CIMMYT Principal Scienist M.L. Jat is optimistic fires from crop burning will be reduced this year in Haryana and Punjab, India. “There are more happy seeder machines in the two states this year than any time in the past.” Read more here.
Víctor Villalobos, Mexico’s Agriculture and Rural Development secretary, delivered a keynote speech about the inextricable links between agriculture, forced migration and peace at the Borlaug Dialogue hosted in Des Moines, Iowa, by the World Food Prize Foundation.
Villalobos argued for adopting an integrated development approach to improve food production systems in the developing world, particularly in the Northern Triangle of Central America, with an aim to offer development opportunities to subsistence farmers and help halt forced migration.
“Any lasting answer to environmental degradation, violence, famine and forced migration demands our best collective effort, which is not the fight of one generation but the lasting legacy of Norman Borlaug, and of anybody who has ever engaged in this Borlaug Dialogue,” he said.
According to Villalobos, who is also honorary chair of the Board of Trustees of the International Maize and Wheat Improvement Center (CIMMYT), Mexico is committed to investing in innovation, science and research to make whole grains farming more sustainable and profitable. Among other initiatives, Mexico is scaling out a sustainable research and development project between Mexico and CIMMYT called MasAgro.
“We believe that MasAgro’s innovation hubs, integrated crop production systems and design thinking approach to sustainably increasing the productivity of traditional farming methods can really help to deliver the Sustainable Development Goals that all countries are committed to achieve by 2030,” said Villalobos.
In 2014, the World Food Prize Foundation acknowledged the achievements of the MasAgro project by granting Bram Govaerts — currently CIMMYT’s Integrated Development Program director and representative for the Americas — the Norman Borlaug Award for Field Research and Application, endowed by the Rockefeller Foundation.
MasAgro’s model has since earned recognition from several international development organizations, funding agencies and governments, including the Food and Agriculture Organization of the United Nations, the World Economic Forum, the G20, and the Bill & Melinda Gates Foundation.
The theme of the 2019 Borlaug Dialogue was “Peace through Agriculture,” and the winner of the 2019 World Food Prize was Simon Groot, founder of the East-West Seed Company, which commercializes improved vegetable seeds in more than 60 countries of Asia, Africa and Latin America at affordable prices for the benefit of subsistence and small farmers.
The World Food Prize has a long association with CIMMYT. Sanjaya Rajaram was awarded the 2014 World Food Prize for his work that led to a prodigious increase in world wheat production. Evangelina Villegas and Surinder Vasal were awarded the 2000 World Food Prize for their work on productivity and nutritional content of maize. As an institution, CIMMYT received the Norman Borlaug Field Medallion in 2014.
Step into supermarkets or restaurants in Mexico City and surrounding towns and you might see products made from blue maize — food which would not have been available just a few years ago. Some of Mexico’s favorite dishes are taking on a new hue with blue corn chips, blue tortillas or blue tamales. But should breeders, millers, processors and farmer organizations invest in expanding the production of blue maize and blue maize products? Are consumers really interested, and are they willing to pay more?
These are some of the questions researchers at the International Maize and Wheat Improvement Center (CIMMYT) in Mexico set out to answer. They set up study to test consumer preferences and willingness to pay for this blue maize tortillas.
Maize is a main staple crop in Mexico and tortillas form the base of many traditional dishes. Blue maize varieties have existed for thousands of years, but until recently they were mostly unknown outside of the farming communities that grew them. In addition to its striking color, the grain has gained popularity partly due to its health benefits derived from anthocyanin, the blue pigment which contains antioxidants.
“Demand for blue maize has skyrocketed in the past few years,” said Trent Blare, economist at CIMMYT and the leader of the research.” Three years ago, white and blue maize sold at the same price. One year ago, blue maize cost just a few Mexican pesos more, and now blue maize is worth significantly more. However, we still lack information on consumer demand and preferences.”
According to Blare, the end goal of the study is to explore the demand for blue maize and try to better understand its market potential. “If we want farmers who grow blue maize to be able to get better market value, we have to know what the market looks like.”
