QPM seed production management training in progress. Photos: S. Mahifere/CIMMYT
Managers of private and public seed companies in Ethiopia have expressed interest to produce and broadly market quality protein maize (QPM) seed, provided that they get technical and other necessary support from the Nutritious Maize for Ethiopia (NuME) project.
The managers attended a three-day workshop on Seed Business Management organized by NuME from March 23–25 in Addis Ababa, Ethiopia. The training was aimed at improving the capacity of seed companies to produce QPM seed at the required quantity and quality for the sustainable adoption of QPM.
Ms. Elsa Asfaha (right), Manager, Alamata Agroprocessing, receives her certificate from Tafesse Gebru (middle), the Chief Executive Officer of the Ethiopian Seed Enterprise, while Adefris Teklewold (left), NuME project leader, looks on.
In his keynote address, Dr. Adugna Wakjira, the Deputy Director General of the Ethiopian Institute of Agricultural Research, noted that “many challenges are involved in seed production and delivery systems and it is thus critical that seed companies, both public and private, enhance their capacities to engage in the QPM value chain.”
Adefris Teklewold, NuME project leader, briefed participants about the project and its many accomplishments so far and pledged that “NuME will do all it can to address challenges faced by seed companies in producing QPM seed.”
“All issues and concerns in the seed value chain need to be considered, including seed quality, branding as well as maize lethal necrosis,” Adefris noted.
CIMMYT has appointed Stephen Mugo as the new CIMMYT–Africa Regional Representative (CRR) and the CIMMYT–Kenya Country Representative (CCR). He takes over these two roles from the late Wilfred Mwangi, who served CIMMYT for 27 years, the last of them as Africa Regional Liaison Officer before his demise in December 2014. Mugo brings to the position 32 years of experience in agricultural research, 17 of them in service to CIMMYT under different capacities, including his current role as CIMMYT’s leader in the Water Efficient Maize for Africa (WEMA) Project.
Bekele Abeyo
CIMMYT has two other offices in Africa: the Ethiopia country office with Bekele Abeyo as the CIMMYT–Ethiopia Country Representative (CCR), and the Zimbabwe country office with Mulugetta Mekuria as CCR. Mulugeta also doubles as the Southern Africa Sub-Regional Representative.Together, Stephen Mugo, Bekele Abeyo and Mulugetta Mekuria serve as the CIMMYT contact persons in Africa for donors and governments, and they oversee regional and local office operations.
Mulugetta Mekuria
CIMMYT has 200 staff based in Africa, of whom one-third are internationally recruited and two-thirds are locally recruited. CIMMYT executes nearly 40 percent of its regional targeted activities in Africa. These activities are in collaboration with partners in 24 countries, besides other sister CGIAR centers.
B.M. Prasanna
CIMMYT’s overall research oversight is managed globally through five research programs – the Genetic Resources Program (led by Kevin Pixley, based in Mexico), the Global Maize Program (led by B.M. Prasanna, based in Kenya), the Global Wheat Program (led by Hans Braun, based in Mexico), the Conservation Agriculture Program (led by Bruno Gerard, based in Mexico) and the Socioeconomics Program (led by Olaf Erenstein, based in Mexico).
Irrigation reservoir at the Kulumsa research station in Ethiopia. CIMMYT/Julie Mollins
KULUMSA, Ethiopia (CIMMYT) — An irrigation reservoir at the Kulumsa Agricultural Research Center in Ethiopia’s highlands captures water from a nearby beer distillery about 168 km (105 miles) southeast of the capital Addis Ababa.
Before the irrigation project was constructed, the industrial runoff from the brewery poured into the nearby river and affected the health of local residents.
Now it nourishes crops growing in neighboring fields during the dry season or in periods of drought. It can store up to 38,195 m3 of water.
“The irrigation project has been a key investment – it’s very instrumental for accelerating seed multiplication of improved high-yielding rust resistant varieties for local wheat projects,” said Bekele Abeyo, a CIMMYT senior scientist and wheat breeder.
“It allows us to advance wheat germplasm and seed multiplication of elite lines twice a year, which we couldn’t do previously.”
