Location: Rwanda

A community health worker in Rwanda talks to people on hygiene and the importance of a balanced diet, as part of the SUSTAIN project. (Photo: CIP)

Millions at lower risk of vitamin A deficiency after six-year campaign to promote orange-fleshed sweet potato

Written by Rodrigo Ordóñez on June 13, 2019. Posted in Press releases.

STOCKHOLM, Sweden — Millions of families in Africa and South Asia have improved their diet with a special variety of sweet potato designed to tackle vitamin A deficiency, according to a report published today.

A six-year project, launched in 2013, used a double-edged approach of providing farming families with sweet potato cuttings as well as nutritional education on the benefits of orange-fleshed sweet potato.

The Scaling Up Sweetpotato through Agriculture and Nutrition (SUSTAIN) project, led by the International Potato Center (CIP) and more than 20 partners, reached more than 2.3 million households with children under five with planting material.

The project, which was rolled out in Kenya, Malawi, Mozambique and Rwanda as well as Bangladesh and Tanzania, resulted in 1.3 million women and children regularly eating orange-fleshed sweet potato when available.

“Vitamin A deficiency (VAD) is one of the most pernicious forms of undernourishment and can limit growth, weaken immunity, lead to blindness, and increase mortality in children,” said Barbara Wells, director general of CIP. “Globally, 165 million children under five suffer from VAD, mostly in Africa and Asia.”

“The results of the SUSTAIN project show that agriculture and nutrition interventions can reinforce each other to inspire behavior change towards healthier diets in smallholder households.”

Over the past decade, CIP and partners have developed dozens of biofortified varieties of orange-fleshed sweet potato in Africa and Asia. These varieties contain high levels of beta-carotene, which the body converts into vitamin A.

Just 125g of fresh orange-fleshed sweet potato provides the daily vitamin A needs of a pre-school child, as well as providing high levels of vitamins B6 and C, manganese and potassium.

Under the SUSTAIN project, families in target communities received nutritional education at rural health centers as well as cuttings that they could then plant and grow.

For every household directly reached with planting material, an additional 4.2 households were reached on average through farmer-to-farmer interactions or partner activities using technologies or materials developed by SUSTAIN.

The project also promoted commercial opportunities for smallholder farmers with annual sales of orange-fleshed sweet potato puree-based products estimated at more than $890,000 as a result of the project.

Two women sort orange-fleshed sweet potato in Faridpur district, Bangladesh. (Photo: Sara Quinn/CIP)

Perspectives from the Global South

The results of the initiative were published during the EAT Forum in Stockholm, where CGIAR scientists discussed the recommendations of the EAT-Lancet report from the perspective of developing countries.

“The SUSTAIN project showed the enormous potential for achieving both healthy and sustainable diets in developing countries using improved varieties of crops that are already widely grown,” said Simon Heck, program leader, CIP.

“Sweet potato should be included as the basis for a sustainable diet in many developing countries because it provides more calories per hectare and per growing month than all the major grain crops, while tackling a major nutrition-related health issue.”

At an EAT Forum side event, scientists highlighted that most food is grown by small-scale producers in low- and middle-income countries, where hunger and undernutrition are prevalent and where some of the largest opportunities exist for food system and dietary transformation.

“There are almost 500 million small farms that comprise close to half the world’s farmland and are home to many of the world’s most vulnerable populations,” said Martin Kropff, director general of the International Maize and Wheat Improvement Center (CIMMYT).

“Without access to appropriate technologies and support to sustainably intensify production, small farmers — the backbone of our global food system — will not be able to actively contribute a global food transformation.”

Matthew Morell, director general of the International Rice Research Institute (IRRI), added: “If the EAT-Lancet planetary health diet guidelines are to be truly global, they will need to be adapted to developing-world realities — such as addressing Vitamin A deficiency through bio-fortification of a range of staple crops.

“This creative approach is a strong example of how to address a devastating and persistent nutrition gap in South Asia and Africa.”

This story is part of our coverage of the EAT Stockholm Food Forum 2019.
See other stories and the details of the side event in which CIMMYT is participating.

For more information or interview requests, please contact:

Donna Bowater
Marchmont Communications
donna@marchmontcomms.com
+44 7929 212 434

The International Potato Center (CIP) was founded in 1971 as a research-for-development organization with a focus on potato, sweet potato and Andean roots and tubers. It delivers innovative science-based solutions to enhance access to affordable nutritious food, foster inclusive sustainable business and employment growth, and drive the climate resilience of root and tuber agri-food systems. Headquartered in Lima, Peru, CIP has a research presence in more than 20 countries in Africa, Asia and Latin America. CIP is a CGIAR research center. www.cipotato.org

CGIAR is a global research partnership for a food-secure future. CGIAR science is dedicated to reducing poverty, enhancing food and nutrition security, and improving natural resources and ecosystem services. Its research is carried out by 15 CGIAR centers in close collaboration with hundreds of partners, including national and regional research institutes, civil society organizations, academia, development organizations and the private sector. www.cgiar.org

Delegates of the meeting organized by CIMMYT and ASARECA pose for a group photo. (Photo: Jerome Bossuet)

Conservation agriculture works for farmers and for sustainable intensification

Written by Jérôme Bossuet on May 30, 2019. Posted in Features.

The International Maize and Wheat Improvement Centre (CIMMYT) and the Association for Strengthening Agricultural Research in Eastern and Southern Africa (ASARECA) gathered agriculture leaders, experts, ministers and permanent secretaries from 14 countries in the region May 2-4, 2019 in Kampala, Uganda. These experts reflected on the lessons learned from the eight year-long Sustainable Intensification of Maize and Legumes farming systems in Eastern and Southern Africa (SIMLESA) project, funded by the Australian Centre for International Agricultural Research (ACIAR).

During this regional SIMLESA policy forum, ministers of agriculture signed a joint communiqué calling for mainstreaming conservation agriculture practices and enabling sustainable intensification of African agriculture, in response to the ongoing agroecological crisis and fast-growing population.

The minister of agriculture, animal industry and fisheries of Uganda, Vincent Ssempijja, reminded that “Africa is paying a high price from widespread land degradation, and climate change is worsening the challenges smallholder farmers are facing.” Staple crop yields are lagging despite a wealth of climate-smart technologies like drought-tolerant maize varieties or conservation agriculture.

“It is time for business unusual,” urged guest speaker Kirunda Kivejinja, Uganda’s Second Deputy Prime Minister and Minister of East African Affairs.

Research conducted by CIMMYT and national partners in Ethiopia, Kenya, Malawi, Mozambique, Rwanda, Tanzania and Uganda under the SIMLESA project provided good evidence that sustainable intensification based on conservation agriculture works — it significantly increased food crop yields, up to 38%, as well as incomes, while sustainably preserving soil health.

In Malawi, where conservation agriculture adoption rose from 2% in 2011 to 35% in the 2017/18 season, research showed increases in water infiltration compared to the conventional ridge-and-furrow system of up to 90%, while soil organic carbon content increased by 30%. This means that soil moisture is better retained after rainfall, soil is more fertile, and plants grow well and cope much better during dry spells.