This research received funding from Mexico’s Agency for Commercialization Services and Agricultural Market Development (ASERCA), which has been working with farmer organizations on post-harvest storage solutions for their maize. As blue maize is softer than typical white or yellow varieties, it requires special storage to protect it against insects and damage. In order to help provide farmers with the correct maize storage technology, ASERCA and others in Mexico will benefit from a deeper understanding of the market for blue maize in the region. In addition, researchers were interested to know if there is a premium for growing blue maize, or for making tortillas by hand. Premiums could help convince farmers to invest in post-harvest technologies and in the production of blue maize.
“There is this idea that demand should come from producers, but there are many steps along the maize value chain. We’re basically going backwards in the value chain: is there demand, is there a market, going all the way from the consumer back to the farmer,” Blare explained.
A matter of taste
The study was conducted in Texcoco, just outside of Mexico City, where CIMMYT’s global headquarters are based. This town in the State of Mexico was chosen because of its long history growing and consuming blue maize. Interviews were held in three different locations, a local traditional market and two local shopping malls, in order to ensure that different socioeconomic groups were included.
The team interviewed 640 consumers, asking questions such as where do they buy different types of tortillas, in which dishes they use different types of tortillas and if they faced difficulties in purchasing their preferred tortilla. The team also conducted sensory analysis and attributes, and gave study participants a choice between handmade blue maize tortillas, handmade white maize tortillas, and machine-made white maize tortillas.
The interviewees were given three different scenarios. Would they be willing to pay more for blue tortillas compared to other tortillas if eating quesadillas at a restaurant? To serve during a special event or visit from a family member? For everyday use?
The answers allowed researchers to quantify how much more consumers were willing to pay and in what circumstance, as they were given different price points for different types of tortillas in different scenarios.
True colors
The researchers found that preferences for blue and white maize were distinct for different dishes, and that there was a particular preference for blue maize when used in traditional dishes from this region, such as tlacoyos or barbacoa. A majority of consumers was willing to pay more for higher quality tortillas regardless of the color, as long as they were made handmade and fresh from locally grown maize. Interviewers also saw a noticeable difference in preference for blue tortillas depending on the situation: blue tortillas are demanded more for special occasions and in traditional markets.
“I found it fascinating that there is a difference in blue maize consumption based on the circumstance in which you are eating it.” Blare said. “This is one of the innovations in our demand study — not analyzing the demand for a food product in general but analyzing differences in demand for a product in different contexts, which is important as food is such an important component for celebrations.”
“We think there is potential to replicate this in other places in Mexico, to see consumer preference and price willingness for blue maize and other value-added maize products,” said Jason Donovan, senior economist at CIMMYT. “This will not just inform farmers and markets but also how to do this kind of research, especially in middle-income economies. This study is the first of its kind.”
Still got the blue
Overall, the results revealed that women were willing to pay 33% more for blue maize tortillas while men were willing to pay 19% more. For every additional year of education, a consumer was willing to pay 1% more for blue maize tortillas. Interestingly, a person’s income had no effect on her or his willingness to pay for more blue maize tortillas. Many people interviewed expressed a preference for blue maize, but commented that they cannot always find it in local markets.
The information collected in these choice experiments will help farmers, breeders, and other actors along the maize value chain make more informed decisions on how to best provide blue maize varieties to the public — and give consumers what they want.
“It was a very interesting experience, I’ve never participated in a survey like this before and I think it is important to take the time to think about our decisions about food,” said Brenda Lopez, one of the interviewees in the choice experiment. Lopez preferred the handmade tortillas, especially those made with blue maize. “I think they have more flavor,” she said. “I just bought handmade tortillas in the market before participating in this survey, but I had to buy white because there was no blue available.”
Another interviewee, Luis Alcantara, agreed. “I prefer blue because of the flavor, the texture, even the smell,” he said. “At home we eat machine-made tortillas because it is hard to find handmade tortillas, and even if you do, they are not blue. We would buy blue if we could.”
Cover photo: Blue maize tortillas (Photo: Luis Figueroa)
CIMMYT’s Balwinder Singh, who is with the International Maize and Wheat Improvement Center in New Delhi and who recently co-authored a study on crop burning in Punjab and Haryana, told The Wire that the air pollution problem could be much more severe towards the end of October.
“Harvesting is getting late this year and burning will move into the cooler days of November, which will be more harmful as particulate matter will not disperse in cooler days. Another risk in delayed harvesting is that many farmers will harvest and burn the residue within a short time span towards the time between the end of October and early November, which will increase the intensity of fire events and also particulate matter,” he said. Read more here.
