Location: Africa

CIMMYT’s work in Africa helps farmers access new maize and wheat systems-based technologies, information and markets, raising incomes and enhancing crop resilience to drought and climate change. CIMMYT sets priorities in consultation with ministries of agriculture, seed companies, farming communities and other stakeholders in the maize and wheat value chains. Our activities in Africa are wide ranging and include: breeding maize for drought tolerance and low-fertility soils, and for resistance to insect pests, foliar diseases and parasitic weeds; sustainably intensifying production in maize- and wheat-based systems; and investigating opportunities to reduce micronutrient and protein malnutrition among women and young children.

CIMMYT remembers vital legacy of gender specialist Paula Kantor

Written by on May 14, 2015. Posted in News.

EL BATAN, Mexico (CIMMYT) ‑ CIMMYT is sad to announce the tragic death of our friend and respected colleague, gender and development specialist Paula Kantor.

Paula died on May 13, in the aftermath of an attack on the hotel where she was staying in Kabul, Afghanistan.

“We extend our deepest condolences to her family, friends and colleagues,” said Thomas Lumpkin, CIMMYT’s director general.

“Paula’s desire to help people and make lasting change in their lives often led her into challenging settings. Her dedication and bravery was much admired by those who knew her and she leaves a lasting legacy upon which future research on gender and food security should build.”

Paula joined CIMMYT as a senior scientist (gender and development specialist) in February 2015 to lead an ambitious new project aimed at empowering and improving the livelihoods of women, men and youth in important wheat-growing areas of Afghanistan, Ethiopia and Pakistan.

“We’re shocked and left speechless by the tragic loss,” said Olaf Erenstein, director of socio-economics at CIMMYT. “Paula was such a caring, committed, energetic and talented colleague. She inspired everyone she worked with – and it’s so sad that her life and career were prematurely ended. She will be sorely missed – our deepest sympathies to her family, friends and colleagues throughout the world.”

At the time of her death at age 46, Paula had many years of experience in the area of gender and social development. She was an established and respected professional and prolific writer, having published more than a dozen peer-reviewed academic publications, some 10 peer-reviewed monographs and briefs, 15 other publications and 10 conference papers during her lifetime.

Dynamic Career

Before joining CIMMYT, Paula served as a senior gender scientist with CGIAR sister organization WorldFish for three years from 2012.

At WorldFish, working in Bangladesh, Malaysia and Egypt, Paula contributed significantly to the design and development of gender-transformative approaches for the CGIAR Research Programs (CRP) on Aquatic Agricultural Systems (AAS) and Livestock and Fish.

She coached many of her colleagues in a range of pursuits, and among many noteworthy achievements, she mentored an international non-governmental organization in its efforts to deliver gender programming to women fish retailers in Egypt.

“It is such a tragic, shocking waste of a remarkable talent,” said Patrick Dugan, WorldFish deputy director general and CRP AAS Director.

“Her commitment to gender, and wider social equality inspired the people she worked with. She’ll be sorely missed by us all.”

For two years previously, Paula worked at the International Center for Research on Women (ICRW) in Washington, D.C., developing intervention research programs in the area of gender and rural livelihoods, including a focus on gender and agricultural value chains.

From 2008 to 2010, Paula was based in Kabul, working as director and manager of the gender and livelihoods research portfolios at the Afghanistan Research and Evaluation Unit (AREU), an independent research agency.

After earning a doctoral degree focused on international economic development and gender from the University of North Carolina at Chapel Hill in 2000, she taught in the Departments of Consumer Science and Women’s Studies at the University of Wisconsin-Madison.

An American citizen from North Carolina, after earning a Bachelor of Science in Economics from the Wharton School of the University of Pennsylvania in 1990, Paula earned a master’s degree in Gender and Development from Britain’s Institute of Development Studies at the University of Sussex.

“Paula was a key pillar in our gender work and a dear friend to many of us,” said Lone Badstue, CIMMYT gender specialist.

“It was a privilege to work with her. She had a strong passion for ensuring that her work made a difference. It’s hard to imagine how to move forward, but I am convinced that Paula would want us to do that and to make the difference for which she strived.”