The SIMLESA project revealed that many farmers involved in CIMMYT research work, like Joseph Ntirivamunda in Rwanda, were interested in shifting towards more sustainable intensification practices. However, large-scale adoption still faces many hurdles.

“You cannot eat potential,” pointed out CIMMYT scientists and SIMLESA project leader Paswel Marenya. “The promise of conservation agriculture for sustainable intensification needs to be translated into more food and incomes, for farmers to adopt it widely.”

CIMMYT's director general Martin Kropff (left) greets Uganda's second deputy prime minister, Kirunda Kivejninja. (Photo: Jerome Bossuet) — CIMMYT’s director general Martin Kropff (left) greets Uganda’s second deputy prime minister, Kirunda Kivejninja. (Photo: Jerome Bossuet)

The scale conundrum

Farmers’ linkages to markets and services are often weak, and a cautious analysis of trade-offs is necessary. For instance, more research is needed about the competing uses of crop residues for animal feed or soil cover.

Peter Horne, General Manager for ACIAR’s global country programs, explained that science has an important role in informing policy to drive this sustainable transformation. There are still important knowledge gaps to better understand what drives key sustainable farming practices. Horne advised to be more innovative than the traditional research-for-development and extension approaches, involving for instance the private sector.

Planting using a hoe requires 160 hours of labor per hectare. A two-wheel tractor equipped with a planter will do the same work in only 3 hours.

One driver of change that was stressed during the Kampala forum was the access to appropriate machinery, like the two-wheel tractor equipped with a direct planter. While hoe planting requires 160 hours of labor per hectare, the planter needs only 3 hours per hectare, enabling timely planting, a crucial factor to respond effectively to the increased vagaries of the weather and produce successful harvests. While some appropriate mechanization options are available at the pilot stage in several African countries like Ethiopia or Zimbabwe, finding the right business models for service provision for each country is key to improve access to appropriate tools and technologies for smallholder farmers. CIMMYT and ACIAR seek to provide some answers through the complementary investments in the Farm Mechanization and Conservation Agriculture for Sustainable Intensification (FACASI) project.

CASI can be scaled but requires tailoring sustainable intensification agronomic advices adapted to local environment and farming systems. Agricultural innovation platforms like the Mwanga mechanization youth group in Zimbabwe are one way to co-create solutions and opportunities between specific value chain actors, addressing some of the constraints farmers may face while implementing conservation agriculture practices.

Providing market incentives for farmers has been one challenging aspect, which may be overcome through public-private partnerships. Kilimo Trust presented a new consortium model to drive sustainable intensification through a market pull, linking smallholder farmers with food processors or aggregators.

“SIMLESA, as a long-term ambitious research program, has delivered remarkable results in diverse farming contexts, and conservation agriculture for sustainable intensification now has a more compelling case,” said Eric Huttner, ACIAR research program manager. “We should not ignore the complexity of conservation agriculture adoption, as shifting to new farming practices brings practical changes and potential risks for farmers, alongside benefits,” he added. As an immediate step, Huttner suggested research to define who in the public and private sectors is investing and for what purpose — for example, access to seed or machinery. Governments will also need further technical support to determine exactly how to mainstream conservation agriculture in future agricultural policy conversations, plans and budgets.

“Looking at SIMLESA’s evidence, we can say that conservation agriculture works for our farmers,” concluded Josefa Leonel Correia Sacko, Commissioner for Rural Economy and Agriculture of the African Union. During the next African Union Specialized Technical Committee in October 2019, she will propose a new initiative, scaling conservation agriculture for sustainable intensification across Africa “to protect our soils and feed our people sustainably.”

Josefa Leonel Correia Sacko, Commissioner for Rural Economy and Agriculture of the African Union, speaks at the SIMLESA regional forum. (Photo: Jerome Bossuet)

Winners of the 2019 MAIZE Youth Innovators Awards – Africa receive their awards at the STMA meeting in Lusaka, Zambia. From left to right: Admire Shayanowako, Blessings Likagwa, Ismael Mayanja and Hildegarde Dukunde. Fifth awardee Mila Lokwa Giresse not pictured. (Photo: J.Bossuet/CIMMYT)

Winners of 2019 MAIZE Youth Innovators Awards – Africa announced

Written by Rodrigo Ordóñez on May 16, 2019. Posted in Press releases.

LUSAKA, Zambia (CIMMYT) – The CGIAR Research Program on Maize (MAIZE) officially announced the winners of the 2019 MAIZE Youth Innovators Awards – Africa at an awards ceremony held on May 9, 2019, in Lusaka, Zambia. These awards recognize the contributions of young women and men under 35 to innovation in African maize-based agri-food systems, including research for development, seed systems, agribusiness, and sustainable intensification. The awards, an initiative of MAIZE in collaboration with Young Professionals for Agricultural Research and Development (YPARD), were offered in three categories: farmer, change agent, and researcher.

The MAIZE Youth Innovators Awards aim to identify young innovators who can serve to inspire other young people to get involved in maize-based agri-food systems. This is the second year of the award, which was launched in 2018 with a first cohort of winners from Asia. Part of the vision is to create a global network of young innovators in maize based systems from around the world.

2019 award recipients were invited to attend the Stress Tolerant Maize for Africa (STMA) project meeting in Lusaka, May 7-9, where they had the opportunity to present their work. The project meeting and award ceremony also allowed these young innovators to network and exchange experiences with MAIZE researchers and partners. Looking forward, award recipients may also get the opportunity to collaborate with MAIZE and its partner scientists in Africa on implementing or furthering their innovations.

This year’s five awardees are:

Hildegarde Dukunde (Rwanda) – Category: Change Agent

Dukunde is a graduate in Human Nutrition and serves as a Sales Associate for Agrifood Business Consulting Ltd. She has been at the forefront of preventing aflatoxin contamination in Rwanda by helping smallholder farmers to access low-cost post-harvest equipment, namely DryCard™ and Purdue Improved Crop Storage (PICS) bags. The DryCard™ is an inexpensive device developed by University of California Davis researchers for determining if dried food is dry enough to prevent mold growth and aflatoxin contamination during storage and reducing post-harvest losses.

Mila Lokwa Giresse (Democratic Republic of the Congo) – Category: Change Agent

Giresse is the CEO of Mobile Agribiz. This company develops the Mobile Agribiz App, an innovative tool to enhance the pest and disease diagnostics of fall armyworm in maize. It uses artificial intelligence and machine learning to easily detect the pest across maize crops at any stage of the production cycle. The app aims to assist farmers, extension workers, and agribusinesses in democratic republic of Congo with early detection and accurate diagnosis. Through SMS and smart alert notifications, the Mobile Agribiz App provides farmers with constant reminders and real-time information on how to detect, manage, and address fall armyworm on maize.

