Theme: Nutrition, health and food security

As staple foods, maize and wheat provide vital nutrients and health benefits, making up close to two-thirds of the world’s food energy intake, and contributing 55 to 70 percent of the total calories in the diets of people living in developing countries, according to the U.N. Food and Agriculture Organization. CIMMYT scientists tackle food insecurity through improved nutrient-rich, high-yielding varieties and sustainable agronomic practices, ensuring that those who most depend on agriculture have enough to make a living and feed their families. The U.N. projects that the global population will increase to more than 9 billion people by 2050, which means that the successes and failures of wheat and maize farmers will continue to have a crucial impact on food security. Findings by the Intergovernmental Panel on Climate Change, which show heat waves could occur more often and mean global surface temperatures could rise by up to 5 degrees Celsius throughout the century, indicate that increasing yield alone will be insufficient to meet future demand for food.

Achieving widespread food and nutritional security for the world’s poorest people is more complex than simply boosting production. Biofortification of maize and wheat helps increase the vitamins and minerals in these key crops. CIMMYT helps families grow and eat provitamin A enriched maize, zinc-enhanced maize and wheat varieties, and quality protein maize. CIMMYT also works on improving food health and safety, by reducing mycotoxin levels in the global food chain. Mycotoxins are produced by fungi that colonize in food crops, and cause health problems or even death in humans or animals. Worldwide, CIMMYT helps train food processors to reduce fungal contamination in maize, and promotes affordable technologies and training to detect mycotoxins and reduce exposure.

Canadian foodgrains bank highlights CIMMYT’s Christian Thierfelder’s work in conservation agriculture

Written by on April 13, 2015. Posted in News.

Farmers admiring their maize-cowpea intercrop. Photo: Christian Thierfelder/CIMMYT

Christian Thierfelder, CIMMYT senior agronomist stationed at Harare, Zimbabwe, was recently profiled by the Canadian Foodgrains Bank for his work promoting conservation agriculture techniques for smallholder farmers in Africa. Conservation agriculture systems are not only better for soils but help make agriculture more ‘climate-smart’, argues Thierfelder. “The conventional system can only make use of the water that is in the ridge and not further down in the soil,” he said. “In conservation agriculture systems, there is access to deeper layers and a lot of water has infiltrated. The maize can actually access the water much better because of an improved root system.”
In addition, the techniques can provide far-reaching food security benefits to smallholder farmers. As conservation agriculture diminishes the risk of crop failure, it also allows farmers to reduce the land devoted to maize and to diversify the crops they produce. “Then there is room for new crops, cash crops, rotational crops, nutritional crops that help them to improve their diets and reduce malnutrition,” Thierfelder said. “That’s a very good way to overcome all of these problems at once.”To read the full article, click here.

Green manures help Zambian and Malawian farmers feed crops and livestock

Written by on April 13, 2015. Posted in News.

The Food and Agriculture Organization of the United Nations (FAO) has tasked CIMMYT with a new project to introduce green manure cover crops to smallholder farmers in eastern Zambia and central and southern Malawi.

Green manures can improve fertility, protect soils and provide fodder and grain for farm animals and humans. They also help substitute for mineral fertilizers, which are costly for landlocked African nations to produce or import. Most smallholder farmers cannot afford them and apply less than 10 kg per hectare of fertilizer to their crops, according to a 2013 study on profitable and sustainable nutrient management systems for eastern and southern African smallholder farming systems.

“This is less than one-tenth of average fertilizer rates in prosperous countries and a key reason why maize yields in southern Africa are around only one ton per hectare,” said Christian Thierfelder, CIMMYT conservation agriculture specialist based in southern Africa. “As a result, many farm families in the region remain food insecure and caught in a seemingly unbreakable cycle of poverty.”

With full participation of farmers, the project will test green manures in rotation with maize and as intercrops or relay crops in different farming systems, according to Thierfelder.

“Improved, high-yielding maize can show its potential only under good agronomic practices, such as optimal plant spacing, timely planting, good weed and pest control and adequate fertilization,” Thierfelder explained. “Farmers in Europe and the Americas have followed these basic principles for generations, and some of the ideas spread to Asia and Africa during the Green Revolution. But in Africa mineral fertilizers are most often used by rich farmers and for high-value crops.“

“Improved maize that tolerates drought and other stresses, coupled with conservation agriculture practices –minimum soil disturbance, crop residue retention and diversification through rotations and intercropping systems – are farmers’ best bet to escape the poverty trap,” Thierfelder said.

Keeping crop residues on the soil is a critical component of conservation agriculture, but the residues are traditionally fed to livestock, which also underpin smallholder farmers’ livelihoods. So the use of conservation agriculture hinges on the ability of a cropping system to produce enough biomass to feed farm animals while providing an adequate residue cover. This requires a source of fertilization to feed the cropping system.

The FAO-CIMMYT project will address this by allocating green manure cover crops for different uses. “Over the last five years, CIMMYT’s global conservation agriculture program has identified potential cover crop varieties that fit farmers’ needs,” Thierfelder said. “Velvet bean, lablab, cowpea, sunnhemp or jackbean can provide 10-50 tons per hectare of extra biomass for livestock. They can also leave 50-150 kilograms per hectare of nitrogen in the soil and do not need any additional fertilizer to grow. Finally, lablab and cowpea provide grain that humans can eat.”

One approach Thierfelder promotes is for a farmer to dedicate part of her land to grow maize under conservation agriculture practices, and other areas to sow green manures, nutritional and cash crops that increase soil fertility and household income. “In this way, a farmer can diversify and gradually have money to purchase mineral fertilizer, boost productivity and move out of poverty.”

Green manure cover crops are not new in Africa. Why should they work this time?

According to Thierfelder, there are examples of success in northern Mozambique with CIMMYT’s partner organization CARE International, using lablab and improved germplasm in cassava-based CA systems can increase cassava tuber yields from 4 to 13 tons per hectare, without using additional mineral fertilizer. “In Tanzania, lablab and other green manures are an important part of the cropping system,” he said. “In Zimbabwe, successful experiments with maize and green manures under an ACIAR-funded ZimCLIFFS project also provide hope. The FAO-CIMMYT project will guide the way on integrating green manures cover crops into these farming systems.”

Industrial water run-off can sustainably boost crop production

Written by on April 13, 2015. Posted in News.

Photo credit: Julie Mollins — Irrigation reservoir at the Kulumsa research station in Ethiopia. CIMMYT/Julie Mollins

KULUMSA, Ethiopia (CIMMYT) — An irrigation reservoir at the Kulumsa Agricultural Research Center in Ethiopia’s highlands captures water from a nearby beer distillery about 168 km (105 miles) southeast of the capital Addis Ababa.

Before the irrigation project was constructed, the industrial runoff from the brewery poured into the nearby river and affected the health of local residents.

Now it nourishes crops growing in neighboring fields during the dry season or in periods of drought. It can store up to 38,195 m³of water.