This cuts the time by half from the currently required eight to 10 years to four to five years for the development and release of new varieties through conventional breeding.
An additional pond with the capacity to capture 27,069 m3 of natural water from the river, generates the capacity to irrigate more than 30 hectares of land during the off season.
The construction of the ponds began in April 2012. Sprinkler irrigation was completed in 2014 and management of the project was handed over to the Kulumsa Research Center.
A new project in Ethiopia aims to improve the livelihoods of wheat farmers by encouraging the development and multiplication of high-yielding, rust-resistant bread and durum wheat varieties.
Photo: CIMMYT
High-quality seed is the key entry point for elevating farmer productivity in Ethiopia. As Norman Borlaug, the late Nobel Peace Prize laureate and wheat breeder who worked for many years with the International Center for Maize and Wheat Improvement (CIMMYT) wrote: “Rust never sleeps.”
Stem, leaf and yellow rusts choke nutrients and devastate wheat crops without recognition of political boundaries, making it essential that global action is taken to control all virulent strains of these devastating diseases to ensure food security.
At a recent workshop hosted by the Ethiopian Institute of Agricultural Research (EIAR) in the capital, Addis Ababa, 150 participants from 24 organizations discussed the project, which builds upon the successes of a previous EIAR and International Center for Agricultural Research in the Dry Areas (ICARDA) program funded by the U.S. Agency for International Development (USAID).
Bekele Abeyo points out that high-quality seed is critical in Ethiopia. Photo: CIMMYT
The purpose of the March workshop titled “Seed Multiplication and Delivery of High-Yielding Rust-Resistant Bread and Durum Wheat Varieties to Ethiopian Farmers” was to launch the three-year seed project, which has a budget of $4.75 million, and strengthen the involvement of stakeholders and key partners.
Aims include enhancing rust disease surveillance, early warning and phenotyping; fast-track variety testing and pre-release seed multiplication; accelerating seed multiplication of durable rust-resistant wheat varieties; demonstrating and scaling up improved wheat varieties; and improving the linkages between small-scale durum wheat producers and agro-industries.
To achieve these goals EIAR, CIMMYT and the University of Minnesota will implement project activities in collaboration with other key Ethiopian stakeholders, including agricultural research centers, public and private seed enterprises, the Ethiopian Agricultural Transformation Agency, the Ethio-Italian Development Cooperation “Agricultural Value Chains Project in Oromia” and the Ethiopia Seed Producers Association.
The project covers 51 districts in four major wheat-growing regions of Ethiopia. Milestones include the following: reaching 164,000 households with direct access to the new technology and having more than 2 million households benefiting from indirect access to high-yielding rust resistant cultivars; wheat yield increases of 25 percent for farmers with access to rust-resistant seed varieties; training for about 5,000 agricultural experts, development agents, seed producers and model farmers; more than 50 percent of the wheat area being sown to cultivars with durable resistance to current rust threats; an increased number of seed growers and associations participating in accelerated seed multiplication; and the increased participation of women farmers to lead accelerated seed multiplication and scaling up.
All partners will be involved in close monitoring and working groups related to the project.
At the workshop, a key topic was emphasizing to farmers that they must avoid susceptible rust suckers as they are pumping more spores on cultivars under production, which is one reason for the recurrent epidemics of wheat rusts and break down of resistant genes.
Delegates also engaged in discussions on the importance of cropping systems and variety diversifications. Fruitful deliberations and interactions occurred and important feedback was captured for project implementation and to ensure successful results.
A previous workshop on the surveillance, early warning and phenotyping component of the project was held at the Cereal Disease Laboratory in Minnesota.
Bekele Abeyo is a CIMMYT senior scientist based in Addis Ababa, Ethiopia. He will lead the seed improvement project.
CIMMYT has received a grant of USD 17.8 million from the United States Agency for International Development (USAID) to implement a new project dubbed Drought Tolerant Maize for Africa Seed Scaling (DTMASS). The three-year project officially started on 15 March 2015.
