KULIMA stands for âKutukula Ulimi mâMalawiâ, which means âpromoting farming in Malawiâ in the countryâs main local language, Chichewa. KULIMA aims to sustainably increase agricultural productivity and diversification of smallholder farmers based on market demand, while increasing income generation by farm enterprises and creating jobs through developing local value addition of raw agricultural products. It also seeks to stimulate better information supply on agricultural policy, investments and their outcomes to both government actors and the general public.
Within KULIMA Action, CGIAR Centers are working to make their expertise and technologies more easily available to more people. In coordination with GIZ and FAO, they provide guidance on the suitability of technologies and inputs in different agroecological zones in Malawi, successful agricultural practices, and the application of relevant innovations and technologies to address the issues affecting agricultural production systems in a holistic manner.
CIMMYTâs role within the project is to contribute towards increasing agricultural productivity and diversification through upscaling climate-smart agriculture technologies. To achieve this, CIMMYT supports production and utilization of drought tolerant and nutritious maize along with sustainable intensification practices that protect the soil and enhance soil fertility, commonly referred to as conservation agriculture. The focus is on creating demand for these technologies among smallholders by increasing awareness through farmer training, extension messaging and demonstrating the yield benefits of using drought tolerant versus unimproved non-drought tolerant varieties, and sustainable intensification practices versus conventional ones. CIMMYT is working in collaboration with NGOs and community-based organizations to train lead farmers and extension agents to reach out to smallholder farmers.
The project is financed under the 11th European Development Fund and is being implemented in ten districts of Chitipa, Chiradzulu, Karonga, Kasungu, Mzimba, Mulanje, Nkhata Bay, Nkhotakota, Salima and Thyolo.
Objectives
Increase agricultural productivity and diversify production in a participatory, sustainable and climate-change resilient manner
Establish agricultural value chains and create related income and employment opportunities
On May 15, 2019, as part of the CGIAR System Council meeting held at the ILRI campus in Addis Ababa, Ethiopia, around 200 Ethiopian and international research and development stakeholders convened for the CGIAR Agriculture Research for Development Knowledge Share Fair. This exhibition offered a rare opportunity to bring the country’s major development investors together to learn and exchange about how CGIAR investments in Ethiopia help farmers and food systems be more productive, sustainable, climate resilient, nutritious, and inclusive.
Under the title One CGIAR â greater than the sum of its parts â the event offered the opportunity to highlight close partnerships between CGIAR centers, the Ethiopian government and key partners including private companies, civil society organizations and funding partners. The fair was organized around the five global challenges from CGIAR’s business plan: planetary boundaries, sustaining food availability, promoting equality of opportunity, securing public health, and creating jobs and growth. CGIAR and its partners exhibited collaborative work documenting the successes and lessons in working through an integrated approach.
There were 36 displays in total, 5 of which were presented by CIMMYT team members. Below are the five posters presented.
How can the data revolution help deliver better agronomy to African smallholder farmers?
This sustainability display showed scalable approaches and tools to generate site-specific agronomic advice, developed through the Taking Maize Agronomy to Scale in Africa (TAMASA) project in Nigeria, Tanzania and Ethiopia.
Maize and wheat: Strategic crops to fill Ethiopiaâs food basket
This poster describes how CGIAR works with Ethiopiaâs research & development sector to support national food security priorities.
Addressing gender norms in Ethiopiaâs wheat sector
Research shows that restrictive gender norms prevent womenâs ability to innovate and become productive. This significantly impacts Ethiopiaâs economy (over 1% GDP) and family welfare and food security.
Quality Protein Maize (QPM) for better nutrition in Ethiopia
With the financial support of the government of Canada, CIMMYT together with national partners tested and validated Quality Protein Maize as an alternative to protein intake among poor consumers.
Appropriate small-scale mechanization
The introduction of small-scale mechanization into the Ethiopian agriculture sector has the potential to create thousands of jobs in machinery service provision along the farming value chain.
