With 96% of its population engaged in farming and crop production, residents of the province of Niassa in the northern part of Mozambique rely heavily on agriculture for both their own nutritional needs and household income.
Famers in Niassa face many challenges in achieving successful agricultural development, including a 60% yield gap between male head of household farms and female led farms and while improved crop varieties are available, their rate of adoption is uneven across the province.
Implemented by CIMMYT in partnership with key collaborators and supported by Irish Aid, the Transformative Dryland Crops Project aims to enhance food security and boost incomes for more than 14,000 farm families in Niassa.
Delegation from CIMMYT and the Embassy of Ireland led by Moses Siambi, Africaâs regional director, and Adrian Fitzgerald, chief of cooperation at the Embassy of Ireland, during discussions at the launch of the Transformative Dryland Crops Project in Mozambique. (Photo: Mozambique)
Speaking at the launch meeting, Niassaâs Secretary of State, Lina Maria da Silva Portugal said, âThis project focuses on leveraging technology and innovative approaches to bolster resilience and sustainability which will benefit all of Niassa.â
The Transformative Dryland Crops Project will focus on crops known for their drought tolerance, such as pigeon peas, groundnuts, common beans, and soybeans. By adopting a ‘hub-model’ approach, the project will enhance learning and technology dissemination, facilitating collaboration among farmers, farmer organizations, service providers, buyers, and processors. This collaborative effort will ensure the effective implementation of the project and maximize its impact on the ground.
âThrough collaborative efforts with local stakeholders, we aim to narrow the gender yield gap, increase adoption rates of improved crop varieties, and enhance overall agricultural productivity, said Irish AID Ambassador, Adrian Fitzgerald.
Governor of Lichinga, Judite Massengele, Niassaâs capitol, said, âThe launch of this project marks a significant milestone in the journey towards enhancing food security and improving livelihoods here in Niassa.â
Governor of Niassa, Judite Massengele, hosts a meeting in her office during the launch of the transformative dryland crops project in Mozambique. (Photo: Mozambique)
Transformative changes
Besides increased agricultural productivity, enhanced food security, and income generation, the Transformative Dryland Crops Project promotes gender equity, increases resilience to climate shocks, implements sustainable resource management, builds capacity among farmers and extension agents and facilitates inclusive market systems.
âThe Transformative Dryland Crops Project will impact many different parts of the agricultural system of Niassa,â said Moses Siambi, CIMMYT Africa regional director. âThe key part of our implementation plan is the knowledge that all these systems and stakeholders are interconnected and any intervention in one of part of the system must account for its effects on the entire system in order to be sustainable.â
Juliana Moises tends her soybean plot. (Photo: CIMMYT)
From the rich plateau landscapes of Angonia district in the Tete province of Mozambique emerges a tale of determination and hard work. Juliana Nicolau Moises, a mother of four, has been a devoted soybean farmer for more than a decade, tending to a crop whose pods carry the potential for value-added products, including milk and porridge for her children. But one wonders, what motivates smallholder farmers like Juliana to invest their efforts in soybean production.
âI have never looked back on producing soybeans,â reflects Moises. âThis legume crop has allowed me to feed my family and meet my household needs, let alone the cash income from sales of the surplus crop. It has taken a lot of hard work and resilience to navigate through the complexities of soybean production.â
Entering her second season of implementing the Chinyanja Soy Use Case trials with CGIAR’s Initiative on Excellence in Agronomy, delivered in partnership with CIMMYT and the International Institute of Tropical Agriculture (IITA), Moises eagerly anticipates a bumper harvest in the early planted fields. She has been avidly implementing trials on planting dates to establish the implications of early, mid, and late planting on soybean yield. Let alone the required attention to detail, she exudes a deep understanding of the significance of the trials by carrying out key agronomic practices to ensure a good harvest. This will not only nourish the health and wellbeing of her family but also symbolizes the fruits of her dedication.
Moisesâs commitment extends beyond the trial she hosts as she implements her learning from the project to other fields, using innovative approaches like the double-row planting method. In soybean farming, this involves planting two rows of seeds on a wider ridge established on the traditional spacing that farmers use on maize. Traditionally, farmers in Angonia have been planting single rows of soybean on ridges spaced at 90 cm used for maize, thereby resulting in low soy plant populations and ultimately low yields. This different technique optimizes the plant population and land use efficiency, improving yields, and facilitating easier weeding.
Moisesâs soybean plot in Angonia, Mozambique. (Photo: CIMMYT)
Despite the promise of enhanced production, challenges persist. Southern Africa continues to face a growing demand for soybeans, with annual productivity of 861,000 metric tons (mT) falling short of the 2-million-ton demand. In Mozambique, vibrant soybean farms blanket the landscape, yet smallholder farmers like Moises grapple with underdeveloped markets and climate-related adversities, such as droughts and floods currently worsened by the El Niño phenomenon.
âAs a devoted soybean farmer, I have met my own fair share of challenges. One of our biggest challenges is the labor requirement across the production season,â shared Moises as she navigates through her fields. âWe need machinery for planting, weeding, and harvesting in order to reduce the labor and drudgery associated with soybean production. In addition, markets remain a challenge.” Her unwavering commitment inspires neighboring farmers, creating a ripple effect of hope and determination in the community.
Sharing the same sentiments is Veronica Ernesto Gama, who teams up with her husband every year to tend to her soybean field. Having started in 2007, their yields have sustained the food basket of her family while meeting nutritional needs. âIn the past, I used to just scatter around soybean seeds in one place, but after these trials, I have learned the significance of applying the agronomically recommended spacing and the need for quality improved seeds to ensure a bumper harvest,â said Gama.