Paula is survived by her mother and father, Barbara and Anthony Kantor, her brother Anthony John, her sister Laura Styrlund (Charles), her niece Lindsay and her nephew Christopher.

If you would like to offer your condolences you can send us a message to cimmyt@cgiar.org. CIMMYT will deliver all messages received to Paula’s family. Thank you for your thoughts and support.

“In Mozambique, you cannot talk about food security without talking about maize”

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

IIAM's site for confined field trials at Chokwe. — IIAM’s site for confined field trials at Chokwe.

Good news from Africa! Policy breakthroughs on transgenic research in Mozambique and Tanzania have led to approval of confined field trials (CFTs) and a more research-friendly regulatory framework, respectively.

Mozambique’s CFTs will be at the Instituto de Investigação Agrária de Moçambique (IIAM; Agricultural Research Institute of Mozambique) research station at Chokwe, some 200 kilometers north of the country’s capital, Maputo.

Next door in Tanzania, an erstwhile stringent policy that was prohibitive in terms of the onerous liability it placed on researchers has been favorably revised. What all this means is that the two countries – which have been somewhat lagging behind on account of policy constraints – can now more substantively engage in the Water Efficient Maize for Africa (WEMA) project to a fuller extent, and be more in step with other WEMA partners.

These momentous breakthroughs were revealed at the 7th WEMA Project Review and Planning Meeting in Maputo, Mozambique, which took place February 8–12, 2015. In his opening remarks, Dr. Inacio Mapossé (pictured left), IIAM’s Director General, said that Mozambique’s Ministry of Agriculture had been renamed to the Ministry of Agriculture and Food Security. This, he emphasized, was not just an exercise in words, but also underscored the importance of projects such as WEMA. In his words, “In Mozambique, you cannot talk about food security without talking about maize.” True. Statistics show that nearly all (95 percent) of Mozambique’s smallholders grow maize (report forthcoming), and that maize covers nearly half (40 percent) of the land devoted to annual crops. Hence, the ministry could well have been renamed to ‘The Ministry of Maize’ and the cap would have fitted!

But back to policy and regulatory frameworks, despite the recent breakthroughs, more remains to be done. In Kenya, the 2012 ban on importation of genetically modified organisms is still in force. And while there has been remarkable progress in Tanzania and the policy is less stringent on transgenic research, there is still more ground to be covered. Uganda is yet to pass the Biosafety Bill.

The CIMMYT team at the WEMA meeting. Back row, left to right: Yoseph Beyene, Kassa Semagn, Lewis Machida, Jarett Abramson, Mosisa Regasa, Tadele Tefera, Bruce Anani and Amsal Tarekegne. Front row, left to right: Vongai Kandiwa, B.M. Prasanna, Stephen Mugo and James Gethi.

The menace posed the maize lethal necrosis (MLN) disease was high and hot on the agenda, given its threat to Africa’s food security. MLN diagnostics and management call for concerted action by all players in the maize value chain, with regulatory frameworks playing a key role. CIMMYT has an open call for MLN screening for the cropping season starting at the end of this month.

CIMMYT participants at the WEMA annual meeting included, among others, Dr. B.M. Prasanna, CIMMYT’s Director of the Global Maize Program and a member of WEMA Executive and Advisory Board, and Dr. Stephen Mugo, Coordinator of CIMMYT activities in WEMA.

Led by the African Agricultural Technology Foundation, the WEMA project is now in its second phase, which will end in 2017. Aside from WEMA, CIMMYT has had a long and fruitful engagement with Mozambique, as this brief dating back to 2008 attests.

MLN diagnostics and management in Africa through multi-institutional synergies

Written by on May 9, 2015. Posted in News.