About the CGIAR System Council
The CGIAR System Council is the strategic decision-making body of the CGIAR System that keeps under review the strategy, mission, impact and continued relevancy of the System as a whole. The Council meets face-to-face not less than twice per year and conducts business electronically between sessions. Additional meetings can be held if necessary.
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)
STOCKHOLM, Sweden â 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.
âVitamin 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,â said Barbara Wells, director general of CIP. âGlobally, 165 million children under five suffer from VAD, mostly in Africa and Asia.â
âThe 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.â
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.
âThe 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,â said Simon Heck, program leader, CIP.
âSweet 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.â
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.
âThere are almost 500 million small farms that comprise close to half the worldâs farmland and are home to many of the worldâs most vulnerable populations,â said Martin Kropff, director general of the International Maize and Wheat Improvement Center (CIMMYT).
âWithout access to appropriate technologies and support to sustainably intensify production, small farmers â the backbone of our global food system â will not be able to actively contribute a global food transformation.â
Matthew Morell, director general of the International Rice Research Institute (IRRI), added: âIf the EAT-Lancet planetary health diet guidelines are to be truly global, they will need to be adapted to developing-world realities â such as addressing Vitamin A deficiency through bio-fortification of a range of staple crops.
âThis creative approach is a strong example of how to address a devastating and persistent nutrition gap in South Asia and Africa.â
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
HarvestPlus director Howarth Bouis is one of four 2016 World Food Prize laureates. Graphic design: Bose Zhou
EL BATAN, Mexico (CIMMYT) — HarvestPlus director Howarth Bouis is one of four winners of the 2016  World Food Prize, honored for international research leading to a substantial increase in the availability of nutritious biofortified crops for millions of poor people.
Bouis was recognized specifically for pioneering work that established a multi-institutional approach to biofortification as a global plant breeding strategy, World Food Prize organizers said in a statement on Tuesday. The interdisciplinary, collaborative HarvestPlus program was launched in 2003 and is now part of the Agriculture for Nutrition and Health program managed by the CGIAR consortium of agricultural researchers.
Bouis, who works with the CGIAR International Food Policy Research Institute (IFPRI), has directed initiatives that have led to the release or testing of such crops as iron- and zinc-fortified beans, rice, wheat and pearl millet, along with vitamin A-enriched cassava, maize and the orange-fleshed sweet potato in more than 40 countries.
The three other laureates, Maria Andrade, Robert Mwanga and Jan Low of the CGIAR International Potato Center (CIP) are being recognized for work leading to the development of the biofortified orange-fleshed sweet potato. Andrade and Mwanga, plant scientists in Mozambique and Uganda, bred the Vitamin A-enriched potato using genetic material from CIP and other sources, while Low structured the nutrition studies and programs that convinced almost two million households in 10 separate African countries to plant, purchase and consume the nutritionally fortified food, the statement said.
Although orange-colored sweet potatoes are common in some parts of the world, in parts of Africa white sweet potatoes have historically been more typical. Breeding potatoes so they can synthesize more vitamin A means they can be grown in poor areas to benefit consumers and smallholder farmers who cannot afford to buy or grow food high in micronutrients.
Due to the combined efforts of the four World Food Prize laureates, more than 10 million people are now gaining nutritional benefits from biofortified crops, and the potential exists to benefit several hundred million more people in the coming decades, the statement said.
âThe impact of the work of all four winners will be felt around the globe, but particularly in sub-Saharan Africa,â said Kenneth Quinn, president of the World Food Prize. âIt is particularly poignant that among our 2016 recipients are two African scientists who are working on solutions to tackle malnutrition in Africa, for Africa.â
Some 2 billion people around the world suffer from micronutrient deficiency, which occurs when food does not provide enough vitamins and minerals, according to the World Health Organization. South Asia and sub-Saharan Africa are most affected by hidden hunger.