A study by the International Maize and Wheat Improvement Center (CIMMYT), carried out in collaboration with Stanford and Cornell Universities, has shown that there is a sustainable way to increase food production already in the fields: microsatellites. Read more here (in Italian).
Norman Borlaug was awarded the Nobel Peace Prize in 1970 in recognition of his contributions to world peace through increasing food production. In the latest episode of the BBC radio show Witness History, Rebecca Kesby interviews Ronnie Coffman, student and friend of Norman Borlaug.
Among other stories, Coffman recalls the moment when Borlaug was notified about the Nobel Prize — while working in the wheat fields in Mexico — and explores what motivated Borlaug to bring the Green Revolution to India.
Simon N. Groot is the winner of the 2019 World Food Prize. With this award, food and agriculture leaders recognize his work to increase vegetable production in more than 60 countries, through the development of high-quality seeds and training programs for farmers.
Groot’s efforts were crucial in leading millions of farmers to become horticulture entrepreneurs, resulting in improved incomes and livelihoods for them, and greater availability of nutritious vegetables for hundreds of millions of consumers.
Like small-town Iowa farm boy Norman Borlaug, Groot comes from a small town in the Netherlands, where he learned the value of seeds at a young age. Both shared the same vision to feed the world and succeeded.
“I think I was born to be a vegetable seedsman.”
– Simon N. Groot
Groot devoted his whole life to the seed and plant breeding industry. After 20 years in the industry in Europe and North America, Groot travelled to southeast Asia at the age of 47 with a vision to set up the region’s first vegetable seed breeding company. Frustrated by the poor quality seeds he found and noticing a total lack of commercial breeding activities in the region, Groot decided to set up his own company, using his own capital, partnering with Benito Domingo, a Philippines local with a passion for seeds and local connections to the traditional seed trade, agriculture industry and universities.
The company, named East-West Seed Company, started out as a small five-hectare farm outside Lipa City, Philippines. Groot brought over well-trained plant breeders from the Netherlands to begin plant breeding and help train locals as breeders and technicians. Groot was the first to introduce commercial vegetable hybrids in tropical Asia: varieties which were high-yielding, fast-growing and resistant to local diseases and stresses. Today, East-West Seed Company has over 973 improved varieties of 60 vegetable crops which are used by more than 20 million farmers across Asia, Africa and Latin America.
Inspired by Borlaug
Groot described meeting Dr. Borlaug at a conference in Indonesia in the late 1980s as “a pivotal moment” for him, writing that “his legacy has continued to serve as an inspiration for everything I have done at East-West Seed.”
In response to being awarded the 2019 World Food Prize, Groot wrote: “Bringing about the ‘Vegetable Revolution’ will be a fitting tribute to the work of Dr. Borlaug.”
The World Food Prize has been referred to as the “Nobel Prize for food and agriculture.” Awarded by the World Food Prize Foundation, it recognizes individuals who have advanced human development by improving the quality, quantity or availability of food in the world. Winners receive $250,000 in prize money.
The World Food Prize was founded in 1986 by Norman Borlaug, recipient of the 1970 Nobel Peace Prize.
The World Food Prize has a long association with CIMMYT. Sanjaya Rajaram was awarded the 2014 World Food Prize for his work that led to a prodigious increase in world wheat production. Evangelina Villegas and Surinder Vasal were awarded the 2000 World Food Prize for their work on productivity and nutritional content of maize. Bram Govaerts received the Norman Borlaug Field Award in 2014. As an institution, CIMMYT received the Norman Borlaug Field Medallion in 2014.
“We are talking about testing whether it is possible to use information available in the genome to predict how productive a variety of wheat will be, if it will be drought- or heat-resistant and what quality its grain will have,” explains Carlos Guzmán from the University of Cordoba who participated in the study via his work as head of the Chemistry and Wheat Quality Laboratory at CIMMYT in Mexico.
Read more here.
Pioneering research on our three most important cereal grains — maize, rice, and wheat — has contributed enormously to global food security over the last half century, chiefly by boosting the yields of these crops and by making them more resilient in the face of drought, flood, pests and diseases. But with more than 800 million people still living in chronic hunger and many more suffering from inadequate diets, much remains to be done. The challenges are complicated by climate change, rampant degradation of the ecosystems that sustain food production, rapid population growth and unequal access to resources that are vital for improved livelihoods.
