Tag: drought

STMA meeting participants pose for a group photo during a field visit to seed company Zamseeds. (Photo: Jerome Bossuet/CIMMYT)

Shifting to a demand-led maize improvement agenda

Written by Jennifer Johnson on May 29, 2019. Posted in Features.

Partners of the Stress Tolerant Maize for Africa (STMA) project held their annual meeting May 7–9, 2019, in Lusaka, Zambia, to review the achievements of the past year and to discuss the priorities going forward. Launched in 2016, the STMA project aims to develop multiple stress-tolerant maize varieties for diverse agro-ecologies in sub-Saharan Africa, increase genetic gains for key traits preferred by the smallholders, and make these improved seeds available at scale in the target countries in partnership with local public and private seed sector partners.

The project, funded by the Bill & Melinda Gates Foundation and the United States Agency for International Development (USAID), is led by the International Maize and Wheat Improvement Center (CIMMYT), and implemented together with the International Institute for Tropical Agriculture (IITA), national agricultural research systems and seed company partners in 13 countries in sub-Saharan Africa.

The meeting was officially opened by the Deputy Director of the Zambia Agriculture Research Institute (ZARI), Monde Zulu. “Maize in Africa faces numerous challenges such as drought, heat, pests and disease. Thankfully, these challenges can be addressed through research. I would like to take this opportunity to thank CIMMYT and IITA. Your presence here is a testament of your commitment to improve the livelihoods of farmers in sub-Saharan Africa,” she said.

The International Maize and Wheat Improvement Center (CIMMYT) and its partners are working together in the fight against challenges such as drought, maize lethal necrosis and fall armyworm. The STMA project applies innovative technologies such as high-throughput phenotyping, doubled haploids, marker-assisted breeding and intensive germplasm screening to develop improved stress-tolerant maize varieties for smallholder farmers. The project team is also strengthening maize seed systems in sub-Saharan Africa through public-private partnerships.

The efforts are paying off: in 2018, 3.5 million smallholder farmers planted stress-tolerant maize varieties in 10 African countries.

The deputy director of the Zambia Agriculture Research Institute (ZARI), Monde Zulu (fourth from left), gives the opening address of the STMA Annual Meeting 2019. Left to right: Mick Mwala, University of Zambia; Tony Cavalieri, Bill & Melinda Gates Foundation; B.M. Prasanna, CIMMYT; Monde Zulu, ZARI; Mwansa Kabamba, ZARI; Cosmos Magorokosho, CIMMYT; and Abebe Menkir, IITA.

Yielding results

CIMMYT researcher and STMA project leader Cosmos Magorokosho reminded the importance of maize in the region. “Maize is grown on over 35 million hectares in sub-Saharan Africa, and more than 208 million farmers depend on it as a staple crop. However, average maize yields in sub-Saharan Africa are among the lowest in the world.” Magorokosho pointed out that the improved maize varieties developed through the project “provide not only increased yields but also yield stability even under challenging conditions like drought, poor soil fertility, pests and diseases.”

“STMA has proved that it is possible to combine multiple stress tolerance and still get good yields,” explained B.M. Prasanna, director of CIMMYT’s Global Maize Program and the CGIAR Research Program on Maize (MAIZE). “One of the important aspects of STMA are the partnerships which have only grown stronger through the years. We are the proud partners of national agricultural research systems and over 100 seed companies across sub-Saharan Africa.”

Keynote speaker Hambulo Ngoma of the Indaba Agricultural Policy Research Institute (IAPRI) addressed the current situation of maize in Zambia, where farmers are currently reeling from recent drought. “Maize is grown by 89% of smallholder farmers in Zambia, on 54% of the country’s cultivable land, but productivity remains low. This problem will be exacerbated by expected population growth, as the population of Zambia is projected to grow from over 17 million to 42 million by 2050,” he said.

STMA meeting participants pose for a group photo during the field visit to QualiBasic Seed. (Photo: Jennifer Johnson/CIMMYT)

Down to business

On May 8, participants visited three partner local seed companies to learn more about the opportunities and challenges of producing improved maize seed for smallholder farmers.

Afriseed CEO Stephanie Angomwile discussed her business strategy and passion for agriculture with participants. She expressed her gratitude for the support CIMMYT has provided to the company, including access to drought-tolerant maize varieties as well as capacity development opportunities for her staff.

Bhola Nath Verma, principal crop breeder at Zamseed, explained how climate change has a visible impact on the Zambian maize sector, as the main maize growing basket moved 500 km North due to increased drought. Verma deeply values the partnership with the STMA project, as he can source drought-tolerant breeding materials from CIMMYT and IITA, allowing him to develop early-maturing improved maize varieties that escape drought and bring much needed yield stability to farmers in Angola, Botswana, the Democratic Republic of the Congo, Tanzania and Zambia.