The power of collaboration
Addressing these challenges head-on is CGIARâs Excellence in Agronomy Chinyanja Triangle Soy Use Case, a collaborative effort aimed at strengthening the soybean industry primarily by empowering farmers with improved agronomic practices and decision support. Solidaridad, an international non-government organization (NGO) pursuing digital platforms for scaling agronomy, serves as the demand partner of the Excellence in Agronomy Chinyanja Triangle Soy Use Case, while CGIAR provides technical support. Solidaridadâs role is vital in catalyzing demand for the product or service in question. Research outputs drawn from the trials will be used to develop a mobile phone application on the Kvuno, a social enterprise borne out of Solidaridad. The platform will support farmers with onsite advisories on planting dates, site-specific fertilizer recommendations, variety selection, and crop configurations.
To date, the initiative has drawn the willingness of 70 farmers in the Angonia district of Tete province, who are implementing different suites of trials, including nutrient omission, planting date, plant configuration, and fertilizer usage. Excellence in Agronomy has come at an opportune time for smallholdersâ journeys in soybean production, emphasizing the importance of optimized spacing and improved agronomic practices.
As the story unfolds in Mozambique, women like Moises and Gama are the unsung heroes driving soybean production. Their dedication, coupled with initiatives like Excellence in Agronomy, paint a picture of progress and potential. Their commitment inspires many surrounding farmers who draw inspiration on the trials in their fields. As the sun continues to rise over the dusty soils of Angonia, it showcases not just Moisesâs fields, but the bright future of soybean production in the hands of resilient women farmers.
East and Southern Africa is a climate hotspot, with more than US$45 billion in agricultural production at risk from higher temperatures, shorter growing seasons and more extreme droughts and floods. Maize, a staple crop covering up to 75% of cropland in parts of the region, is particularly vulnerable and is projected to face yield declines of 15%, among other climate impacts if no adaptation measures are taken. Many of the affected areas already have serious levels of hunger and malnutrition, with the highest burden experienced by women and youth from marginalized and vulnerable communities. If these systems are sustainably diversified, they can contribute to stabilizing regional and global agrifood systems.
The next decade will be critical for strengthening food, land and water systems in East and Southern Africa. The agribusiness ecosystem for both regions has been identified as a critical engine for agricultural and economic development, climate change adaptation and gender and youth empowerment. Investment in innovation, capabilities and supportive environments will be essential for driving sustainable growth.
Objective
This Initiative aims to support climate-resilient agriculture and livelihoods in 12 countries in East and Southern Africa by helping millions of smallholders intensify, diversify and reduce the risks in maize-based farming through improved extension services, small and medium enterprise development, supporting governance frameworks and increased investment with a gender and social inclusion lens.
Activities
This objective will be achieved through:
Diversifying and sustainably intensifying production by assessing needs and options for the introduction of crops, livestock, mechanization and irrigation, applying innovations in value chains and building capacity while scaling to larger farming communities.
Reducing risk and digitalizing value chains by co-designing and delivering âInnovation Packageâ bundles of digital agro-advisory systems and research management products â including mobile apps, TV programs and social media â to build resilience and improve productivity.
Supporting and accelerating value chain business enablers in maize mixed systems by using CGIARâs expertise and partner network to unlock access to funding, investment and tailored technical assistance.
Promoting the governing and enabling of multifunctional landscapes for sustainable diversification and intensification with a focus on strengthening the evidence base for decision-makers.
Empowering and engaging women and youth in agribusiness ecosystems by mapping challenges and opportunities to address gender and social inequality and applying inclusive and coordinated interventions for transformative change.
Scaling innovations and coordinating CGIAR and partner activities in the region through a scaling hub that uses the âscaling readinessâ approach to inform, activate and bring to scale innovations that respond to regional or country demand.
A collaboration scheme launched between the Gorongosa Restoration Project (GRP) and CIMMYT seeks to improve climate resilience, food security and nutrition in Mozambiqueâs Gorongosa National Park by facilitating the adoption of sustainable practices and giving local farmers access to formal markets and improved value chains.
The partner organizations aim to develop more resilient agrifood systems that contribute to conserve resources and improve the livelihoods of farmers inhabiting the protected area in Mozambiqueâs Sofala Province.
âOur primary objective is to establish an evidence-based, scalable and replicable model for developing sustainable and resilient agrifood systems in Mozambique that enhance food and nutrition security and climate resilience of local farmers and communities,â said Gregory C. Carr, GRP President.
Gregory C. Carr (left) with Bram Govaerts. (Photo: Ricardo Curiel/CIMMYT)
The parties will explore collaboration opportunities to give local farmers access to drought tolerant and disease resistant varieties and improved seeds by building capacities of local seed systems.
âWe are very excited to contribute to protect Gorongosa National Park by restoring soil health, accelerating a transition to resilience and sustainability and improving, as a result, the yields and living standards of local farming communities,â said Bram Govaerts, Director General at CIMMYT.
The new projects will also aim to promote agriculture conservation-based intensification practices that will increase yields sustainably and limit the expansion of the agricultural frontier in the buffer zone neighboring the protected area.
âIf you bring two world class organizations together and create critical mass, it is possible to succeed and show that agriculture is not the enemy of biodiversity,â said the U.S. Special Envoy for Global Food Security, Cary Fowler.
Gregory C. Carr (left), Cary Fowler and Bram Govaerts sign a Memorandum of Understanding. (Photo: Ricardo Curiel/CIMMYT)
The 5-year Memorandum of Understanding was signed at the annual Borlaug Dialogue organized by the World Food Prize Foundation, which convenes international thought leaders, development specialists, researchers, farmers, practitioners and authorities from around the world to promote global food systems transformation and food security.
Under this yearâs âHarnessing Changeâ theme, the Foundation presented the prestigious World Food Prize to Heidi KĂŒhn from the United States for her farmer-focused development model that revitalizes farmland, food security, livelihoods and resilience in war-torn regions around the world as a way for restoring peace and prosperity through agriculture.
