Grace Mwai is an innovative and strategic leader with more than 18 years of progressive leadership experience in international development programs. She has spearhead implementation projects of US$23M-$320M funding, while leading teams across 19 countries with more than 14 international and bilateral donors. Mwai holds a Doctor of Business Administration, Masters of Science in Organization Development, Masters of Business Administration, and is a Certified Public Accountant and Corporate Governance Trainer.
She has a keen ability to identify inefficiencies and create sustainable systems enabling consistent, on-time completion, regardless of project complexity. Her lived experience on both sides of the donor and recipient dividing lines affords her a nuanced understanding of stakeholder needs and the intricacies of donor requirements.
Members of Umoja, Tuaminiane, Upendo and Ukombozi groundnut farming groups in Naliendele, Tanzania showing their groundnut harvests in May 2022. (Photo: Susan Otieno/CIMMYT)
The Accelerated Varietal Improvement and Seed Delivery of Legumes and Cereals in Africa (AVISA) project has developed draft national groundnut target product profiles in Malawi, Mozambique, Sudan, Tanzania, Uganda and Zambia.
Groundnut is grown in eastern and southern Africa, where it remains an important food and oil crop from small holder farmers.
The new findings from the project are a result of work from groundnut crop breeding and improvement teams from the National Agricultural Research and Extension Systems (NARES) representatives from the six largest groundnut producing countries in the eastern and southern Africa region.
Their important research was carried out with the support of representatives from the Centre for Coordination of Agricultural Research and Development for Southern Africa (CCARDESA) and CGIAR.
Developing target product profiles for groundnut
For the first time, through the International Maize and Wheat Improvement Center (CIMMYT)-led AVISA program, funded by the Bill & Melinda Gates Foundation, groundnut breeding teams discussed and documented country level priorities at a meeting in Dar es Salaam, Tanzania.
Their findings were developed using a standard target product profile template recently developed by CGIAR Excellence in Breeding (EiB) in conjunction with CGIAR’s Market Intelligence Initiative. The template serves as a tool to capture market segments and develop targeted product profiles.
The groundnut breeding teams also shared information on current groundnut production metrics and trends in the six national programs. This also helped to establish a common understanding of countries’ level research priorities.
Futhi Magagula from CCARDESA and Elailani Abdalla, Mohamed Ahmed and Abdelrazeg Badadi from ARC-Sudan deliberate on groundnut market segments for Sudan. (Photo: Biswanath Das/CIMMYT)
Agnes Gitonga, market strategist at CGIAR Genetic Innovations Action Area, who led the team in understanding and applying the template, explained that the quality of a target product profile (TPP) is dependent on how well market segments are defined. “To ensure target product profiles are an accurate reflection of customer needs, who include farmers, consumers, and processors,” she said.
“National groundnut teams nominated Country Product Design Teams that will meet nationally before the end of 2022 to review and update country TPPs. These multi-stakeholder teams will ensure that the needs of diverse groups are captured and that breeding efforts are accurately focused.”.
Harish Gandhi, Breeding Lead, Dryland Legumes and Cereals (DLC) at CIMMYT, further explained that a bottom-up approach for defining country and regional priorities was used, where each country defined market segments and target product profile based on the use of the produce and growing conditions of farmers. This strategy involved each country defining its market segments and TPP, which was based on the use of the produce and growing conditions of farmers.
Building on the draft national target product profiles that were defined at the meeting, participants went on to prioritize traits such as diseases, nutrition and stress tolerance. These factors can be critical at regional level and important in identifying potential locations for conducting phenotyping. The phenotyping locations are distributed based on capacity of stations in different countries to screen for traits, such as late leaf spot disease screening in Msekera in Zambia, which is a known hotspot for the disease.
“We had a good opportunity to consider grower needs as well as consumer needs in each country for purposes of defining the relevant groundnuts market segments. I believe this will have a positive impact on future work in groundnuts in the East and Southern Africa region,” reflected Gitonga.
The collaboration of the teams involved was a key factor for the project’s success so far and will be crucial in working towards its goals in the future.
