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Tag: maize

Cereals research for sustainable health and well-being

Written by Sarah McLaughlin on . Posted in Publications.

The current focus in nutritional circles on micronutrient malnutrition and unhealthy eating habits has raised questions about continuing to invest in research on energy-rich cereal crops and related farming systems.

In this new paper in the International Journal of Agricultural Sustainability, development scientists make the case that cereal foods are an important vehicle for enhanced nutrition – with additional improvement possible through plant breeding and interventions in processing, manufacturing and distribution. It also explains cereals are a rich source of both dietary fiber and a range of bioactive food components that are essential for good health and well-being.

The authors suggest a balanced, integrated research approach to support the sustainable production of both nutrient-rich crops and the basic cereals used in humanity’s most widely consumed and popular foods.

Read the full article: Continuing cereals research for sustainable health and well-being

Cover photo: Raw wheat grains in a wooden bowl and in a scoop, close-up. (Photo: Marco Verch/Flickr)

Decomposing maize yield gaps to better inform policy and public investments

Written by Sarah McLaughlin on . Posted in Features.

In sub-Saharan Africa, smallholder production is characterized by low agricultural productivity which is often cited as a major factor of  food insecurity in the region. Recent research from multiple countries in the region suggests that average maize yields of around 1.7 t/ha in 2010 must increase to 6.8 t/ha to meet estimated demand in 2050. To achieve this, per-hectare maize output must grow by about 3.5% per year. Although addressing this challenge seems daunting, estimates suggest that such high yields are technically feasible. However, a shared understanding of the investments and policies required remain elusive.

Under the Taking Maize Agronomy to Scale in Africa (TAMASA) project, scientists from Wageningen University and the International Maize and Wheat Improvement Center (CIMMYT) conducted research on this question, using uniquely detailed farm surveys which provide integrated information about smallholders’ agronomic practices and farm management, soil health and other biophysical characteristics, as well as socioeconomic and other characteristics of farm households.

Decomposing yield gaps

Yield gaps for rainfed crops are defined as the difference between the water-limited yield potential and the actual yield observed in farmers’ fields. One framework to explain yield gaps decomposes the yield gap into efficiency, resource and technology components (Figure 1).

The study disaggregated maize yield gaps in Ethiopia based on field level and farming systems information (Figure 2), which helps to consider the variation in biophysical and socio-economic conditions observed in the country.

Major drivers of yield (and yield gap) outcomes in Ethiopia

The study showed that income from non-farm sources, value of productive assets, education and shorter plot distance from home reduced the efficiency yield gap. The resource yield gap was attributed to sub-optimal input use, specifically of pesticide and nitrogen. The technology yield gap comprised the largest share of the total yield gap, mostly due to limited use of fertilizer and improved varieties and not using the right type and placement of fertilizers and of improved seeds

The investigation further showed that crop residue and weeding frequency affected maize yield only when nitrogen was applied. In a related study, the authors also showed that maize yield reponse to fertilizer application was dependent on other inputs, specifically type of maize variety, manure application and high rainfall implying the need to integrate agricultural technologies in order to improve and sustain the maize productivity. The authors conclude that targeted but integrated policy design and implementation is required to narrow the overall maize yield gap and improve food security.

“Disaggregating and explaining maize yield gaps is essential to identify potential pathways that can narrow the yield gaps,” said Banchayehu Assefa from CIMMYT.  “This can help guide policy and investments to be more effective at raising smallholder productivity.”

How to improve fertilizer profitability

Modern maize varieties and mineral fertilizers use have been increasing over time and are believed to be among the factors behind the maize yield improvements observed in Ethiopia. However, maize yield response to fertilizer depends on other inputs and management factors and higher fertilizer application rates may not always lead to higher profitability. Using the details of management decisions and biophysical and marketing context, the authors estimated a maize yield response function and evaluated fertilizer yield responses and economic profitability of fertilizer investments by smallholder maize producers. They found that maize yield response to fertilizer was variable with an average value of 7.3 kg maize/ kg N, and it varied from -9 to 18 kg maize /kg. The degree of response was positively affected by phosphorus input and type of maize variety, and negatively by manure input and high rainfall. The key pathways identified to increase the profitability of nitrogen fertilizer use by smallholder maize producers are: improving yield responses with better management (e.g. use of improved maize varieties, complementary use of phosphorus where appropriate); addressing risk aversion (e.g. via crop insurance) in order to strengthen economic incentives for fertilizer investments; enabling the delay of crop sales to take advantage of higher output prices (possibly through expanded access to storage facilities and/or post-harvest loans to alleviate liquidity needs); and improving farm gate price ratios through improved access to markets.

