better link seed demand and supply, and the business models that link seed companies with agro-dealers, seed producing farmers, and seed consumers.
We are also looking at the role of agro-dealers â shops that sell agricultural inputs and services (including seed) to farmers â in scaling improved maize seed.
At the end of the day, we want to provide evidence-based recommendations for future interventions in seed sectors that achieve even more impact with fewer resources.
Farmers purchase seed from an agro-dealer in Machakos, Kenya. (Photo: Market Matters Inc.)
This research is still in its initial stages, but do you already have an idea of what some of the key limiting factors are?
I think one of the main challenges facing small-scale seed producing businesses is the considerable expense entailed in simultaneously building their productive capacities and their market share. Many businesses simply donât have a lot of capital. Thereâs also a lack of access to specialized business support.
In Mexico, for example, a lot of people in the industry are actually ex-breeders from government agencies, so theyâre very familiar with the seed production process, but less so with options for building viable businesses and growing markets for new varieties of seed.
This is a critical issue if we expect locally owned seed businesses to be the primary vehicle by which improved seeds are delivered to farmers at scale. Weâre currently in the assessment phase, examining what the challenges and capacities are, and hopefully this information will feed into new approaches to designing our interventions.
Is the study being replicated in other regions as well?
Yes, in East Africa, under the Stress Tolerant Maize for Africa (STMA) project. Weâre working with seed producing businesses and agro-dealers in Ethiopia, Kenya, Tanzania, and Uganda to understand their strategies, capacities, and needs in terms of providing improved seed to more farmers. Weâre using the same basic research design in Mexico, and there is also ongoing work in the Nepal Seed and Fertilizer Project. Given that we are a fairly small team within CIMMYT, comparable cross-regional research is one way to punch above our weight.
Why is this research timely or important?
The research is critical as CIMMYTâs impact relies, in part, on partnerships. In the case of improved maize seed, that revolves around viable seed businesses.
Although critical, no one else is actually engaged in this type of seed sector research. There have been a number of studies on seed production, seed systems and the adoption of improved seed by poor farmers. A few have focused on the emergence of the private sector in formal seed systems and the implications for seed systems development, but most have been pretty broad, examining the overall business environment in which these companies operate but not much beyond that. Weâre trying to deepen the discussion. While we donât expect to have all the answers at the end of this study, we hope we can shift the conversation about options for better support to seed companies and agro-dealers.
Jason Donovan joined CIMMYT in 2017 and leads CIMMYTâs research team on markets and value chains, based in Mexico. He has some 15 years of experience working and living in Latin America. Prior to joining CIMMYT he worked at the Peru office of the World Agroforestry Center (ICRAF), where his research focused on business development, rural livelihoods, gender equity and certification. He has a PhD in development economics from the University of Londonâs School of Oriental and African Studies (SOAS).
The Mexican Academy of Sciences is an independent and not-for-profit association formed by acknowledged scientists working in both Mexican and international organizations. Its main objective is to offer expert advice to address the most pressing issues and challenges confronting Mexicoâs government and civil society.
CIMMYT scientist Matthew Reynolds has been appointed a member of the Mexican Academy of Science.
Reynolds is a Wheat Physiologist at International Maize and Wheat Improvement Center (CIMMYT). His leadership of the Wheat component of the MasAgro project strengthened his nomination to the Academy. In this capacity, he has overseen the publication of 32 peer-reviewed articles in scientific journals that account for the progress achieved in the development of new high-yielding and resilient wheat varieties for Mexico and for other wheat-growing regions in the developing world.
Since 2011, MasAgro Trigo has characterized 71 thousand wheat lines in field trials designed to test yield potential under severe stress caused by heat and drought conditions. As a result, Reynolds and his team have formed the Wheat Yield Collaboration Yield Trial and the Stress Adaptive Traits Yield Nursery, two panels of elite lines that yield more grain in high temperatures and under limited water supply. Mexicoâs agricultural research system INIFAP has recently incorporated 42 elite lines from these nurseries into its wheat-breeding program.
Reynolds has also mentored 12 Mexican students who have undertaken postgraduate studies under the supervision of renowned wheat scientists in American, Australian, British, Chilean and Spanish universities. Eight students have already achieved a PhD degree in different areas of wheat research. This new generation of scientists will further contribute to promote science and research in Mexico, one of the Academyâs main objectives.
DES MOINES (Iowa) â Hundreds of food and agriculture leaders from around the world gathered last week in Iowa, USA, for the 2018 edition of the Borlaug Dialogue. Much of the conversation this year was centered on how to âtake it to the farmer,â as Norman Borlaug famously said. Experts discussed how to build sustainable seed systems, grounded on solid science, so improved varieties reach smallholder farmers.
General view of the 2018 Borlaug Dialogue venue. (Photo: World Food Prize)
Louise Sperling, senior technical advisor at Catholic Relief Services, presented a study on the sources of seed for smallholder farmers in Africa. She explained that 52.2 percent of households receive new varieties, but only 2.8 percent of the seed comes through agro-dealers. The biggest source is local markets and own stock, the so-called informal channels.
Quality and variety of seed should be the focus, emphasized Jean Claude Rubyogo, seed systems specialist at CIAT. In his view, we need to integrate formal and informal seed distribution channels, using the competitive advantages of each.