Maize Lethal Necrosis (MLN) disease has continued to wreak havoc on maize production in East Africa since it was first reported in Kenya in 2011, and since then reported in the Democratic Republic of the Congo, Ethiopia, Rwanda, Tanzania, South Sudan and Uganda. The disease, caused by a combination of the Maize Chlorotic Mottle Virus (MCMV) and Sugarcane Mosaic Virus (SCMV), causes irreversible damage that kills maize plants before they can grow and yield grain. MLN pathogens can be transmitted not only by insect vectors but also through contaminated seed. The epidemic is exacerbated by lack of MLN-resistant maize varieties and year round cultivation of maize in many areas in eastern Africa, enabling the build-up of virus inoculum and allowing transmission via insect vectors. For this reason, CIMMYT scientists Monica Mezzalama, Biswanath Das, and B.M. Prasanna have developed a brochure “MLN Pathogen Diagnosis, MLN-free Seed Production and Safe Exchange to Non-Endemic Countries” for providing important information on these key areas to stakeholders, especially seed companies and regulatory agencies operating in both MLN-affected as well as MLN non-endemic countries.

“MLN is an increasing regional threat to food security in sub-Saharan Africa, and must be tackled with concerted effort from all actors in order to safeguard the maize seed sector and protect the livelihoods of smallholder farmers,” said Prasanna. The brochure proposes several key steps to curb the spread of MLN, through MLN diagnostics, production of MLN-free seed, and safe exchange to MLN-endemic countries. The brochure also advises on appropriate agronomic practices that can prevent disease incidence in seed production fields.

An International Conference on “MLN Diagnostics and Management in Africa” will be organized jointly by AGRA (Alliance for Green Revolution in Africa) and CIMMYT during 12-14 May in Nairobi, Kenya, in order to review the present status of MLN incidence and impacts in sub-Saharan Africa (SSA), controlling seed transmission of MLN, managing seed production in MLN-endemic countries, creating awareness about MLN diagnostic protocols, and identifying ways to strengthen MLN diagnostics capacity in SSA, among other topics.

Maize lethal necrosis: a serious threat to food security in eastern Africa and beyond

Written by on May 7, 2015. Posted in Features.

MLN_WS_participants_w — Participants are shown how to inspect maize fields for MLN symptoms and how to collect samples for laboratory analysis.

Maize lethal necrosis (MLN) has rapidly emerged as one of the deadliest maize diseases in eastern Africa capable of causing complete yield loss under heavy disease pressure. This means that Kenya and neighboring countries which largely depend on maize as their main staple food and source of income are on the verge of a looming food and economic crisis.

The disease is difficult to control for two reasons: firstly, it is caused by a combination of viruses; secondly, it can be spread through seed and by insect vectors that may be carried by wind over long distances. Affected crops suffer various symptoms such as severe stunting, tassel abnormality, small ears with poor seed set, chlorotic leaf mottling, leaf necrosis and premature plant death.

Much more than CIMMYT and East Africa

Sixty phytosanitary regulators and seed industry scientists from 11 countries in eastern and southern Africa attended an MLN diagnostics and screening workshop from March 17–19, 2015, in Naivasha, Kenya. The objective of the workshop was to train scientists on the latest MLN diagnostics and screening methods and to share knowledge on how to control the spread of MLN. Besides DR Congo, Ethiopia, Kenya, Rwanda and Tanzania where the disease has been reported, other participants were from South Sudan and southern Africa (Malawi, Mozambique, South Africa, Zambia and Zimbabwe) that have no confirmed cases of MLN, but where maize is an important crop.

CIMMYT organized the workshop in response to the high demand for development of appropriate diagnostics methods and harmonization of regional protocols. Hence, facilitation by agencies like the Food and Agricultural Organization provided a much-needed regional overview of the MLN threat, in addition to perspectives from the International Centre of Insect Physiology Ecology and the Kenya Plant Health Inspectorate Services (KEPHIS) on MLN insect vectors and diagnostics methods respectively.

The workshop was conducted at the MLN screening facility in Naivasha, the largest of its kind established in response to the MLN outbreak in eastern Africa in 2013. It supports countries in the sub-Saharan region to screen seeds under artificial inoculation. The facility is managed jointly by the Kenya Agricultural and Livestock Research Organization (KALRO) and CIMMYT, and was established with support from the Bill & Melinda Gates Foundation and the Sygenta Foundation for Sustainable Agriculture. Biswanath Das, a maize breeder at CIMMYT, noted that “the site has evaluated more than 20,000 accessions since its inception in 2013 from over 15 multinational and national seed companies and national research programs.” This, he added, “has become a primary resource in the fight against MLN regionally.”