At QualiBasic Seed, STMA partners were given the opportunity to learn and ask questions about the company’s operations, including the seed multiplication process in Zambia and the importance of high-quality, genetically pure foundation seed for seed companies.

Emmanuel Angomwile (left) and Stephanie Angomwile (center) answer visitors’ questions at their seed company, Afriseed. (Photo: Jennifer Johnson/CIMMYT)

Young ideas

The meeting concluded with an awards ceremony for the winners of the 2019 MAIZE Youth Innovators Awards – Africa, established by MAIZE in collaboration with the Young Professionals for Agricultural Development (YPARD). These awards recognize the contributions of young women and men under 35 who are implementing innovations in African maize-based agri-food systems, including research-for-development, seed systems, agribusiness, and sustainable intensification. This is the second year of the MAIZE Youth Awards, and the first time it has been held in Africa. Winners include Hildegarde Dukunde of Rwanda and Mila Lokwa Giresse of the Democratic Republic of the Congo in the change agent category, Admire Shayanowako of the Republic of South Africa and Ismael Mayanja of Uganda in the research category, and Blessings Likagwa of Malawi in the farmer category.

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

Kenyan scientist urges African countries to adopt drought tolerant crops

Written by Mary Donovan on April 17, 2019. Posted in In the media.

Zimbabwean smallholder farmer Appolonia Marutsvaka, of drought-prone Zaka District, demonstrates planting drought-tolerant and heat stress maize seed. (Photo: Johnson Siamachira/CIMMYT)

To manage El Nino-related crop distress in eastern and southern Africa, invest in drought-tolerant seeds and better soil and water care

Written by Rodrigo Ordóñez on April 17, 2019. Posted in Press releases. 1 Comment on To manage El Nino-related crop distress in eastern and southern Africa, invest in drought-tolerant seeds and better soil and water care

NAIROBI, Kenya (CIMMYT) — To mitigate the impact of the current drought affecting millions of farmers living in Kenya and other areas of eastern and southern Africa, agriculture experts from the International Maize and Wheat Improvement Center (CIMMYT) call for intensively scaling up climate-resilient seeds and climate-smart innovations, including drought-tolerant seeds and soil and water conservation practices.

The U.S. National Weather Service’s Climate Prediction Center has just warned that abnormally dry conditions are affecting Kenya and other areas of eastern and southern Africa. This year’s El Niño, the second in a period of three years, has led to large pockets of drought across eastern and southern Africa, whose economies still rely heavily on rainfed smallholder farming. These recurrent climate shocks impede growth prospects in the region, as the World Bank recently announced.

In Kenya, farmers are eager to plant their maize seeds for the next cropping season. However, mid-April is already here, and farmers are still waiting for the long rains, which usually arrive by mid-March. The very late onset of the rainy season could lead to a poor cropping season and significantly reduced maize yields for farmers.

To avoid this, Stephen Mugo, CIMMYT’s regional representative for Africa, recommends that farmers shift to planting stress-resilient varieties, like early maturing maize varieties that just need 90 to 95 days to mature, instead of over four months for late maturing varieties. Seeds of such early maturing varieties are available from seed companies and agrodealers operating in maize growing areas.

“If more small farmers in Africa’s drought-prone regions grow drought-tolerant varieties of maize and other staple crops, the farming communities will be better prepared for prolonged dry spells and inadequate rainfall,” said Mugo.

Crop diversification and more sustainable soil and water conservation practices are also recommended to improve soil fertility and structure and avoid soil compaction. When the rains finally come, run-off will be less, and soils will have more capacity to retain moisture.

“Our research shows that conservation agriculture, combined with a package of good agronomic practices, offers several benefits that contribute to yield increases of up to 38 percent,” Mugo said.

To ensure large-scale adoption of sustainable and climate-resilient technologies and practices, farmers should have access to drought-tolerant seeds, as well as information and incentives to shift to climate-smart agricultural practices.

CIMMYT is engaged in many ways to help facilitate this agricultural transformation. The institute works with the African seed sector and national partners to develop and deploy stress resilient maize and wheat varieties through initiatives like Stress Tolerant Maize for Africa and the Wheat rust resistant seed scaling in Ethiopia.

Because late planting may expose maize crops to stronger attacks of pests like the fall armyworm, the research-for-development efforts initiated by the FAW R4D consortium against this invasive pest should be sustained.

More information about CIMMYT’s research on drought-tolerant seed and conservation agriculture can be found on the website of the Sustainable Intensification of Maize Legumes Systems in Eastern and Southern Africa (SIMLESA) project.

For more information or for media interviews, please contact

Jerome Bossuet, Communications Officer, CIMMYT.
J.Bossuet@cgiar.org

ABOUT CIMMYT

The International Maize and Wheat Improvement Center (CIMMYT) is the global leader in publicly funded maize and wheat research and related farming systems. Headquartered near Mexico City, CIMMYT works with hundreds of partners throughout the developing world to sustainably increase the productivity of maize and wheat cropping systems, thus improving global food security and reducing poverty. CIMMYT is a member of CGIAR and leads the CGIAR Research Programs on Maize and Wheat, and the Excellence in Breeding Platform. The center receives support from national governments, foundations, development banks and other public and private agencies.