Blessings Likagwa (Malawi) – Category: Farmer

Likagwa lives in Mtunthama, Malawi, where he works on his family’s farm. From a young age he has had an interest in farming and for the past eight years he has been involved in growing a variety of crops, especially maize and cassava. In the future he hopes to use his bachelor’s degree in Community Development and his interest in technology to help smallholder farmers in Malawi and Eastern Africa adapt to the challenges of climate change and rapid population growth. Since 2018, in collaboration with UNICEF and Kyoto University, he has investigated how drone technology can improve agricultural performance and benefit Malawi’s smallholders.

Ismael Mayanja (Uganda) – Category: Researcher

Mayanja is a 2019 graduate of Makerere University with a Bachelor of Science degree in Agricultural Engineering. He is currently assisting research at Makerere University to ascertain and quantify post-harvest losses associated with transportation of agricultural produce in the markets of Kampala district, Uganda. His primary research interest lies in post-harvest handling and technology, motivated by the reported 40% post-harvest loss of agricultural produce by farmers in sub-Saharan Africa. He developed a bicycle-powered maize cleaning machine to increase efficiency and reduce time dedicated to cleaning maize at several primary schools in Uganda.

Admire Shayanowako (Republic of South Africa) – Category: Researcher

Shayanowako is a researcher at the African Centre for Crop Improvement (ACCI) – University KwaZulu-Natal. His research focuses on the parasitic weed Striga, also known as witch weed, which causes severe crop losses to millions of small-scale African maize farmers. The goal of the project is to combine breeding for Striga resistance in maize with a soil fungus, Fusarium oxysporum f.sp. strigae (FOS) that is highly specific in its pathogenicity to Striga and acts as a biological control agent. The breeding approach aims to develop at least partial host resistance in open pollinated maize germplasms that are adapted to the semi-arid regions. When partial host resistance is augmented with biological control agent FOS, parasitic effects of Striga decline overwhelmingly. Currently, the breeding component of the research has embarked on identification of quantitative trait locus (QTL) controlling Striga resistance in maize through genomic based approaches.

For further information, contact:

Jennifer Johnson
Communications Officer, CGIAR Research Program on Maize (MAIZE)
Telephone: +52 (55) 5804 2004 ext. 1036
Email: j.a.johnson@cgiar.org

Book launch: Lead farmers in eastern and southern Africa

Written by Carolyn Cowan on May 8, 2019. Posted in News. 1 Comment on Book launch: Lead farmers in eastern and southern Africa

Tackling the challenges of climate change and increasing scarcity of resources like arable land and water requires that farming and food systems around the world undergo fundamental shifts in thinking and practices. A new book draws on experiences of men and women farmers across eastern and southern Africa who have been associated with the Sustainable Intensification of Maize-Legume Systems for Food Security in Eastern and Southern Africa (SIMLESA) project. The inspiring and moving accounts tell the story of how these farmers have bravely embraced change to improve their farming methods and consequently the lives and livelihoods of their families.

The maize-growing regions of southern and eastern Africa face many challenges, including lower than average yields, crop susceptibility to pests and diseases, and abiotic stresses such as droughts that can be frequent and severe. There is also widespread lack of access to high-yielding stress resilient improved seed and other farming innovations, presenting a need for scalable technologies, adapted to farmers’ growing conditions.

Maize is the most important staple crop in the region, feeding more than 200-300 million people across Africa and providing food and income security to millions of smallholder farmers. Prioritization of cost reducing, yield enhancing and resource conserving farming methods is vital to catalyze a shift towards sustainable and resilient maize agri-food systems. Conservation agriculture (CA) is one promising approach.

Launched in 2010, SIMLESA is led by the International Maize and Wheat Improvement Center (CIMMYT) and funded by the Australian Center for International Agricultural Research (ACIAR). The project supports farmers and partner organizations to achieve increased food production while minimizing pressure on the environment by using smallholder farmers’ resources more efficiently through CA approaches. SIMLESA is implemented by national agricultural research systems, agribusinesses and farmers in partner countries including, Ethiopia, Kenya, Malawi, Mozambique, Rwanda, Tanzania and Uganda.

The farmers’ words in this book drive home the core philosophy of SIMLESA: that critical paradigm shifts in smallholder farming are possible and can lead to positive and potentially lasting impacts.

The candid accounts of the benefits yielded from adopting new practices like CA are a testimony to this idea: “Now we have seen with our own eyes these new methods are beneficial, and we want to continue what we are doing….my field is a school where others can learn,” said Maria Gorete, a farmer in Mozambique.

Policy makers and scientists from eastern and southern Africa met in Uganda at a regional forum convened by the Association for Strengthening Agricultural Research in Eastern and Central Africa (ASARECA), on 3-4 May 2019. The forum discussed ways to scale up the learnings of SIMLESA and a joint communique recommending policy actions was signed by the Ministers of Agriculture of the Republic of Burundi, the Republic of the Congo, the Democratic Republic of Congo, the State of Eritrea, the Federal Democratic Republic of Ethiopia, the Republic of Kenya, the Republic of Madagascar, the Republic of Rwanda, the Republic of South Sudan, the Republic of the Sudan, the United Republic of Tanzania, the Republic of Uganda, the Republic of Malawi and the Republic of Mozambique of the high level Ministerial Panel on Sustainable Intensification of Maize-Legume Cropping Systems for Food Security in Eastern and Southern Africa (SIMLESA).

A farmer's field in Malawi under conservation agriculture, showing rotation of maize and groundnut, and the retention of crop residues. (Photo: T. Samson/CIMMYT)

CIMMYT and Clinton Foundation launch partnership to improve access to climate-resilient maize seed in eastern and southern Africa

Written by Rodrigo Ordóñez on April 22, 2019. Posted in Press releases. 1 Comment on CIMMYT and Clinton Foundation launch partnership to improve access to climate-resilient maize seed in eastern and southern Africa

NEW YORK and TEXCOCO, Mexico — Working together to improve access to and availability of climate-resilient maize varieties in eastern Africa, the Clinton Foundation and the International Maize and Wheat Improvement Centre (CIMMYT) are launching a partnership that will not only improve access by smallholder farmers to modern maize varieties but also aim to bolster food security in Malawi, Rwanda and Tanzania. The Clinton Foundation is launching this partnership through the Clinton Development Initiative, which works in the region to improve economic opportunity for farmers through better access to markets, technology, and inputs like seeds and fertilizer.

Farmers in eastern and southern Africa face obstacles in agricultural production with little to no access to formal markets. Improvement in yields are often made more difficult as a result of erratic weather patterns from climate change and limited access to improved seed varieties and quality inputs. Farmers also lack access to information about prices and market opportunities for their crops, making it harder for them to produce and sell.

“Farmers in eastern and southern Africa face increasing threats to their livelihoods, including drought, insect-pests, and diseases. This partnership will improve farmers’ access to modern crop varieties, the quality of their crops, opportunities to market the produce, and food security for their families,” explained Ariana Constant, Director of the Clinton Development Initiative. “We are working together to provide farmers with heat- and drought-tolerant maize seeds to grow stronger, healthier crops and to help reduce the negative impacts of climate shocks.”