About GRP
Gorongosa Restoration Project is a poverty alleviation, sustainable development and conservation non-profit organization used by Gorongosa National Park as a development engine for the Sofala region. GRP is a unique organization, with a mission to advance an integrated, multi-partner approach to conservation and people-centered development. While GRP actively protects Gorongosa National Parkâs biodiversity and ecosystems, it also strives to unlock its economic potential for the community inhabitants of the Parkâs Buffer Zone, former hunting and forestry concessions, Sofala Province and further afield. GRPs dual mandate of biodiversity conservation and human development is undergirded by the principle that the quest for conservation is a human-nature dynamic that must be addressed holistically. This axiom is increasingly supported by conservation science as well as by GRPâs 15 years of experience in the field.
About CIMMYT
CIMMYT is a cutting edge, non-profit, international organization dedicated to solving tomorrowâs problems today. It is entrusted with fostering improved quantity, quality, and dependability of production systems and basic cereals such as maize, wheat, triticale, sorghum, millets, and associated crops through applied agricultural science, particularly in the Global South, through building strong partnerships. This combination enhances the livelihood trajectories and resilience of millions of resource-poor farmers, while working towards a more productive, inclusive, and resilient agrifood system within planetary boundaries.
CIMMYT is a core CGIAR Research Center, a global research partnership for a food-secure future, dedicated to reducing poverty, enhancing food and nutrition security and improving natural resources.
Inadequate seed supply and delivery systems, sometimes also misaligned with user and market demand, mean that smallholders often recycle seed or use older varieties, leaving them more vulnerable to pests and diseases.⯠Small-scale farmers, especially women and other disadvantaged groups, are particularly vulnerable to climate-related challenges, such as more frequent and severe droughts and erratic rainfall. Additionally, farmers may not be well informed about varietal options available to them or may be reluctant to experiment with new varieties. These challenges threaten agricultural production and can compromise their ability to meet their own food, nutrition and income needs. Â
Improved varieties, innovations and approaches developed and promoted by CGIAR and partners could transform agrifood systems and reduce yield gaps, âhunger monthsâ and other disparities. However, limited access to and use of affordable, quality seed of well-adapted varieties with desired traits, means these bottlenecks remain.âŻ
This Initiative aims to support the delivery of seedâŻof improved, climate-resilient, market-preferred and nutritious varieties of priority crops, embodying a high rate of genetic gain to farmers, ensuring equitable access for women and other disadvantaged groups.
This objective will be achieved through:
Supporting demand-driven cereal seed systems for more effective delivery of genetic gains from One CGIAR cereal breeding, as well as improving government, private sector and farmer-based capacity to deliver productive, resilient and preferred varieties to smallholders.Â
Boosting legume seed through a demand-led approach that builds on growing demand for grain legumes. This multistakeholder approach will strengthen partnerships to provide efficient, more predictable and demand-led access to quality seed of new varieties.Â
Scaling and delivering vegetatively propagated crop seed through sustainable enhanced delivery pathways that efficiently target different market segments and farmer preferences.Â
Supporting partnerships (including with smallholders), capacity building and coordination to ensure uptake of public-bred varieties and other innovations by providing technical assistance for national agricultural research and extension systems (NARES) and foundation seed organizations in early-generation seed production and on-farm demonstrations.Â
Developing and implementing policies for varietal turnover, seed quality assurance and trade in seeds by leveraging global expertise and experience to generate both the evidence and engagement necessary to advance efficient, sustainable, and inclusive seed markets that promote varietal turnover and wider adoption.Â
Scaling equitable access to quality seed and traits in order to reach the unreached and provide inclusive access while addressing gender and social constraints and the digital divide.Â
Engagement
This Initiative will work in Bangladesh, Ethiopia, India, Kenya, Mozambique, Nepal, Nigeria, Rwanda, Uganda and Tanzania as a priority, followed by other countries in Latin America, South and Southeast Asia and Sub-Saharan Africa.Â
Outcomes
Proposed 3-year outcomes include:
Robust tools developed and used by funders, developers, researchers and extension staff to sustainably measure and monitor key seed system metrics.Â
Increase of 10% in the quantity of quality seed of improved âbest-fitâ and farmer-preferred varieties available to farmers in representative crops and geographies due to increased capacity of seed companies and other seed multipliers (including farm-based seed actors). Â
Public and private seed enterprises adopting innovative and transformative models for accessing, disseminating and multiplying quality early-generation seed, reducing cost and increasing output.Â
Reduction of 5% in weighted average varietal age for priority crops in selected countries.    Â
Government partners in policy design and implementation actively promote policy solutions to accelerate varietal turnover, adoption and quality seed use.Â
Mazvita Chiduwa works with smallholder farmers in maize-based, mixed farming systems under pressure to improve system resilience. Chiduwa’s training and background are in legume integration into farming systems, including a focus on rhizobia inoculant production, quality control, regulation, and application.
Chiduwa joined CIMMYT in 2022 and is working on diversification of maize-based farming systems in Malawi using conservation agriculture and different intercrop arrangements between maize and the legumes cowpea, groundnut, pigeon pea and soybean. She is also working on developing a digital agronomy decision tool for smallholder farmers, working with farmers in Malawi, Mozambique and Zambia. The pilot work is being implemented in the context of soybean in maize-based systems with the intention to develop it for other crops in future. The main research questions are to do with soybean variety choices, planting dates, crop establishment methods and site-specific nutrient recommendations.
To test solutions that could mitigate the impacts of drought, the study used randomized control trials to test the impact of combining drought-resistant seeds and index insurance in Mozambique and Tanzania.
Results show that combining these two technologies expands their benefits: using the improved seeds reduces insurance costs, and having insurance to begin with counteracts the risk of adopting the seeds. Farmers who use both technologies have greater resilience to drought in the short- and long-term.
Demonstrating the benefits to farmers and informing the scaling-up of the solution-bundling approach was also found to be important.
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.
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 countriesâ 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. âTo ensure target product profiles are an accurate reflection of customer needs, who include farmers, consumers, and processors,â she said.
âNational 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.â.
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.
âWe 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,â reflected Gitonga.
The collaboration of the teams involved was a key factor for the projectâs success so far and will be crucial in working towards its goals in the future.
âInvolving 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,â 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 projectâs 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, âDefining national TPPs, identifying regionally important traits and mapping a testing network are fundamental building blocks of a modern breeding program.â
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.