Mary Munini, a smallholder farmer in Vyulya, in Kenya’s Machakos County, inspects her maize crop. She planted the farm-saved seed, which does not tolerate drought or severe heat, so she is expecting a massive crop loss this season. (Photo: Joshua Masinde/CIMMYT)

Drought-tolerant hybrid seed offers farmers reprieve from hunger

Written by Jérôme Bossuet on March 6, 2019. Posted in Features.

MACHAKOS, Kenya (CIMMYT) — The scorching heat from the sun does not stop Mary Munini, a middle-aged smallholder farmer in Vyulya, Machakos County, from inspecting her distressed maize crop. Traces of worry cloud her face. “I will not harvest anything this season,” she says, visibly downcast.

Like many other smallholder farmers spread across the water-stressed counties of Machakos, Makueni and Kitui, in Kenya’s lower eastern region, Munini is staring at a massive crop loss. Prolonged dry spells have for years threatened the food security and livelihoods of many rural families in the region who depend entirely on rain for their agricultural production. Here, most smallholder farmers typically plant farm-saved maize seeds, which lack the attributes to tolerate harsher droughts, extreme heat or water stress. With such conditions, farmers can hardly harvest any maize.

“We just had a little rain at the start of planting. Since then, we have not had any more rain. As you can see, my maize could not withstand the extended dry spell,” says Munini. Like her, over 80 percent of Kenyans depend on maize as their main staple food to supply their dietary requirements, especially in rural areas.

In a neighboring farm, the situation is different. The owner, Gitau Gichuru, planted the SAWA hybrid, an improved maize seed variety designed to withstand drought conditions. This variety was developed by scientists at the International Maize and Wheat Improvement Center (CIMMYT) and promoted to Kenyan farmers by Dryland Seed, a local seed company. This initiative to improve maize farmers’ climate resilience in the region was possible thanks to the support of the Bill & Melinda Gates Foundation under the Stress Tolerant Maize for Africa (STMA) project. With the right agronomic practices, the SAWA hybrid can return a yield advantage of up to 20 percent compared to other popular drought-tolerant hybrids in the region, according to Dryland Seed’s managing director, Ngila Kimotho.

“This variety has become so popular in this region that we have decided to make it our flagship brand. There are occasions when the demand is so high that we run out of stock,” Kimotho says.

Farmer Gitau Gichuru (right) shows maize from his farm to CIMMYT’s regional representative for Africa, Stephen Mugo. Gichuru planted SAWA hybrid maize, developed by CIMMYT scientists. (Photo: Joshua Masinde/CIMMYT)

Reaping the benefits

The company distributes improved seeds through a network of about 100 agrodealers across Kenya. One of the most effective ways to promote drought-tolerant hybrids such as SAWA is demonstration plots managed by lead farmers, who can showcase to their peers the hybrid’s performance under recommended agronomic practices. Most of the demo farms are located by the roadside for better visibility to road users, who frequently stop and ask about the healthy-looking maize crop. Field days have also had a positive effect of creating awareness and getting farmers to adopt the SAWA hybrid and other improved seed varieties. Farmers attending field days are ordinarily issued with small seed packs as samples to try out on their farms.

Gichuru, who planted the SAWA hybrid maize seed for the first time last season, is happy with the results. “I decided to try it on a portion of the land that is sandy. We have only had some little rain, twice or so, at the time of planting and during the vegetative state. To be honest, I didn’t expect the crop to amount to anything. But, as you can see, I am looking forward to a good harvest,” Gichuru says.

*The managing director of Dryland Seed, Ngila Kimotho (left), shows packages of SAWA maize seeds at the company’s office. (Photo: Jerome Bossuet/CIMMYT)*

Doris Muia, a mother of three who has planted the hybrid for two years at her farm, is equally happy with the outcome. She says her household will never lack food and she hopes to get additional income from the sale of the surplus maize produce.

“When we see how the varieties that we have developed such as the SAWA hybrid are putting smiles on farmers’ faces, this makes us very happy,” expresses Stephen Mugo, CIMMYT Regional Representative for Africa.

For some farmers, however, it is hard to gather the money to buy improved seed varieties. The little income Munini earns from her small shop goes towards supporting her children’s education, and she often has nothing left to buy improved hybrid seed varieties, despite being aware of the advantages. In other instances, some farmers often buy small portions of the improved maize variety and mix it with farm-saved seed stock or poor-quality seeds from informal sources.

“The expectation is that if one variety succumbs to drought or severe heat, the next variety may survive. However, with proper agricultural practices, hybrids such as SAWA can cope well against such climate stresses, thereby improving the smallholders’ livelihood and food security,” concludes Mugo.