Collective pre-emptive actions for prevention: seeds of hope
Participants received hands-on training to identify symptoms of MLN-causing viruses and how to score disease severity by screening germplasm at the site. For some participants, this was a first. “This is my first time to see an MLN-infected plant. Now I understand the impact of MLN on maize production and the need to set up a seed regulatory facility. South Sudan has no laboratory to test planting materials. My first step will be to talk to my counterparts in the ministry to set up one,” said Taban James, a regulator from the Ministry of Agriculture in South Sudan.

CIMMYT staff demonstrate DAS–ELISA method used for detecting MLN-causing viruses.

The tragic reality is that almost all commercial maize varieties in East Africa are highly susceptible to MLN, based on evaluations done at the screening facility. Therefore, stronger diagnostic and sampling capacity at common border-points was agreed to be a key step towards controlling inadvertent introduction of MLN through contaminated seeds. This was particularly important for participants from southern Africa countries who noted an urgent need for surveillance at seed import ports and border areas to contain the spread.

Currently, Kenya, Uganda and Zimbabwe are the only countries that require imported seed to be certified as free of MLN-causing viruses. KEPHIS and CIMMYT have worked closely to restrict movement of germplasm from Kenya to countries in East Africa with reported MLN cases. Seed production fields are inspected thrice by KEPHIS, in addition to analysis of final seed lots. Plans are underway for CIMMYT in collaboration with the ministries of agriculture in Mexico and Zimbabwe to establish quarantine sites to ease germplasm movement in and out of these countries. Speaking on KEPHIS’ role, Francis Mwatuni, the officer-in-charge of Plant Quarantine and Biosecurity Station said, “We ensure all seed fields are inspected and samples tested for MLN resistance including local and imported seed lots from seed companies, to ensure that farmers get MLN-free seeds.”

The latest trends and options for diagnostics on MLN-causing viruses were covered as well, giving participants hands-on training using ELISA diagnostics systems. They were also briefed on polymerase chain reaction based diagnostics and the latest lateral flow diagnostic kits that are under development that will enable researchers to obtain diagnostic results in the field in minutes.

What next for MLN?
The rapid multiplication of the disease coupled with uncertainties over its spread is the biggest hurdle that scientists and other stakeholders are grappling with. KALRO Chief Researcher, Anne Wangai, who played a key role in discovering the disease in Kenya in 2011 observes that “The uncertainties over the transmission of MLN is a worrying phenomenon that requires stakeholders to urgently find a control point to manage and ensure seeds being given to farmers are MLN-free.”

Breeding remains a key component in the search for long-term solution for MLN, and several milestones have been covered to develop MLN-resistant varieties in East Africa. “CIMMYT has developed five hybrids with good MLN tolerance under artificial inoculation, which have either been released or recommended for release in Kenya, Uganda and Tanzania. Thirteen hybrids are currently under national performance trials in the three countries,” noted Mosisa Regasa, a maize seed system specialist at CIMMYT. He further added that it is critical for the MLN-tolerant hybrids to also have other traits important to farmers, so farmers accept these new hybrids.

Open information sharing forums like the diagnostics workshop are an important step to raise awareness and seek solutions to manage the disease. Sharing best practice and lessons learnt in managing the disease are major steps towards curbing MLN. In pursuit of this end, a major international conference on MLN opens next week.

Links: Slides from the workshop | Workshop announcement |Open call for MLN screening – May 2015

Two-wheeled tractors key to smallholder mechanization in Africa

Written by on April 28, 2015. Posted in News.

The Farm Mechanization and Conservation Agriculture for Sustainable Intensification (FACASI) project held its second review and planning meeting, as well as mid-term review, during a five-day event in Hawassa, Ethiopia. This was followed by country site visits by the review team.

“The goal of FACASI is to improve farm power balance, reduce labor drudgery and minimize biomass trade-offs in eastern and southern Africa through accelerated delivery and adoption by smallholders of two-wheeled tractor (2WT)-based technologies,” said J.C. Achora, Knowledge and Information Manager, African Conservation Tillage Network. The meeting highlighted the importance of 2WT technologies to smallholders through five field visits, consisting of a youth community project, a vocational youth training institution, government research centers and manufacturing plants.