The project aims to produce and deploy affordable and improved drought-tolerant, stress-resilient and high-yielding maize varieties for 1.8 million smallholder farmers in Ethiopia, Kenya, Tanzania, Uganda, Mozambique and Zambia by the end of the project. Similarly, DTMASS plans to produce approximately 7,900 metric tons of maize varieties with a strategic goal of improving food security and income for the farmers.
“This is a great achievement for the project team, which worked tirelessly to develop the project proposal that has just been approved for implementation”, remarked Tsedeke Abate, DTMASS project leader. He added that the project will go a long way in supporting farmers to increase their returns from maize farming, while at the same time giving them good-quality maize for consumption. “This is a good day for maize in Africa,” said Tsedeke.
DTMASS will be implemented in close collaboration with USAID’s Feed the Future program, building on experience, successes and lessons from the Drought Tolerant Maize for Africa and other complementary CIMMYT maize projects in Africa like Improved Maize for African Soils and Water Efficient Maize for Africa, to strengthen production and delivery of maize seeds to farmers in the seven target countries.
CIMMYT will also work with the respective countries’ extension wings of the ministries of agriculture, public and private seed companies, national agricultural research organizations, community-based organizations and non-governmental organizations. More on DTMASS
Water plays a major role in smallholder farmer crop production, and CARE International’s Graduation with Resilience to Achieve Sustainable Development (GRAD) program aims to sustain food security for food insecure households in rural Ethiopia.
In this picture from CARE taken by Josh Estey, shows Desta Seba, 28, and his wife Hana Eliyas, 25. They have four children. The family farms 1 hectare (2.5 acres) of land, cultivating bananas, chat, coffee, haricot bean, inset, maize and teff.
They have three goats, eight chickens and four cows. They only eat meat once a year. Before GRAD the family would eat two meals a day consisting of inset and maize. Through GRAD they have been able to save money for the first time in their lives and they can now buy such essential items for their family as salt, soap and baby food.
GRAD aims to graduate 50,000 thousand food insecure households from the Ethiopian government’s productive safety net in 16 targeted woredas (villages) and increase each household income by $365 dollars a year.
For more information, follow CARE on Twitter @CAREintuk
In this picture, taken by WFP staffer Kiyori Ueno, children are eating porridge made of maize and haricot beans produced by local farmers at the Udassa Repi Elementary School in Butajira, a project supported by Dubai Cares.
Through the School Meals program, WFP provides a daily hot meal to almost 700,000 school children to promote increased attendance and enrollment, reducing drop outs in food insecure areas. The program also supports formal education by developing schools into community resource centers that promote good nutrition and environmental awareness.
Farmers face a range of challenges related to crop production. Nguse Adhane, a smallholder farmer who lives in a small village in Ethiopia, collects his water from a spring source, which runs dry for months at a time.
Charity WaterAid and its partner Development Inter Church Aid Commission are building a gravity flow scheme, which will mean the 875 village residents will not have to depend on an unreliable water source.
Adhane, shown in this picture taken by Guilhem Alandry, has cattle and grows tomatoes, pepper, maize, teff, wheat, lentils and onions on his small farm.
“When I collect water from here for my crops, the roots become dry,” he said.
“There are worms in the water and this impacts on the crops. The cattle become distended after they drink the water as there are worms in it.
“Because there is no water, we cannot water our crops. We have a shortage of water. Our irrigations have been dry for a month now. The rains start in June.”
“If we have water, we will be very happy,” he said.
KULUMSA, Ethiopia (CIMMYT) — An irrigation reservoir at the Kulumsa Agricultural Research Center in Ethiopia’s highlands captures water from a nearby beer distillery about 168 km (105 miles) southeast of the capital Addis Ababa.
Before the irrigation project was constructed, the industrial runoff poured into the nearby river and had a negative effect on the health of local residents. Now it nourishes crops growing in neighboring fields during the dry season or in periods of drought. It can store up to 38,195m3 of water.
“The irrigation project has been a key investment – it’s very instrumental for accelerating seed multiplication of improved high-yielding rust resistant varieties for local wheat projects,” said Bekele Abeyo, a senior scientist and wheat breeder working for the International Maize and Wheat Improvement Center (CIMMYT).