“The irrigation project has been a key investment – it’s very instrumental for accelerating seed multiplication of improved high-yielding rust resistant varieties for local wheat projects,” said Bekele Abeyo, a CIMMYT senior scientist and wheat breeder.

“It allows us to advance wheat germplasm and seed multiplication of elite lines twice a year, which we couldn’t do previously.”

This cuts the time by half from the currently required eight to 10 years to four to five years for the development and release of new varieties through conventional breeding.

An additional pond with the capacity to capture 27,069 m³of natural water from the river, generates the capacity to irrigate more than 30 hectares of land during the off season.

The project resulted from the joint investment of the East Africa Agricultural Productivity Program, the Durable Rust Resistance in Wheat Project and CIMMYT.

The construction of the ponds began in April 2012. Sprinkler irrigation was completed in 2014 and management of the project was handed over to the Kulumsa Research Center.

CIMMYT joins global move to adopt climate-smart agriculture

Written by on April 13, 2015. Posted in News.

Climate-smart agriculture can be “an effective tool to address climate change and climate variability,” according to Kai Sonder, head of CIMMYT’s geographic information systems (GIS) unit, who was one of 754 participants from 75 countries, including 39 CIMMYT representatives, at the third annual Global Science Conference on Climate-Smart Agriculture, held in Montpellier, France, during 16-18 March.

“Challenges are different for developing and developed countries, but climate change is affecting all of us,” said Sonder. Millions of smallholder farmers in developing countries have less than one hectare of land, earn less than USD $1 per day and are highly vulnerable to extreme climatic events. Many farmers in developed countries struggle to make a living, are dependent on subsidies and insurance payouts and are also highly vulnerable to extreme climatic events.

Modern agriculture, food production and distribution are major contributors of greenhouse gases, generating about one-quarter of global emissions. Climate-smart agriculture addresses the interlinked challenges of food security and climate change by sustainably increasing agricultural productivity, building resilience in food-production systems and reducing greenhouse gas emissions in agriculture.

Challenges and areas where climate-smart agriculture has yet to take hold were addressed at the conference. “California has not practiced it for 50 years and is now dealing with the consequences of poor groundwater management,” said Sonder. “Likewise, Ciudad Obregón and Sinaloa in Mexico are fully-irrigated areas in the middle of a desert where climate-smart practices need to be implemented on a larger scale based on CIMMYT’s activities with local partners.”

Progress and exhibitions on climate-smart agriculture projects were also showcased. “This is becoming an integral part of CIMMYT work, as climate conditions increasingly disrupt growing seasons,” Sonder said. “MasAgro is looking at water and nutrient efficiency in Mexico, and CIMMYT is developing maize and wheat varieties that are tolerant to stresses like heat and drought and their combinations,” said Sonder. In collaboration with the CGIAR Research Program on Climate Change, Food Security and Agriculture (CCAFS), CIMMYT has also piloted 27 climate-smart villages in Haryana, India, which will disseminate key climate-smart agricultural interventions.

The conference also allowed potential partners to meet and identify areas for future cooperation. Sonder mentioned interactions with Jacob van Etten, Senior Scientist at Bioversity International, who works on climate change and climate-smart agriculture in Costa Rica and uses iButton sensors to measure climate data in the field. “Such cheap and effective devices can allow us to reach more places, and I’d like to use them to monitor storage and humidity conditions in metal silos for CIMMYT’s Effective Grain Storage Project in eastern and southern Africa, as well as in the postharvest activities of MasAgro in Mexico,” said Sonder

Seed improvement to prevent rust disease key to boosting wheat productivity

Written by on April 13, 2015. Posted in News.

A new project in Ethiopia aims to improve the livelihoods of wheat farmers by encouraging the development and multiplication of high-yielding, rust-resistant bread and durum wheat varieties.

High-quality seed is the key entry point for elevating farmer productivity in Ethiopia. As Norman Borlaug, the late Nobel Peace Prize laureate and wheat breeder who worked for many years with the International Center for Maize and Wheat Improvement (CIMMYT) wrote: “Rust never sleeps.”

Stem, leaf and yellow rusts choke nutrients and devastate wheat crops without recognition of political boundaries, making it essential that global action is taken to control all virulent strains of these devastating diseases to ensure food security.

At a recent workshop hosted by the Ethiopian Institute of Agricultural Research (EIAR) in the capital, Addis Ababa, 150 participants from 24 organizations discussed the project, which builds upon the successes of a previous EIAR and International Center for Agricultural Research in the Dry Areas (ICARDA) program funded by the U.S. Agency for International Development (USAID).

Bekele Abeyo points out that high-quality seed is critical in Ethiopia. Photo: CIMMYT

The purpose of the March workshop titled “Seed Multiplication and Delivery of High-Yielding Rust-Resistant Bread and Durum Wheat Varieties to Ethiopian Farmers” was to launch the three-year seed project, which has a budget of $4.75 million, and strengthen the involvement of stakeholders and key partners.

Aims include enhancing rust disease surveillance, early warning and phenotyping; fast-track variety testing and pre-release seed multiplication; accelerating seed multiplication of durable rust-resistant wheat varieties; demonstrating and scaling up improved wheat varieties; and improving the linkages between small-scale durum wheat producers and agro-industries.

To achieve these goals EIAR, CIMMYT and the University of Minnesota will implement project activities in collaboration with other key Ethiopian stakeholders, including agricultural research centers, public and private seed enterprises, the Ethiopian Agricultural Transformation Agency, the Ethio-Italian Development Cooperation “Agricultural Value Chains Project in Oromia” and the Ethiopia Seed Producers Association.

The project covers 51 districts in four major wheat-growing regions of Ethiopia. Milestones include the following: reaching 164,000 households with direct access to the new technology and having more than 2 million households benefiting from indirect access to high-yielding rust resistant cultivars; wheat yield increases of 25 percent for farmers with access to rust-resistant seed varieties; training for about 5,000 agricultural experts, development agents, seed producers and model farmers; more than 50 percent of the wheat area being sown to cultivars with durable resistance to current rust threats; an increased number of seed growers and associations participating in accelerated seed multiplication; and the increased participation of women farmers to lead accelerated seed multiplication and scaling up.

All partners will be involved in close monitoring and working groups related to the project.

At the workshop, a key topic was emphasizing to farmers that they must avoid susceptible rust suckers as they are pumping more spores on cultivars under production, which is one reason for the recurrent epidemics of wheat rusts and break down of resistant genes.

Delegates also engaged in discussions on the importance of cropping systems and variety diversifications. Fruitful deliberations and interactions occurred and important feedback was captured for project implementation and to ensure successful results.

A previous workshop on the surveillance, early warning and phenotyping component of the project was held at the Cereal Disease Laboratory in Minnesota.

Bekele Abeyo is a CIMMYT senior scientist based in Addis Ababa, Ethiopia. He will lead the seed improvement project.

Global partnership propels wheat productivity in China

Written by Mike Listman on April 13, 2015. Posted in Features.