âThrough 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,â 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.
Participants of the AGG Maize Mid-Term Review and Planning Meeting at CIMMYT’s Maize Lethal Necrosis Screening Facility in Naivasha, Kenya. (Photo: Dokta Jonte Photography)
The Accelerating Genetic Gains in Maize and Wheat (AGG) Project, which is halfway through its implementation, continues to register impressive achievements. At a meeting focusing on the projectâs Maize component, held in Nairobi during July 25-28, B.M. Prasanna, Director of the Global Maize Program at the International Maize and Wheat Improvement Center (CIMMYT), highlighted the projectâs major achievements in the opening session.
âOne of the most important achievements of this project is increasing use of powerful tools and technologies to increase genetic gains in maize breeding pipelines in Africa,” said Prasanna. He noted that the AGG partners are showing keen interest in doubled haploid-based maize breeding. Prasanna pointed out that currently work is ongoing to produce third-generation tropicalized haploid inducers which, in combination with molecular markers, will support accelerated development of improved maize germplasm, a key objective of the AGG Project.
Prasanna also pointed out a significant increase in adoption of stress-tolerant maize in Africa â from less than half a million hectares cultivated under stress tolerant maize varieties in 2010, to 7.2 million hectares currently in 13 African countries, benefitting 44.5 million people. He explained that drought-tolerant maize is not only a productivity enhancing tool but also an innovation for improving the welfare of farmers. âIt reduces the probability of crop failure by 30 percent and provides an extra income to farmers at a rate of approximately $240 USD per hectare, equivalent to about nine months of food for a family at no additional cost,” he said, adding that the essence of research is taking improved genetics to farmers and impacting their lives.
He noted there is remarkable progress in maize varietal turnover in sub-Saharan Africa, pointing out particularly efforts in Ethiopia, Uganda, Zambia and Zimbabwe, where old maize varieties, some dating as far back as 1988, have been replaced with newer climate-resilient varieties. Prasanna highlighted the need to engage with policy makers to put in place appropriate legislation that can accelerate replacement of old or obsolete varieties with improved genetics.
Prasanna stressed on the importance of rapid response to transboundary diseases and insect-pests. CIMMYT has established fall armyworm (FAW) screening facility at Kiboko, Kenya, and that more than 10,000 maize germplasm entries have been screened over the last three years. He applauded South Sudan for being the first country in sub-Saharan Africa to recently release three CIMMYT-developed FAW-tolerant hybrids. He said CIMMYTâs FAW-tolerant inbred lines have been shared with 92 institutions, both public and private, in 34 countries globally since 2018.
Kevin Pixley, CIMMYT Global Genetic Resources Director and Deputy Director General, Breeding and Genetics, encouraged the participants to continuously reflect on making innovative contributions through the AGG project, to serve smallholder farmers and other stakeholders, and to offer sustainable solutions to the food crisis that plagues the world.
B.M. Prasanna addresses partners at the KALRO Kiboko Research station in Kenya during an AGG field visit. (Photo: Dokta Jonte Photography)
Synergies across crops and teams
Pixley pointed out that though the meetingâs focus was on maize, the AGG Project has both maize and wheat components, and the potential for learning between the maize and wheat teams would benefit many, especially with the innovative strides in research from both teams.
Pixley referenced a recent meeting in Ethiopia with colleagues from the International Institute of Tropical Agriculture (IITA), the International Center for Tropical Agriculture (CIAT) and CIMMYT, where discussions explored collaboration among CGIAR centers and other stakeholders in strengthening work on cowpea, chickpea, beans, sorghum, millet and groundnut crops. He noted that maize, wheat and the aforementioned crops are all critical in achieving the mission of CGIAR.
âCIMMYT has been requested, since August of last year, by CGIAR to initiate research projects on sorghum, millet and groundnut because these crops are critical to the success of achieving the mission of CGIAR,” said Pixley. “So, we have recently initiated work on the Accelerated Varietal Improvement and Seed Systems in Africa (AVISA) project together with partners. This is the first step towards OneCGIAR. Itâs about synergies across crops and teams.”
Collaborative research commended
The meetingâs Chief Guest, Felister Makini, Deputy Director General â Crops of the Kenya Agricultural and Livestock Research Organisation (KALRO), commended the collaborative research undertaken by CIMMYT and other CGIAR partners. She noted that the partnerships continue to build on synergies that strengthen institutional financial, physical and human resources. She attested that collaboration between KALRO and CGIAR dates back to the 1980s, beginning with training in maize breeding, and then subsequent collaboration on developing climate-adaptive improved maize varieties and training of KALRO technicians in maize lethal necrosis (MLN) screening and management among other areas.
Maize and wheat are staple food sources in Kenya and sub-Saharan Africa and as the population increases, new methods and approaches must be found to accelerate development and deployment of improved maize and wheat varieties. She challenged the partners to intensify research and come out with high-yielding varieties that are resistant or tolerant to a wide range of biotic and abiotic stresses.
The Inaugural Session also featured remarks from the representatives of the AGG funders â Gary Atlin from the Bill & Melinda Gates Foundation, Jonna Davis from the Foundation for Food and Agriculture Research (FFAR), and John Derera from IITA, an AGG project partner.
A total of 116 participants, including representatives from National Agricultural Research Systems (NARS) in 13 AGG-Maize partner countries in Africa and seed companies, participated in the meeting. Participants also visited the KALRO-CIMMYT MLN Screening Facility at Naivasha, and KALRO-CIMMYT maize experiments at Kiboko, Kenya, including the work being done at the maize doubled haploid and FAW facilities.
A new special issue on gender research in agriculture highlights nine influential papers published in the past three years on gender research on crop systems including maize.
The virtual special issue, published earlier this month in Outlook on Agriculture, features work by International Maize and Wheat Improvement Center (CIMMYT) scientists on gender inclusivity in maize systems in Africa and South Asia.