*Doris Muia shows how well SAWA maize is doing at her farm, despite limited rainfall. (Photo: Joshua Masinde/CIMMYT)*

The Stress Tolerant Maize for Africa (STMA) project seeks to develop maize cultivars with tolerance and resistance to multiple stresses for farmers, and support local seed companies to produce seed of these cultivars on a large scale. STMA aims to develop a new generation of over 70 improved stress tolerant maize varieties, and facilitate production and use of over 54,000 metric tons of certified seed.

The STMA project is funded by the Bill & Melinda Gates Foundation and USAID.

CIMMYT drought tolerant maize: A key innovation for millions of farmers, says FAO

Written by Jérôme Bossuet on December 3, 2018. Posted in Features.

As climate experts forecast another climate-warming El Nino in early 2019, maize varieties developed under the Drought Tolerant Maize for Africa (DTMA) initiative represent low-cost innovations that could improve the crop’s climate resilience and the livelihoods of millions family farmers across Africa, according to the UN Food and Agriculture Organization (FAO).

Drought tolerant (DT) maize was among 20 success stories featured at the Innovation Fair of the International Symposium on Agricultural Innovation for Family Farmers, organized and hosted by FAO in Rome from 21 to 23 November, 2018. Drawing more than 500 participants from farmer associations, international organizations, United Nations agencies, governments, research institutions and the private sector, the Fair aimed to devise and recommend actions that unlock the potential of agricultural innovation.

Drought-tolerant seeds: An affordable and effective way to cope with dry weather

‘’Since early 1990s, farmers in Zimbabwe face erratic rains and maize crops often fail due to frequent droughts,’’ said Cosmos Magorokosho, maize breeder based at the Harare, Zimbabwe, office of the International Maize and Wheat Improvement Center (CIMMYT).

Led by CIMMYT, funded by the Bill & Melinda Gates Foundation and the Howard Buffett Foundation, and involving 13 national maize breeding programs and various seed companies across Africa, DTMA is responsible for more than 160 new maize varieties, including 15 in Zimbabwe that yield 25 to 30 percent more than conventional varieties under dry conditions and perform as well as those varieties under normal rainfall. The latter was crucial for convincing seed companies to take up and market DT maize, according to Magorokosho.

In one study in drought-prone southern Zimbabwe, farmers using the DT varieties in dry years were able to harvest up to 600 kilograms more maize per hectare — worth $240 and enough maize for 9 months for an average family of 6 people — than farmers who sowed conventional varieties. The added food security comes at no additional cost and, if farmers choose to sell the grain, it brings extra income for other household needs.

Under the Stress Tolerant Maize for Africa initiative, CIMMYT and partners are continuing to develop maize varieties that cope not only with drought but with common constraints such as insect pests, diseases including Maize Lethal Necrosis and infertile soils.

Public-private partnerships enable demand-driven innovation

Adopting new technology or practices can represent unacceptable risks for resource-poor farming families, who live without the official safety nets enjoyed by peers in prosperous economies and will simply starve if their crops fail. Involving farmers, seed companies and other end users in development is essential for agricultural innovations to be widely adopted and sustainable, according to Bram Govaerts, global director of innovative business strategies at CIMMYT.

“Dialogue with global food processing companies can create market opportunities for smallholder farmers through approaches like local, responsible sourcing,’’ said Govaerts, speaking during the fair’s panel ‘Engaging the private sector to accelerate agricultural innovation.’

“More than 3,300 Mexican farmers on more than 35,000 hectares in 5 states will benefit from responsible sourcing arrangements, whereby the companies pay them to grow the grain using sustainable farming practices,” Govaerts explained, adding that the farmers will supply an estimated 400,000 tons of grain to participating companies in the next 3 to 5 years.

Mexico’s Agriculture Department (SAGARPA) supports these and other public-private partnerships through its investments in MasAgro, which studies, develops and transfers innovative farming practices and technologies to the field, with emphasis on family farmers.

In September, the FAO’s Regional Office for Latin America and the Caribbean acknowledged MasAgro as a replicable and scalable initiative that could contribute significantly to sustainable rural development in that region.

These two impactful examples show that agricultural innovation can only succeed through well-thought research and development partnerships, and building such collaborations is a science in itself.

CIMMYT's director general Martin Kropff (right) greets the president of Zimbabwe, Emmerson Mnangagwa, at Munhumutapa Offices in Harare. (Picture by Tawanda Mudimu)

Forecast drought: ED engages experts

Written by on September 12, 2018. Posted in Director General's corner.

While traveling through Africa and stopping at CIMMYT’s regional offices, I had the pleasure of meeting the President of Zimbabwe, Emmerson Mnangagwa, and discussing ways of enhancing agricultural productivity in the face of erratic rains expected in the 2018-19 farming season.