In recent years, a consensus has emerged among agricultural researchers and development experts around the need to transform global food systems, so they can provide healthy diets while drastically reducing negative environmental impacts. Certainly, this is a central aim of CGIAR — the world’s largest global agricultural research network — which views enhanced nutrition and sustainability as essential for achieving the Sustainable Development Goals. CGIAR scientists and their many partners contribute by developing technological and social innovations for the world’s key crop production systems, with a sharp focus on reducing hunger and poverty in low- and middle-income countries of Africa, Asia and Latin America.
The importance of transforming food systems is also the message of the influential EAT-Lancet Commission report, launched in early 2019. Based on the views of 37 leading experts from diverse research disciplines, the report defines specific actions to achieve a “planetary health diet,” which enhances human nutrition and keeps the resource use of food systems within planetary boundaries. While including all food groups — grains, roots and tubers, pulses, vegetables, fruits, tree nuts, meat, fish, and dairy products — this diet reflects important shifts in their consumption. The major cereals, for example, would supply about one-third of the required calories but with increased emphasis on whole grains to curb the negative health effects of cheap and abundant supplies of refined cereals.
This proportion of calories corresponds roughly to the proportion of its funding that CGIAR currently invests in the major cereals. These crops are already vital in diets, cultures, and economies across the developing world, and the way they are produced, processed and consumed must be a central focus of global efforts to transform food systems. There are four main reasons for this imperative.
1. Scale and economic importance
The sheer extent of major cereal production and its enormous value, especially for the poor, account in large part for the critical importance of these crops in global food systems. According to 2017 figures, maize is grown on 197 million hectares and rice on more than 167 million hectares, mainly in Asia and Africa. Wheat covers 218 million hectares, an area larger than France, Germany, Italy, Spain and the UK combined. The total annual harvest of these crops amounts to about 2.5 billion tons of grain.
Worldwide production had an estimated annual value averaging more than $500 billion in 2014-2016. The prices of the major cereals are especially important for poor consumers. In recent years, the rising cost of bread in North Africa and tortillas in Mexico, as well as the rice price crisis in Southeast Asia, imposed great hardship on urban populations in particular, triggering major demonstrations and social unrest. To avoid such troubles by reducing dependence on cereal imports, many countries in Africa, Asia and Latin America have made staple crop self-sufficiency a central element of national agriculture policy.
2. Critical role in human diets
Cereals have a significant role to play in food system transformation because of their vital importance in human diets. In developing countries, maize, rice, and wheat together provide 48% of the total calories and 42% of the total protein. In every developing region except Latin America, cereals provide people with more protein than meat, fish, milk and eggs combined, making them an important protein source for over half the world’s population.
Yellow maize, a key source of livestock feed, also contributes indirectly to more protein-rich diets, as does animal fodder derived from cereal crop residues. As consumption of meat, fish and dairy products continues to expand in the developing world, demand for cereals for food and feed must rise, increasing the pressure to optimize cereal production.
In addition to supplying starch and protein, the cereals serve as a rich source of dietary fiber and nutrients. CGIAR research has documented the important contribution of wheat to healthy diets, linking the crop to reduced risk of type 2 diabetes, cardiovascular disease, and colorectal cancer. The nutritional value of brown rice compared to white rice is also well known. Moreover, the recent discovery of certain genetic traits in milled rice has created the opportunity to breed varieties that show a low glycemic index without compromising grain quality.
3. Encouraging progress toward better nutritional quality
The major cereals have undergone further improvement in nutritional quality during recent years through a crop breeding approach called “biofortification,” which boosts the content of essential vitamins or micronutrients. Dietary deficiencies of this kind harm children’s physical and cognitive development, and leave them more vulnerable to disease. Sometimes called “hidden hunger,” this condition is believed to cause about one-third of the 3.1 million annual child deaths attributed to malnutrition. Diverse diets are the preferred remedy, but the world’s poorest consumers often cannot afford more nutritious foods. The problem is especially acute for women and adolescent girls, who have unequal access to food, healthcare and resources.
