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A farmer in Banke district during monsoon season drought in 2017. (Photo: Anton Urfels/CIMMYT)

Supporting smallholder farmers to better combat drought

Written by Alison Doody on July 23, 2020. Posted in Blogs.

Researchers from the Cereal Systems Initiative for South Asia (CSISA) project have been exploring the drivers of smallholder farmers’ underuse of groundwater wells to combat in-season drought during the monsoon rice season in Nepal’s breadbasket — the Terai region.

Their study, published in Water International, finds that several barriers inhibit full use of groundwater irrigation infrastructure.

Inconsistent rainfall has repeatedly damaged paddy crops in Nepal over the last years, even though most agricultural lands are equipped with groundwater wells. This has contributed to missed national policy targets of food self-sufficiency and slow growth in cereal productivity.

A key issue is farmers’ tendency to schedule irrigation very late in an effort to save their crops when in-season drought occurs. By this time, rice crops have already been damaged by lack of water and yields will be decreased. High irrigation costs, especially due to pumping equipment rental rates, are a major factor of this aversion to investment. Private irrigation is also a relatively new technology for many farmers making water use decisions.

After farmers decide to irrigate, queuing for pumpsets, tubewells, and repairs and maintenance further increases irrigation delays. Some villages have only a handful of pumpsets or tubewells shared between all households, so it can take up to two weeks for everybody to irrigate.

To address these issues, CSISA provides suggestions for three support pathways to support farmers in combatting monsoon season drought:

1. Raise awareness of the importance of timely irrigation

To avoid yield penalties and improve operational efficiency through better-matched pumpsets, CSISA has raised awareness through agricultural FM radio broadcasts on the strong relationship between water stress and yield penalties. Messages highlight the role of the plough pan in keeping infiltration rates low and encouraging farmers to improve irrigation scheduling. Anecdotal evidence suggests that improved pump selection may decrease irrigation costs by up to 50%, and CSISA has initiated follow-up studies to develop recommendations for farmers.

Social interaction is necessary for purchasing fuel, transporting and installing pumps, or sharing irrigation equipment. These activities pose risks of COVID-19 exposure and transmission and therefore require farmers to follow increased safety and hygiene practices, which may cause further delays to irrigation. Raising awareness about the importance of timely irrigation therefore needs to go hand in hand with the promotion of safe and hygienic irrigation practices. This information has been streamlined into CSISA’s ongoing partnerships and FM broadcasts.

2. Improve community-level water markets through increased focus on drought preparedness and overcoming financial constraints

Farmers can save time by taking an anticipatory approach to the terms and conditions of rentals, instead of negotiating them when cracks in the soil are already large. Many farmers reported that pump owners are reluctant to rent out pumpsets if renters cannot pay up front. Given the seasonality of cash flows in agriculture, pro-poor and low interest credit provisions are likely to further smoothen community-level water markets.

Quantified ethnographic-decision tree based on households’ surveys of smallholder decision to use groundwater irrigation in Nepal’s Terai. (Graphic: Urfels et al. (2020)) — Quantified ethnographic-decision tree based on households’ surveys of smallholder decision to use groundwater irrigation in Nepal’s Terai. (Graphic: Urfels et al., 2020)

3. Prioritize regional investment

The study shows that delay factors differ across districts and that selectively targeted interventions will be most useful to provide high returns to investments. For example, farmers in Kailali reported that land access issues — due to use of large bullock carts to transport pumpsets — and fuel shortages constitute a barrier for 10% and 39% of the farmers, while in Rupandehi, maintenance and tubewell availability were reported to be of greater importance.

As drought is increasingly threatening paddy production in Nepal’s Terai region, CSISA’s research shows that several support pathways exist to support farmers in combatting droughts. Sustainable water use can only be brought up to a scale where it benefits most farmers if all available tools including electrification, solar pumps and improved water level monitoring are deployed to provide benefits to a wide range of farmers.

Read the study:
Drivers of groundwater utilization in water-limited rice production systems in Nepal

Alinda Sarah demostrates how happy she is with the maize cob due for harvest on the farm she owns with her husband in Masindi, mid-western Uganda. (Photo: Joshua Masinde/CIMMYT)

Reaching farmers in the last mile with seeds they can trust

Written by Alison Doody on July 21, 2020. Posted in Features.