“It allows us to advance wheat germplasm and seed multiplication of elite lines twice a year, which we couldn’t do previously. This cuts the time by half from the currently required eight to 10 years to four to five years for the development and release of new varieties through conventional breeding.
An additional pond with the capacity to capture 27,069m3 of natural water from the river, generates the capacity to irrigate more than 30 ha of land during the off season. The project resulted from the joint investment of the East Africa Agricultural Productivity Program, the Durable Rust Resistance in Wheat Project and CIMMYT.
The construction of the ponds began in April 2012. Sprinkler irrigation was completed in 2014 and management of the project was handed over to the Kulumsa Agricultural Research Center.
“Only those of us bold enough to try conservation agriculture technologies like zero tillage and intercropping benefited a lot, while all others were left behind.” – Hunegnaw Wubie, farmer, South Achefer District, Amhara Region, North Ethiopia
As the curtain comes down on CIMMYT’s Conservation Agriculture and Smallholder Farmers in East and Southern Africa (CASFESA) pilot project, participating farmers in project demonstration sites have said that conservation agriculture (CA) practices have proven to be a viable means of improving their productivity and livelihoods, and need to be scaled up across the nation.
A farmer speaks: ‘farmer-researcher’, clergyman Enkuhanhone Alayu, said people laughed at him for expecting to cultivate crops without plowing. Now they call him even at night seeking advice.
The farmers made these remarks at a one-day workshop on February 23, 2015, convened to take stock of the CASFESA experience after three years of implementation in South Achefer and Jebitehnan Districts of Amhara Region, Northern Ethiopia. The project began in June 2012 and will end in March 2015. Funded by the European Union through the International Fund for Agricultural Development, CASFESA aimed at increasing food security and incomes of poor smallholder farmers through sustainable intensification of mixed, cereal-based systems.
The project will leave a rich legacy, including:
adaptation and demonstration of CA-based technologies on selected farmer plots;
enhancing pro-poor and gender-sensitive targeting of CA-based interventions;
improving the delivery of information, including on technologies and market opportunities to smallholders, as well as developing policy options and recommendations that favor these technologies; and,
enhancing the capacity of research, and development interventions, for project stakeholders.
Reaping where you do not harrow
Farmers spoke passionately on how CA technologies proved profitable for them and their families “in beating the odds”. Most reported harvests of six or more tonnes per hectare of maize from the CA plots – relatively better harvests than with conventional plowing methods, plus the added benefits of reduced use of oxen and labor, and attendant advantages. They also called upon officials responsible to undertake corresponding measures to ensure that CA technologies are sustainably implemented and adopted on a wider scale.
One of these ‘farmer-researchers’, clergyman Enkuhanhone Alayu, narrated how people at first ridiculed him when, three years ago, he volunteered to demonstrate CA practices on his meagre plot of land. They laughed at him “for expecting to cultivate crops without plowing” – a reference to minimum tillage practices that the project advocates as a central element of conservation agriculture.
“But when they later saw that we were cultivating more quantity of maize per unit of land, they were surprised and people who had called me a fool began calling me even at night seeking advice on how they can replicate CA practices on their plots and gain the benefits,” Alayu said. “Zero tillage practices, which require considerably less labor, are even more relevant at this time when oxen are increasingly becoming very expensive and most farmers are not able to afford them.”
Another farmer speaks at the meeting.
Unto the next generation…
Another farmer, Ato Hunegnaw Wubie, said he was so pleased with CA technologies that he also taught his children how to do it on a portion of his land allotted to each of them. “One of my six children was so successful that this year he was able to reap 66 kilos of maize from a 10 by 10 meter plot. He sold his harvest at the market, and, with some additional money from me, bought a bicycle that he uses for transport to and from school. Only those steadfast enough and willing to learn new things will reap the benefits from such novel practices,” he added with pride.