It will take many years of focused effort before diverse diets become a reality in the lives of the people who need them most. Diversified farming systems such as rice-fish rotations that improve nutritional value, livelihoods and resilience are a step in that direction. In the meantime, “biofortified” cereal and other crop varieties developed by CGIAR help address hidden hunger by providing higher levels of zinc, iron and provitamin A carotenoids as well as better protein quality. Farmers in many developing countries are already growing these varieties.
A 2018 study in India found that young children who ate zinc-biofortified wheat in flatbread or porridge became ill less frequently. Other studies have shown that consumption of provitamin A maize improves the body’s total stores of this vitamin as effectively as vitamin supplementation. Biofortified crop varieties are not a substitute for food fortification (adding micronutrients and vitamins during industrial food processing). But these varieties can offer an immediate solution to hidden hunger for the many subsistence farmers and other rural consumers who depend on locally produced foods and lack access to fortified products.
4. Wide scope for more sustainable production
Cereal crops show much potential not only for enhancing human heath but that of the environment as well. Compared to other crops, the production of cereals has relatively low environmental impact, as noted in the EAT-Lancet report. Still, it is both necessary and feasible to further enhance the sustainability of cereal cropping systems. Many new practices have a proven ability to conserve water as well as soil and land, and to use purchased inputs (pesticides and fertilizers) far more efficiently. With innovations already available, the amount of water used in current rice cultivation techniques, for example, can be significantly reduced from its present high level.
Irrigation scheduling, laser land leveling, drip irrigation, conservation tillage, precision nitrogen fertilization, and cereal varieties tolerant to drought, flooding and heat are among the most promising options. In northwest India, scientists recently determined that optimal practices can reduce water use by 40%, while maintaining yields in rice-wheat rotations. There and in many other places, the adoption of new practices to improve cereal production in the wet season not only leads to more efficient resource use but also creates opportunities to diversify crop production in the dry season. Improvements to increase cereal crop yields also reduces their environmental footprint; using less land, enhancing carbon sequestration and biodiversity and, for rice, reducing methane emissions per kilo of rice produced. Given the enormous extent of cereals cultivation, any improvement in resource use efficiency will have major impact, while also freeing up vast amounts of land for other crops or natural vegetation.
A major challenge now is to improve access to the knowledge and inputs that will enable millions of farmers to adopt new techniques, making it possible both to diversify production and grow more with less. Another key requirement consists of clear signals from policymakers, especially where land and water are limited, about the priority use of these resources — for example, irrigating low-value cereals to bolster food security versus applying the water to higher value crops and importing staple cereals.
Toward a sustainable dietary revolution
Future-proofing the global food system requires bold steps. Policy and research need to support a double transformation, centered on nutrition and sustainability.
CGIAR works toward nutritional transformation of our food system through numerous global partnerships. We give high priority to improving cereal crop systems and food products, because of their crucial importance for a growing world population. Recognizing that this alone will not suffice for healthy diets, we also strongly promote greater dietary diversity through our research on various staple crops and production systems and by raising public awareness of more balanced and nutritious diets.
To help achieve a sustainability transformation, CGIAR researchers and partners have developed a wide array of techniques that use resources more efficiently, enhance the resilience of food production in the face of climate change and reduce greenhouse gas emissions, while achieving sustainable increases in crop yields. At the same time, we are generating new evidence on which techniques work best under what conditions to target the implementation of these solutions more effectively.
The ultimate impact of our work depends crucially on the growing resolve of developing countries to promote better diets and more sustainable food production through strong policies and programs. CGIAR is well prepared to help strengthen these measures through research for development, and we are confident that our work on cereals, with continued donor support, will have high relevance, generating a wealth of innovations that help drive the transformation of global food systems.
Martin Kropff is the Director General of the International Maize and Wheat Improvement Center (CIMMYT).
Matthew Morell is the Director General of the International Rice Research Institute (IRRI).
As the calendar turns to October 16, it is time to celebrate World Food Day. At the International Maize and Wheat Improvement Center (CIMMYT), we are bringing you a few facts you should know about maize and wheat, two of the world’s most important crops.
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Wheat is eaten by 2.5 billion people in 89 countries. About 1 billion of them live on less than $1.90 a day and depend on wheat as their main food.
Maize is the preferred staple food for 900 million poor consumers and the most important food crop in sub-Saharan Africa.
According to 2017 figures, maize is grown on 197 million hectares. Wheat covers 218 million hectares, an area larger than France, Germany, Italy, Spain and the UK combined. The total annual harvest of these two crops amounts to about 1.9 billion tons of grain.