Benefits of three decades of international collaboration in wheat research have added as much as 10.7 million tons of grain – worth US $3.4 billion – to China’s national wheat output, according to a study by the Center for Chinese Agricultural Policy (CCAP) of the Chinese Academy of Science.

Described in a report published on 30 March by the CGIAR Research Program on Wheat, the research examined China’s partnership with CIMMYT and the free use of CIMMYT improved wheat lines and other genetic resources during 1982-2011. The conclusions are based on a comprehensive dataset that included planted area, pedigree, and agronomic traits by variety for 17 major wheat-growing provinces in China.

“Chinese wheat breeders acquired disease resistant, semi-dwarf wheat varieties from CIMMYT in the late 1960s and incorporated desirable traits from that germplasm into their own varieties,” said Dr. Jikun Huang, Director of CCAP and first author of the new study. “As of the 1990s, it would be difficult to find anything other than improved semi-dwarf varieties in China. Due to this and to investments in irrigation, agricultural research and extension, farmers’ wheat yields nearly doubled during 1980-95, rising from an average 1.9 to 3.5 tons per hectare.”

The new study also documents increasing use of CIMMYT germplasm by wheat breeders in China. “CIMMYT contributions are present in more than 26 percent of all major wheat varieties in China after 2000,” said Huang. “But our research clearly shows that, far from representing a bottleneck in diversity, genetic resources from CIMMYT’s global wheat program have significantly enhanced China varieties’ performance for critical traits like yield potential, grain processing quality, disease resistance and early maturity.”

WILL CHINA WHEAT FARMING RISE TO RESOURCE AND CLIMATE CHALLENGES?

The world’s number-one wheat producer, China harvests more than 120 million tons of wheat grain yearly, mainly for use in products like noodles and steamed bread. China is more or less self-sufficient in wheat production, but wheat farmers face serious challenges. For example, wheat area has decreased by more than one-fifth in the past three decades, due to competing land use.

“This trend is expected to continue,” said Huang, “and climate change and the increasing scarcity of water will further challenge wheat production. Farmers urgently need varieties and cropping systems that offer resilience under drought, more effective use of water and fertilizer, and resistance to evolving crop diseases. Global research partnerships like that with CIMMYT will be vital to achieve this.”

Dr. Qiaosheng Zhuang, Research Professor of Chinese Academy of Agricultural Science (CAAS) and a Fellow of Chinese Academy of Science, called the new report “…an excellent, detailed analysis and very useful for scientists and policy makers. CIMMYT germplasm and training have made a momentous contribution to Chinese wheat.”

Tribute to Dr. Norman E. Borlaug on his 101st birth anniversary

Written by on April 13, 2015. Posted in News.

BISA director general garlanding
Dr. Borlaug’s statue. Photo: Meenakshi Chandiramani

Borlaug Institute for South Asia (BISA) and CIMMYT India staff members gathered together at NASC Complex, New Delhi to pay tribute to the late Dr. Norman E. Borlaug on what would have been his 101^st Birth Anniversary on 25 March. HS Gupta, director general, BISA, garlanded Borlaug’s statue, in front of the office block at NASC Complex. Staff members offered flowers in respect to the Nobel Laureate. Gupta apprised the staff members about Borlaug’s great contributions, including high-yielding wheat varieties which helped solve hunger around the world and particularly in South Asia. BISA and CIMMYT staff members resolved to work hard and follow Borlaug’s footsteps.

BISA and CIMMYT staff pay tribute to Norman Borlaug, in the shadow of his statue and accomplishments. Photo: Meenakshi Chandiramani

SIMLESA’s seamlessly integrated solution for a perennial problem

Written by on April 13, 2015. Posted in News.

Southern Africa smallholder farmers can attain food security and more income through sustainable intensification of maize-based farming systems. This was revealed during recent field learning tours in Malawi and Mozambique last month. On show were farmer-tested improved maize–legume technologies being disseminated by CIMMYT’s Sustainable Intensification of Maize-Legume Cropping Systems for Food Security in Eastern and Southern Africa (SIMLESA) project.

An on-farm maize-legume rotation exploratory trial in Tete Province, Mozambique. Photo by Isaiah Nyagumbo/CIMMY

Smallholder farmers interacted with non-governmental organizations and private-sector partners who have shown a great interest in the SIMLESA outscaling approach using lead farmers and learning sites. Some of the sites promote smallholder agriculture development by linking farmers with buyers and agrodealers, and by providing access to credit and technical training.

Conservation agriculture (CA) exhibited mixed fortunes and presented more opportunities for learning and information sharing. Due to the excessive rains experienced in January, maize on the conventional ridge and furrow farming systems was generally greener and taller than on the CA plots, although the positive rotation effects in CA were clearly evident from the healthy maize crop following soybeans. Also, some maize varieties under CA were more susceptible to diseases such as leaf rust and suffered more from pests such as white grubs which attacked maize roots.

Transforming agriculture through technology: One of the farmers in Mitundu district, Malawi, Mrs Grace Chitanje, leads in demonstrating the use of Li seeder equipment. Photo by Jefias Mataruse/CIMMYT

Main points from the learning tours included:

Linking the smallholder farmer to input and output markets is an integral part of SIMLESA Phase II’s smallholder commercialization thrust.
The participation of private-sector companies in SIMLESA demonstrations is a vital exit strategy to ensure sustainability and continued engagement with smallholders.
CA technologies performed rather poorly in periods of excessive rainfall, and particularly so for nitrogen-starved crops.
Using different maize varieties could help SIMLESA recommend the best CA-ready maize cultivars capable of tolerating diseases and pests in CA systems.

Read more on SIMLESA’s field tours here.

“First Lady of Wheat” in Mexico to celebrate her father, Norman Borlaug

Written by on April 13, 2015. Posted in Features.

The late wheat breeder Norman Borlaug was so dedicated to his work that he was away from home 80 percent of the time, either travelling or in the field, recalls his daughter, Jeanie Borlaug Laube.

Photo: Alfredo Sáenz/CIMMYT

Scientist Borlaug, who died in 2009 at age 95, led efforts in the mid-20th century to develop high-yielding, disease resistant, semi-dwarf wheat varieties that helped save more than 1 billion lives in Pakistan, India and other areas of the developing world.

Wheat breeders, scientists and members of the global food security community celebrated his birthday at a week-long meeting hosted by CIMMYT in the vast wheat fields of the Yaqui Valley near the town of Ciudad Obregón in Mexico’s northern state of Sonora.

Each year, CIMMYT Visitors’ Week serves as an opportunity to brainstorm, exchange ideas and celebrate Borlaug’s legacy on the anniversary of his birthday.

Borlaug, who would have been 101 this year, started work on wheat improvement in the mid-1940s near CIMMYT headquarters outside Mexico City.

He was awarded the Nobel Peace Prize in 1970 partly for his experimental work, much of which took place in the hot, dry conditions of Obregón, which resemble conditions in many developing countries where CIMMYT works.