Implications and further research

Even though maize yields have improved recently, under existing management practices smallholders’ maize yield still falls far below the water-limited potential yield. This urges revising the maize sector in terms of input provision, extension services and output markets.  Fertilizer use was highly variable and maize response to fertilizer use depended on other management choices. The study suggests that integrated management practices that work for specific conditions need to be identified, instead of sticking to blanket policy and management recommendations.

This work further points at the importance of additional detailed empirical research on the role of agronomic management practices, to decrease yield gaps. Studying the constraining factors that hinder timely input provision to the farmers might also help to improve input use and hence productivity. In addition, maize prices are too low to advance maize commercialization. Investigating potentials and constraints along the maize value chain might help to improve market participation.

Cover photo: Harvesting maize in East Shoa, Oromia, Ethiopia. (Photo: Banchayehu Assefa/CIMMYT)

CIMMYT-supported researcher earns doctorate for work on gender, maize value chains and food security

Written by Sarah McLaughlin on . Posted in News.

Gebre received his doctorate in Agricultural and Resource Economics from Kyushu University, Japan.

On September 25, with financial and academic support from the International Maize and Wheat Improvement Center (CIMMYT), Girma Gezimu Gebre upgraded his honorific from mister to doctor. Born in Dawuro zone, in southern Ethiopia, Gebre received his doctorate in Agricultural and Resource Economics from Kyushu University, Japan.

His dissertation—Gender Dimensions of the Maize Value Chain and Food Security: The Case of Dawuro Zone in Southern Ethiopia—was supported by CIMMYT through the Stress Tolerant Maize for Africa (STMA) project. Dil Rahut, global program manager of the socioeconomics and sustainable intensification programs at CIMMYT, served on his committee.

Asked about Gebre’s achievement, Rahut alluded to his hard work and dedication. “Desire is the starting point of all achievements while hard work and commitment are the end points of all the high achievements,” he said.

Gebre’s research explores how and to what degree gender plays a role in the adoption of improved maize varieties, maize productivity, maize market participation, and marketing channel choices, as well as food security among smallholder households across the maize value chain. Gebre already boasts published articles on the impact of gender on various dimensions of agriculture and agricultural development as well as various other topics— from the development of sustainable banana value chains in Ethiopia to barriers to farmers’ innovativeness.

At Kyushu University Gebre was awarded the 2020 Graduate School of Bioresources and Bioenvironmental Science “Outstanding Student Prize.” He was also awarded the 2020 Department of Agricultural and Resource Economics Prize in recognition of his excellent academic achievements and quality as a role model for other students.

Before pursuing a Ph.D., Gebre received a Master’s degree in Economics (Development Policy Analysis) from Mekelle University, Ethiopia, and a Master’s degree in Agricultural Production Chain Management—Horticulture Chain from Van Hall Larenstein University of Applied Sciences in the Netherlands. He has served as the coordinator of the postgraduate program in Agribusiness and Value Chain Management and as the head of the Department of Agricultural Economics at Aksum University, Ethiopia.

Highlighting innovation in Latin American maize agri-food systems

Written by Sarah McLaughlin on . Posted in Features.

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. “Why 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,” 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 America’s 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 CIMMYT’s 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 CIMMYT’s 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 – Latin America pose for a photo with their awards. (Photo: Carlos Alfonso Cortes Arredondo/CIMMYT.)