And the farmers were not alone. Speaking at the workshop, the Deputy Head of Amhara Region Bureau of Agriculture, Dr. Demeke Atilaw, noted that maize production in the region stands at a meagre 3.2 tonnes per hectare, and that one reason for this is that “our agricultural practices didn’t include conservation agriculture. This needs to change both at the regional and national levels.” He further pledged that the bureau will work towards sustainably implementing these technologies with a view to increasing maize yields to eight tonnes per hectare.
Roadmap to national goals: “… projects alone cannot bring about significant change…”
In addition to CASFESA, CA technologies are being implemented in the region by SIMLESA, a CIMMYT project in Ethiopia, as well as in Kenya, Malawi, Mozambique and Tanzania. Presenting the experience of SIMLESA thus far, project leader, Dr. Mekuria told the participants that “the experience of both these CIMMYT projects, promising as they are, cannot alone bring about significant change unless they are scaled out using more new varieties of maize and sustained through meaningful institutional involvement – especially that of agencies at all levels of government.”
CIMMYT Agricultural Economist and CASFESA project coordinator, Dr. Moti Jaleta, also said that the experience of CASFESA has demonstrated that CA technologies are economically viable and thus worth pursuing on a wider scale and in a sustainable way. He particularly commended those farmers who volunteered to provide portions of their land as demonstration plots for CA technologies. “Their efforts and dedication have now paid off,” he noted, adding that project end does not mean that CASFESA will leave precipitously: there are still monitoring and evaluation and other wind-up tasks before project exit.
Participants of the CASFESA closure workshop in Ethiopia.
The Deputy Director General of the Amhara Regional Agricultural Research Institute, Dr. Tilaye Teklewold, summed up the mood of the day when he said that CASFESA’s experience in Amhara Region has shown that conservation agriculture is an ideal way of increasing the productivity of maize in the region, and that “concerted efforts are needed to raise the awareness and dedication of all actors involved in the region to implement these technologies and ensure lasting food security in the region and beyond.”
Links
Presentations at the workshop
CASFESA Project: Results, Lessons, Gaps, Opportunities and Challenges in English | Amharic
Gender research and outreach should engage men more effectively, according to Paula Kantor, CIMMYT gender and development specialist who is leading an ambitious new project to empower and improve the livelihoods of women, men and youth in wheat-based systems of Afghanistan, Ethiopia and Pakistan.
“Farming takes place in socially complex environments, involving individual women and men who are embedded in households, local culture and communities, and value chains — all of which are colored by expectations of women’s and men’s appropriate behaviors,” said Kantor, who gave a brownbag presentation on the project to an audience of more than 100 scientists and other staff and visitors at El Batán on 20 February. “We tend to focus on women in our work and can inadvertently end up alienating men, when they could be supporters if we explained what we’re doing and that, in the end, the aim is for everyone to progress and benefit.”
Funded by Germany’s Federal Ministry for Economic Cooperation and Development, the new project will include 14 village case studies across the three countries. It is part of a global initiative involving 13 CGIAR research programs(CRPs), including the CIMMYT-led MAIZE and WHEAT. Participants in the global project will carry out 140 case studies in 29 countries; WHEAT and MAIZE together will conduct 70 studies in 13 countries. Kantor and Lone Badstue, CIMMYT’s strategic leader for gender research, are members of the Executive Committee coordinating the global initiative, along with Gordon Prain of CIP-led Roots, Tubers and Bananas Program, and Amare Tegbaru of the IITA-led Program on Integrated Systems for the Humid Tropics.
“The cross-CRP gender research initiative is of unprecedented scope,” said Kantor. “For WHEAT, CIMMYT, and partners, understanding more clearly how gendered expectations affect agricultural innovation outcomes and opportunities can give all of our research more ‘ooomph’, helping social and biophysical scientists to work together better to design and conduct socially and technically robust agricultural R4D, and in the end achieve greater adoption and impact.”
To that end, outcomes will include joint interpretation of results with CRP colleagues and national stakeholders, scientific papers, policy engagement and guidelines for integrating gender in wheat research-for-development, according to Kantor. “The research itself is important, but can’t sit on a shelf,” she explained. “We will devise ways to communicate it effectively to partners in CGIAR and elsewhere.”