About 300,000 of the plant species on Earth could be eaten, but humans eat a mere 200 species globally.
Approximately 75% of the world’s food is generated from only 12 plants and 5 animal species. In fact, more than half of our plant-sourced protein and calories come from just three species: maize, rice and wheat.
The organization’s germplasm bank, also known as a seed bank, is at the center of its crop-breeding research. This remarkable, living catalog of genetic diversity is comprised of over 28,000 unique seed collections of maize and 150,000 of wheat.
From its breeding programs, CIMMYT sends half a million seed packages to 800 partners in 100 countries each year. With researchers and farmers, the center also develops and promotes more productive and precise maize and wheat farming methods and tools that save money and resources such as soil, water, and fertilizer.
In 2010, agriculture accounted for about one-quarter of global greenhouse gas emissions.
High-yield and climate-resilient maize and wheat varieties, together with a more efficient use of resources, are a key component of the sustainable intensification of food production needed to transform the global food system.
By the year 2050, there will be some 9.7 billion people living on Earth. To meet the growing demand from an increasing population and changing diets, maize yields must go up at least 18% and wheat yields 15% by 2030, despite hotter climates and more erratic precipitation.
Decades of research and application by scientists, extension workers, machinery specialists, and farmers have perfected practices that conserve soil and water resources, improve yields under hotter and dryer conditions, and reduce the greenhouse gas emissions and pollution associated with maize and wheat farming in Africa, Asia, and Latin America.
An exhaustive review of research on cereal grains and health has shown that eating whole grains, such as whole-wheat bread and other exceptional sources of dietary fiber, is beneficial for human health and associated with a reduced risk of cancer and other non-communicable diseases.
According to this study, consumption of whole grains is associated with a lower risk of coronary disease, diabetes, hypertension, obesity and overall mortality. Eating whole and refined grains is beneficial for brain health and associated with reduced risk for diverse types of cancer. Evidence also shows that, for the general population, gluten- or wheat-free diets are not inherently healthier and may actually put individuals at risk of dietary deficiencies.
“Hidden hunger” is a lack of vitamins and minerals. More than 2 billion people worldwide are too poor to afford diverse diets and cannot obtain enough critical nutrients from their staple foods.
To help address this, CIMMYT — along with HarvestPlus and partners in 18 countries — is promoting more than 60 maize and wheat varieties whose grain contains more of the essential micronutrients zinc and provitamin A. These biofortified varieties are essential in the fight against “hidden hunger.”
Drought-tolerant maize developed by CIMMYT and partners using conventional breeding provides at least 25% more grain than conventional varieties in dry conditions in sub-Saharan Africa — this represents as much as 1 ton per hectare more grain on average.
These varieties are now grown on nearly 2.5 million hectares, benefiting an estimated 6 million households or 53 million people.
One study shows that drought-tolerant maize varieties can provide farming families in Zimbabwe an extra 9 months of food at no additional cost.
Developed by CIMMYT during the 1970s and 1980s and honored by the 2000 World Food Prize, quality protein maize features enhanced levels of lysine and tryptophan, essential amino acids that can help reduce malnutrition in children whose diets rely heavily on maize.
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Join us on this visual journey across Ethiopia, Kenya, Malawi and Zimbabwe, where you will meet farmers who demonstrate every day what it means to be RURAL: Resilient, United, Reaping benefits, Adopter and Learner.
These women have adopted climate-smart practices in their production systems to ensure optimal yields while learning about drought-tolerant varieties of maize to counter the harsh effects of dry spells, heat stress, pests and diseases. These rural women are exemplary leaders in their communities, as evidenced by their successful farming practices and the food and income they secure for their families.
Farming families in southern Africa are confronted with the adverse effects of climate change, particularly in Malawi, Mozambique and Zimbabwe. A report by FEWS NET indicates negative impacts like declining yields, increase in grain prices during peak lean seasons and widespread food insecurity. However, Lughano Mwangonde from Malula, southern Malawi, has been practicing climate-smart agriculture since 2004 through a CIMMYT project, which has improved the food security of her family. In the midst of increasing climate variability, Lughano is cushioned against the harsh effects of droughts and heavy downpours through the practices she adopted. For example, she uses crop rotation of maize and legumes, like cowpea and pigeon pea.