Andrade, Mwanga, Low and Bouis will receive the World Food Prize at a ceremony in Des Moines, Iowa, on October 13, the main event during the annual Borlaug Dialogue symposium. The late Nobel Peace Prize laureate, Norman Borlaug, a wheat breeder at the International Maize and Wheat Improvement Center (CIMMYT), established the World Food Prize 30 years ago.
CIMMYT scientists have won the prestigious award twice. Evangelina Villegas and Surinder Vasal received it in 2000 for their work developing quality protein maize with an adequate balance of amino acids using biofortification techniques. They provided nutritional options for people with diets dominated by maize and with no adequate alternative source of protein.
Wheat breeder Sanjaya Rajaram, who worked with both CIMMYT and the CGIAR International Center for Agricultural Research in the Dry Areas (ICARDA), won in 2014 for producing a remarkable 480 wheat varieties, which produce yields that are estimated to feed more than 1 billion people a year.
HARVESTPLUS MAIZE AND WHEAT
While the orange sweet potato is a highlight, biofortified wheat and maize are part of the overall HarvestPlus success story, benefiting thousands of resource-poor farmers and consumers.
âThis news shows that it is vital to keep up the fight and serves as encouragement for partners, collaborators and donors to pursue biofortification more vigorously to achieve greater global impact on food and nutritional security,” said CIMMYT wheat breeder Velu Govindan.
CIMMYT maize and wheat scientists tackle micronutrient deficiency, or âhidden hunger,â through HarvestPlus to help improve nutrition in poor communities where nutritional options are unavailable, limited or unaffordable. Micronutrient deficiency is characterized by iron-deficiency anemia, vitamin A and zinc deficiency.
The wheat component of the HarvestPlus program involves developing and distributing wheat varieties with high zinc levels.
“Breeding these varieties involves the use of diverse genetic resources, including wheat landraces, ancestors and wild relatives, with high genetic potential to accumulate zinc in the grain, which are combined with adapted wheat to obtain high-yielding varieties with high zinc grain concentration,” said Carlos Guzman, head of the Wheat Chemistry and Quality Laboratory at CIMMYT, adding that such varieties have been shown to have higher iron values in grain than conventional varieties.
A project to develop superior wheat lines combining higher yield and high zinc concentrations in collaboration with national agriculture program partners in South Asia has led to new biofortified varieties 20 to 40 percent superior in grain zinc concentration, which are already available for farmers in India and Pakistan. Other national partners, such as Bolivia, are also close to releasing biofortified wheat varieties developed through collaboration with CIMMYT.
Additionally, a recent HarvestPlus study revealed that modern genomic tools such as genomic selection hold great potential for biofortification breeding to enhance zinc concentrations in wheat.
Scientists working with HarvestPlus have developed vitamin A-enriched âorangeâ maize. Orange maize is conventionally bred to provide higher levels of pro-vitamin A carotenoids, a natural plant pigment found in such orange foods as mangoes, carrots, pumpkins, sweet potatoes, dark leafy greens and meat, converted into vitamin A by the body.
Maize breeders are currently working on developing varieties with 50 percent more pro-vitamin A than the first commercialized varieties released. In Zambia, Zimbawe and Malawi, 12 varieties, which are agronomically competititve and have about 8ppm provitamin A, have been released.
Provitamin A from maize is efficiently absorbed and converted into vitamin A in the body.  Stores of Vitamin A in 5 to 7 year old children improved when they ate orange maize, according to HarvestPlus research. The study also shows preliminary data demonstrating that children who ate orange maize for six months experienced an improved capacity of the eye to adjust to dim light. The findings indicate an improvement in night vision.
Researchers are also developing maize varieties high in zinc. Scientists expect the first high zinc hybrids and varieties will be released in 2017. Further efforts are starting in such countries as Zambia, Zimbabwe and Ethiopia. Results from the first nutrition studies in young rural Zambian children indicate that biofortified maize can meet zinc requirements and provide an effective dietary alternative to regular maize for the vulnerable population.