“Involving different stakeholders in designing target product profile was an effective way of enabling transformation of individual preferences (area of interest) to collective preferences (targeted product) with consumer needs and markets in mind,” said Happy Daudi, Groundnut Breeding lead at the Tanzania Agricultural Research Institute (TARI).
Tanzania Agricultural Research Institute (TARI) Naliendele Station Groundnut Research Team ((L-R) Bakari Kidunda, Gerald Lukurugu, Anthony Bujiku and Dr. Happy Daudi) deliberate on national groundnut breeding priorities. (Photo: Biswanath Das/CIMMYT)
Strengthening groundnut breeding programs in east and southern Africa
The project’s first meeting will provide an important foundation for future research, which will use the new findings as a blueprint.
Biswanath Das, Plant Breeder, Groundnut for East and Southern Africa region and NARES Coordinator and Programming lead for EiB said, “Defining national TPPs, identifying regionally important traits and mapping a testing network are fundamental building blocks of a modern breeding program.”
At the meeting, a schedule was laid out for peer-to-peer assessments of breeding programs within the regional network to take stock of current efforts and gaps. This step helps to develop customized capacity development plans for each network partner.
“Through targeted and demand led capacity development, the East and Southern Africa groundnut crop improvement network aspires to strengthen the role of each network member in collaborative, regional breeding efforts,” Das said.
The meeting laid the ground for coordinated regional groundnut breeding and took steps towards formalizing a regional NARES-CGIAR-SME groundnut crop improvement network. By building on excellent connections that already exist among national groundnut breeding teams. Das underscored that the move will strengthen alignment of NARES, CGIAR and regional research efforts around a common vision of success.
In addition, David Okello who leads groundnut research at National Agriculture Research Organization (NARO) Uganda, noted that the meeting provided a good opportunity for consolidating the existing network. He also looked forward to welcoming more groundnut improvement programs in the region on board.
Sustainable Agrifood Systems Approach for Sudan (SASAS) takes a modular and multi-crop approach, implementing an integrated agrifood system that supports food security, employment, and equity. The project focuses on soil fertility management integrated with agrifood systems based on smallholder farmer productivity gains, leveraging both One CGIAR and non-CGIAR innovation partners to support scaling on the ground by last-mile partners.
SASAS moves beyond humanitarian response and resilience to inclusive agriculture-led economic growth and enables landless and under resourced people to participate in functional and gender-sensitive high-production value chains.
This work contributes to six of the United Nations Sustainable Development Goals (SDGs): Zero Hunger; Good Health and Well-Being for People; Gender Equality; Decent Work and Economic Growth; Responsible Consumption and Production; and Climate Action.
SASAS Feature Film
Technical Overview: Interventions and Food Security Initiative
Abdelrahman Kheir, chief of party for SASAS, highlights the project’s rapid deployment of agricultural technologies across Sudan.
Imtithal Ali Atta Allah from the El-Harram Cooperative
Ali Atta Allah, a farmer, talks about her recent financial gains from selling vegetables cultivated with SASAS-provided seeds.
Aziza Haroun from the El-Harram Cooperative
Aziza Haroun shares her story working with Mercy Corps and SASAS who have provided her with improved seed, doubling her crop yields compared to previous years.
Wheat at a CIMMYT field trial. (Photo: H. Hernandez Lira/CIMMYT)
As the Russia-Ukraine war continues to degrade global food security, a new analysis lays out concrete actions that governments and investors must do now to mitigate near-term food security risks and stabilize wheat supplies, while transitioning toward long-term resilience.
“The Russia-Ukraine war will impact global food security over months — if not years,” said CIMMYT Global Wheat Program Director and lead author Alison Bentley. “We now need to move beyond defining the problem to implementing practical actions to ensure stable supply, safeguard the livelihoods of millions of vulnerable people and bring resilience to our global agrifood system.”
The war in Ukraine and trade sanctions against Russia are triggering a level of volatility that could easily overwhelm existing mitigation mechanisms. More than 2.5 billion people worldwide consume wheat-based foods; those in lower- to middle-income countries dependent on imports from Russia and Ukraine are particularly affected. Some of the world’s poorest countries, such as Bangladesh, Sudan and Yemen, rely heavily on Russian and Ukrainian wheat. Given the highly interconnected nature of contemporary agrifood systems, few will remain unaffected by this new global food shock.