This year, his daughter, who is co-chair of the Borlaug Global Rust Initiative, a partnership to study and and control devastating stem, yellow and leaf wheat rust disease, spoke on women and agriculture at the event. She is also involved with the Jeanie Borlaug Laube Women in Triticum Mentor Award, which honors mentors of both genders who aid women working in Triticum species and near relatives. Additionally, she sits on the board of directors of the Borlaug Training Foundation, established to provide agricultural education and guidance to scientists from developing nations.

She shared her views in the following interview.

Q: What is your current involvement in agriculture?

I’m not officially in agriculture – I’m a Spanish teacher. I taught for 40 years in high school until I retired three years ago. In the last 25 years of my career I had started a community service program at two different schools in Dallas and ran it. This involves 750 kids a year out doing community service. I still taught one Spanish class but my basic job was community service director. I haven’t been involved in agriculture directly. Indirectly, I have been because I was Norman Borlaug’s daughter so I’ve been around it, but I wasn’t raised on a farm, never lived on a farm, didn’t study agriculture or science in school.

What is your current involvement with wheat?

I’m co-chair of the Borlaug Global Rust Initiative – I go to the conferences once a year where all the wheat scientists of the world get together. I go to all the conferences and sit and listen and try to learn and follow what is going on with rust and the different problems they are having with wheat. I’m involved with the Women in Triticum Award. I visit and follow up with them and they are the ones who are out in the field learning how to become scientists and continue the profession. That’s how I’m involved in wheat.

Q: What are your views on women in agriculture?

I was in Pakistan last year and the U.S. Department of Agriculture set up a meeting with women who were all scientists working on their doctoral degrees – or already had a Ph.D. in agriculture. The discussions were very interesting as far as the difficulties that women find in this field and the pluses and minuses that are involved with that. It was interesting to hear different aspects of what they were feeling. The academic studies were not a difficult thing for them, but the reality of raising a family and keeping a profession going and taking care of a husband or children at the same time as being away from home presented problems.

No matter what profession women are in, challenges confront them because we have to multi-task. It doesn’t matter whether you are an accountant, a geneticist or a teacher – as a mother or trying to run a family and a profession, I think it’s challenging for a lot of women.

Q: What impresses you about women in agriculture?

I’m always amazed at the women scientists who are out there working at these wheat conferences and out in the in the field and taking care of their families from afar or even before they get married or have children, just the dedication they have to helping feed the world.

Q: What are your views on food security?

I don’t think the general population has any clue as to what goes on with agriculture. As my dad used to say, everybody just thinks the food comes from the grocery store and that’s where it is – it just pops in there. The average person doesn’t have a clue about that.

Q: What has changed since your father’s time?

I imagine he’d be facing the same challenges. I think it would be really interesting if he were still around because he’d be going crazy right now with all of this fighting about gluten-free and over genetically modified plants. He was so dedicated. His mission was to feed the world.

I think it is still the same mission. I think it is probably just a little harder because you have more public opinion and lack of info for what you need. He was changing genes and they are still doing that and they need to because they need to find plants that require less fertilizer and less water and provide more protein. What is amazing to me is to think about how they are working with computers now and he did all this in his head with notebooks.

He’d leave home at five in the morning and get home at eight at night. When he was in town he was gone about 80 percent of the time. When he first started this shuttle breeding program he’d come to Sonora. That was in the 40s – he had to go up through Arizona and back down at first because there were no roads. He’d be up here for three months, then he’d go back down, then he’d go to Toluca and South America, then he started going to India and Pakistan. In later years he was going Africa, so he was never home.

Q: Where did you grow up?

I was raised in Mexico City. My brother was born in Mexico and I came here when I was 14 months old. I lived here until I went to college. I did my schooling down here.

Q: Did your father try and encourage women in science and agriculture?

Yes he did. Back then there weren’t very many women in agriculture and scence. I think he’d be very pleased to see the turn with what’s happening with women in agriculture.

Q: What is it like celebrating your father?

It’s really neat. When my dad realized that he was going to die he asked me to bring ashes back to Mexico so I did. The last two years we came before he died, we came in a private jet because he couldn’t travel. It was so hard to get here. I remember I looked at his face as we were approaching Obregón. His face was just pure relief. He loved this place and he’d see the wheat fields and it was magical for him. Coming back is kind of bittersweet, realizing how much he loved the farmers too as they loved him.

Race for Food Security by 2050 Can be Won, Mexico Agriculture Secretary Says

Written by on April 10, 2015. Posted in Press releases.

EL BATÁN, Mexico (CIMMYT) – Mexico will need to more than double food production by 2050 to feed its growing population, the country’s agriculture secretary said on Thursday, citing statistics that project it will grow 22 percent to an estimated 150 million people.

Investing in research to improve small-farm technology and boost sustainable development in collaboration with such organizations as the International Maize and Wheat Improvement Center (CIMMYT), which runs Mexico’s Sustainable Modernization of Traditional Agriculture (MasAgro) program, is key to increasing food supplies, said Enrique Martínez y Martínez, head of the Ministry of Agriculture, Livestock, Rural Development, Fisheries and Food (SAGARPA).

“Those eating once a day will eat three times a day,” he said, adding that Mexico, with a current population of 122 million people, will produce 70 to 80 percent more food by 2050.”

In Mexico, 80 percent of farmers have less than 5 hectares (12 acres) of land and farm on hilly, difficult terrain, which means tractors and farm machinery are often too big and cumbersome to function properly, reducing the potential for profits and productivity, Martínez y Martínez said.

The country’s president, Enrique Peña Nieto, has made research a priority and aims to increase national investment in research to 1 percent of GDP, Martínez y Martínez added. Mexico’s GDP was $1.26 trillion in 2013, according to the World Bank. By that measure, Mexico ranks as the world’s 15th biggest economy.

What we need to do is to make sure financial resources reach CIMMYT and INIFAP, Martínez y Martínez said, referring to Mexico’s research institute for agriculture, livestock and forests.

The agriculture secretary was at CIMMYT headquarters near Mexico City to celebrate the unveiling of a statue of scientist Norman Borlaug and to preside over the annual renewal of the MasAgro agreement. MasAgro helps farmers implement techniques favoring minimal soil disturbance, permanent soil cover and crop rotation to sustainably boost yields and increase profits.

Nobel Peace Prize laureate Borlaug, who died in 2009 at age 95, led efforts that began in Mexico to develop high-yielding, disease-resistant, semi-dwarf wheat varieties in the mid-20th century that are estimated to have helped save more than 1 billion lives in Pakistan, India and other parts of the developing world.

CLEAR GOALS

Despite surpluses of maize in the states of Sinaloa and Guerrero, — the latter produced 2 million tons of white-grain maize, Mexico’s main food staple in 2014 — the country is importing between 7- to 10-million tons of yellow maize a year, Martínez y Martínez said.
“We need to be self-sufficient and I’m completely convinced that we can be, but we have to find the right mechanisms. We’re self-sufficient by far and have a surplus of white maize, but we’re at a deficit in yellow maize,” he said.