“Opportunities for use of two-wheeled tractors exist,” said Achora. “New projects coming up will ignite the demand for the two-wheeled tractors, and could trigger an increase in imports and manufacturing in Africa. Perhaps not too far in the future two-wheeled tractors could be the stepping stone to smallholder farm mechanization in Africa.”

FACASI participants learned and shared experiences on small-scale agricultural machinery, specifically the two-wheeled tractor, in diverse environments. Participants observed and drew lessons from services that support small-farm mechanization and associated business models.

Other places visited included the Hawassa research station for demonstrations of seeders and multi-use shellers and threshers, the Ato Tibebe Selemon Metal works, and the Selam Hawassa Business and Vocational College, which provides disadvantaged youth with practical training in metal fabrication and assembly and electrical installations. The last visit was to the Metals and Engineering Corporation (METEC), which integrates engineering into machines and installs industrial facilities.

Ethiopian seed companies express interest in QPM, seek CIMMYT support

Written by on April 28, 2015. Posted in News.

QPM seed production management training in progress. Photos: S. Mahifere/CIMMYT

Managers of private and public seed companies in Ethiopia have expressed interest to produce and broadly market quality protein maize (QPM) seed, provided that they get technical and other necessary support from the Nutritious Maize for Ethiopia (NuME) project.

The managers attended a three-day workshop on Seed Business Management organized by NuME from March 23–25 in Addis Ababa, Ethiopia. The training was aimed at improving the capacity of seed companies to produce QPM seed at the required quantity and quality for the sustainable adoption of QPM.

Ms. Elsa Asfaha (right), Manager, Alamata Agroprocessing, receives her certificate from Tafesse Gebru (middle), the Chief Executive Officer of the Ethiopian Seed Enterprise, while Adefris Teklewold (left), NuME project leader, looks on.

In his keynote address, Dr. Adugna Wakjira, the Deputy Director General of the Ethiopian Institute of Agricultural Research, noted that “many challenges are involved in seed production and delivery systems and it is thus critical that seed companies, both public and private, enhance their capacities to engage in the QPM value chain.”

Adefris Teklewold, NuME project leader, briefed participants about the project and its many accomplishments so far and pledged that “NuME will do all it can to address challenges faced by seed companies in producing QPM seed.”

“All issues and concerns in the seed value chain need to be considered, including seed quality, branding as well as maize lethal necrosis,” Adefris noted.

CIMMYT appoints a new regional representative for Africa

Written by on April 24, 2015. Posted in News.

Stephen Mugo	CIMMYT has appointed Stephen Mugo as the new CIMMYT–Africa Regional Representative (CRR) and the CIMMYT–Kenya Country Representative (CCR). He takes over these two roles from the late Wilfred Mwangi, who served CIMMYT for 27 years, the last of them as Africa Regional Liaison Officer before his demise in December 2014. Mugo brings to the position 32 years of experience in agricultural research, 17 of them in service to CIMMYT under different capacities, including his current role as CIMMYT’s leader in the Water Efficient Maize for Africa (WEMA) Project.
Bekele Abeyo	CIMMYT has two other offices in Africa: the Ethiopia country office with Bekele Abeyo as the CIMMYT–Ethiopia Country Representative (CCR), and the Zimbabwe country office with Mulugetta Mekuria as CCR. Mulugeta also doubles as the Southern Africa Sub-Regional Representative.Together, Stephen Mugo, Bekele Abeyo and Mulugetta Mekuria serve as the CIMMYT contact persons in Africa for donors and governments, and they oversee regional and local office operations.
Mulugetta Mekuria	CIMMYT has 200 staff based in Africa, of whom one-third are internationally recruited and two-thirds are locally recruited. CIMMYT executes nearly 40 percent of its regional targeted activities in Africa. These activities are in collaboration with partners in 24 countries, besides other sister CGIAR centers.
B.M. Prasanna	CIMMYT’s overall research oversight is managed globally through five research programs – the Genetic Resources Program (led by Kevin Pixley, based in Mexico), the Global Maize Program (led by B.M. Prasanna, based in Kenya), the Global Wheat Program (led by Hans Braun, based in Mexico), the Conservation Agriculture Program (led by Bruno Gerard, based in Mexico) and the Socioeconomics Program (led by Olaf Erenstein, based in Mexico).