Read a news story about this meeting on The Herald: https://www.herald.co.zw/forecast-drought-ed-engages-experts/

On-the job training boosts drought monitoring skills in Bangladesh

Written by on June 5, 2018. Posted in News.

A two-week on the job training took place in March on the application of remote sensing in drought monitoring and crop mapping in Kathmandu, Nepal to build the capacity of young and mid-career professionals. The training was organized with the support of the International Maize and Wheat Improvement Center (CIMMYT)-led Climate Services for Resilient Development (CSRD) initiative in South Asia, alongside the International Centre for Integrated Mountain Development (ICIMOD). The training introduced participants from Bangladesh’s apex agricultural research body, Bangladesh Agricultural Research Council (BARC), and the Bangladesh Agricultural Research Institute (BARI) to remote sensing techniques for monitoring and forecasting weather patterns.

Suraya Parvin (left), Senior Scientific Officer of BARC, discussing with the facilitator in the training. Photo: Jitendra Raj Bajracharya/ICIMOD.

The training strengthened the remote sensing capabilities of professionals from BARC and BARI in using satellite-based remote sensing tools and crop mapping to monitor drought risks. During the training, participants were exposed to a number of remote sensing and geographic information systems tools including SPIRITS, QGIS, ArcMap, GeoCLIM as well as a foundation course to Google Earth Engine. Additionally, open source platform to perform online and offline data collection using mobile application training was provided.This learning exchange took place in order to address the risks for agricultural drought in portions of north-western Bangladesh where farmers may lack access to, or cannot afford irrigation. This leads to bottlenecks in crop productivity and can impair the livelihoods of smallholder farmers reliant on variable and unpredictable precipitation. Access to quality drought monitoring and forecasting could assist farmers in adapting to these climactic risks. Meteorological and agricultural research institutions play a crucial role in providing improved information flow and drought risks advisories to farmers.

Mir Matin, theme leader of Geospatial Solutions, ICIMOD, organized the training on behalf of CSRD and ICIMOD, alongside Rajesh Bahadur Thapa, capacity building specialist, ICIMOD. ICIMOD’s Bhoj Raj also facilitated sessions on application of these tools.

“Bangladesh, especially the northern region, is most susceptible to drought and it is difficult to grow year-round crops here,” said Suraya Parvin, senior scientific officer of BARC. “To increase the cropping intensity in this region, drought monitoring is very essential. I think this training was extremely useful to prepare us for this challenge.”

The CSRD partnership and ICIMOD are working together to establish user-oriented platforms for the provision of easily accessible, timely and decision relevant scientific information, in the form of climate services. “This training, and the applied science products that will come from it, will be a crucial part of efforts to increase the resilience of Bangladesh’s smallholder farmers to climatic risks,” said Timothy J. Krupnik, systems agronomist, CIMMYT and CSRD project leader. “Working with the graduates of the training on a day-to-day basis, we expect to deepen BARC and BARI’s contributions to applied climate services in Bangladesh.”

CSRD is a global partnership whose core mission is to translate actionable climate information into easy to understand formats to spread awareness and use of climate services. The Climate Services for Resilient Development (CSRD) consortium in South Asia is led by International Maize and Wheat Improvement Center (CIMMYT) in partnership with the Bangladesh Meteorological Department (BMD), Bangladesh Department of Agricultural Extension (DAE), the Bangladesh Agricultural Research Council (BARC), the Bangladesh Agricultural Research Institute (BARI), the International Centre for Integrated Mountain Development (ICIMOD), International Institute for Climate and Society (IRI), University de Passo Fundo (UPF), and the University of Rhode Island (URI).

Seed certification critical to quality seed production

Written by on June 8, 2017. Posted in Features.

A new variety in the market must have significant value to the farmer, such as higher tolerance to stresses, or added nutritional value. Photo: K. Kaimenyi/CIMMYT

NAIROBI, Kenya (CIMMYT) – For over 50 years, CIMMYT has led the research and development of quality, improved seed, designed to help farmers mitigate the effects of climate change while improving livelihoods.

Every new variety released is driven by farmer needs and preferences, with desirable traits such as pest and disease resistance, drought and heat tolerance as well as water and nutrient use efficiency. With improved maize seed, farmers not only benefit from increased stress tolerance, they also enjoy higher yields, increased nutritional value and improved income from grain sales.

To ensure that quality seed standards are maintained, CIMMYT supports partners such as national agricultural research institutions and seed producers in acquisition and production of pure early generation seed, which is then tested by national quality assurance and certification agencies before certification and release.

Seed certification process

Seed certification is a rigorous process of testing new maize varieties before they are made available to farmers and follows an often lengthy three-step process.

The first step – value for cultivation and use, or national performance trials in some countries, – compares traits of the new variety to others already in the market to determine its value. For a new variety to enter the market it must have significant value to the farmer, such as higher tolerance to stress, or added nutritional value. It is at the end of this valuation process that a variety is registered, which takes about 2-3 years.