Collaboration between the Clinton Foundation and CIMMYT is a natural fit. CIMMYT’s history of creating improved planting materials combined with the Clinton Foundation’s extensive network of trained farmers will support increases in both crop yield and quality. The partnership will also boost production and offset the negative impact of climate-induced stresses. The seed varieties are all non-GMO, in keeping with regulations across Malawi, Rwanda, and Tanzania.

“We are thrilled to join the Clinton Foundation in supporting smallholder farmers in eastern Africa. Our commitment is to effectively deploy improved maize varieties, including drought- and heat-tolerant and disease-resistant varieties available to the Clinton Foundation’s network of farmers,” said Prasanna Boddupalli, director of CIMMYT’s Global Maize Program and the CGIAR Research Program on Maize. “Beyond providing improved maize seeds, we will also collaboratively undertake varietal trials in farmers’ fields, track genetic gains in farmers’ fields over time, and share the findings with the broader agricultural community in eastern and southern Africa”, Prasanna said.

The Clinton Foundation has a strong track record of generating steady returns for farmers in the region. In Tanzania, farmers working with the Clinton Development Initiative for every $1 spent on operations has generated $3.80 in additional income for smallholder farmers in Rwanda.

“Today, thanks to our partnership with CIMMYT, we hope to increase yields and quality of maize crop production for our farmers even further. This means helping farmers to take a sustainable, scalable and transformative approach to production,” said Ariana Constant.

To learn more about the Clinton Development Initiative, please visit https://www.clintonfoundation.org/our-work/clinton-development-initiative. For more information about CIMMYT, please visit https://staging.cimmyt.org/.

About CIMMYT

CIMMYT – the International Maize and Wheat Improvement Center – is the global leader in publicly-funded maize and wheat research and related farming systems. Headquartered near Mexico City, CIMMYT works with hundreds of partners throughout the developing world to sustainably increase the productivity of maize and wheat cropping systems, thus improving global food security and reducing poverty.

CIMMYT is a member of the CGIAR System and leads the CGIAR Research Programs on Maize and Wheat, and the Excellence in Breeding Platform. The Center receives support from national governments, foundations, development banks and other public and private agencies.

About the Clinton Development Initiative

At the inaugural meeting of the Clinton Global Initiative in 2005, President Clinton made a commitment to improve economic growth in Africa. From this commitment, President Clinton began the Clinton Development Initiative (CDI), to help support smallholder farmers and families in Africa to meet their own food needs and improve their livelihoods.

When families are empowered to secure their own food and support themselves financially, communities become more resilient – economies grow, jobs are created, and together, we build a strong foundation for the future.

Media contacts:

CIMMYT: Genevieve Renard, Head of Communications. g.renard@cgiar.org

Clinton Development Initiative: press@clintonfoundation.org

Maize Lethal Necrosis Diagnostics and Prevention of Seed Transmission

Written by Rodrigo Ordóñez on March 29, 2019. Posted in Uncategorized.

This four-year Maize Lethal Necrosis Diagnostics and Prevention of Seed Transmission project will coordinate regional efforts to strengthen response to the rapid emergence and spread of Maize Lethal Necrosis (MLN).

Coordinated by CIMMYT, it will establish a community of practice among national plant protection organizations in eastern Africa for implementing harmonized MLN diagnostic protocols for detecting MLN-causing viruses and enable commercial seed companies to implement necessary standard operational procedures to produce MLN-free clean seed at various points along the maize seed value chain. It will also step-up MLN surveillance and monitoring in Malawi, Zambia and Zimbabwe, three of the major commercial maize seed exporting countries in sub-Saharan Africa.

The MLN project will be implemented in close partnership with the Alliance for a Green Revolution in Africa, the African Agricultural Technology Foundation, national plant protection organizations and commercial seed companies in eastern Africa. It will also pool expertise from relevant public- and private-sector partners, regional organizations, and seed trade organizations operating in the region.

Partners: The Alliance for a Green Revolution in Africa, the African Agricultural Technology Foundation, national plant protection organizations and commercial seed companies in eastern Africa

SIMLESA lead farmer Agnes Sendeza harvests maize cobs from a stook on her farm in Tembwe, Salima district, Malawi. (Photo: Peter Lowe/CIMMYT)

How gender equity and social inclusion are improving the lives of rural families in Africa

Written by Carolyn Cowan on March 7, 2019. Posted in Videos.

Women have the potential to be drivers of agricultural transformation in Africa, holding the key to improving their families’ livelihoods and food security. However, constraints such as lack of access to initial capital, machinery, reliable markets, and knowledge and training are difficult to overcome, leading to restricted participation by women and young people in agricultural systems in Africa.

A new video from the Sustainable Intensification of Maize-Legume Systems for Food Security in Eastern and Southern Africa (SIMLESA) project highlights the importance of gender equity and social inclusion to achieving project impacts and outcomes, helping to drive transformative change towards securing a food-secure future for Africa. Case studies and interviews with women and men farmers — including young people — detail how SIMLESA’s approach has re-shaped their maize-based farming lives.

The video is aligned with the theme for International Women’s Day 2019, “Think Equal, Build Smart, Innovate for Change,” which places the spotlight on innovative ways in which we can advance gender equality and the empowerment of women.

“This video is intended to educate the agricultural community and wider public on the importance of applying sustainable intensification agricultural practices and technologies in order to bridge the gender gap in agricultural productivity and achieve agricultural transformation for smallholder farmers in Africa,” said Rahma Adam, Gender and Development Specialist with CIMMYT in Kenya. “We hope stakeholders will be able to see the benefits of these practices and technologies, and work towards finding ways to implement them into their agricultural practices or programs.”

Launched in 2010, SIMLESA is led by the International Maize and Wheat Improvement Center (CIMMYT) and funded by the Australian Center for International Agricultural Research (ACIAR). It is implemented by national agricultural research systems, agribusinesses and farmers in partner countries including Ethiopia, Kenya, Malawi, Mozambique, Rwanda, Tanzania and Uganda.

Putting equal opportunities at the center

Following a participatory research for development approach, the SIMLESA team works alongside farmers and partner organizations to achieve increased food production while minimizing pressure on the environment by using smallholder farmers’ resources more efficiently and empowering women, men and young people to make decisions.

The SIMLESA project achieves impact by integrating gender sensitivity into all project activities and developing a deep understanding of social contexts and factors that constrain access to, and adoption of, improved technologies. Initiatives are able to reach all individuals in the project’s target communities, leaving no one out.

“The benefits of fostering equal opportunities for women, men and young people through SIMLESA’s work are enormous,” said Adam. Equal opportunities mean better access to information, markets, and improved varieties of seeds; participation in field trials, demonstrations and training; and the provision of leadership opportunities in local innovation platforms.