Mitigate the immediate crisis
The first priority, according to the authors, is to mitigate the immediate crisis by boosting wheat production in existing high- and low-productivity areas, ensuring grain access and blending wheat flour with other low-cost cereals. Bundled agronomic and breeding improvements and sustainable farming practices can reduce dependence on imported grain and fertilizer, while coordinated, multilateral policies can help conserve grain stocks for human consumption and avert trade restrictions.
Increase the resilience of wheat supply
In the medium term, the authors emphasized the need to increase the local, regional, and global resilience of the wheat supply. This can be done by expanding production within agro-ecological boundaries, supporting national wheat self-sufficiency and providing technical assistance, to increase the production of high-yielding disease-resistant wheat and to mainstream capacity for pest and disease monitoring.
Transition to system-level resilience
Finally, to reach crucially needed resilience in the world’s agrifood system, long-term measures must be taken that encompass agroecosystem diversity, address gender disparities in agriculture and rural communities and sustain increased investment in a holistic, agrifood transition.
“The current global food crisis underscores and compounds existing inequalities in our global food system,” Bentley said. “A transition to agrifood system resilience requires us to urgently balance global food supply needs with the multi-layered challenges of climate change, achieving gender equity, nutritional sufficiency and livelihood security.”
The International Maize and Wheat Improvement Center (CIMMYT) is an international organization focused on non-profit agricultural research and training that empowers farmers through science and innovation to nourish the world in the midst of a climate crisis.
Applying high-quality science and strong partnerships, CIMMYT works to achieve a world with healthier and more prosperous people, free from global food crises and with more resilient agrifood systems. CIMMYT’s research brings enhanced productivity and better profits to farmers, mitigates the effects of the climate crisis, and reduces the environmental impact of agriculture.
CIMMYT is a member of CGIAR, a global research partnership for a food secure future dedicated to reducing poverty, enhancing food and nutrition security, and improving natural resources.
The worst desert-locust plague in Kenya in 70 years is threatening to spread further into East Africa, jeopardizing food security.
Swarms of the insects are already devouring crops and pasture in Ethiopia and Somalia, and they’re breeding in Djibouti, Eritrea and Sudan — all areas that are prone to drought and food shortages. There’s a high risk they may soon enter northeast Uganda and southeast South Sudan, the United Nations’ Food and Agriculture Organization said Friday.
In Kenya, the locusts have mainly ravaged pasture, putting livestock production at risk, Hugo de Groote, an agricultural economist with the International Maize and Wheat Improvement Center, said by phone. There is a need to monitor and control the insects to ensure swarms don’t reach the more southerly counties that grow corn, tea and coffee, he said.
Women at a maize mill in Ethiopia. (Photo: P. Lowe/CIMMYT)
It’s been four years since African leaders met in Equatorial Guinea to commit themselves to boosting agricultural growth across the continent. This is an important way to create real change in Africa. During the gathering, all the African Union’s heads of state signed the Malabo Declaration. It offered a blueprint for Africa’s agricultural sectors, to be achieved by 2025.
For example, the declaration called for at least 10% of any nation’s public expenditure to be allocated to agriculture and rural development. It also set out plans for increasing countries’ food security by intensifying agriculture in a way that didn’t destroy the environment.
There has been some progress in attaining these goals, as a recent status report conducted by the African Union Commission shows. But there’s still a great deal of work to be done.
The report shows that in 2015 and 2016 only ten of the 47 signatory states reached or exceeded the target of 10 percent investment in public expenditure in agriculture and rural development. These are Malawi, Ethiopia, Angola, Egypt, Sudan, Mauritania, Mali, Senegal, Burkina Faso and Equatorial Guinea. Some other countries had invested as little as 0.6 percent of public expenditure in these crucial sectors. Only 20 of the 47 signatories are on track to meet the declaration’s goals by 2025.
There’s no doubt that investment in agriculture can empower economic transformation in the region. But money alone can’t solve Africa’s agricultural problems. International collaboration is key. And it can yield real results, as a project we’re involved in has proved.