Next, a distinctiveness, uniformity and stability test (DUS) is performed on the seed sample provided to ensure that it is unique, uniform and will not deteriorate over time after its release. The DUS also helps to determine if an identical variety already exists and is registered, in order to avoid conflict among companies that are responsible for variety commercialization. The characteristics used to compare these materials are developed by breeders, and help distinguish different varieties. The length of time for DUS test varies by country, but on average the minimum is two planting seasons, about two years in most countries, or one year in others.

Finally, the government approves the variety for release and commercialization. In some countries, such as Tanzania, there is an extra classification of seed know as quality declared seed which is certified seed that has been through fewer steps of certification. It is perceived to be of a lower quality than regular certified seeds, and is therefore cheaper. Seed certification protects farmers from unscrupulous traders who would otherwise sell poor quality seed or grain packaged as seed.

Seed certification and commercialization can take 6-11 years, depending on how efficient a country’s system is. This lengthy and costly process can sometimes create backlogs, slowing release and commercialization of new varieties. This can discourage some seed companies from producing improved varieties, thus sticking to tried, tested and profitable varieties no matter how old they are. Commercializing a new variety is a huge investment in terms of cost, expertise, promotion and labor, so the longer certification process draws out, the more costs a company incurs. Farmers in turn continue to purchase the varieties that are always available, keeping them in demand.

Expecting seed companies to replace an old variety for an improved one is somewhat complicated, since this is a purely business decision where profits are priority. In some cases, dropping a popular variety to promote a new one could jeopardize a company’s market share, brand recognition and potentially put them out of business. This is why old varieties like Matuba in Mozambique, SC513 in Zimbabwe and H614 D in Kenya remain popular, despite being decades old.

Older seed dominating the market causes both farmers and seed companies to miss out on potential benefits and profits higher-performing seed can bring. Several strategies to retire old maize varieties and build demand for improved ones can be used, including demonstrating old and new varieties side by side in areas where target markets exist. This way, farmers themselves drive the process and start the switch to new varieties. Seed producers can emphasize a specific characteristic in the variety that will benefit the farmer. For instance, farmers in an area prone to maize lethal necrosis (MLN) are more likely to adopt a resistant variety, and eventually make a permanent switch once this characteristic is proven to be true.

Government policies can also encourage the retirement of old varieties, for instance through subsidies on seed production with requirements to only include new materials. CIMMYT, through its various projects, gives competitive financial grants only to companies that produce improved maize seed. An extreme and potentially detrimental option would be to cut off funding and other support to seed companies that refuse to phase out old varieties.

The Drought Tolerant Maize for Africa Seed Scaling (DTMASS) project works in six countries in eastern and southern Africa to produce and deploy affordable drought tolerant, stress resilient, and high-yielding maize varieties for smallholder farmers. DTMASS employs innovative and impactful strategies to promote uptake and adoption of these improved seed varieties, as well as sharing agronomy and other agricultural information directly with farmers to improve crop management.

Led by CIMMYT and funded by the United States Agency for International Development, DTMASS is implemented through strategic partnerships with national agricultural research systems, as well as public and private seed producers.

Maize seed systems in Africa: Understanding the basics

Written by on June 7, 2016. Posted in Features.

CIMMYT maize seed system specialist James Gethi inspects a maize field in Nzega, Tanzania. Photo: Kelah Kaimenyi/CIMMYT.

Maize is not only a staple in diets across sub-Saharan Africa – it is a cash crop that supports millions of farmer households. Maize is grown on over 33 million hectares in just 13 of 48 countries in the region – accounting for 72% of all maize produced in the region. This crop, without a doubt, is king.

However, rising temperatures and erratic rainfall patterns threaten maize production across the continent. Total crop loss occurs if there’s little or no rainfall at the flowering stage, when maize is most vulnerable. And when temperatures increase, soil moisture is quickly depleted and farmers have to resort to prolonged irrigation, a costly undertaking for smallholders.

Drought-tolerant (DT) maize varieties produce better yields both in good and bad seasons compared to most commercial varieties available in the region. Since 2006, CIMMYT has developed 200 drought-tolerant varieties and hybrids, many of which also possess desirable traits such as resistance to major diseases.

In addition to developing quality maize that is high yielding and disease resistant, the Drought Tolerant Maize for Africa Seed Scaling (DTMASS) project led by CIMMYT is working to ensure these improved varieties are affordable and attractive to farmers. Two and a half million smallholder farmers in Ethiopia, Kenya, Mozambique, Tanzania, Uganda and Zambia are expected to benefit from in-country partnerships and networks that boost production and distribution of DT maize seed. These countries account for 25 percent (or 252 million) of the population in sub-Saharan Africa, and 41 percent of maize production areas.