Another, longer-term goal is to question and unlock gender constraints to agricultural innovation, in partnership with communities. Kantor said that male migration and urbanization are driving fundamental, global changes in gender dynamics, but institutional structures and policies must keep pace. “The increase in de facto female-headed households in South Asia, for example, would imply that there are more opportunities for women in agriculture,” she explained, “but there is resistance, and particularly from institutions like extension services and banks which have not evolved in ways that support and foster the empowerment of those women.”
“To reach a tipping point on this, CGIAR and the CGIAR Research Programs need to work with unusual partners — individuals and groups with a presence in communities and policy circles and expertise in fostering social change,” said Kantor. “Hopefully, the case studies in the global project will help us identify openings and partners to facilitate some of that change.”
Kantor has more than 15 years of experience in research on gender relations and empowerment in economic development, microcredit, rural and urban livelihoods, and informal labor markets, often in challenging settings. She served four years as Director and Manager of the gender and livelihoods research portfolios at the Afghanistan Research and Evaluation Unit (AREU) in Kabul. “AREU has influenced policy, for example, through its work on governance structures at the provincial and district levels,” Kantor said. “They will be a partner in the Afghan study.”
She added that working well in challenging contexts requires a complex combination of openness about study aims and content in communities, sensitivity and respect for relationships and protocol, careful arrangements for logistics and safety, diverse and well-trained study teams and being flexible and responsive. “Reflections on doing gender research in these contexts will likely be an output of the study.”
After her first month at CIMMYT, Kantor, who will be based in Islamabad, Pakistan, said she felt welcome and happy. “My impression is that people here are very committed to what they do and that research is really a priority. I also sense real movement and buy-in on the gender front. An example is the fact that, of all the proposals that could’ve been put forward for funding from BMZ, the organization chose one on gender. That’s big.”
Born out of the Drought Tolerant Maize for Africa (DTMA) Initiative and other CIMMYT-Africa maize projects, the Drought Tolerant Maize for Africa Seed Scaling (DTMASS) project will improve the demand for and availability of high-quality, affordable, certified seed of drought-tolerant maize varieties for small-scale farmers across eastern and southern Africa.
“DTMASS aims to produce close to 12,000 tons of certified seed of drought-tolerant maize varieties by the end of its fifth year,” said Tsedeke Abate, DTMA project leader who will also lead DTMASS, speaking at the Uganda launch of the project in Kampala on 4 February. “This will benefit approximately 2.5 million people through the increased production and productivity of maize and the adoption of improved certified seed.”
According to Abate, DTMASS will strengthen the formal seed system, thereby reducing counterfeit seed use, lowering the risk of seed-borne maize diseases and helping to maintain productivity as climates change.
Working in Ethiopia, Kenya, Malawi, Mozambique, Tanzania, Uganda and Zambia, DTMASS will encourage cross-country learning and collaboration, Abate explained: “We have the knowledge and technology – what remains is translating knowledge to action.”
DTMASS countries account for 41 percent of maize area and production, and over 252 million people in sub-Saharan Africa.
A pillar of the project will be its strong partnerships with private and public seed companies, community-based organizations, non-governmental organizations and national extension systems. Fifty-three seed companies have already agreed to produce seed of 71 drought-tolerant varieties.
These partnerships enable increased and improved certified seed to reach small-scale farmers, increase farm production and enhance productivity, according to Dr. Imelda Kashaija, deputy director at Uganda’s National Agricultural Research Organization (NARO). “This project is at the right place at the right time,” she said.
DTMASS launched officially on 17-18 November 2014 in Addis Ababa, Ethiopia. The goal for Uganda in 2015 is to produce 1,800 tons of improved maize seed.
For Ethiopian smallholder farmers who have for millennia used the traditional animal-drawn maresha plow, two-wheel tractors could increase their productivity while reducing labor. They appear better suited to the Highlands of Ethiopia, characterized by small, fragmented farms and hilly terrain, than four-wheel tractors, which are only well-suited for large- and medium-scale farmers who comprise about 10% of the country’s estimated 14.7 million farmers. Two-wheel tractors are also very versatile and can be used for seeding, pumping water, threshing wheat and transporting heavy loads.