Central to the success of the SIMLESA project is the concept of Agricultural Innovation Platforms. “Being members of these platforms, farmers can access credits, which they can use to purchase farm inputs,” explained Adam. “They are able to take part in collective marketing and get a better price for their crops. The Agricultural Innovation Platforms also facilitate training on better agribusiness management practices and the sharing of ideas about other productive investment opportunities to better farmers’ lives. All these benefits were hard to come by when the women and youth farmers were farming on their own without being associated to the SIMLESA project or part of the platforms.”

The words of Rukaya Hasani Mtambo, a farmer from Tanzania, are a testimony to the power of this idea. “As a woman, I am leader of our group and head of my household. I always encourage my fellow women, convincing them we are capable. We should not underestimate what we can do.”

To watch the full video, click here.

To watch other videos about the SIMLESA project, click here.

Harvesting wheat at Gataraga, Northern Province, Rwanda.

Smallholder wheat production can cut Africa’s costly grain imports

Written by Mike Listman on February 8, 2019. Posted in News.

International scientists are working with regional and national partners in sub-Saharan Africa to catalyze local wheat farming and help meet the rapidly rising regional demand for this crop.

The specialists are focusing on smallholder farmers in Rwanda and Zambia, offering them technical and institutional support, better links to markets, and the sharing of successful practices across regions and borders, as part of the project “Enhancing smallholder wheat productivity through sustainable intensification of wheat-based farming systems in Rwanda and Zambia.”

“Work started in 2016 and has included varietal selection, seed multiplication, and sharing of high-yielding, locally adapted, disease-resistant wheat varieties,” said Moti Jaleta, a socioeconomist at the International Maize and Wheat Improvement Center (CIMMYT) who leads the project. “Our knowledge and successes in smallholder wheat production and marketing will also be applicable in Madagascar, Mozambique, and Tanzania.”

Maize is by far the number-one food crop in sub-Saharan Africa but wheat consumption is increasing fast, driven in part by rapid urbanization and life-style changes. The region annually imports more than 15 million tons of wheat grain, worth some US$ 3.6 billion at current prices. Only Ethiopia, Kenya, and South Africa grow significant amounts of wheat and they are still net importers of the grain.

“Growing more wheat where it makes sense to do so can help safeguard food security for people who prefer wheat and reduce dependence on risky wheat grain markets,” Jaleta explained. “We’re working in areas where there’s biophysical potential for the crop in rain-fed farming, to increase domestic wheat production and productivity through use of improved varieties and cropping practices.”

In addition to the above, participants are supporting the region’s wheat production in diverse ways:

Recommendations to fine-tune smallholder wheat value chains and better serve diverse farmers.
Testing of yield-enhancing farming practices, such as bed-and-furrow systems that facilitate efficient sowing and better weed control.
Testing and promotion of small-scale mechanization, such as power tillers, to save labor and improve sowing and crop establishment.
Exploring use of hand-held light sensors to precisely calibrate nitrogen fertilizer dosages throughout the cropping season.

Innocent Habarurema, wheat breeder in the Rwanda Agriculture and Animal Resources Development Board (RAB), cited recent successes in the release of improved, disease resistant wheat varieties, as well as engaging smallholder farmers in seed multiplication and marketing to improve their access to quality seed of those varieties.

“The main challenge in wheat production is the short window of time between wheat seasons, which doesn’t allow complete drying of harvested plants for proper threshing,” Habarurema explained. “Suitable machinery to dry and thresh the wheat would remove the drudgery of hand threshing and improve the quality of the grain, so that it fetches better prices in markets.”

*Millers, like this one in Rwanda, play a key role in wheat value chains.*

Critical wheat diseases in Zambia include spot blotch, a leaf disease caused by the fungus Cochliobolus sativus, and head blight caused by Fusarium spp., which can leave carcinogenic toxins in the grain, according to Batiseba Tembo, wheat breeder at the Zambian Agricultural Research Institute (ZARI).

“Developing and disseminating varieties resistant to these diseases is a priority in the wheat breeding program at Mt. Makulu Agricultural Research Center,” said Tembo. “We’re also promoting appropriate mechanization for smallholder farmers, to improve wheat production and reduce the enormous drudgery of preparing the soil with hand hoes.”

Participants in the project, which runs to 2020, met at Musanze, in Rwanda’s Northern Province, during February 5-7 to review progress and plan remaining activities, which include more widespread sharing of seed, improved practices, and other useful outcomes.

“There was interest in trying smallholder winter wheat production under irrigation in Zambia to reduce the disease effects normally experienced in rainfed cropping,” said Jaleta, adding that the costs and benefits of irrigation, which is rarely used in the region, need to be assessed.

Project participants may also include in selection trials wheat varieties that have been bred to contain enhanced grain levels of zinc, a key micronutrient missing in the diets of many rural Africa households.

“The project will also push for the fast-track release and seed multiplication of the best varieties, to get them into farmers’ hands as quickly as possible,” Jaleta said.

In addition to CIMMYT, RAB, and ZARI, implementing partners include the Center for Coordination of Agricultural Research and Development for Southern Africa (CCARDESA). Generous funding for the work comes from the International Fund for Agricultural Development (IFAD) and the CGIAR Research Program on Wheat.

Rwandan crop researcher Theodore Assimwe.

CIMMYT laments the passing of Theodore Assimwe, Rwandan research pillar

Written by on November 15, 2018. Posted in News.

NAIROBI, Kenya (CIMMYT) — The CIMMYT family mourns the demise and honors the valuable contributions of Rwandan crop researcher Theodore Assimwe, who died on November 11, 2018.

An active and dedicated CIMMYT partner and one of eastern Africa’s most promising agricultural scientists, Assimwe was instrumental in Rwanda’s response to Maize Lethal Necrosis (MLN), coordinating pathogen surveillance and characterization and a key project for integrated management of the disease.

He was a pillar of the Rwanda Agriculture Board (RAB), with a well-recognized research track record in maize, cassava, and sweet potato. His capacity-building activities, together with those of CIMMYT, fostered the pursuit of advanced studies by numerous research colleagues.

His passion, commitment, and scientific rigor gained the respect of agricultural researchers, national plant protection organizations, and many other partners, including members of the global scientific community.

The CIMMYT community respectfully extends its sympathies and wishes for peace to the family of Assimwe.

Innovation, partnerships and knowledge for African farmers meet at AGRF 2018

Written by Jérôme Bossuet on September 19, 2018. Posted in Features.

KIGALI, Rwanda (CIMMYT) — The African Green Revolution Forum (AGRF) is the place to be for organizations interested in Africa’s agricultural development. Research institutions, development agencies, funders, farmers’ organizations, large agribusinesses and green start-ups came together for the latest edition of this event in Kigali, Rwanda, on September 4-8. Organized by the Alliance for a Green Revolution in Africa (AGRA) since 2010, this year’s theme was “Lead. Measure. Grow.”