Seed companies play a crucial role in delivering improved seed varieties to smallholder farmers. Masindi Seed Company Limited, located in Uganda’s mid-western region, is one such enterprise.

It traces its beginnings back to the Masindi District Farmers Association (MADFA) more than a decade ago. At the time, the association, which was comprised of about 9,000 farmers, was organized into a seed out-grower scheme of the then government-led Uganda Seed Project.

While its members were well trained, operated professionally and did their out-grower work diligently, the association faced one major challenge that almost broke it up: the ‘certified’ seed they bought from some seed firms could not germinate.

“At the time that we were operating solely as a farmers’ association, we did our best to grow maize seed for various seed companies who would then go on to produce and supply certified seed,” said Eugene Lusige, Masindi Seed general manager. “But we soon realized that a lot of the certified seed that we bought was of very poor quality due to their inability to germinate or because of low germination rates. This caused our farmers huge losses. We instead took this situation as a blessing in disguise, venturing into the certified seed production business based on our experience.”

Such turn of events meant the association had to not only produce the right seed, at the right price, at the right time and with the attributes their farmers desired, but also had to provide an opportunity to generate income for its members. By establishing Masindi Seed Company in 2009, the association members fulfilled their dream and ended up killing several birds with one stone by addressing multiple seed production challenges.

Over the past few decades, the liberalization of the Ugandan seed industry has seen it morph from government control, largely with the support of public sector research institutions, to increased private sector participation. This saw a resurgence in local and foreign-based seed firms involved in seed production, processing and marketing, which significantly contributed to increased delivery of certified seed to farming communities.

A sign leading to the Masindi District Farmers Association (MADFA) offices in Masindi town. (Photo: Joshua Masinde/CIMMYT)

Reliable and beneficial partnerships

As one of the enterprises operating in the formal seed market, Masindi Seed has grown from strength to strength over the years, working closely with the National Crops Resources Research Institute (NaCRRI) of the National Agricultural Research Organization (NARO) in Uganda. The Longe 5D, an open pollinated variety (OPV) — an improved version of the Longe 5 — was the first certified seed that ushered them into the seed production and marketing landscape in 2009. The company accessed hybrids and parental materials from NARO, which works very closely with the International Maize and Wheat Improvement Center (CIMMYT) to obtain improved stress tolerant maize.

“Besides the parental materials we receive from CIMMYT through NARO, we are trained on best practices in quality seed production, and receive materials and financial support for some of our operations,” Lusige said.

In the first year, the company produced about 120-150 tons of the Longe 5D variety, which has remained their flagship product over the past decade. Currently, the variety has up to 65 % share of the company’s annual seed production capacity, which stands at about 1,200 tons. The annual capacity is poised to reach 2,400 by 2025 due to growing demand from farmers. The first stress tolerant hybrid, UH5053, was introduced in 2013 and two more hybrids have since gone into commercial production.

“The hybrids have much higher yield than the OPVs and other varieties in the market in this region. They are stress tolerant and some are early maturing,” Lusige said “But, the advantage with the Longe 5D is that it is much cheaper, with a seed packet going for less than its hybrid equivalent. So, it is best suited for the resource-constrained farmers who may not have the funds to buy artificial fertilizer. However, under normal farmer conditions, it yields between 1.5-1.8 tons per acre compared to a hybrid that can produce about 3 tons or more.”

The Longe 5D is also a quality protein maize (QPM) variety, which combats hidden hunger by providing essential amino acids that children and lactating mothers need, according to Godfrey Asea, director of the National Crops Resources Research Institute at NARO.

“One of the initiatives we have been working on is nutritious maize, with some of the OPVs that we have released in the past being QPM varieties,” Asea said. “We are thinking of integrating more nutrient qualities such as vitamin ‘A’ in new varieties, some of which are in the release pipeline. We have also acquired genetic resources that are rich in zinc. QPM varieties, as well as varieties that are biofortified with vitamin A and zinc are very important in improving household nutrition in the future for resource-constrained maize-dependent communities.”

To make farmers aware of available seed and important attributes, marketing and promotional activities through radio, flyers, banners, field days and on-farm demonstrations come in handy. For some newer varieties, the company goes as far as issuing small seed packs to farmers so they can see for themselves how the variety performs.