In Mexico, where maize originated, the white variety is important to the human diet, while the yellow variety is used primarily to feed livestock.

“Together with SAGARPA we’ve made a great impact, but we mustn’t forget that the job is not yet done,” said Thomas Lumpkin, CIMMYT’s outgoing director general, noting that almost 23 percent of Mexicans, some 27.4 million people, still suffer from food shortages and insecurity.

“When you visit farmers in the state of Chiapas – farmers on the hillsides – there are no young people because they left when they grew up, they couldn’t make enough money,” he said. We’ve got to be able to improve incomes, to keep that work alive is the key.

“It’s clear that the agriculture secretary is committed to sustainable agriculture and agricultural research,” said Bram Govaerts, associate director of CIMMYT’s Global Conservation Agriculture Program who played a key role in the development of MasAgro.

“We need to continue innovative research, but it must be connected with farmer needs and integrated with the value chain,” said Govaerts, winner of the 2014 Borlaug Field Award from the World Food Prize Foundation, who spoke at the unveiling ceremony.

“We need to develop a platform that can generate public-private investment, where companies can reinvest in farmers and agricultural research once they reap the benefits. Smallholder farmers can provide big companies with grains produced under sustainable practices to meet their sustainability indicators.”

LIVING LEGACY

The World Food Prize was created by Borlaug to recognize people who have advanced human development by improving the quality, quantity or availability of food in the world. Almost 30 years later in 2014, the prize was awarded to Sanjaya Rajaram, his former student, a wheat breeder for many years at CIMMYT, who released more than 480 varieties of bread wheat sown on more than 58 million hectares in 51 countries.

“It’s a feat unlikely to ever be surpassed by another wheat breeder,” said John Snape, chair of CIMMYT’s board of trustees.

Rajaram was honored with a miniature replica statue of the Borlaug life-size sculpture at the unveiling, which attracted government officials, diplomats and members of the international agricultural community.

The bronze sculpture, which depicts Borlaug taking field notes, is based on an emblematic photograph, said artist Katharine McDevitt, who teaches sculpture at the Chapingo Autonomous University of agriculture in the city of Texcoco near CIMMYT.

McDevitt began her artistic career in New Hampshire, but has lived in Mexico for almost 40 years.

“While I’ve done a lot of portrait sculpture, this is the most inspiring figure I’ve ever had the privilege of doing,” McDevitt said. “This project has been the greatest honor of my career.”

Borlaug’s daughter, Jeanie Borlaug Laube, unveiled the sculpture.

“My dad was competitive, determined and aware of the need for teamwork,” she said.

“He was a man with a message and he took it to the farmer like no other person in history, before or since. With your help he saved a billion lives, and now it falls on all of you to sustain that salvation.”

MEDIA CONTACTS:

Julie Mollins
Wheat Communications Officer
Global Wheat Program
International Maize and Wheat Improvement Center (CIMMYT)
j.mollins@cgiar.org

Ricardo Curiel
Gerente de Comunicación en México
Centro Internacional de Mejoramiento de Maíz y Trigo (CIMMYT)
r.curiel@cgiar.org

ABOUT CIMMYT

The International Maize and Wheat Improvement Center (CIMMYT), headquartered in El Batán, Mexico, is the global leader in research for development in wheat and maize and wheat- and maize-based farming systems. CIMMYT works throughout the developing world with hundreds of partners to sustainably increase the productivity of maize and wheat systems to improve food security and livelihoods.

CIMMYT is a member of the 15-member CGIAR Consortium and leads the Consortium Research Programs on Wheat and Maize. CIMMYT receives support from national governments, foundations, development banks and other public and private agencies.

CIMMYT wheat research: http://staging.cimmyt.org/en/what-we-do/wheat-research

CGIAR: http://www.cgiar.org

CIMMYT–SARO@30

Written by on April 8, 2015. Posted in Features.

Targeting increasing farm-level food security and productivity to mitigate the effects of climate risk and change: Through the SIMLESA Project, smallholder farmers practice sustainable intensification principles, such as zero or minimum tillage, maize–legume intercropping, and maize–legume rotations. In the photo, Mr. Ringson Chitsiko (standing), Permanent Secretary (PS), Ministry of Agriculture, Mechanisation and Irrigation Development, officially opens CIMMYT–SARO's 30th anniversary celebrations. On the extreme left is the International Livestock Research Institute’s Representative for Southern Africa, Dr. Sikhalazo Dube. To the PS’s left is the Principal Director in the Department of Research and Specialist Services, Mrs. Denisile Hikwa. Dr. Olaf Erenstein (in striped shirt), Director of CIMMYT’s Socioeconomics Program; and partly in the picture is Dr. Eric Craswell, SIMLESA Project Steering Committee Member. — Targeting increasing farm-level food security and productivity to mitigate the effects of climate risk and change: Through the SIMLESA Project, smallholder farmers practice sustainable intensification principles, such as zero or minimum tillage, maize–legume intercropping, and maize–legume rotations. In the photo, Mr. Ringson Chitsiko (standing), Permanent Secretary (PS), Ministry of Agriculture, Mechanisation and Irrigation Development, officially opens CIMMYT–SARO’s 30th anniversary celebrations. On the extreme left is the International Livestock Research Institute’s Representative for Southern Africa, Dr. Sikhalazo Dube. To the PS’s left is the Principal Director in the Department of Research and Specialist Services, Mrs. Denisile Hikwa. Dr. Olaf Erenstein (in striped shirt), Director of CIMMYT’s Socioeconomics Program; and partly in the picture is Dr. Eric Craswell, SIMLESA Project Steering Committee Member.

On March 18, CIMMYT Southern Africa Regional Office (SARO) celebrated 30 years of agricultural research and development.

The colourful ceremony, held amid pomp and fanfare, was attended by more than 300 people representing donors, non-governmental organizations, research institutions, Zimbabwe government departments, seed companies and farmer associations. The celebration included an on-station tour, with CIMMYT–SARO showcasing its work.

CIMMYT–SARO has been operating in Zimbabwe since March 1985 with the support of the government of Zimbabwe, and other public and private-sector partners, including the University of Zimbabwe and the Department of Research and Specialist Services. In Zimbabwe, CIMMYT conducts experiments at its main station, as well as at Muzarabani and Chiredzi sub- stations. There are also on-farm trials across the country.

Officially commemorating CIMMYT–SARO’s 30-year anniversary (SARO@30), Zimbabwe’s Minister of Agriculture, Mechanisation and Irrigation Development, Dr. Joseph Made, said, ‘’The regional office has been focusing on developing new maize varieties adapted to smallholder farmers in Zimbabwe and the mid-altitude agroecologies in sub-Saharan Africa. Since then, the office has expanded to include development of research technologies for conservation-agriculture systems, sustainable intensification of production of smallholder farms and postharvest research activities.”

Stay on course, but also look beyond yield
In a speech read on his behalf by Mr. Ringson Chitsiko, the Ministry’s Permanent Secretary, Made applauded CIMMYT’s research work on developing a stock of maize since this was a major staple in the country, and beyond. Although CIMMYT and its partners had introduced various technologies for increasing yields, the Center had to develop more technologies to mitigate the effects of climate change and other challenges.