The President of Rwanda, Paul Kagame, recalled a sentence stuck in his memory since childhood: “Everything is agriculture, the rest is good luck”. All the top leaders present at AGRF 2018 agreed that investing in smallholder agriculture is a top development priority, since the growth of the primary sector “drives down poverty, two to four times faster than other sectors” and provides livelihoods for three quarters of the African population.

Transforming policy declarations into impact on the ground

Even though African governments agreed on a roadmap towards inclusive agricultural growth — the Comprehensive African Agriculture Development Programme, or CAADP — in 2003, the agriculture sector has remained stagnant since the 1980s. A majority of African countries continue to be net food importers despite their bountiful natural resources, as highlighted in the Africa Agriculture Status Report 2018.

Some African food ventures are quite successful exporting beans, roses or avocados to Europe. However, most African farmers still live on less than one dollar a day, on small rain-fed plots of less than two hectares, having to cope with high climate variability and damages from numerous pests and diseases. They often plant low quality seeds, on acid and degraded soils, with little fertilizer. Rapid ageing of the farming population, 60 years old on average, is a particular concern at a time when many young people are underemployed.

“African agriculture is at a defining moment” was a message hammered home by several keynote speakers of AGRF 2018. So what makes this moment different?

In recent years, some countries have seen a significant rise in farm productivity. Ethiopia, for instance, exceeded the CAADP target of 6 percent annual agricultural growth in the last 25 years, halving its poverty rates over the same period.

African agriculture is facing new threats, from climate change to devastating pests like the fall armyworm, but researchers can be fast to respond, particularly if they are properly funded and listened to.

“The challenge is to design the right partnerships or business models between research, government, civil society and the private sector, to reach impact at scale”, explained CIMMYT’s director general, Martin Kropff. One example would be the Fall Armyworm Research for Development (R4D) International Consortium, officially launched at AGRF 2018.

CIMMYT has also partnered with public and private organizations to implement a very successful breeding program to fight maize lethal necrosis and to develop detailed guidelines for integrated pest management of the fall armyworm.

Research has to anticipate and respond to the needs of smallholder farmers in diverse ecological and socioeconomic contexts. The agenda has to become demand-driven and researchers have to look at new collaborations if they want to reach the farmers.

The director general of CIMMYT, Martin Kropff, was the keynote speaker of the AGRF 2018 round-table discussion "Quality Means Quantity – Seed Processing Technology and Production Approaches for Agricultural Benefit." (Photo: CIMMYT) — The director general of CIMMYT, Martin Kropff, was the keynote speaker of the AGRF 2018 round-table discussion “Quality Means Quantity – Seed Processing Technology and Production Approaches for Agricultural Benefit.” (Photo: CIMMYT)

Make agriculture resilient and attractive to youth

Leaders discussed the ways to build viable, fair and sustainable food systems that will provide good opportunities for African farmers, especially the next generation, and affordable, nutritious food for the whole population.

In their view, the roadmap for the coming years includes several key actions: investing in infrastructure, investing in youth and education, investing in value addition and food processing and removing trade barriers.

Speakers also flagged irrigation as a top priority. “African farmers do not need rain; they need water,” summed up John Mellor, who coordinated the African State of Agriculture Report 2018. He explained that top-down irrigation schemes are difficult to manage and maintain, so the focus should rather be on farmer-led irrigation.

The conference highlighted how digital agriculture, big data and other innovations offer the opportunity to leapfrog agriculture growth and make farming attractive to youth. For instance, Hello Tractor, a CIMMYT partner, is an Uber-like service linking tractor owners and machinery service providers with farmers. CIMMYT research shows that appropriate rural mechanization adapted to smallholders, like two-wheel tractors, will ease labor problems and enable adoption of more sustainable practices, like direct sowing. This can make farming more attractive for young people and create opportunities for them to become service providers.

Taking knowledge to farmers

Many innovations are out there to help African farmers grow more and better food; from climate resilient new varieties and customized agronomic advice to new e- or m-business models.

Mobile finance solution Tulaa brings together farmers, agro-dealers and credit providers on a virtual marketplace. Through Tulaa, farmers can borrow money to purchase the right fertilizers or seeds at the right time. Another platform, Precision Agriculture for Development, is providing more than 120,000 Kenyan farmers with agronomic advice via SMS, so they can better identify and manage fall armyworm. Other new digital platforms are linking smallholder farmers with quality inputs, extension services, finance, food processing and market opportunities.

All these operators will need to use accurate, science-based data. That is where CIMMYT’s expertise could play a big role, for instance providing customized fertilization recommendations to individual farmers, as planned in the Taking Maize Agronomy to Scale in Africa (TAMASA) project.

B.M. Prasanna, director of CIMMYT’s Global Maize Program, concluded that “AGRF is an excellent platform to network, debate issues relevant to African agriculture, form alliances and think forward.” Providing more resources in agricultural research for development will generate a stream of new technologies and solutions that will drive agricultural growth. Something African countries urgently need with their fast-growing population (2-3 percent annually) and one additional billion people to feed by 2050.

Artificial inoculation of maize germplasm at the Naivasha MLN screening site, Kenya. (Photo: B.Wawa/CIMMYT)

New online portal offers information to curb maize lethal necrosis in Africa

Written by on July 24, 2017. Posted in News.

The new maize lethal necrosis (MLN) online portal provides up-to-date information and surveillance tools to help researchers control and stop the spread of the deadly disease.

MLN was first reported in Kenya in 2011 and has since then been reported in several countries in eastern Africa, especially the Democratic Republic of the Congo, Ethiopia, Kenya, Rwanda, Tanzania and Uganda. The disease kills plants before they can grow, and the pathogens are transmitted by insects or contaminated seed. Serious damage to the region’s maize production from MLN has impacted household food security.

The online portal, found at mln.cimmyt.org, details the spread of MLN, where the disease has been managed and controlled, and how to identify it in the field. It also provides key MLN publications, surveillance software, MLN incidence maps, information on the MLN Screening Facility, and MLN-tolerant hybrids that are either released or in pipeline.

One tool on the portal is the MLN surveillance and monitoring system that provides real-time data to identify the presence and spread of the disease across five endemic countries in eastern Africa, and three selected non-endemic countries in southern Africa. The system was developed by scientists collaborating with the International Maize and Wheat Improvement Center (CIMMYT), with support from the United States Agency for International Development (USAID).

In 2016, MLN surveillance was successfully conducted in Malawi, Zambia and Zimbabwe – three major seed producing countries in Africa – and the data is presented in the portal, detailing MLN’s status across 652 surveyed maize fields. Future data gathered in other affected countries will also be uploaded to the portal as surveillance teams conduct fieldwork using Global Positioning System online survey tools, to assess the spread and severity of the disease in these countries. Ongoing surveillance in endemic countries allows stakeholders to see real-time updates on the spread of MLN.