Masindi Seed Company offices in Masindi town. (Photo: Joshua Masinde/CIMMYT)

From a regional outfit to the national stage

In the beginning, growth was slow for Masindi Seed due to capacity and financial constraints to sustain promotional activities. Around 2013 and 2015, the company received support from the Alliance for a Green Revolution in Africa (AGRA) to scale-up its marketing and promotional efforts, which greatly enhanced Masindi Seed’s capacity and visibility. From then on, Masindi Seed went from being just a small regional-focused outfit to a nation-wide seed firm, marketing seed as far as northern and eastern Uganda.

By working closely with farmers, Masindi Seed Company puts itself at a strategic position to understand farmers’ preferred traits better. They have found that farmers prefer traits that allow them to earn more, such as higher yield, which allows them to harvest much more maize and sell the surplus for much-needed income.

A double cobber maize crop on Alinda Sarah's farm in Masindi, western Uganda. (Photo: Joshua Masinde/CIMMYT) — A double cobber maize crop on Alinda Sarah’s farm in Masindi, western Uganda. (Photo: Joshua Masinde/CIMMYT)

Seed that farmers can trust

Alinda Sarah, who doubles up as both a contract farmer for Masindi Seed and a large-scale grower for maize grain, agrees that obtaining the right seed that is guaranteed to germinate and offers a higher yield is a major boost to her trade.

“All I require is seed that I trust to have the attributes I want. What works for me is the seed that offers a higher yield, and can tolerate common stresses including drought, diseases and pests. This way, I can sustain my farming business,” she says.

The second attribute the farmers keep mentioning to Masindi agricultural extensionists is the maturity period, with farmers inclined to prefer faster maturing varieties, such as varieties that mature in 90 days. Ultimately, beyond some of these desirable and beneficial traits, the farmer is, before anything else, interested in the germinability of the seed they buy.

“By confirming the attributes that we tell them regarding our varieties with what they see at demo farms, the farmers trust us more,” Lusige said. “Trust is good for a business like ours and we try our best to preserve it. In the past, we have seen how some companies who lost the trust of their customers quickly went out of business.”

“Besides offering improved seed to farmers, we encourage our partner seed companies to support and teach the farmers good agronomic practices such as proper fertilizer requirements and application rates, early planting, appropriate spacing, weed control, integrated pest management and intercropping with legumes,” said Daniel Bomet, maize breeder at NARO.

Cover photo: Alinda Sarah demostrates how happy she is with the maize cob due for harvest on the farm she owns with her husband in Masindi, mid-western Uganda. (Photo: Joshua Masinde/CIMMYT)

Kindie Tesfaye (CIMMYT) appears on Fana Television.

Ethiopia puts in place strategies to ensure food availability amid COVID-19 crisis

Written by Alison Doody on July 20, 2020. Posted in News.

As the COVID-19 pandemic continues to widen, its effects on the agriculture sector are also becoming apparent. In countries like Ethiopia, where farming is the backbone of the nation’s economy, early preparation can help mitigate adverse effects.

Recently, Fana Broadcasting Corporate (Fana Television) organized a panel discussion on how the Ethiopian government and its partners are responding to this crisis. Analyzing this topic were Kindie Tesfaye from the International Maize and Wheat Improvement Center (CIMMYT), Mandefro Negussi of the Ethiopian Institute of Agricultural Research (EIAR) and Esayas Lemma from the Ministry of Agriculture.

The panelists highlighted Ethiopia’s readiness in response to COVID-19. The country established a team from various institutions to work on strategies and to ensure no further food shortages occur due to the pandemic. The strategy involves the continuation of activity already started during the Bleg season — short rainy season — and the preparation for the Meher season — long rainy season — to be complemented by food production through irrigation systems during the dry season, if the crisis continues beyond September 2020.

Tesfaye indicated that CIMMYT continues to work at the national and regional levels as before, and is represented in the advisory team. One of the activities underway, he said, is the plan to use the Agro-Climate Advisory Platform to disseminate COVID-19 related information to extension agents and farmers.

Panelists agreed that the pandemic will also impact the Ethiopian farming system, which is performed collectively and relies heavily on human labor. To minimize the spread of the virus, physical distancing is highly advisable. Digital media, social media and megaphones will be used to reach out to extension agents and farmers and encourage them to apply all the necessary precaution measures while on duty. Training will also continue through digital means as face to face meetings will not be possible.