Climate change affects men and women differently. Rural women farmers tend to be more susceptible to drought and the additional labor associated with household tasks. As such, building resilience against climate change is critical. For Sequare Regassa, in Ethiopia’s Oromia region, this means shifting to drought-tolerant maize varieties such as BH661, which have better performance and increased yield, even under heat and other stress conditions.
Sequare Regassa is the family’s breadwinner, looking after her four children and working closely with her extended family on their 8-hectare farm in Ethiopia’s Oromia region. “Getting a good maize harvest every year, even when it does not rain much, is important for my family’s welfare,” she says. Although her children are now grown and living with their own families, the family farm unites them all in producing adequate grain to feed themselves. Read more about how Regassa and other farmers are weatherproofing their livelihoods.
Rural women farmers are taking up improved drought-tolerant and high yielding varieties with early maturity thanks to participatory maize varietal selection. “If I am able to harvest in three and a half months or less, compared to four months or more for other varieties, I can sell some grain to neighbors still awaiting their harvest who want to feed their families,” says Tabitha Kamau. She is a smallholder farmer in Machakos County, Kenya, who plants drought-tolerant maize on her plot. Read about how farmers in her area are choosing the varieties that work best for them.
Rose Aufi explains how her family of seven children and three grandchildren are food-secure thanks to the climate-smart agriculture techniques she practices on her farm in Matandika, southern Malawi. She and her husband have obtained a good harvest since they started participating in a CIMMYT project and adopted climate-smart agricultural practices. Aufi says technologies such as mulching and crop rotation are there to simplify the workload in the field.
Dolly Muatha, a 49-year-old farmer with four children in Kenya’s Makueni County, has been growing SAWA drought-tolerant maize for three years. She has witnessed the performance of this variety in her demo plot. “It matures early and yields two to three beautiful cobs per plant” she says.
Ruth Kanini Somba adopted SAWA maize in 2017 after seeing a demonstration plot at Dolly Muatha’s farm. She points out that SAWA performs better than other varieties because of its early maturity and resistance to grey leaf spot and weevils. The drought-tolerant attribute of the SAWA maize also makes the maize crop cope well when rainfall is erratic.
Improved agricultural techniques, such as optimum spacing, enables farmers such as Agnes Nthambi to get better crops. This farmer from Kenya’s Machakos County hosted a demonstration plot she and other farmers in her area were able to learn new growing techniques. “On this trial, I learned that spacing was about two times shorter than we are generally used to. Even with the more constricted spacing, the maize has performed much better than what we are used to seeing,” Nthambi explained.
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.
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.
Mary Twaya is an exemplary farmer in Lemu, a rural drought-prone community in southern Malawi, near Lake Malombe. On her one-hectare farm she grows cotton, maize, and legumes like groundnut and cowpea, which she just picked from her fields. Since agriculture is Twaya’s sole livelihood, it is important for her to get good harvests, so she can support her three children and her elderly mother. She is the only breadwinner since her husband left to sell coffee in the city and never returned.
Agriculture is critically important to the economy and social fabric of Malawi, one of the poorest countries in the World. Up to 84% of Malawian households own or cultivate land. Yet, gender disparities mean that farmland managed by women are on average 25% less productive than men. Constraints include limited access to inputs and opportunities for capacity building in farming.
Climate change may worsen this gender gap. Research from the International Maize and Wheat Improvement Center (CIMMYT) shows that there are multidimensional benefits for women farmers to switch to climate-smart agriculture practices, such as planting drought-tolerant maize varieties and conservation agriculture with no tillage, soil cover and crop diversification.
Twaya was part of a CIMMYT project that brought climate-smart agriculture practices to smallholder farmers in Malawi, Zambia and Zimbabwe.
She was enthusiastic about adopting climate-smart agriculture practices and conservation agriculture strategies in her plot. “I have always considered myself an active farmer, and when my husband left, I continued in the project around 2007 as part of the six lead ‘mother farmers’ with about 30 more ‘baby farmers’ learning through our field trials,” Twaya explained.
“We worked in Lemu since 2007 with Patrick Stanford, a very active and dedicated extension officer who introduced conservation agriculture to the village,” said CIMMYT agronomist Christian Thierfelder. “Farmers highlighted declining yields. The Lemu community was keen to transform their farming system, from conventional ridge tillage to more sustainable and climate-adapted cropping systems.” This was an ideal breeding ground for new ideas and the development of climate-smart solutions, according to Thierfelder.