To access quality improved seed, farmers in Africa face various constraints such as high prices, low supply and limited knowledge about improved seeds. Through surveys conducted among nearly 5,000 farmer households in Kenya, Mozambique and Zambia, CIMMYT learned that when farmers buy seed, the traits they care most about are early crop maturity, yield, and tolerance/resistance to stresses such as drought and disease. In most cases, long-term use and preference for a particular seed variety influence buying habits, but now farmers are increasingly focusing on tolerance/resistance to drought, pests and diseases.

“Our key focus is on sustainable seed production and increasing demand,” said Kate Fehlenberg, DTMASS project manager. “This means building market skills for producers and creating an environment to entice risk-averse farmers to try new drought-tolerant varieties.”

CIMMYT is working with partners to increase farmer preference for DT seed by supporting promotional and marketing activities, and improving seed production capacity. CIMMYT will also work to ensure local institutions have the technological and production capacity to independently produce and distribute seed throughout DTMASS target countries.

Scaling activities will allow DT seed to spread across various geographical areas (scaling “out”) and build the capacity of local institutions to independently control sustainable seed production (scaling “up”). Both scaling up and out rely on giving stakeholders in the maize value chain compelling reasons to continue producing, distributing and consuming DT maize varieties.

Over 50 selected small- and medium-scale seed companies will be supported through training workshops on seed production and seed business management. Seed companies will also receive financial grants to support expansion activities such as purchasing special seed processing and packing equipment, restoring seed storage and other facilities, and marketing.

The next big challenge for DTMASS is to increase adoption of drought-tolerant maize, which will strengthen seed systems in Africa. Photo: Kelah Kaimenyi/CIMMYT. — The next big challenge for DTMASS is to increase adoption of drought-tolerant maize, which will strengthen seed systems in Africa.
Photo: Kelah Kaimenyi/CIMMYT.

Tanzania seed company increases demand for drought-tolerant maize

Written by on May 2, 2016. Posted in Features.

Emmanuel Mponda, IFFA Seed promotions manager. Photo: Kelah Kaimenyi/CIMMYT — Emmanuel Mponda, IFFA Seed promotions manager. CIMMYT/Kelah Kaimenyi

NAIROBI, Kenya (CIMMYT) — Locally adapted marketing initiatives by an innovative seed company are leading farmers in the area around one of Tanzania’s largest agricultural towns to plant Lubango, a high-performing, drought-tolerant maize variety.

Lubango, which means “blessed” in local Sukuma language, was first produced by IFFA Seed in 2015 and is already replacing traditional seeds on farms across Tanzania as a result of the company’s hands-on, targeted marketing approach. Headquartered in the city of Arusha since 2008, IFFA now dedicates more than 140 hectares (345 acres) of Nzega farmland to Lubango production to meet the increasing demand for the seed.

Demonstration plots in 10 of Tanzania’s 12 districts have made a big impact, said Emmanuel Mponda, IFFA seed promotions manager, who believes that demonstration plots are the most effective of all the marketing tools because they allow farmers to see direct benefits in their fields.

“Lubango was created with the smallholder farmer in mind,” Mponda said. “It’s drought-tolerant, affordable, high-yielding, and great tasting.”

“Visits from Mponda helped me realize that good farm practices are necessary for any kind of crop to flourish,” Michael Kumbere shares, adding, “I made sure to invest in fertilizer for Lubango, and I can already see that the yield benefits would outweigh any costs I incur.” — “Visits from Mponda helped me realize that good farm practices are necessary for any kind of crop to flourish,” said farmer Michael Kumbere. “I made sure to invest in fertilizer for Lubango, and I can already see that the yield benefits would outweigh any costs I incur.”

Part of Mponda’s work involves ensuring farmers are equipped with smart agronomic practices. For example, farmers who plant and space crops in a straight line, as opposed to haphazardly scattering seeds, create ample space for weeding, save on inputs such as fertilizer and efficiently use sunlight and soil nutrients.

“As seasons pass, I’m amazed at the progress farmers have made by accepting changes in their farming practices to maximize gains,” Mponda said, adding that novel promotion strategies are necessary to compete with the numerous other seed companies in the country.

“We’re certainly leveraging modern marketing methods to raise awareness on drought-tolerant varieties, and Lubango in particular. So far, audio-visual tools are a hit,” Mponda said.