Full interview in Amharic:

Workers harvesting green maize at Ambo Research Center, Ethiopia, 2015. (Photo: CIMMYT/ Peter Lowe)

Targeted fertilizer recommendations improve maize productivity in Ethiopia

Written by Alison Doody on July 16, 2020. Posted in Features.

A study on the impact of providing site-specific fertilizer recommendations on fertilizer usage, productivity and welfare outcomes in Ethiopia shows that targeted fertilizer recommendations encourage fertilizer investments and lead to improved maize productivity outcomes.

Enumerators manually shelling maize cobs to test grain moisture. (Photo: Hailemariam Ayalew/CIMMYT)

Researchers from the International Maize and Wheat Improvement Center (CIMMYT) and the Department of Economics and Trinity Impact Evaluation unit (TIME), Trinity College Dublin, anticipate that the findings will provide valuable guidance to the design and delivery of improved extension services in developing countries.

Soil degradation and nutrient depletion have been serious threats to agricultural productivity and food security in Ethiopia. Over the years, soil fertility has also declined due to the increase in population size and decline in plot size. Studies have identified nitrogen (N) and phosphorus (P) as being the nutrients most lacking and have called for action to improve the nutrient status of soils.

In response to this, in 2007, the Ministry of Agriculture and Natural Resources and agricultural research centers together developed regional fertilizer recommendations. These recommendations, about fertilizer types and application rates for different crops, were disseminated to farmers through agricultural extension workers and development agents.

However, adoption of fertilizer remains low — and average application rates are generally lower than recommended. One reason for these low adoption rates is that the information provided is too broad and not tailored to the specific requirements of smallholder farmers.

A study conducted on 738 farm households randomly selected from the main maize growing areas of Ethiopia — Bako, Jimma and the East Shewa and West Gojjam zones — shows that well-targeted fertilizer recommendations can increase fertilizer usage in smallholder maize production.

Maize is one of Ethiopia’s most important crops in terms of production, productivity, and area coverage. It is a primary staple food in the major maize growing areas as well as a source of feed for animals and a raw material for industries.

The study examined the impact of providing site-specific fertilizer recommendations to farmers on fertilizer usage/adoption, farm productivity/production per hectare and consumer expenditure/welfare outcomes using a two-level cluster randomized control trial.

Tailored recommendations

CIMMYT researcher Hailemariam Ayalew examines maize crops during the study. (Photo: Hailemariam Ayalew/CIMMYT)

The Nutrient Expert decision-support tool, developed by the International Plant Nutrition Institute (IPNI) in partnership with the CGIAR Research Center on Maize (MAIZE), was used to give site-specific recommendations to each farmer. With this tool, researchers offered tailored recommendations, using information on fertilizer blends available in Ethiopia, current farmers’ practices, relevant inputs and field history, and local conditions. The experiment also considered whether coupling the site-specific recommendation with crop insurance — to protect farmers’ fertilizer investment in the event of crop failure — enhanced adoption rates.

Results show that well-targeted fertilizer recommendations improve fertilizer usage and productivity of maize production. The intervention led to an increase of 5 quintals, or 0.5 tons, in average maize yields for plots in the treatment group. While the study did not find any evidence that these productivity gains led to household welfare improvements, it is likely that such improvements may take longer to realize.

The study found no differential effect of the site-specific recommendation when coupled with agricultural insurance, suggesting that the risk of crop failure is not a binding constraint to fertilizer adoption in the study setting. The findings of this research should help guide the design and delivery of improved extension services in relation to fertilizer usage and adoption in developing countries.

Cover photo: Workers harvesting green maize at Ambo Research Center, Ethiopia, 2015. (Photo: CIMMYT/ Peter Lowe)

New analysis to help in creating yellow rust resistant wheat

Written by Mary Donovan on July 15, 2020. Posted in In the media.

A new analysis by wheat scientists at the International Maize and Wheat Improvement Center (CIMMYT) published in Scientific Reports includes insights and genetic information that will help in the efforts to breed yellow rust resistant wheat.