âWhen we take good seed, we address all African soil,â said Ruth Oniang’o, board chair at the Sasakawa Africa Foundation. Oniang’o explained access to financing is a major hurdle for smallholders to access better seed and other innovations. In her view, current financial products are inadequate. âWhy should we get a farmer to pay 20 percent interest rates on a small loan?â
B.J. Marttin, member of the managing board of Rabobank Group, recommended financial institutions to partner with farmers through every stage, from production to sale, so they better understand risk and the whole value chain. Simon Winter, executive director of the Syngenta Foundation for Sustainable Agriculture, captured the main points from the session on financing for agricultural entrepreneurs. âWe have to have the farmer at the center. The farmer is the ultimate customer,â Winter said. âIf we are not serving farmer needs, we are not really solving the problems.â
Research to feed the world
The 2018 Global Agricultural Productivity (GAP) Report, presented at the Borlaug Dialogue, shows the growing gap between future food supply needs and agricultural production, particularly in low-income countries. To meet the projected food needs of nearly 10 billion people in 2050, global agricultural productivity must increase by 1.75 percent annually, the report states, but has only increased 1.51 percent annually since 2010.
A plenary session led by CGIAR explored the role of research in tackling this and other complex challenges. âWe have to talk about food and agriculture research,â said former U.S. Secretary of Agriculture Dan Glickman. People need to understand research is not abstract academic knowledge, but rather useful innovation that goes âfrom the farm, to the table and to the stomach,â he explained.
âInnovation, no matter where you are in the world, is key to moving forward,â said Patience Koku, a farmer from Nigeria part of the Global Farmer Network. âI donât think the farmers in Africa or in Nigeria need a lot of convincingâ to adopt innovation, Koku noted. If someone is able to explain what a new technology can do, âfarmers see that science can make their life better and embrace it.â
Rising to the challenge
Agricultural research is also crucial to confront global threats like pests, conflict and climate change.
A session led by CIMMYT presented the latest research and actions against fall armyworm. (Photo: Rodrigo Ordóñez/CIMMYT)
Two separate sessions, hosted by Corteva Agriscience and CIMMYT, shared the latest approaches in the fight against fall armyworm and other pests and diseases. The Director General of the International Maize and Wheat Improvement Center (CIMMYT), Martin Kropff, explained how organizations are working together to respond to the rapid spread of fall armyworm in Africa and Asia. âWe have to solve the problem based on science, and then develop, validate and deploy integrated pest management approaches,â Kropff said.
As part of the World Food Prize outreach program, Bram Govaerts, director of innovative business strategies at CIMMYT, gave a lecture to students at Brody Middle School about the importance of agriculture and food. “When people can’t grow crops or pay for food to feed their families, desperation turns to conflict.”
At a side event, the Economist Intelligence Unit presented the Global Food Security Index 2018, which ranks food systems in 113 countries based on affordability, availability, and quality and safety. Senior consultant Robert Powell explained that the index now includes an adjustment factor based on each countryâs natural resource risks and resilience to the impacts of a changing climate. âAll countries will experience the impact of climate change,â Powell said.
The pernicious effects of climate change were also evident to the 2018 World Food Prize winners, David Nabarro and Lawrence Haddad, who have led global efforts to curb child malnutrition. âThere is no evidence to me that [this] crisis is going to stop, because climate change is here,â Nabarro declared. âThe foods we choose to grow and eat have a large impact on emissions,â Haddad said. âFood has a lot to offerâ on climate mitigation and âdiversity is the secret sauceâ for climate adaptation. âWe need food systems that are diverse: in crops, locations, organizations involved in themâŠâ
Less biodiversity translates into âless resilience and worse nutrition,â according to the Vice President of Peru, Mercedes ArĂĄoz. Through improved health and nutrition services, the country more than halved malnutrition among children under five, from 28 percent in 2008 to 13.1 percent in 2016.
2018 World Food Prize winners Lawrence Haddad (left) and David Nabarro speak during the award ceremony. (Photo: World Food Prize)
A rallying cry for nutrition
The impact of nutrition on the first 1,000 days of life lasts a lifetime, explained Haddad. âFor young kids, these are permanent shocks.â
âIf a person is not nourished in those very important weeks and months of life, the long-term consequences are likely to be irreversible,â Nabarro added. According to him, nutrition needs to be the target in the 2030 agenda, not only hunger.
âNutrition-based interventions present us a new lens through which to create and assess impact as agricultural researchers,â said Elwyn Grainger-Jones, the executive director of the CGIAR System Organization. âOur future success must come not only from ensuring an adequate supply of calories for the global population, but also the right quality and diversity of foods to tackle hidden hunger as well.â
âWe are not going to resolve the challenges of undernutrition without the ag sector stepping up in a big way and differently,â argued Shawn Baker, director of nutrition at the Bill & Melinda Gates Foundation. âNutrition needs you,â Baker told other participants. âWelcome to the nutrition family.â
Palmira (Colombia), February 14, 2019 â AGROSAVIA, Colombiaâs leading not-for-profit organization for agricultural research and technology transfer, the International Center for Tropical Agriculture (CIAT) and the International Maize and Wheat Improvement Center (CIMMYT) have signed a five-year agreement that aims to boost maize production.
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