Mulching, spacing and legume diversification
Showing her demonstration plot, which covers a third of her farm, Twaya highlights some of the climate-smart practices she adopted.
“Mulching was an entirely new concept to me. I noticed that it helps with moisture retention allowing my crops to survive for longer during the periods of dry spells. Compared to the crops without mulching, one could easily tell the difference in the health of the crop.”
“Thanks to mulching and no tillage, a beneficial soil structure is developed over time that enables more sustained water infiltration into the soil’’, explained Thierfelder. “Another advantage of mulching is that it controls the presence of weeds because the mulch smothers weeds unlike in conventional systems where the soil is bare.”
Research shows that conservation agriculture practices like mulching, combined with direct seeding and improved weed control practices, can reduce an average of 25-45 labor days per hectare for women and children in manual farming systems in eastern Zambia and Malawi. This time could be used more productively at the market, at home or in other income-generating activities.
After 12 years of practicing conservation agriculture, Twaya confirms that she does not spend too much time in the field because she just uproots the weeds with no need for using a hoe. This makes the weeding task less laborious and allows her to spend her time on other chores such as fetching water, washing laundry or cleaning her homestead. “I have time to also go to the village banking and loan savings club to meet with others”.
Adopting optimum plant density, instead of throwing in three seeds in each planting hole was another transformational change. The “Sasakawa spacing” — where maize seeds are planted 25 centimeters apart in rows spaced every 75 centimeters — saves seed and boosts yields, as each plant receives adequate fertilizer, light and water without competing with the other seeds. This practice was introduced in Malawi in the year 2000 by Sasakawa Global.
Twaya pays more attention to the benefits of planting nitrogen-fixing crops alongside her maize, as she learned that “through crop rotation, legumes like pigeon pea improve the nutrition of my soil.” In the past she threw pigeon pea seeds loosely over her maize field and let it grow without any order, but now she practices a “double-up legume system,” where groundnut and pigeon pea are cropped at the same time. Pigeon peas develop slowly, so they can grow for three months without competition after groundnut is harvested. This system was introduced by the Africa RISING project, funded by USAID.
A mother farmer shows the way
Switching to climate-smart agriculture requires a long-term commitment and knowledge. Some farmers may resist to the changes because they initially find it new and tedious but, like Twaya observed, “it may be because they have not given themselves enough time to see the long-term benefits of some of these practices.”
With all these innovations — introduced in her farm over the years with the support of CIMMYT and the Ministry of Agriculture, Irrigation and Water Development of Malawi — Twaya reaped important economic and social benefits.
When Twaya rotates maize and pigeon pea, the maize stalks are healthy and the cobs are big, giving her higher yields. Passing-by neighbors will often exclaim ‘‘Is this your maize?’’ because they can tell it looks much more vigorous and healthier than what they see in other fields.
For the last season, Twaya harvested 15 bags of 50kg of maize from her demo plot, the equivalent of five tons per hectare. In addition to her pigeon pea and groundnut crops, she was able to feed her family well and earned enough to renovate her family home this year.
This new way of managing her fields has gained Twaya more respect and has improved her status in the community.
“The fields being currently burned mostly belong to farmers who harvested short-duration rice varieties. The slight rise in crop fire instances could be misleading as a much higher area than last year has been harvested so far, according to reports we are getting,” said M.L.Jat, principle scientist at CIMMYT, who is tracking farm fires. Read more here.
The Punjab government is working on war footing to curb farm fires ahead of the celebrations of 550 birth anniversary of Guru Nanak, but rising incidents of stubble burning in Pakistan, particularly near border areas of Punjab, have raised concern among scientists at Punjab remote sensing center (PRSC) and Punjab agricultural university (PAU).
Experts from Cornell and International Maize and Wheat Improvement Center (CIMMYT) in a recent study ‘Tradeoffs Between Groundwater Conservation and Air Pollution From Agricultural Fires in Northwest India’ stated that pollution, particularly caused by stubble burning, leads to an estimated 16,000 premature deaths caused every year in New Delhi capital region, with an aggregate reduction in life expectancy of 6 years.
Read more here.