In the Global South, women contribute substantial labor to agriculture but continue to face barriers in accessing agricultural resources, tools and technologies and making decisions on farms.
Combatting gender inequality is crucial for increasing agricultural productivity and reducing global hunger and poverty and should be a goal in and of itself. Evidence suggests that if women in the Global South had access to the same productive resources as men, farm yields could rise by up to 30 percent, increasing total agricultural output by up to 4 percent and decreasing the number of hungry people around the world by up to 17 percent.
The latest virtual special issue includes a review of existing research by CIMMYT gender experts, exploring issues and options in supporting gender inclusivity through maize breeding and the current evidence of differences in male and female farmersâ preferences for maize traits and varieties. The team also identified key research priorities to encourage more gender-intentional maize breeding, including innovative methods to assess farmer preferences and increased focus in intrahousehold decision-making dynamics.
The issue also features a study by CIMMYT and Rothamsted Research researchers on differences in preferred maize traits and farming practices among female and male farmers in southern Africa. The team found that female plot managers and household heads were more likely to use different maize varieties and several different farming practices to male plot managers and household heads. Incorporating farming practices used by female farmers into selection by maize breeding teams would provide an immediate entry point for gender-intentionality.
Also included is a recent paper by CIMMYT gender researchers which outlines the evidence base for wheat trait preferences and uptake of new farming technologies among male and female smallholder farmers in Ethiopia and India. The team highlight the need for wheat improvement programs in Ethiopia and India to include more gender-sensitive technology development, evaluation and dissemination, covering gender differences in wheat trait preferences, technology adoption and associated decision-making and land-use changes, as well as economic and nutritional benefits.
In a study carried out in the Eastern Gangetic Plains of South Asia, CIMMYT scientists investigated how changes in weed management practices to zero tillage â a method which minimizes soil disturbance â affect gender roles. The team found that switching to zero tillage did not increase the burden of roles and responsibilities to women and saved households valuable time on the farm. The scientists also found that both women and menâs knowledge of weed management practices were balanced, showing that zero tillage has potential as a gender inclusive farming practice for agricultural development.
Also featured in the special issue is a study by CIMMYT experts investigating gender relations across the maize value chain in rural Mozambique. The team found that men were mostly responsible for marketing maize and making decisions at both the farm level and higher levels of the value chain. The researchers also found that cultural restrictions and gender differences in accessing transport excluded women from participating in markets.
Finally, the collection features a study authored by researchers from Tribhuvan University, Nepal and CIMMYT exploring the interaction between labour outmigration, changing gender roles and their effects on maize systems in rural Nepal. The scientists found that the remittance incomes sent home by migrants and raising farm animals increased maize yields. They further found that when women spent more time doing household chores, rearing farm animals and engaging in community activities, maize yields suffered, although any losses were offset by remittance incomes.
Digital innovations can enable an unprecedented transformation of food, land and water systems for greater climate resilience and sustainability. To realize this potential, multidisciplinary expertise across the CGIAR must find solutions to three challenges affecting the Global South:Â
The digital divide: digital technologies and infrastructure do not meet peopleâs needs, especially women and rural populations. More than 600 million people live outside the reach of mobile networks, two-thirds of them in sub-Saharan Africa.Â
Weak information systems: available information is inadequate or does not reach those who need it most. More than 300 million small-scale producers lack access to digital climate services. Weak information systems prevent evidence-based policy responses and lead to missed opportunities to reduce poverty and increase economic growth.Â
Limited digital capabilities: digital literacy and skill levels across the Global South remain low, particularly for marginalized and food-insecure individuals and groups such as women.
Objective
The Digital Innovation Initiative aims to develop and support digital innovations to stimulate the inclusive, sustainable transformation of food, land and water systems in the areas of investments that policymakers could make to close the digital divide, information delivery systems that allow more people to take action against predicted risks, and ways for partner organizations and marginalized communities to enhance digital capabilities, access resources and opportunities.Â
This objective will be achieved through:
Generating evidence on impacts of digital innovations and collaborative partnerships to create an enabling environment for digital ecosystems, unlocking local innovatorsâ access to investments and advanced technologies.Â
Developing a suite of tools and guidelines to bridge the digital divide, ensuring that gender equality and social inclusion underly the development of digital innovations, research programs and their implementation.Â
System dynamics modeling to understand complex dynamics in agrifood systems and support natural resource management authorities in equitably allocating water and land resources and managing risks.Â
Real-time food system monitoring to provide timely and reliable information to stakeholders by applying AI-driven analytics of satellite remote sensing, internet-connected sensors, and other ground-truthed data from multidisciplinary sources.Â
Strengthening partnersâ capacity to collect real-time data, conduct data analytics and make data-driven decisions to enable equitable digital platforms and services.
Participants of the kick-off meeting for the Ukama Ustawi Initiative stand for a group photo in Nairobi, Kenya. (Photo: Mwihaki Mundia/ILRI)
Partners of CGIARâs new regional integrated Initiative in eastern and southern Africa held a kick-off meeting in Nairobi on March 2â3, 2022. Eighty-five people participated, including national agricultural research extension programs, government representatives, private sector actors, funders and national and regional agricultural research and development organizations.
Entitled Ukama Ustawi, the Initiative aims to support climate-smart agriculture and livelihoods in 12 countries in eastern and southern Africa: Kenya, Zambia, Ethiopia and Zimbabwe (in Phase 1); Malawi, Rwanda, Tanzania and Uganda (in Phase 2); and Eswatini, Madagascar, Mozambique and South Africa (in Phase 3).
The Initiative aims to help millions of smallholders intensify, diversify and de-risk maize-mixed farming through improved extension services, institutional capacity strengthening, targeted farm management bundles, policy support, enterprise development and private investment.
Ukama Ustawi is a bilingual word derived from the Shona and Swahili languages. In Shona, Ukama refers to partnerships, and in Swahili, Ustawi means well-being and development. Together, they resemble the vision for the Initiative to achieve system-level development through innovative partnerships.