MLN susceptible hybrids compared to a CIMMYT-derived MLN-tolerant hybrid. Photo: CIMMYT

Since the disease was first reported, collaborative efforts have resulted in the establishment of a MLN Screening Facility at the Kenya Agricultural & Livestock Research Organization (KALRO) center at Naivasha in 2013. The facility, managed by CIMMYT, has so far screened nearly 100,000 maize germplasm entries — 56 percent from CIMMYT — against MLN under artificial inoculation over the last four years.

Nine CIMMYT-derived MLN-tolerant hybrids have been already released in three countries – seven in Kenya, one in Uganda and one in Tanzania. Eleven second generation hybrids are currently in national performance trials in these countries. Intensive efforts are currently being made by seed companies in Kenya, Tanzania and Uganda to expand the delivery of MLN-tolerant maize seed to the smallholders.

The MLN portal enables researchers to comprehensively assess the situation with regard to MLN, helps strengthen the national disease monitoring and diagnostic systems by providing faster and accurate data, and offers access to CIMMYT-offered MLN phenotyping services.

Gender and development specialist Rahma Adam: Aiding African women to build household food security

Written by on March 8, 2017. Posted in Blogs.

Women account for over 50 percent of farmers in many parts of Africa. Photo: CIMMYT/Peter Lowe

EL BATAN, Mexico (CIMMYT) — In a special interview to mark International Women’s Day, International Maize and Wheat Improvement Center (CIMMYT) gender and development specialist, Rahma Adam, detailed how her research aims to improve the agricultural productivity of women in southern and eastern Africa.

With women making up over 50 percent of farmers in many parts of Africa, it is essential to understand how gender roles, relations and responsibilities encourage and hinder their agricultural productivity, said Adam.

Understanding gender relations improves the work of researchers and development specialists to target programs in the correct areas and with right people in order to get the most impact, she said.

Adam works with the Intensification of Maize and Legume Systems for Food Security in Eastern and Southern Africa (SIMLESA) project to investigate gender relations to best promote sustainable intensification agricultural practices that will improve household food security.

Conservation agriculture systems involve crop rotations and inter-cropping with maize and legumes to increase yields. In the photograph, conservation agriculture practitioner Lughano Mwangonde with the gender development specialist Rahma Adam in Balaka district, Malawi. Photo: CIMMYT/Johnson Siamachira. — Conservation agriculture systems involve crop rotations and inter-cropping with maize and legumes to increase yields. Pictured here are conservation agriculture practitioner Lughano Mwangonde (L) and gender and development specialist Rahma Adam in Balaka district, Malawi. Photo: CIMMYT/Johnson Siamachira.

Sustainable intensification agriculture practices are aimed at enhancing the productivity of labor, land and capital without damaging the environment. In practice, sustainable intensification involves such conservation agriculture practices as minimal soil disturbance, permanent soil cover and the use of inter-cropping and crop rotation to simultaneously maintain and boost yields, increase profits and protect the environment. It contributes to improved soil function and quality, which can improve resilience to climate variability.

Through SIMLESA, supported by the Australian Center for International Agricultural Research (ACIAR), Adam shares her findings with a network of stakeholders, such as governments and non-governmental organizations, aiding the delivery of agricultural technologies, taking into account gender norms to hold a greater chance of adoption.

We spoke to about her work in a short interview listen here or read below:

Q: Please explain a bit about your work. What is SIMLESA, where does it operate and what are its key objectives?

A: SIMLESA stands for, Sustainable Intensification of Maize and Legume Systems for Food Security in Eastern and Southern Africa, we are now in the second phase of the project. We focus on several things, providing the needed knowledge in terms of technology, improved varieties of seeds for maize and legumes and how to use them in the practice of sustainable intensification practices. The idea is to improve crop yields from current levels, that’s the basic idea of SIMLESA.

The project operates in mainly five countries, Tanzania, Kenya, and Ethiopia for Eastern Africa and Malawi and Mozambique for southern Africa. But we have three spill over countries where SIMLESA also have some activities, they are Rwanda, Botswana and Uganda.

We want to make sure farmers know the practices of sustainable intensification, they are able to use them, able to adapt them for the benefit of improving food security of the household and increase their livelihoods.

Q: Why is gender analysis important in meeting SIMLESA’s objectives?

A: Women in sub-Saharan Africa play a lion’s share of farming, the literature shows on average they farm as much as men, they make up 60 percent of farmers or more in some countries. Because they are the majority, there is no way we could put them on the back-burner, and not address or try to understand what are their constraints for agricultural production and agricultural marketing and all the other things that go with an agricultural household being successful in terms of their livelihoods.

It is very important to think about women, not alone, but also their relationships with men, we also have to think about who are their husbands. In sub-Saharan Africa most households are patriarchal, so they are male dominated, meaning a husband has much more say than the wife in terms of decision making in regards to what to grow, how much money should be spent that they have collected from agriculture, among other things.

It is important to not only think about how to improve the lives of women but also to understand the norms that go on. The institutional norms within a community, within a household and how they can play some sort of role that can either make a women successful or make a woman unsuccessful in terms of bringing up her household, in terms of the betterment of nutrition and schooling, etc.

It is a very complex issue. That’s why we cannot ignore gender itself as it sits in the rural households of Africa, because it is the nucleus of it. Once we understand how the relationship works between husband and wife or man and woman working within a society then we will be able to say how we can really propel sustainable intensification in these communities.

Q: Although rural women in southern and eastern Africa play crucial role in farming and food production why are they less likely to own land or livestock, adopt new technologies, or access credit?

A: Most of the problem of women’s lack of ownership of assets, such as land, among others stems from the institutional social norms of the communities in which they reside. Usually for patriarchal societies in sub-Saharan Africa, women are married into their husband’s home, and thus nearly all assets including land, livestock, improved or new technologies and money belong to their husbands and in some occasions, wives have very little say, with regards to those assets.

Because the major assets of the households are under the hands of the husband, it is hard for the wife to be able to access credit facilities, without involving the husband. As most of the credit and financial facilities, require a collateral, before they provide one a loan.

Smallholders in Rwanda and Zambia to enhance wheat productivity through new project

Written by on June 28, 2016. Posted in Features.

A contractor operating his Combine harvester in wheat field Boru Lencha village, Hetosa district in Ethiopia. Photo: P.Lowe/CIMMYT — A contractor operating his combine harvester in a wheat field in Hetosa district, Ethiopia. Photo: P.Lowe/CIMMYT

KIGALI, Rwanda (CIMMYT) – The recent designation of wheat as a strategic crop for Africa by the African Union in 2013 reflects the rising importance of wheat production on the continent. Since then, efforts have intensified to incorporate wheat production into existing farm systems and to help smallholders grow it to meet rising demand and reduce the economic impact of the high cost of imports.

The International Maize and Wheat Improvement Center (CIMMYT) is contributing to these efforts through a project launched this month in Kigali, Rwanda. The four-year Enhancing Smallholder Wheat Productivity through Sustainable Intensification of Wheat-based Farming Systems in Rwanda and Zambia (SWPSI) project aims to enhance the potential of wheat produced by smallholder farmers to bolster food security.