The minister advised: “CIMMYT needs to work harder and be alert, especially in the face of the ever-growing population, climate change and variability, and new threats through maize diseases and pests. I urge CIMMYT to continue pursuing its mandate for the benefit of the Southern African region.”

In support of this goal and in recognition of CIMMYT’s sustained presence and commitment to the SADC region and Zimbabwe, the Zimbabwe government in 2012 renewed the Host Country Agreement, according CIMMYT–SARO diplomatic status. ‘’We are jointly working towards signing a new collaborative agreement to strengthen maize research to combat a new threat in the form of maize lethal necrosis [MLN] disease recently discovered in East Africa and which has a potential to wipe out an entire maize crop if it spreads to Southern Africa,’’ Made said.

MLN caused 100 percent crop loss for some Kenyan farmers between 2011 and 2012, and cases were also reported in Uganda and Tanzania.

Speaking at the same occasion, Dr. Olaf Erenstein, Director of CIMMYT’s Socioeconomics Program who represented Dr. Thomas Lumpkin, CIMMYT Director General, said CIMMYT, since its establishment in Mexico in 1966 currently has 13 representative offices around the world. Its mandate and mission is to sustainably increase the productivity of maize and wheat systems to ensure global food security and reduce poverty. The regional office, he said, is serving its purpose in contributing to increasing food security.

Photo: J. Siamachira/CIMMYT — Just one year shy: John Chifamba (foreground, in blue shirt, and cap, facing the camera), receives his long-service certificate. With 29 years of service under his belt, he’s been with CIMMYT–SARO for almost as long as it has existed.

‘Easy Friday’: Reflect, Celebrate, Play, Plan for The Future
As part of the continued celebrations, March 27 was ‘Easy Friday: CIMMYT–SARO hosted a luncheon and sports day for its staff. Thirteen long-serving employees who served for between 15 and 29 years were honored for their commitment. The employees were from administration, finance, Global Maize Program and Conservation Agriculture Program.

Sixty-two year-old Mr. John Chifamba, a recorder who has worked for CIMMYT for 29 years, said, “CIMMYT is my home. I have gained considerable on-the-job experience in maize research. “Any plans of leaving CIMMYT?” To this, Chifamba said an emphatic no. “Very soon, it will be retirement time and I will find a plot to utilize the good agricultural practices I have seen and learned at CIMMYT.“

Joining hands: From Zambia to Afghanistan
Mekuria continued: ‘’Our partnership approach will give us more capacity to meet with our constituents at the highest level, strengthening our relationships with governments as they formulate the most effective agricultural policies for the good of their people and natural resources.”

CIMMYT–SARO is part of the world’s largest public drought and low nitrogen stress research network. Every year 500,000 envelopes of maize seeds are sent to over 70 institutions worldwide. The demand for CIMMYT–SARO maize germplasm extends from Zambia to Afghanistan.

During the past 10 years, sustainable intensification strategies based on the principles of conservation agriculture (CA) have been successfully promoted in Malawi, Mozambique, Zambia and Zimbabwe. Making use of the combined benefits of minimum soil disturbance, crop residue retention and crop rotation, CA increases yields when compared to conventional agricultural practices after two to five cropping seasons. Trials on farmers’ fields in Malawi, for example, increased yields by 20 to 60 percent. In Zambia and Zimbabwe, yields were increased by almost 60 percent using animal traction CA technologies.

Major highlights during the 30 years existence of CIMMYT in Zimbabwe include the development and release of more than 50 maize hybrids and open pollinated varieties (OPVs) adapted to drought-prone regions. These new varieties are expected to benefit almost 12 million people, helping to enhance food security, increase livelihoods and reduce poverty in Southern Africa.

CIMMYT’s seed system activities and support in training and technical assistance have led to the emergence of smaller domestic seed companies in the various Southern African countries. Farmers’ access to seed has improved. In addition, the Center has trained more than 200 technicians and graduate students through short- and long-term training in their various disciplines. Nearly 30 percent of these trainees are women. Trainees are drawn from southern Africa, the rest of Africa, and beyond.

Mexico meeting outlines scientific roadmap for increasing wheat yields

Written by on March 29, 2015. Posted in Features.

International scientists attending a meeting in Ciudad Obregon, Mexico, plotted out how current and potential research projects around the world could boost wheat yields to meet population and climate pressures. CIMMYT/Julie Mollins

CIUDAD OBREGON, Mexico (CIMMYT) — Mexico aims to boost domestic wheat production 9 percent to 3.6 million metric tons by 2018, said a government official speaking on Tuesday at a conference in the town of Ciudad Obregon in the northern Mexican state of Sonora.

Productivity will increase as a result of growing investment in infrastructure, machinery, equipment and technological innovations, said Sergio Ibarra, Sonora delegate of the country’s Secretariat of Agriculture, Livestock, Rural Development, Fisheries and Food (SAGARPA).

“The strategic vision of the Mexican government is to promote an agricultural landscape that supports a productive, competitive, profitable, sustainable and fair agri-food sector to ensure food security,” Ibarra said, addressing 75 international scientists and wheat breeders attending the International Wheat Yield Potential Workshop hosted by CIMMYT.

The Mexican government has a long and storied tradition of working alongside CIMMYT, which developed improved varieties of wheat under the leadership of the late Nobel Peace Prize winner Dr. Norman Borlaug, helping the country become self-sufficient in grain production in the 1960s. Currently, demand for wheat in Mexico outstrips the domestic supply produced.

One collaborative project, the Sustainable Modernization of Traditional Agriculture, led by SAGARPA and known locally as MasAgro, helps farmers understand how minimal soil disturbance, permanent soil cover and crop rotation can simultaneously boost yields and sustainably increase profits.

ENVIRONMENTAL PRESSURES

Delegates at the Wheat Yield Potential Workshop, held from 24 to 26 March, plotted out how current and potential global research projects could dovetail under the International Wheat Yield Partnership (IWYP), a public-private partnership focused on developing new high-yielding varieties of wheat.

Findings in a report released last year by the Intergovernmental Panel on Climate Change (IPCC) state it is very likely that heat waves will occur more often and last longer throughout the 21st century and rainfall will be more unpredictable. Mean surface temperatures could rise by between 2 to 5 degrees Celsius or more, the report said. Current crop models show scenarios of the impact of rising temperatures on wheat varieties, which provide 20 percent of calories and protein consumed worldwide.

“Models indicate that a 2 degree increase in temperature would lead to a 20 percent reduction in wheat yield; a 6 degree increase would lead to a 60 percent reduction,” said Hans Braun, head of CIMMYT’s Global Wheat Program and the Consultative Group for International Agricultural Research Research Program on Wheat. “The consequences would be dramatic if we had a 40 percent yield reduction because we already know wheat production has to increase by 60 percent to keep up with population projections,” Braun said. “If we add modeled climate risks, the challenge is compounded, and we’ll need to double the yield capacity of our current varieties.”