Link: Our work in Africa

Inspired and inspiring lady, Lindiwe Majele Sibanda, leaving CIMMYT Board

Written by on April 16, 2015. Posted in News.

Dr. Lindiwe Majele Sibanda is one of Africa’s leading advocates for food and nutrition security. As chief executive officer and head of mission of the Africa-wide Food, Agriculture and Natural Resources Policy Analysis Network (FANRPAN), aimed at making Africa a food-secure region, she coordinates policy research and advocacy programs. She joined the CIMMYT Board in 2009 and will finish her appointment this month.

Upon awarding her a plaque in appreciation of her many contributions on 14 April, during the recent Board meetings in El Batán, Mexico, Board Chair Prof. John Snape called Sibanda, who grew up on a farm in Zimbabwe, an important voice on the Board. “She brought her views on African smallholder farmers and is well respected throughout the development world,” Snape said. “Her critical insights for CIMMYT governance, based on balanced and positive perspectives regarding the Center’s research-for-development agenda and the CGIAR, were always highly appreciated.”

Sibanda has long followed and supported CIMMYT’s work. We hope she will continue to do so through FANRPAN and her other numerous endeavors, and thank her and wish her well!

CIMMYT welcomes new board members

Written by on April 16, 2015. Posted in Features.

CIMMYT Board of Trustees April 2015 — Photo credit: CIMMYT

How are New Board Members Appointed?

CIMMYT’s Board of Trustees is composed of 13 experts appointed in their individual capacity and not as a representative of any outside entity.

The process to appoint new members to the Board is conducted by the Nominations Committee, whose sole duty is to ensure a mix of skills on the Board at any one time, based on a skills matrix of CIMMYT’s required expertise. As a result, the Board will represent expertise in science (CIMMYT’s key areas of research), finance, audit, risk management, governance, international partnerships and gender and diversity. Board members are also appointed with consideration of their geographical origins. Each member is appointed for a three-year term, with a maximum limit of two terms.

The chair of the Nominations Committee leads the search for new Board members. This is done through a referencing system, rather than a formal and advertised search. Prospective candidates are approached formally and then interviewed by the Board. Newly-appointed Board members undergo an induction program conducted by CIMMYT and the CGIAR and attend their first meeting as an observer.

Dr. Feng Feng

Dr. Feng is currently the director of the Chinese Bureau of International Cooperation, NSFC. He is responsible for developing international cooperation channels with foreign partners, making policy for international research cooperation in NSFC, and setting the budget for the different research areas for international cooperation. He received his B.Sc. in plant genetics and breeding, and M.Sc. and Ph.D. in plant pathology from the Agricultural University of China.

Dr. Luis Fernando Flores Lui

Dr. Flores Lui is General Director of the Mexican Institute of Forestry, Agriculture, and Livestock (INIFAP). Over the last 25 years he has held numerous positions within the organization. At an international level he has coordinated the biotechnology group at the Asia-Pacific Council (APEC); worked with the Japan International Cooperation Agency (JICA); and has taught undergraduate and graduate courses in different universities. He received his B.Sc. in Agricultural Engineering from the Antonio Narro Agrarian Autonomous University, his M.Sc. from Irrigation Water Use and Management in 1974 from the Monterrey Institute of Technology and Higher Education and his Ph.D in Soil Sciences from the University of California, Davis.

Dr. Raul Obando Rodriguez — Photo credit: INIFAP

Dr. Raúl Gerardo Obando Rodríguez
Dr. Rodriguez is the Coordinator for Research and Innovation at the National Institute of Forestry, Agriculture and Livestock (INIFAP). He is an Agricultural Engineer by trade with a PhD in Plant Nutrition at the University of California, Davis. He has held various positions in in INIA, INIFAP, the National Coordinator of the Produce Foundation (COFUPRO), the National System for Research and Technology Transfer (SNITT) and the Graduate College (COLPOS), to name a few.