“Given the increasing opportunities in wheat research, CIMMYT is happy to work with partners to help farmers adopt improved technologies, establish innovation platforms and strengthen wheat value chains in the two countries,” said Bekele Abeyo, Ethiopia country representative and wheat breeder at CIMMYT.

Zambia and Rwanda rank 46th and 59^th respectively in the list of wheat-producing nations, topped by China. Production in Zambia, where wheat grows on more than 40,000 hectares (99,000 acres), is largely undertaken by medium and largescale commercial operations in irrigated conditions with very little smallholder production. On the other hand, in Rwanda wheat is grown on about 35,000 hectares in rainfed conditions mainly by smallholder farmers.

“The contrast between the two countries will help generate wider lessons on variations and give an opportunity to test whether wheat is still a potential crop to produce profitably under smallholder systems,” said Moti Jaleta, CIMMYT SWPSI project leader.

The new project will target 4,000 smallholder farmers in the two countries, with a focus on increasing wheat productivity from the current 2.1 tons per hectare to an average of 4.5 tons per hectare.

Smallholders will also benefit from improved technologies, which include rust-resistant and high-yielding wheat varieties, such good agronomic practices as row planting, precise fertilizer application, plant density and planting dates. Additionally, threshing technologies to enhance grain quality and efforts to link farmers with established traders and millers to help them secure markets for their wheat surplus will be undertaken.

The project mandate includes a scoping study on the potential for smallholder wheat production in Madagascar, Mozambique and Tanzania.

Funded by the International Fund for Agricultural Development and the consortium of agricultural researchers, the CGIAR Research Program on WHEAT, SWPSI will be implemented under the leadership of CIMMYT in close collaboration with the Center for Coordination of Agricultural Research and Development for Southern Africa (CCARDESA), the Rwanda Agriculture Board and the Zambia Agricultural Research Institute.

Speaking during the launch, the acting executive director of CCARDESA, Simon Mwale, noted the rising demand for wheat, particularly in southern Africa, which also has a very conducive climate for wheat farming.

“Inclusion of Rwanda in the project is a unique opportunity for CCARDESA, and it will facilitate strong collaboration and new learning opportunities, being a new country to be covered by CCARDESA,” he said.

Experts hope SWPSI will contribute to the broader focus of the strategy to promote African wheat production and markets.

Some 30 key stakeholders met at a side event organized by CIMMYT at the recent 7th Africa Agricultural Science Week (AASW) to discuss how best to implement the region’s wheat strategy. The AASW and FARA General Assembly is the principal forum for all stakeholders in African agriculture science, technology and innovation to share solutions to some of the most pressing challenges the continent faces. CIMMYT’s SWPSI project is key to supporting the wheat for Africa strategy whose goal is to increase agricultural productivity and food security throughout the region.

Zimbabwe and CIMMYT to establish maize lethal necrosis quarantine facility

Written by on August 12, 2015. Posted in News.

A modern quarantine facility to safely import maize breeding materials to southern Africa, and to enable local institutions to proactively breed for resistance against Maize Lethal Necrosis (MLN) disease, will be established this year at Mazowe, just outside Harare in Zimbabwe.

After the signing ceremony, BM Prasanna, MAIZE CRP Director, shakes hands with Ringson Chitsiko, the Permanent Secretary of Zimbabwe’s Ministry of Agriculture. Looking on, is Mulugetta Mekuria, CIMMYT-SARO Regional Representative. Photo: Johnson Siamachira

The announcement was made on 3 August 2015 at the signing ceremony of a Memorandum of Agreement (MoA) between CIMMYT and the Government of Zimbabwe. Ringson Chitsiko, the Permanent Secretary of Agriculture, Mechanization and Irrigation Development, signed on behalf of the Government of Zimbabwe while BM Prasanna, Director of MAIZE CRP and CIMMYT’s Global Maize Program, represented CIMMYT.

“MLN is a reality that cannot be ignored. We have to work together to control its spread. We need to focus on finding practical solutions to tackle this complex challenge, including strengthening MLN disease diagnostic and surveillance capacity, while we continue with intensive inter-institutional efforts to develop and deploy improved maize varieties that incorporate MLN resistance. The commercial seed sector must also play a key role by producing and delivering MLN-free healthy seed to farmers,” said Prasanna during the MoA signing ceremony.

The MLN Quarantine Facility, the first of its kind in southern Africa, will be set up by CIMMYT before the end of this year at the Plant Quarantine Institute in Mazowe, Mashonaland Central Province, one of Zimbabwe’s important research facilities run by the Department of Research and Specialist Services (DR&SS).

MLN was first detected in Kenya’s Rift Valley region in September 2011, and has since been reported in Tanzania, Uganda, Democratic Republic of Congo, Rwanda and Ethiopia. It is caused by a double infection of maize plants by two viruses: maize chlorotic mottle virus and sugarcane mosaic virus. There is an urgent need to prevent the deadly disease from moving further south.

Prior to signing of the MoA, Joseph Made, Zimbabwe’s Minister of Agriculture, discussed with Prasanna and CIMMYT-Southern Africa Regional Office (CIMMYT-SARO) senior staff how to strengthen maize research and development in Zimbabwe. “The Government of Zimbabwe is honored to be selected to host the new facility, which is important for stopping the spread and impact of MLN,” said Made.

To strengthen the phytosanitary work at the MLN Quarantine Facility, CIMMYT will also offer capacity building to DR&SS researchers through trainings, technical assistance, and advisory services, according to Prasanna. “This MLN Quarantine Facility, and the collaborative efforts between institutions of the Government of Zimbabwe, especially DR&SS and CIMMYT-SARO, are key in our efforts to prevent the possible spread of MLN in Africa,” said Prasanna.

Mulugetta Mekuria, CIMMYT-SARO Regional Representative said that the new collaboration to set up the MLN Quarantine facility in Zimbabwe would further enrich the long-standing and successful partnership between CIMMYT-SARO and DR&SS.
After the signing ceremony, officials from CIMMYT and DR&SS visited the site at the Plant Quarantine Institute at Mazowe where the MLN Quarantine Facility will be established, and discussed implementation arrangements, including steps for strengthening the national phytosanitary capacity.

Government of Zimbabwe and CIMMYT to establish maize lethal necrosis quarantine facility at Mazowe

Written by on August 11, 2015. Posted in News.

MLN was first detected in Kenya’s Rift Valley region in September 2011, and has since been reported in Tanzania, Uganda, Democratic Republic of Congo, Rwanda and Ethiopia. It is caused by a double infection of maize plants by two viruses: maize chlorotic mottle virus and sugarcane mosaic virus. There is an urgent need to prevent the deadly disease from moving further south.

After the signing ceremony, officials from CIMMYT and DR&SS visited the site at the Plant Quarantine Institute at Mazowe where the MLN Quarantine Facility will be established, and discussed implementation arrangements, including steps for strengthening the national phytosanitary capacity.