The meeting brought together partners to get to know each other, understand roles and responsibilities, identify priorities for 2022, and review the cross-cutting programmatic underpinnings of Ukama Ustawi â including gender and social inclusion, capacity strengthening and learning.
Baitsi Podisi, representing the Centre for Coordination of Agricultural Research and Development for Southern Africa (CCARDESA), said he is excited to be part of the Initiative: “CCARDESA, in its cooperation and coordination mandate, can learn a lot from CGIAR in restructuring to respond to the changing times.â Podisi supported the partnership with CGIAR in the Initiativeâs embedded approach to policy dialogue, working with partners such as CCARDESA, the Association for Strengthening Agricultural Research in Eastern and Central Africa (ASARECA) and the Food, Agriculture and Natural Resources Policy Analysis Network (FANRPAN).
Similarly, FANRPANâs Francis Hale emphasized the need not to re-invent the wheel but to work with partners who already have a convening power, to advance the policy agenda for diversification and sustainable intensification.
What were key issues discussed?
One of the features of Ukama Ustawi is the use of four interconnected platforms: a scaling hub, a policy hub, an accelerator program and a learning platform. These will provide spaces for exchange and learning with partners across all CGIAR Initiatives in the region. Partners conducted a series of âfishbowlâ interactions across work packages to review the planned activities and provide a clearer understanding of deliverables, identify synergies, potential overlaps, common partners and countries, and set timelines.
The Initiative will work with innovative multimedia platforms to change knowledge, attitudes and practices of millions of farmers in eastern and southern Africa. One key partner in this area is the Shamba Shape Up TV show and the iShamba digital platform. Sophie Rottman, Producer of Shamba Shape Up, said she is looking forward to the work with Initiative partners, that will help expand the show to Uganda and Zambia.
Jean Claude Rubyogo, representing the Pan-Africa Bean Research Alliance (PABRA) said: âIt is time we move away from CGIAR-initiated to country-initiated development activities. This is what Ukama Ustawi is all aboutâ.
Martin Kropff, Global Director of Resilient Agrifood Systems at CGIAR, explained CGIARâs regional integrated initiatives are designed to respond to national/regional demands. âThe initiatives will start by working with partners to assess the food and nutritional challenges in the region, and tackle them by bringing in innovative solutions.â
The event was concluded by agreeing on the implementation of the inception phase of the Ukama Ustawi Initiative, and follow-on discussions to finalize key activities in 2022.
The food security and livelihoods of smallholder farming families in sub-Saharan Africa depend on maize production. The region accounts for up to two-thirds of global maize production, but is facing challenges related to extreme weather events, climate-induced stresses, pests and diseases, and deteriorating soil quality. These require swift interventions and innovations to safeguard maize yields and quality.
In this Q&A, we reflect on the results and impact of the long-term collaborative work on drought-tolerant maize innovations spearheaded by two CGIAR Research Centers: the International Maize and Wheat Improvement Center (CIMMYT) and International Institute of Tropical Agriculture (IITA). This innovative work has changed guises over the years, from the early work of the Drought Tolerant Maize for Africa (DTMA) and Drought Tolerant Maize for Africa Seed Scaling (DTMASS) projects through later iterations such as Stress Tolerant Maize for Africa (STMA) and the newest project, Accelerating Genetic Gains in Maize and Wheat (AGG).
In this Q&A, three leaders of this collaborative research reflect on the challenges their work has faced, the innovations and impact it has generated for smallholder farmers, and possible directions for future research. They are: B.M Prasanna, director of CIMMYTâs Global Maize Program and of the CGIAR Research Program on Maize (MAIZE); Abebe Menkir, a maize breeder and maize improvement lead at IITA; and Cosmos Magorokosho, project lead for AGG-Maize at CIMMYT.
Briefly describe the challenges confronting small-scale farmers prior to the introduction of drought-tolerant maize and how CIMMYT and IITA responded to these challenges?
B.M.P.: Maize is grown on over 38 million hectares in sub-Saharan Africa, accounting for 40% of cereal production in the region and providing at least 30% of the populationâs total calorie intake. The crop is predominantly grown under rainfed conditions by resource-constrained smallholder farmers who often face erratic rainfall, poor soil fertility, increasing incidence of climatic extremes â especially drought and heat â and the threat of devastating diseases and insect pests.
Around 40% of maize-growing areas in sub-Saharan Africa face occasional drought stress with a yield loss of 10â25%. An additional 25% of the maize crop suffers frequent drought, with yield losses of up to 50%. Climate change is further exacerbating the situation, with devastating effects on the food security and livelihoods of the millions of smallholder farmers and their families who depend on maize in sub-Saharan Africa. Therefore, the improved maize varieties with drought tolerance, disease resistance and other farmer-preferred traits developed and deployed by CIMMYT and IITA over the last ten years in partnership with an array of national partners and seed companies across sub-Saharan Africa are critical in effectively tackling this major challenge.
A.M.: Consumption of maize as food varies considerably across sub-Saharan Africa, exceeding 100 kg per capita per year in many countries in southern Africa. In years when rainfall is adequate, virtually all maize consumed for food is grown in sub-Saharan Africa, with a minimal dependence on imported grain. Maize production, however, is highly variable from year to year due to the occurrence of drought and the dependence of national maize yields on seasonal rainfall. One consequence has been widespread famine occurring every five to ten years in sub-Saharan Africa, accompanied by large volumes of imported maize grain as food aid or direct imports.
This places a significant strain on resources of the World Food Programme and on national foreign exchange. It also disincentivizes local food production and may not prevent or address cyclical famine. It also leaves countries ill-equipped to address famine conditions in the period between the onset of the crisis and the arrival of food aid. Investment in local production, which would strengthen the resilience and self-sufficiency in food production of smallholder farming families, is a far better option to mitigate food shortages than relying on food aid and grain imports.
C.M.: Smallholder farmers in sub-Saharan Africa face innumerable natural and socioeconomic constraints. CIMMYT, in partnership with IITA and national agricultural research system partners, responded by developing and catalyzing the commercialization of new maize varieties that produce reasonable maize yields under unpredictable rainfall-dependent growing season.