Service providers from three Africa RISING program sites being trained in the operation, maintenance, business, financial management and marketing of two-wheel tractors. Photo: Frédéric Baudron/CIMMYT
Although two-wheel tractors and their attachments are relatively cheap (about US $1,400) and easy to maintain, it is evident that most Ethiopian farmers won’t be able to purchase them individually. Still, they could hire the services of dedicated providers trained to use two-wheel tractors. To make mechanization accessible to smallholder farmers, on 1-5 June 2015 CIMMYT and its partners organized a training course for service providers from Debre Birhan, Sinana and Lemo woredas (districts). They were trained in the operation, maintenance, business, financial management and marketing of two-wheel tractors.
The service model being tested by CIMMYT and its partners has been adopted in Bangladesh, where a single two-wheel tractor can service up to 30 farmers. The initiative to disseminate two-wheel tractors in the Highlands of Ethiopia is supported by the United States Agency for International Development’s (USAID) Africa Research in Sustainable Intensification for the Next Generation (Africa RISING) program. After the course, trainees returned to their respective areas equipped with two-wheel tractors and various attachments, to start providing seeding, transport and water pumping services to local farmers.
Since the Growth and Transformation Plan was established by the Government of Ethiopia in 2011, tremendous progress has been made in the agricultural sector. Farmers now have access to better seeds and adequate quantities of fertilizer. Yields have increased dramatically, and improved connections between farmers and markets mean higher incomes for farmers and more food available for consumers in both rural and urban areas.
Sustaining such an increase in agricultural output, however, will require a proportionate increase in farm power. In response, the Ministry of Agriculture and the Ethiopian Agricultural Transformation Agency developed a draft national mechanization strategy in 2014, with the goal of increasing the farm power available to Ethiopian farmers 10-fold by 2025.
Edward Mabaya is a Research Associate in the Department of Applied Economics and Management at Cornell University and a development practicioner. All views expressed are his own.
Se necesita maíz de grano blanco en las zonas marginadas de Paquistán
There are many crops that conjure up an image of the African continent – maize, sorghum, millet, turf, matoke and cassava. These staples form the basis of African’s daily diet and have been established over many years through close interaction between culture and agro-ecological conditions.
Yet there is one less talked about food that you will find in every African urban area. Bread.
In 2013, African countries spent about $12 billion dollars to import 40 million metric tons of wheat, equating to about a third of the continent’s food imports. This arises as a result of the fact that only 44% of Africa’s wheat demand is met by local production. The only country on the continent with a significant production base is South Africa with over 2 million metric tons per year.
As if the current deficit was not bad enough, the demand for wheat in Africa is growing at a faster rate than for any other crop. By 2050, wheat imports are anticipated to increase by a further 23.1 million metric tons. In the last 20 years wheat imports have increased fourfold from about $3 billion in 1989 and doubled from a rate of $5 billion in 2005 (see table below). This demand is being driven by population growth, urbanization, as well as from a growing female work force who prefer wheat products, like bread or pasta, because they are faster and easier to prepare than traditional foods.
What can African countries do to reduce their wheat imports?
A short-term measure is to mandate or promote the use of composite flours that mix wheat with locally abundant starches such as cassava and starchy bananas (matoke). This practice is already in place in some countries. Nigeria, for example, mandates flour millers to include five percent cassava flour in wheat flour. Tooke flour, developed by Uganda’s Presidential initiative on Banana Industrial Development (PIBID) shows some promise. However, composite flours are only a Band-Aid solution to the growing demand for wheat based products especially given the fact that you can only substitute up to 5% before quality diminishes significantly. The only viable long-term solution is for African countries to meet a large portion of domestic demand through local production.