“CIMMYT has demonstrated that the rate of improvement in yield gain has slowed to the point that, if it carries on the present rate, we’ll have a large gap between the amount of available wheat and what we need to feed the population,” said Steve Visscher, international deputy chief executive at Britain’s Biotechnology and Biological Sciences Research Council (BBSRC). The Council is the largest financial contributor to IWYP, which has so far secured 50 percent of the $100 million in funding it seeks to develop higher yielding wheat varieties.

“The sooner we act, the greater the chances are that we can close the gap between forecast demand and the availability of wheat,” Visscher said. “The scale of that challenge means that we need an international community effort, and the work on wheat yield that CIMMYT has initiated has now been taken forward through IWYP. I pay tribute to the role of SAGARPA and the Mexican government for backing CIMMYT and providing funding in recent years.”

Rothamsted Research in the UK is trying to meet the wheat food security challenge through a program to increase the yield of wheat to 20 metric tons per hectare within the next 20 years.

“Given that the UK record yield is currently 14.3 tons, that’s a big, big target,” said associate director Martin Parry, whose work aims to boost wheat photosynthesis, leading to increased yields.

“There are big risks both in terms of food security and political stability– it’s critical that the world’s population has enough food to eat– we need to work in a collegial, collaborative way, and IWYP offers an ideal opportunity to do that,” Parry said.

KALRO and CIMMYT: cementing a longstanding relationship

Written by on March 26, 2015. Posted in Features.

All this week, CIMMYT headquarters in Texcoco, Mexico, has the honor of hosting Dr. Eliud Kireger, the Acting Director General of the Kenya Agricultural and Livestock Research Organization (KALRO). Today, we sit with him for a candid conversation on crop research in Africa.

According to Dr. Kireger, one of the burning issues in agriculture today in Eastern and Southern Africa is “low productivity per unit area. The increase we’ve seen in yields across different countries is largely due to expansion in land area.” He attributes this low productivity per unit area to lack of technologies and knowledge that can boost productivity. This dearth translates itself in many ways such as not using fertilizers, improved seed or mechanization.

Another key factor hampering production is climate change, which in Eastern and Southern Africa manifests itself mainly through drought, floods, frost and hail. “There is also an increase in new pests and diseases, as well as postharvest losses, low value addition and lack of regulated markets which erodes the incentive to work hard and produce more. All these are the issues we need to address in our research and development agenda,” Dr Kireger says.

Finance and romance
The crunch in all this is low funding for the agricultural sector. African heads of state committed to devoting a minimum of 10 percent of their national budgets to agriculture in the 2003 Maputo Declaration. Not only have few nations honored this commitment, it is also a disadvantageous relationship, as Dr Kireger reveals. “For example, in Kenya, agriculture accounts for 30 percent of the GDP but the exchequer allocates less than two percent to agriculture, and even less to research. We therefore rely on our partners and collaborators in funding most of our research and development work, and that is where partners like CIMMYT come in to help us bridge the gap by accessing funding we would not otherwise have got, by training our scientists, and by helping us obtain high-quality germplasm.”

Dr. Eliud Kireger (left), KALRO Director General, in deep discussions with CIMMYT scientists during his visit to CIMMYT headquarters. He was accompanied by Stephen Mugo (right), CIMMYT’S Regional Representative for Africa and also country representative for Kenya. Dr. Kireger also met with CIMMYT's senior leadership. — Dr. Eliud Kireger (left), KALRO Director General, in deep discussions with CIMMYT scientists during his visit to CIMMYT headquarters. He was accompanied by Stephen Mugo (right), CIMMYT’S Regional Representative for Africa and also country representative for Kenya. Dr. Kireger also met with CIMMYT’s senior leadership.

But it is a reciprocal relationship between CIMMYT and KALRO, with CIMMYT too enjoying KALRO’s generosity through a rich potpourri of priceless resources – land for field and laboratory work; a robust nationwide network covering all corners of Kenya; immense social capital accumulated through time by a known, tested and trusted name; community mobilization; and local liaison with policy- and decision-makers on sensitive matters such as germplasm exchange and other weighty issues. “In Kenya CIMMYT does not have land, but since we work together, KALRO allows us to use their land for our work,” notes Stephen Mugo, CIMMYT–Africa Regional Representative and also Kenya Country Representative, who has accompanied Dr Kireger to CIMMYT Headquarters. “These are the benefits of synergy: ‘What you do not have, and I have, we share’. There is no single institution — working alone — that can be able to address all the challenges facing agriculture. From very early on, CIMMYT decided that the only way was to team up with national institutions and work together, so that CIMMYT-developed germplasm , know-how and technologies reach intended beneficiaries countrywide for the benefit of maize and wheat farmers. CIMMYT and KALRO jointly design common projects on clear and specific areas to improve maize and wheat, then seek funding for these projects to address drought tolerance, crop pests and emerging diseases.”

CIMMYT–KALRO MLN screening facility at KALRO's premises in Naivasha, Kenya. — CIMMYT–KALRO MLN screening facility at KALRO’s premises in Naivasha, Kenya.

One such emerging disease is maize lethal necrosis (MLN), which CIMMYT and KALRO are jointly tackling through ultra-modern shared facilities for MLN screeing and for doubled haploid (DH) technology that both stand on KALRO land. “With these facilities, we are able to screen a large volume of germplasm from both the public and private sectors. DH technology allows breeders to very rapidly— especially for cross-pollinated crops like maize — develop parental lines in about 18 months than can then be used to develop hybrids,” says Mugo. “With conventional methods, the same process could take anywhere between six and eight years. Once we identify maize types that are disease-resistant, drought-tolerant or good for low-nitrogen soils, we can fast-track them for rapid hybrid development. KALRO also facilitates exchange of germplasm — particularly important now in the face of MLN — by liaising with other government agents such as the Kenya Plant Health Inspectorate Service. This helps not only Kenya but also other countries, including both the public and private sector. By working together, institutions are able to solve problems that at first glance seem insurmountable,” Mugo observes.

KALRO and CIMMYT started working on climate-smart crops long before the term was coined. The goal was ‘insurance’ to increase production during drought. CIMMYT embarked on research from the late 1980s to increase production even when drought strikes. Collaboration with KALRO in this work started in the early 1990s, and did not stop there. “We now have a large network of research sites in Eastern and Southern Africa,” says Mugo.

The next frontier, and the future we need not fear if we prepare
Touching on genetically modified crops, Dr. Kireger laments “the negative publicity and misinformation on transgenics. To counter this, one of the first courses of action we are taking is making information available to the general public. Transgenic materials have the potential to resolve some of the problems that we have in Eastern and Southern Africa. We are working together with CIMMYT to provide information to the public because the largest fault-line is lack of information, which opens the door for misinterpretation. This hampers and dents the good work that is being done.”