Eduardo Cruz Rojo, Mexico, won in the “Farmer” category for his work using biological control agents to protect maize from fall armyworm. Carlos Barragán and José Esteban Sotelo Mariche, both from Mexico, won in the category of “Change Agent” for their work helping farmers increase their maize yields through inter-cropping and for helping farmers better commercialize their native maize, respectively. In the “Researcher” category, Yésica Chazarreta, from Argentina, won for her research on the effect of maize planting dates on grain filling and drying. Omar Garcilazo Rahme of Mexico was recognized for his work helping farmers grow high-value edible maize fungus in traditional maize production systems. Viviana López Ramírez of Colombia won for her work on bacteriosis in maize, and Lucio Reinoso of Argentina for his contribution to the development of a maize seeder that helps farmers adopt conservation agriculture techniques. In a video message, B.M. Prasanna, director of the CIMMYT global maize program and the CGIAR Research Program on Maize (MAIZE), congratulated the young winners and expressed his hopes that they would inspire other young people to get involved in maize based systems. This was the first time the awards were held in Latin America, following Asia in 2018 and Africa in spring of 2019.

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 “Proposed model to generate seed production technology for maize hybrids”. Another award went to Luis Narro for his contributions to maize in Latin America throughout his career.

The conference was followed by a field day held October 10 at the Agrosavia Turipaná Research Center in Cereté, Colombia. The field day began with a speech by Colombia’s Minister of Agriculture and Rural Development, Andrés Valencia, who discussed the importance of agriculture to his country’s economy as well as plans to increase maize production to decrease reliance on imports. This announcement follows the launch of Maize for Colombia, a strategic plan to help improve maize production in the country while increasing sustainability.

Space data applications for wheat and maize research

Written by Marcia MacNeil on . Posted in Features.

In 2017, a call for proposals from Copernicus Climate Change Service Sectoral Information Systems led the International Maize and Wheat Improvement Center (CIMMYT to collaborate with Wageningen University, the European Space Agency (ESA), and other research and meteorological organizations to develop practical applications in agricultural and food security for satellite-sourced weather data.

The project, which recently ended, opened the door to a wide variety of potential uses for this highly detailed data.

ESA collects extremely granular data on weather, churned out at an hourly rate. CIMMYT researchers, including Foresight Specialist Gideon Kruseman, reviewed this data stream, which generates 22 variables of daily and sub-daily weather data at a 30-kilometerlevel of accuracy, and evaluated how it could help generate agriculture-specific weather and climate data sets.

“For most people, the reaction would be, ‘What do we do with this?’ Kruseman said. “For us, this is a gold mine.”

For example, wind speed — an important variable collected by ESA satellites — is key for analyzing plant evaporation rates, and thus their drought tolerance. In addition, to date, information is available on ideal ago-climatic zones for various crop varieties, but there is no data on the actual weather conditions during a particular growing season for most sites.

By incorporating the information from the data sets into field trial data, CIMMYT researchers can specifically analyze maize and wheat cropping systems on a larger scale and create crop models with higher precision, meaning that much more accurate information can be generated from the trials of different crop varieties.

The currently available historic daily and sub-daily data, dating back to 1979, will allow CIMMYT and its partners to conduct “genotype by environment (GxE)” interaction analysis in much higher detail. For example, it will allow researchers to detect side effects related to droughts and heat waves and the tolerance of maize and wheat lines to those stresses. This will help breeders create specific crop varieties for farmers in environments where the impact of climate change is predicted to be more apparent in the near future.

“The data from this project has great potential fix this gap in information so that farmers can eventually receive more targeted assistance,” said Kruseman.

These ideas are just the beginning of the agricultural research and food security potential of the ESA data. For example, Kruseman would like to link the data to household surveys to review the relationship between the weather farmers experience and the farming decisions they make.

By the end of 2019, the data will live on an open access, user-friendly database. Eventually, space agency-sourced weather data from as far back as 1951 to as recent as five days ago will be available to researchers and weather enthusiasts alike.

Already CIMMYT scientists are using this data to understand the potential of a promising wheat line, for seasonal forecasting, to analyze gene-bank accessions and for a statistical analysis of maize trials, with many more high-impact applications expected in the future.