Over the life of the partnership, more than 300 new climate-adaptive maize varieties were developed and released in more than 20 countries across sub-Saharan Africa where maize is a major staple food crop. Certified seed of over 100 stress-tolerant improved maize varieties have been produced by seed company partners, reaching more than 110,000 tons in 2019. The seeds of these drought-tolerant maize varieties have benefited more than 8 million households and were estimated to be grown on more than 5 million hectares in eastern, southern and west Africa in 2020.
A farmer in Mozambique stands for a photograph next to her drought-tolerant maize harvest. (Photo: CIMMYT)
In what ways did the drought-tolerant maize innovation transform small-scale farmersâ ability to respond to climate-induced risks? Are there any additional impacts on small scale farmers in addition to climate adaptation?
B.M.P.: The elite drought-tolerant maize varieties can not only provide increased yield in drought-stressed crop seasons, they also offer much needed yield stability. This means better performance than non-drought-tolerant varieties in both good years and bad years to a smallholder farmer.
Drought-tolerant maize varieties developed by CIMMYT and IITA demonstrate at least 25-30% grain yield advantage over non-drought-tolerant maize varieties in sub-Saharan Africa under drought stress at flowering. This translates into at least a 1 ton per hectare enhanced grain yield on average, as well as reduced downside risk in terms of lost income, food insecurity and other risks associated with crop yield variability. In addition to climate adaptation, smallholder farmers benefit from these varieties due to improved resistance to major diseases like maize lethal necrosis and parasitic weeds like Striga. We have also developed drought-tolerant maize varieties with enhanced protein quality â such as Quality Protein Maize or QPM â and provitamin A, which improve nutritional outcomes.
We must also note that drought risk in sub-Saharan Africa has multiple and far-reaching consequences. It reduces incentives for smallholder farmers to intensify maize-based systems and for commercial seed companies to invest and evolve due to a limited seed market.
Drought-tolerant maize is, therefore, a game changer as it reduces the downside risk for both farmers and seed companies and increases demand for improved maize seed, thus strengthening the commercial seed market in sub-Saharan Africa. Extensive public-private partnerships around drought-tolerant maize varieties supported the nascent seed sector in sub-Saharan Africa and has enabled maize-based seed companies to significantly grow over the last decade. Seed companies in turn are investing in marketing drought-tolerant maize varieties and taking the products to scale.
A.M.: The DTMA and STMA projects were jointly implemented by CIMMYT and IITA in partnership with diverse national and private sector partners in major maize producing countries in eastern, southern and western Africa to develop and deploy multiple stress-tolerant and productive maize varieties to help farmers adapt to recurrent droughts and other stresses including climate change.
These projects catalyzed the release and commercialization of numerous stress-resilient new maize varieties in target countries across Africa. Increasing the resilience of farming systems means that smallholder farmers need guaranteed access to good quality stress resilient maize seeds. To this end, the two projects worked with public and private sector partners to produce large quantities of certified seeds with a continual supply of breeder seeds from CIMMYT and IITA. The availability of considerable amount of certified seeds of resilient maize varieties has enabled partners to reach farmers producing maize under stressful conditions, thus contributing to the mitigation of food shortages that affect poor people the most in both rural and urban areas.
C.M.: The drought-tolerant maize innovation stabilized maize production under drought stress conditions in sub-Saharan Africa countries. Recent study results showed that households that grew drought-tolerant maize varieties had at least half a ton more maize harvest than the households that did not grow the drought-tolerant maize varieties, thus curbing food insecurity while simultaneously increasing farmersâ economic benefits. Besides the benefit from drought-tolerant innovation, the new maize varieties developed through the partnership also stabilized farmersâ yields under major diseases, Striga infestation, and poor soil fertility prevalent in sub-Saharan Africa.
How is the project addressing emerging challenges in breeding for drought-tolerant maize and what opportunities are available to address these challenges in the future?Â
Margaret holds an improved ear of drought-tolerant maize. Margaretâs grandmother participated in an on-farm trial in Murewa district, 75 kilometers northeast of Zimbabweâs capital Harare. (Photo: Jill Cairns/CIMMYT)
B.M.P.: A strong pipeline of elite, multiple-stress-tolerant maize varieties â combining other relevant adaptive and farmer-preferred traits â has been built in sub-Saharan Africa through a strong germplasm base, partnerships with national research partners and small- and medium-sized seed companies, an extensive phenotyping and multi-location testing network, and engagement with farming communities through regional on-farm trials for the identification of relevant farmer-preferred products.
CGIAR maize breeding in sub-Saharan Africa continues to evolve in order to more effectively and efficiently create value for the farmers we serve. We are now intensively working on several areas: (a) increasing genetic gains (both on-station and on-farm) through maize breeding in the stress-prone environments of sub-Saharan Africa by optimizing our breeding pipelines and effectively integrating novel tools, technologies and strategies (e.g., doubled haploids, genomics-assisted breeding, high-throughput and precise phenotyping, improved breeding data management system, etc.); (b) targeted replacement of old or obsolete maize varieties in sub-Saharan Africa with climate-adaptive and new varieties; (c) developing next-generation climate-adaptive maize varieties with traits such as native genetic resistance to fall armyworm, and introgressed nutritional quality traits (e.g., provitamin A, high Zinc) to make a positive impact on the nutritional well-being of consumers; and (d) further strengthening the breeding capacity of national partners and small and medium-sized seed companies in sub-Saharan Africa for a sustainable way forward.
A.M.:Â The DTMA and STMA projects established effective product pipelines integrating cutting-edge phenotyping and molecular tools to develop stress-resilient maize varieties that are also resistant or tolerant to MLN disease and fall armyworm. These new varieties are awaiting release and commercialization. Increased investment in strengthening public and private sector partnerships is needed to speed up the uptake and commercialization of new multiple stress-resilient maize varieties that can replace the old ones in farmersâ fields and help achieve higher yield gains.