Like most of my African colleagues, I have always unquestioningly assumed an agronomic basis for Africa’s wheat import, that wheat is a northern hemisphere crop that does not grow well in Africa. A 2012 joint study by CIMMYT and IFPRI exploring “The Potential for Wheat Production in Africa” was an eye opener for me. Based on an integrated biological and economic simulation-based model for 12 countries, the study concluded that Africa has great potential to produce wheat in an economically viable way. The limiting factors, it turns out, are more to do with policy, institutional and social-cultural environments than agro-ecological ones. One example of which is that the heavy subsidies on wheat imports by most African governments have crowded out potential investment in domestic wheat production.
The good news is that enabling policy and institutional environments are cheaper to fix and more environmentally sustainable than making agro-ecological adaptations. The not so good news is that decades of history will be difficult to change – importing wheat is a lucrative business with strong political ties. Boosting Africa’s wheat production will require a coordinated approach with a range of partners to build the requisite enabling environment. This will need more investment in research and development, improved research infrastructure, better agricultural extensions, effective farmer associations and farmer training, better storage and improved access to affordable high quality agro-inputs (seed, fertilizers, chemicals, and machinery).
This enabling environment for wheat production in Africa will not be achieved overnight. It will take years of coordinated strategic investments and policy transformation. Key policy makers on the continent are making the first steps. In 2012, the Joint African Ministers of Agriculture and Trade “endorsed wheat as one of Africa’s strategic commodities for achieving food and nutrition security” at a meeting held in Addis Ababa. A high level Forum for Agricultural Research in Africa (FARA) meeting held in Accra in July 2013 developed a strategy for promoting African wheat production. It is especially encouraging that African governments have chosen a regional approach and multi-stakeholder approach to lower the continent’s wheat imports.
As the old African saying goes: “If you want to go fast, go alone. If you want to go far, go together.”
The Nutritious Maize for Ethiopia (NuME) project recently organized a three-day training workshop on quality protein maize (QPM) seed production and quality control, as part of the project’s activities to enhance QPM seed production. There were 26 participants, including 2 women, from seed companies, farmer cooperative unions, the Ministry of Agriculture, seed laboratories, research institutes and universities. The workshop was facilitated by CIMMYT experts working in eastern Africa.
Opening the event, Dr. Dagnachew Beyene, advisor to the State Minister of Agriculture, said the workshop was very timely. “The expansion of the Ethiopian seed system is constrained by a shortage of skilled professionals,” he said.
Heat-tolerant Maize for Asia Showcased at India-US Technology Summit
Developed over two decades of meticulous breeding from the late 1970s to the early 1990s, QPM contains enhanced levels of amino acids used for protein synthesis in humans and farm animals such as pigs and poultry. Nutritional studies have shown that it can improve the nutrition of people whose diets are highly- dependent on maize, especially young children. Major topics covered included maize variety development, maize seed research and field management for QPM seed production, maintenance of QPM inbred parent lines and open-pollinated varieties, as well post-harvest handling techniques for QPM.
The training also dealt at length with creating communication links between seed companies, customers and farmers and planning and developing seed production, marketing and financial strategies to promote of QPM seeds.
Addressing the participants at the conclusion of the training, the Crops Research Director of the Ethiopian Institute of Agricultural Research (EIAR), Dr. Asnake Fikre, stated that efforts need to be made to sustain QPM production in Ethiopia, because maize is the most produced cereal and a critical crop for food security in the country.
Asnake also noted that “in the transition to food security in the country, nutritional security is a critical concern and the crop sector in Ethiopia should work hard to sustain the QPM value chain by advocating its nutritional and agronomic benefits and creating demand for the production and use of QPM.” The added that NuME’s important work on QPM needs to be effectively backed up by multi-sectorial engagement and cooperation.
In their feedback, participants said the workshop had been timely, well-organized and valuable. They suggested that future such events include practical sessions and interaction with farmers. Typical remarks included statements that “strengthening of QPM and advocacy issues need to be consistent in promoting QPM until it reaches cutting-edge stage.”
NuME is implemented by CIMMYT in Ethiopia and funded by the Department of Foreign Affairs, Trade and Development of Canada (DFATD). It is designed to help improve the food and nutritional security of Ethiopia’s rural population, especially women and children, through the adoption of QPM varieties and crop management practices that increase farm productivity.