The project has relied on multidisciplinary teams of both local and international researchers from the International Maize and Wheat Improvement Centre, The University of Queensland and the Association for Strengthening Agricultural Research in East and Central Africa. Ethiopia, Kenya, Malawi, Mozambique and Tanzania’s departments of agriculture are also involved.
The collaborative effort has meant that it’s been possible to address multiple constraints. These include low crop productivity, poor market access, environmental degradation, and social inequalities. The project had a strong value chain focus. This involves linking – among others – farmers, agribusinesses, traders and policy makers. The result has been improved productivity. We’ve also seen reduced climate risks and improved soil fertility and soil conservation among highly vulnerable smallholder farmers in five East and Southern African countries.
Initiatives like these can help translate the Malabo Declaration from mere document to reality.
Great gains
The Sustainable Intensification of Maize-Legume Cropping Systems for Food Security in Eastern and Southern Africa Programme is led by the International Maize and Wheat Improvement Centre. It is funded by the Australian government. Researchers from Australia and the participating African countries have worked together with researchers from the centre.
The project was set up in 2010 in response to major concerns about food security across the eastern and southern Africa regions. So far, 258,393 smallholder farmers in Ethiopia, Kenya, Malawi, Mozambique and Tanzania have benefited from our activities. We expect this number to increase to 600,000 by 2020.
To date, up to 91 percent of the targeted farmers have adopted at least one of sustainable intensification practices the project promotes. These practices include using drought tolerant maize non-GMO varieties; the rotation of maize and legumes; and intercrops, where a legume is sown into a standing maize crop.
Yields have increased between 30 and 60 percent across the five countries because these practices and associated technologies were adopted.
We don’t only work directly with farmers. It’s important to develop skills and capacity in crop and soil management, market development, resource conservation, gender issues and project management and evaluation.
One key resource here has been the Australia Awards Scholarships. These give people from developing countries the chance to undertake undergraduate or postgraduate studies at Australian institutions. So far this award has supported 65 master’s and doctoral candidates.
Once they return to their countries, these graduates can contribute to solving the complex problems of achieving food security and eliminating poverty. They apply modern research tools, inform policy, train others and even provide leadership in their original institutions.
Harnessing potential
The Malabo Declaration is a useful document against which to measure progress. It offers countries clear targets. It sets metrics against which they can monitor their success. This will help countries to achieve many of the UN’s Sustainable Development Goals by 2030 – including those related to agriculture and food security.
The work of the Sustainable Intensification of Maize-Legume Cropping Systems for Food Security in Eastern and Southern Africa Programme offers an insight into how these goals can be met.
Countries must develop a better understanding of constraints and opportunities so they can massively scale out more productive, efficient and sustainable farm practices. They also need to develop markets, value chains and supporting policies and institutions. And crucially, continued collaborations will be necessary to increase the continent’s capacity in science, extension, policy, institutions, governance and leadership.
These must be priorities to harness Africa’s agricultural potential and spur economic growth.
This article orinally appeared on The Conversation. For the full article, click here.
HARARE — Several African nation ambassadors to Zimbabwe pledged to step up support for improved agriculture technologies during a visit to The International Maize and Wheat Improvement Center’s (CIMMYT) Southern Africa Regional Office (CIMMYT-SARO) in Harare, Zimbabwe, in April.
The special field day and meeting, held as part of CIMMYT 50 celebrations, gave ambassadors from 12 African countries (Algeria, Botswana, Democratic Republic of Congo, Ethiopia, Namibia, Nigeria, Sudan, South Sudan, Tanzania, Uganda, South Africa and Zambia) the opportunity to learn about CIMMYT projects that are helping to strengthen food systems in sub-Saharan Africa and discuss future initiatives.
During the visit, the need to develop policies that promote smallholder farmers’ access to technologies that enable them to increase yields and improve crop resilience in the face of challenges such as droughts, as well as policies to address poverty, food security and economic growth surfaced as main priorities for the countries represented.