Bongiwe Nomandi Njobe

Bongiwe Njobe is Executive Director (founder and sole proprietor) of ZA NAC Consulting and Investments. Over the past 20 years she has held numerous positions in the Fast Moving Consumer Goods Sector (FMCG) sector and the Agricultural Public Sector including Group Executive: Corporate Sustainability at Tiger Brands Limited, Corporate Affairs Director at South African Breweries Limited and Director General at the South African National Department of Agriculture. She currently serves as a Director on the Vumelana Advisory Fund, Independent Board Member on the Regional Universities Forum for Capacity Building in Agriculture (RUFORUM) and as a Trustee at the Kagiso Trust. She is also a member of the High Level Advocacy Panel for the Forum for Agricultural Research in Africa (FARA) and a member of the Institute of Directors (Southern Africa) Sustainability Development Forum.

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.”

Mother-baby trials promote conservation agriculture in Manica, Mozambique

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

A testament to increased climate variability and risk for farming systems already operating on the razor’s edge, the 2014-15 cropping season will be recognized as a sad write-off by most farmers in Central Mozambique. The rains started six weeks late and most of the rainfall fell in only two months (normally it’s distributed over four), followed by a long drought and some few showers at the end.

But with funds from the CGIAR Research Program on Maize, partners from the Instituto de Investigação Agrária de Moçambique (IIAM) and CIMMYT are working with farmers in Manica Province, Mozambique, to test and promote conservation agriculture practices that better capture and retain precious precipitation, among other advantages.

As part of this, they have revived “mother-baby” trials, a participatory methodology pioneered over a decade ago by CIMMYT for testing drought tolerant maize in Africa and which was subsequently adapted for diverse agronomic practices and is used by researchers worldwide.

Drought-stricken maize: For most farmers around Machipanda village, Manica Province, Mozambique, the situation this season is bleak, auguring complete crop failure or a harvest of a few small maize cobs. Photos: CIMMYT

Comprising field experiments grown in farming communities, mother-baby trials feature a centrally-located mother trial that is set up with researchers’ support. Baby trials, which contain subsets of the mother-trial treatments, are grown, managed and evaluated by interested farmers.

Moving from “business as usual” to innovation

In Machipanda, a small village in Manica on the border with Zimbabwe, IIAM maize breeder Dr. David Mariote established three mother trials, each with two conservation agriculture-based systems and a conventional control plot, combined with four maize varieties from the Drought Tolerant Maize for Africa (DTMA) project, which is funded by the Bill & Melinda Gates Foundation, and a traditional variety, in full rotation with cowpeas.

Farmers then put up the baby trials from a menu of practices that included direct seeding with no tillage, crop rotations, residue retention, herbicide applications, fertilizer use and improved varieties. Interest was high: 54 farmers grew baby trials and some even extended their plots beyond the designated areas, in the excitement of trying something new, according to Mariote.

“Conditions are changing fast; business as usual is no longer an option,” Mariote said. “We have to offer improved technologies that farmers can use to mitigate negative effects from climate change and improve their lives.”

Mariote witnessed first-hand the synergistic benefits of combining conservation agriculture and drought tolerant maize, as part of work in the Platform on Agriculture Research and Technology Innovation (PARTI), a project funded through the US Agency for International Development (USAID) via Feed the Future and implemented by CIMMYT in Central and northern Mozambique.

IIAM researcher David Mariote (right) with farmers of Manica Province, Mozambique.

With training from CIMMYT’s global maize program and technical backstopping from the CIMMYT global conservation agriculture program, Mariote sought new and stronger ways to spread these technologies. That’s when he hit upon mother-baby trials, which had never been used before with drought tolerant maize and conservation agriculture in tandem.

Farmers who grew baby trials unanimously agreed that new ways of farming are needed and that the trials had been eye-openers. In a community meeting, some said: “We often do not have money to buy expensive fertilizers but we have seen that with good agronomic practices and good maize varieties we can already increase our maize yields.”

More farmers in Machipanda have signed up for future baby trials and, as a clear indication of commitment and excitement about conservation agriculture and improved maize, they will use their own inputs to grow them.

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.

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.

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.