Mugo concurs: “The only way to address this is for research institutions like KALRO and CIMMYT to provide the correct information, based on authoritative and impartial research findings, for informed public debate on benefits and risks, and how to mitigate risks. For example, research has shown the economic and environmental benefits of transgenic insect-resistant maize which eliminates pesticide use. This shows that transgenics can be deployed to solve problems that conventional means are at present unable to solve. One of these is the need to produce more food for an ever-increasing global population. To achieve this goal, we need to deploy all the technologies at our disposal, including transgenics.”

And switching emphasis from maize and headquarters to wheat and the field, Dr Kireger’s next stop in Mexico this week is Obregon, to get first-hand experience on CIMMYT’s work on this other crop that both institutes work on – not very common in Africa, as most of CIMMYT’s partnerships there focus exclusively on maize. Watch this space for more updates including videos!

And may this fruitful and mutually beneficial collaboration endorsed at the highest levels continue to grow from strength to strength!

Links:

Photo selection:
- Some aspects of the CIMMYT–KALRO synergy through time
- CIMMYT in Kenya
CIMMYT–KALRO MLN workshop for crop scientists, held last week

SIMLESA’s seamlessly integrated solution to a perennial problem, but…

Written by on March 25, 2015. Posted in Features.

A maize–legume rotation exploratory trial in Tete Province, Mozambique.

And what solution is this? That Southern Africa smallholder farmers can attain food security and more income through sustainable intensification of maize-based farming systems. This was revealed during recent field learning tours in Malawi and Mozambique.

The annual field tours, which ran from February 9–19, 2015, were organized by CIMMYT’s Sustainable Intensification of Maize-Legume Cropping Systems for Food Security in Eastern and Southern Africa (SIMLESA) project. A total of 224 people (147 men and 77 women) visited 11 sites. The objectives of the field tours were twofold: to examine how the new experiments under SIMLESA Phase II were progressing, and to gather farmers’ feedback on some of the sustainable intensification research interventions.

SIMLESA’s farmer-tested improved maize–legume technologies were showcased during the learning tours. Smallholder farmers interacted with non-governmental organizations (NGOs) and private-sector partners who have shown a great interest in the SIMLESA outscaling approach using lead farmers and learning sites. Some of the sites promote smallholder agriculture development by linking farmers with buyers and agrodealers, and by providing access to credit and technical training.

In Malawi, the field visits began at Kasungu District, with 16 farmers and technical staff from Mozambique who were on an exchange visit also participating. The group visited outscaling initiatives by the National Association of Smallholder Farmers of Malawi (NASFAM), in which maize–groundnut rotations and maize–pigeonpea systems are being implemented through lead farmers. More than 120 households per field learning site are participating in the demonstrations on each of the five NASFAM sites visited.

In the mid-altitude agro-ecological region of Malawi, new maize varieties have been introduced under SIMLESA Phase II as well as new groundnut and cowpea varieties, in addition to the previously tested soybean varieties in the core on-farm exploratory trials.

The next stop in Malawi was Mitundu, Lilongwe District, with new crop establishment trials. Here, various new hand-planting tools were being tested, such as jab planters, the Li seeder or planting hoe and the Oklahoma State University (USA) green seeder – all in comparison to the conventional dibble stick and traditional hoe.

The use of a Li seeder has a lot of advantages, including enabling farmers to work faster and therefore saving time, and it does not strain the back,” said Mr James Segula, a smallholder farmer. The Li seeder simultaneously opens a hole in the ground, drops seed and fertilizer, and covers the hole.

Key lessons for the Mozambique and Malawi groups were timely weeding, right maize–legume crop varieties, correct use of fertilizers, residue application and appropriate and safe use of agrochemicals.

Transforming agriculture through technology: Mrs Grace Chitanje,one of the farmers in Mitundu District, Malawi, demonstrates how to use the Li seeder.

Crossing borders to Mozambique’s Angonia District, the group visited exploratory trials which included farmer-preferred maize varieties and the new maize–soybean intercrop system being tested for the first time. In SIMLESA Phase 1, common beans intercrop failed, hence the switch to soybeans. In the central region, members of the national innovation platform which brings on board NGOs such as Total Land Care, Manica Small-Scale Farmers and the Agência de Desenvolvimento Económico de Manica (ADEM) showcased the importance of partnerships. Innovation platforms are fora for information and knowledge sharing on agricultural development. Interesting differences in the tested maize hybrid and open pollinated varieties (OPV) included better leaf diseases tolerance from the hybrid Pristine, in contrast to early maturity characteristics from the OPV.

SIMLESA’s innovation platform is working with partners such as ADEM to facilitate farmers’ access to inputs, link them to financial institutions to access credit and connect them to markets for their produce. Mr Domingos Dias, SIMLESA–Mozambique National Coordinator, said: “We commend this approach of linking farmers to input suppliers and credit providers. Lessons learned, and experience gained over the years, indicate that training alone without market links is not profitable.”

Links: More on SIMLESA – in slides | project website

IICA-CIMMYT agreement to strengthen Latin American agriculture

Written by on March 23, 2015. Posted in News.

The Inter-American Institute for Cooperation on Agriculture (IICA) and CIMMYT laid the groundwork for strengthened, joint research-for-development in Latin America, signing a new Cooperation Framework Agreement at CIMMYT’s offices in El Batán on 17 March.

“This agreement allows both organizations to reach more people and carry out more effective projects,” said Marianne Bänziger, CIMMYT’s Deputy Director General for Research and Partnerships. “We’re all working to increase food security and profitability, while reducing migration and building capacity in farmers and extension workers.”

Bänziger extended special thanks to Dr. Victor M. Villalobos, Director General of IICA, who played a crucial role in the creation of the Sustainable Modernization of Traditional Agriculture (MasAgro) program in Mexico, with the help of the Mexican government.

Marianne Bänziger, CIMMYT’s Deputy Director General for Research and Partnership; Gloria Abraham Peralta, Mexico’s IICA Representative; and Bram Govaerts, leader of MasAgro, at the signing of the Cooperation Framework Agreement. Photo: Clyde Beaver III/CIMMYT — Marianne Bänziger, CIMMYT’s Deputy Director General for Research and Partnership; Gloria Abraham Peralta, Mexico’s IICA Representative; and Bram Govaerts, leader of MasAgro, at the signing of the Cooperation Framework Agreement.
Photo: Clyde Beaver III/CIMMYT

During the signing ceremony, Gloria Abraham Peralta, Mexico’s IICA Representative, said the agreement addresses the challenge of doubling food production in the next 30 years and mitigating climate change effects. “The implementation and appropriate use of agricultural technology must rely on an efficient transfer of knowledge to farmers,” said Abraham, who is from Costa Rica. “Taking such preventive measures will strengthen resilience should a serious new crop disease, such as wheat rust, arise again.”

A meeting to create a common work agenda followed the signing, with a focus on capacity building, strengthened extension networks, joint design of information technologies and expert exchange, among others areas of relevance.

The Cooperation Framework Agreement is seen as setting the stage for additional, wide-reaching CIMMYT-IICA initiatives in the future.