African ambassadors learned about CIMMYT-promoted agricultural technologies while visiting the CIMMYT-Southern Africa Regional Office (CIMMYT-SARO) in Harare, Zimbabwe. Photo: Johnson Siamachira/CIMMYT
In his welcome address, Mulugetta Mekuria, CIMMYT-SARO regional representative, pointed out, “Sub-Saharan Africa’s food security faces numerous challenges, but drought is the most devastating because our farmers rely on rainfed agriculture. As you will see, CIMMYT’s work has created high-level impacts. But a host of challenges still hamper socioeconomic growth, such as reduced funding of agricultural research.”
According to Mekuria, CIMMYT’s work in sub-Saharan Africa aims to ensure farmers can access improved maize seed with drought tolerance and other relevant traits that contribute to higher, more stable yields, as well as technologies such as optimal fertilizer application. He noted that farmers in sub-Saharan African countries lag behind other regions in fertilizer application, applying, on average, less than 10 kg per hectare, which is 10 percent of the world average.
Another issue brought up was the lack of funding of agricultural research for development by most bilateral agencies on which African governments depend. The diplomats pledged to advise their governments of the need to increase support for improved agricultural technologies. They agreed that funding agricultural research work in line with the 2006 Abuja Declaration to allocate at least 1 percent of the donor country’s gross domestic product to agricultural research is of the utmost importance. Enhancing access to markets, extension services and inputs and supporting women and youth in agriculture were also identified as fundamental policy issues that need to be urgently addressed. Strong partnerships and collaborative efforts between various African governments, CIMMYT and the private sector were also called for.
The ambassadors were briefed on CIMMYT’s achievements in the region, and how, in partnership with national agricultural research systems and private seed companies, they have released more than 200 drought-tolerant maize varieties that perform significantly better under moderate drought conditions than varieties already on the market, while yielding the same – or better – in a normal season. More than 6 million farmers in sub-Saharan Africa grow improved drought tolerant maize varieties developed by CIMMYT and partners.
A wide range of CIMMYT-SARO technologies were also showcased, including sustainable intensification strategies based on the principles of conservation agriculture. Compared to conventional cropping practices, conservation agriculture increases yields after two to five cropping seasons due to the combined benefits of minimum soil disturbance, crop residue retention and crop rotation. Conservation agriculture has been successfully promoted in Malawi, Mozambique, Zambia and Zimbabwe for the past 10 years. For example, yield increases of 20-60 percent were recorded in trials in farmers’ fields in Malawi, while in Zambia and Zimbabwe, yields increased by almost 60% using animal traction innovation agriculture technologies.
Other technologies demonstrated were pro-vitamin A maize and quality protein maize. The diplomats learned that CIMMYT had released eight pro-vitamin A hybrids with 28% more vitamin A content in Zambia (4), Malawi (3) and Zimbabwe (1). On improved varieties, CIMMYT sent 823 seed shipments (1.3 million envelopes) to 835 institutions worldwide over the last four years.
“The success of our projects goes beyond the breeding work. Through the value chain approach, our work now is to ensure that seed companies and, ultimately, maize farmers benefit from the seed that is developed with their needs in mind. Getting drought-tolerant maize and other improved seeds to the markets and farmers is a critical next step,” said James Gethi, CIMMYT seed systems specialist.
Juan Hernandez Caballero (L) and Victor Cano Valencia, prepare to load wheat samples onto a van at CIMMYT headquarters in El Batan, Mexico, for shipment overseas. CIMMYT/Julie Mollins
EL BATAN, Mexico (CIMMYT) — Wheat farmers can boost yields and protect crops from pests and disease by using improved seed varieties, but in the developing world more than 80 percent of farmers use poor quality varieties, losing potential earnings and putting food security at risk, according to research.
Farmers often sell and trade wheat seed among themselves without having much knowledge about the size of the yield they can expect and how a particular variety fares with regard to climate, soil type or disease resistance.
Scientists at the International Maize and Wheat Improvement Center (CIMMYT) are continuously developing improved varieties and each year seed samples — known as International Wheat Nurseries — are sent out to government and university research institutions and national agricultural research systems around the world.
“Wheat plays a vital role in food security,” said Tom Payne, head of CIMMYT’s Wheat Germplasm Bank, which stores almost 145,000 wheat varieties collected over the past 60 years. “We’ve been sending out wheat samples each year since 1974, so if you do the math that’s 367 tons over the years.”