“This was my first try planting a drought-tolerant hybrid variety, and [after] seeing all this healthy maize, I am a believer,” says Daniel Reuben (above), a farmer of over 30 years regarding Lubango. “I can already tell that I will have a good harvest from the double cobs on each plant.” Normally, Reuben uses all his harvest to feed his family, but this year he expects to be able to produce more to sell and earn extra profit. Photo: Kelah Kaimenyi/CIMMYT. — “This was my first try planting a drought-tolerant hybrid variety, and [after] seeing all this healthy maize, I am a believer,” said Daniel Reuben (above), a farmer for more than 30 years, referring to Lubango. With Lubango, farmers with more than two acres (.81 hectares) of land can save up to 50 percent on their seed purchase, at least $13 compared to similar brands, which can be invested in fertilizer or paid labor. Normally, Reuben uses all his harvest to feed his family, but this year he expects to be able to produce more to sell and earn extra profit. CIMMYT/Kelah Kaimenyi

IFFA Seed recently produced a short film detailing the life cycle of Lubango maize from planting to harvest, and sharing farming tips and tricks at every stage. The video will be screened at all farmer field days and other relevant events hosted or attended by the company. Audio announcements are broadcast at Nzega’s local railway station, a previously untapped channel, and the company produces flyers for distribution to farmers at events and seed purchase areas. Mponda is keen on large-scale visual outputs, and has identified billboards and television adverts as his next course of action.

Through technical and financial support and capacity building initiatives, CIMMYT’s Drought Tolerant Maize for Africa Seed Scaling (DTMASS) project works closely with IFFA Seed Company and other private partners throughout eastern and southern Africa to bring affordable, improved maize seed to 2.5 million people. DTMASS aims to meet demand and improve access to good-quality maize through production of improved drought-tolerant, stress-resilient and high-yielding maize varieties for smallholder farmers through 2020.

Severe drought-affected area in Lamego, Mozambique. (Photo: Christian Thierfelder/CIMMYT)

Will El Niño be a wake-up call to invest in food security solutions?

Written by on April 8, 2016. Posted in Blogs.

HARARE (CIMMYT) — In southern Africa close to 50 million people are projected to be affected by droughts caused by the current El Niño, a climate phenomenon that develops in the tropical Pacific Ocean causing extreme weather worldwide — this year, one of the strongest on record. Many of those millions are expected to be on the brink of starvation and dependent on emergency food aid and relief.

However, severe droughts are nothing new to the region. Between 1900 and 2013 droughts have killed close to 1 million people in Africa, with economic damages of about $3 billion affecting over 360 million people. Over the past 50 years, 24 droughts have been caused by El Niño events, according to research by Ilyas Masih. If droughts are so recurrent and known to be a major cause of yield variability and food insecurity in southern Africa, why are we still reacting to this as a one-time emergency instead of a calculated threat?

Unpredictable harvests: Above, yield variability in the world’s top 5 maize producing countries (left) vs. southern Africa (right) Source: FAOSTAT, 2015

Over the past 50 years, donors have focused on the “poorest of the poor” in agriculture – areas where farming is difficult due to low and erratic rainfalls, poor sandy soils and high risk of crop failure. Investments were made in these areas to change farmers’ livelihoods – and yet the numbers of food insecure people are the same or rising in many southern African countries. Once drought hits, most farmers are left with no crops and are forced to sell their available livestock. Due to many farmers flooding the market with poor meat at once, prices for both livestock and meat hit rock bottom. Only when the situation becomes unbearable does the development community act, calling for emergency aid, which kicks in with a stuttering start. Abject poverty and food aid dependency is the inevitable consequence.

A farmer in Zimbabwe explains his challenges with drought and low soil fertility. Photo: Michael Listman — A farmer in Zimbabwe explains his challenges with drought and low soil fertility. CIMMYT/Michael Listman

Short-term relief can help millions of farmer families in this current crisis, and emergency solutions will likely be necessary this year. However, emergency relief is not the solution to saving lives and money in a world where extreme weather events are only going to become more frequent.

We know that the next drought will come within the next two to three years.

Proactive, strategic and sustainable response strategies are needed to increase farming system resilience and reduce dependency on food aid during extreme weather events like El Niño. This starts with improving the capacity of local, regional and national governments to make fully informed decisions on how to prepare for these events. Interventions must reach beyond poor performing areas, but also support higher productivity areas and emerging commercial farmers, who have greater potential to produce enough grain on a national scale to support areas hardest hit by droughts and dry-spells.

Groundnuts in rotation with maize under conservation agriculture can provide food and nutrition despite climate variability in Malawi. Photo: Christian Thierfelder — Groundnuts in rotation with maize under conservation agriculture can provide food and nutrition despite climate variability in Malawi. CIMMYT/Christian Thierfelder

Climate-smart agriculture technologies, drought-tolerant maize, and such techniques as conservation agriculture, agroforestry and improved soil fertility management are approaches to farming that seek to increase food and nutrition security, alleviate poverty, conserve biodiversity and safeguard ecosystem services.

They need to be scaled out to increase resilience to climate variability. This strategy of improved foresight and targeting coupled with adoption of climate-smart agriculture and improved outscaling can lead to increased resilience of smallholder farming systems in southern Africa, reducing year-to-year variability and the need for emergency response.

Learn more about the impacts of El Niño and building resilience in the priority briefing “Combating drought in southern Africa: from relief to resilience” here, and view the special report from FEWS Net illustrating the extent and severity of the 2015-16 drought in southern Africa.