Farmersâ access to new multiple-stress-tolerant maize varieties will have a significant impact on productivity at the farm level. This will largely be due to new varietiesâ improved response to fertilizer and favorable growing environments as well as their resilience to stressful production conditions. Studies show that the adoption of drought-tolerant maize varieties increased maize productivity, reduced exposure to farming risk among adopters and led to a decline in poverty among adopters. The availability of enough grain from highly productive and stress-resilient maize varieties can be the cheapest source of food and release land to expand the cultivation of other crops to facilitate increased access to diversified and healthy diets.
C.M.: Â The project is tackling emerging challenges posed by new diseases and pests by building upon the successful genetic base of drought-tolerant maize. This is being done by breeding new varieties that add tolerance to the emerging disease and pest challenges onto the existing drought-tolerant maize backgrounds. Successes have already been registered in breeding new varieties that have high levels of resistance to MLN disease and the fall armyworm pest.
Opportunities are also available to address new challenges including: pre-emptively breeding for threats to maize production challenges that exist in other regions of the world before these threats reach sub-Saharan Africa; enhancing the capacity of national partners to build strong breeding programs that can address new threats once they emerge in sub-Saharan Africa; and sharing knowledge and novel high-value breeding materials across different geographies to immediately address new threats once they emerge.
Cover photo: Alice Nasiyimu stands in front of a drought-tolerant maize plot at her family farm in Bungoma County, in western Kenya. (Photo: Joshua Masinde/CIMMYT)
The active involvement of partners in the co-design of project and capacity building activities is key to the success of the Accelerating Genetic Gains in Maize and Wheat for Improved Livelihoods (AGG) project, led by the International Maize and Wheat Improvement Center (CIMMYT). To that end, the AGG Regional Collaborative Breeding and Testing Networks launched with virtual meetings on September 14 and 15 for southern African partners, and October 28 and November 2 for eastern African partners.
These training events and regional meetings provided opportunities for well over 100 breeders from CIMMYT, national agricultural research systems (NARS) and seed companies to refresh their capacities to improve genetic gains, and to collectively review and discuss upcoming project activities, current issues of interest, and broader project objectives within their current regional context.
Several themes of importance to partners emerged during the network virtual meetings, for attention in future AGG activities and capacity development work.
Gender inclusion and the impact of COVID-19
Ugandan partners, including Godfrey Asea, director of the National Crops Resources Research Institute at Ugandaâs National Agricultural Research Organization, and Josephine Okot, founder and managing director of Victoria Seeds, applauded the projectâs emphasis on inclusion of womenâs knowledge and preferences in breeding programs.
âWe notice that this time there is a lot of focus on gender-inclusiveness,â remarked Asea. âI can tell you there is need for enhanced capacity building for both the private sector and research in proper gender inclusion.â
They also noted the importance of building local capacity, not just for food security but also for other value chain items like raw materials. âCOVID-19 has demonstrated to all policy-makers that we cannot depend on the global supply chains,â said Okot. âHow can we leverage this project if, for instance, some private sector actors want to [know] the appropriate protein-content maize for, say, animal feed?â
Godfrey Asea (R), director of the National Crops Resources Research Institute (NaCRRI) at Ugandaâs National Agricultural Research Organization (NARO), and Daniel Bomet (L), a maize breeder at NARO, admire maize cobs on a farm in Uganda. (Photo: Joshua Masinde/CIMMYT)
Demand for knowledge
NARS members in Tanzania requested increased support on how to measure or assess genetic gains, especially at the national level, to allow them to establish a baseline upon which genetic gains would be pegged for the project lifecycle.
With statistics an essential element to plant breeding â from analyzing yield trials to ranking varieties â the webinar series in Statistical Analysis for Plant Breeders was a first step towards meeting these capacity development needs.
âThe idea of this webinar series was to share insights on how we can improve the breeding plans using statistical methods in an effective way,â said Juan Burgueño, the head of CIMMYTâs Biometrics and Statistics Unit. âThe training offered both theory and hands-on experience using open-access software.â
Reaching farmers
Looking beyond breeding, meeting participants also discussed how to improve access and adoption of improved varieties among farmers.
âFor a large country such as Tanzania, it is at times very hard to reach the farmers,â said Zabron Mbwaga, managing director of the Tanzania-based Beula Seed Company and Consultancy Limited. âWe may have a lot of seed in the store, but how to get the farmers to adopt the newer varieties is quite difficult. This is more so when farmers tend to stick to varieties which they know well and are always reluctant to adopt the new varieties,â he explained.
âWe need to put in a lot of effort to set up demonstration farms and enhance other awareness-raising activities such as radio programs so that farmers can know about the new varieties.â
This interest in working with smallholder farmers along the entire value chain was echoed by partners in southern Africa.
âThrough this project, we would like to explore ways of collaborating along the whole value chain â as the Agriculture Research Council, other partners and small to medium enterprises â to make it an effective chain,â said Kingstone Mashingaidze, senior research manager at the South Africa Agricultural Research Council. âBy planning together, we can identify best-fits for all activities in the value chain and ultimately benefit the smallholder farmers.â
About the AGG Regional Collaborative Breeding and Testing Networks
The AGG Regional Collaborative Breeding and Testing Networks aim to improve breeding efficiencies among partners by enabling the use of modern tools and approaches and enriching the existing network of research organizations, public and private seed companies, farmersâ organizations, non-governmental organizations and community-based organizations. It is expected that these networks will lead to increased efficiency and communications across the partnership network and within countries, improved sharing of best practices and protocols, and increased collective ownership of products for accelerated variety development and turnover.
The virtual meetings for the Regional Collaborative Breeding and Testing Network for southern Africa convened participants from Malawi, Mozambique, South Africa, Zambia and Zimbabwe, while meetings for eastern Africa had participants from Ethiopia, Kenya, Tanzania and Uganda.
AGG communications staff Joshua Masinde and Shiela Chikulo contributed to this story.