In October, 1,720 kilograms (3,790 pounds) of experimental seeds were shipped to India, one of 75 current recipient countries.
Overall, the 2014 international shipment of seeds delivered in 351,990 sample envelopes weighed 9,230 kilograms. Recent recipient countries included Algeria, Pakistan, Turkey, Ukraine and Sudan.
SORTING SEEDS
Over the past 24 years, Efren Rodriguez, head of CIMMYT’s Seed Distribution Unit has overseen the five-month process of preparing, packaging and shipping of wheat seed samples.
“This year the seed requests we received filled 94 boxes,” Rodriguez said. “Seeds are requested at the end of summer prior to planting season. Each box is filled with envelopes of wheat seed and weighs up to 10 kilograms (22 pounds).”
Seeds arrive at CIMMYT’s headquarters near Mexico City in June in bags weighing from 10 to 35 kilograms from CIMMYT’s research station in Mexicali in northeastern Mexico accompanied with paperwork naming the varieties for inclusion in the shipment.
The seed is sorted according to instructions from the wheat breeders, cleaned with chlorine, rinsed in an industrial restaurant-style dishwasher, doused in protective fungicide, dried, placed in small envelopes by machine, then boxed.
“Research institutions plant the seeds, which have different characteristics designed to solve particular problems – for example, they may be heat, drought- or disease-resistant – and then recommend varieties for general release and sale to farmers,” Rodriguez said, explaining that the seeds tested and selected by the international research programs are incorporated into national wheat breeding or growing programs.
As so often happens at the end of conferences, I have to dash for a plane, so I’ll make it brief. You may have seen on our live twitter feed (#W4A) that today was a day for proposals and promises at the Wheat for Food Security in Africa conference. Participants from each country gathered together to discuss and present how they intended to move forward from these meetings.
Almost all the countries agreed that there is a need to initiate some form of ‘wheat task force’. This would act to liaise with governments, conduct research, and establish capacity building in the key areas of extension and technology adoption. Organizations such as these could also address the issues which have been raised so many times this week: smallholder farmers’ access to credit, inputs such as fertilizer, the correct agronomic practices for their region and efficiency within the value chain between researchers, extension workers, farmers, markets, millers, and consumers.
Participants also raised the issue of germplasm exchange. This needs to be made easier between countries, while making sure that IP rights are protected and the spread of diseases such as Ug99 prevented, which cannot be done without international collaboration. All participants indicated that they would be very willing to work together in the future and to convince others in their countries to work with their international partners. Linked to this, some argued that the involvement of the private sector is key if we are to promote the development of a profitable African wheat industry. For this too we need to develop sound and consistent IP practices.
Another major issue discussed was the current situation with wheat imports. Many African countries subsidize wheat imports so much that it is cheaper to buy wheat abroad than to grow it nationally. This, argued participants, is not a healthy or sustainable practice. Governments need to reduce subsidies to make wheat farming more attractive for producers and/or introduce a levy of e.g. $2/ton on wheat imports, and invest this money in wheat research to develop varieties and agronomic practices suitable for the region.
The conference concluded with the signing of a declaration which will be presented by the Minister of Ethiopia at the African Union Joint Conference of African Ministers of Agriculture and Ministers of Trade, 29 October – 2 November 2012, with the full support of conference participants and the Ministers of Sudan, Zimbabwe, and Burundi. The declaration “urgently recommends to include wheat as one of Africa’s strategic products” and stresses that policy options are proposed to “promote and develop domestic wheat production… and to scale-up investment to the national and international wheat value chain.”
In closing the conference, Thomas Lumpkin, CIMMYT Director General, concluded: “I am committed, CIMMYT is committed, ICARDA is committed, to improving wheat in Africa… African farmers want to change. They don’t want to be museums of ancient practices. They want to evolve, become more productive.” And this is the message that will be taken forward and presented to Africa as a continent.
Eight breeders from developing countries arrived in El Batán this week to attend the Advanced Wheat Improvement course. They come from India, Pakistan, Sudan, Egypt, Ecuador and South Africa and will study wheat improvement techniques in Mexico for the next three months. The new course is currently the longest being offered in the CG system. On Saturday, participants move to Ciudad Obregón, where the real work begins.