A farmer in India uses a tractor fitted with a Happy Seeder. (Photo: Dakshinamurthy Vedachalam/CIMMYT)

Could coronavirus drive farmers to adopt sustainable practices in India’s breadbasket?

Written by Matthew O'Leary on July 7, 2020. Posted in Features.

June marks the start of the rice growing season in India’s breadbasket but on the quiet fields of Haryana and Punjab you wouldn’t know it.

Usually the northwestern Indian states are teeming with migrant laborers working to transplant rice paddies. However, the government’s swift COVID-19 lockdown measures in late March triggered reverse migration, with an estimated 1 million laborers returning to their home states.

The lack of migrant workers has raised alarms for the labor-dependent rice-wheat farms that feed the nation. Healthy harvests are driven by timely transplanting of rice and, consequently, by the timely sowing of the succeeding wheat crop in rotation.

Without political support for alternative farming practices, crop losses from COVID-19 labor disruptions could reach $1.5 billion and significantly diminish the country’s grain reserves, researchers from the International Maize and Wheat Improvement Center (CIMMYT) warned.

Researchers also fear delayed rice transplanting could encourage unsustainable residue burning as farmers rush to clear land in the short window between rice harvest and wheat sowing. Increased burning in the fall will exacerbate the COVID-19 health risk by contributing to the blanket of thick air pollution that covers much of northwest India, including the densely populated capital region of New Delhi.

The burning of crop residue, or stubble, across millions of hectares of cropland between planting seasons is a visible contributor to air pollution in both rural and urban areas. (Photo: Dakshinamurthy Vedachalam/CIMMYT)

Both farmers and politicians are showing increased interest in farm mechanization and crop diversification as they respond to COVID-19 disruptions, said M.L. Jat, a CIMMYT scientist who coordinates sustainable intensification programs in northwestern India.

“Farmers know the time of planting wheat is extremely important for productivity. To avoid production losses and smog-inducing residue burning, alternative farm practices and technologies must be scaled up now,” Jat said.

The time it takes to manually transplant rice paddies is a particular worry. Manual transplanting accounts for 95% of rice grown in the northwestern regions. Rice seedlings grown in a nursery are pulled and transplanted into puddled and leveled fields — a process that takes up to 30 person-days per hectare, making it highly dependent on the availability of migrant laborers.

Even before COVID-19, a lack of labor was costing rice-wheat productivity and encouraging burning practices that contribute to India’s air pollution crisis, said CIMMYT scientist Balwinder Singh.

“Mechanized sowing and harvesting has been growing in recent years. The COVID-19 labor shortage presents a unique opportunity for policymakers to prioritize productive and environmentally-friendly farming practices as long term solutions,” Singh said.

Sustainable practices to cope with labor bottlenecks

CIMMYT researchers are working with national and state governments to get information and technologies to farmers, however, there are significant challenges to bringing solutions to scale in the very near term, Singh explained.

There is no silver bullet in the short term. However, researchers have outlined immediate and mid-term strategies to ensure crop productivity while avoiding residue burning:

Delayed or staggered nursery sowing of rice: By delaying nursery sowing to match delays in transplanting, yield potential can be conserved for rice. Any delay in transplanting rice due to labor shortage can reduce the productivity of seedlings. Seedling age at transplanting is an important factor for optimum growth and yield.

“Matching nursery sowing to meet delayed transplanting dates is an immediate action that farmers can take to ensure crop productivity in the short term. However, it’s important policymakers prioritize technologies, such as direct seeders, that contribute to long term solutions,” Singh said.

Direct drilling of wheat using the Happy Seeder: Direct seeding of wheat into rice residues using the Happy Seeder, a mechanized harvesting combine, can reduce the turnaround time between rice harvest and wheat sowing, potentially eliminating the temptation to burn residues.

“Identifying the areas with delayed transplanting well in advance should be a priority for effectively targeting the direct drilling of wheat using Happy Seeders,” said Jat. The average farmer who uses the Happy Seeder can generate up to 20% more profits than those who burn their fields, he explained. “Incentivizing farmers through a direct benefit transfer payment to adopt ‘no burn’ practices may help accelerate transitions.”

Directly sown rice: Timely planting of rice can also be achieved by adopting dry direct seeding of rice using mechanized seed-cum-fertilizer planters. In addition to reducing the labor requirement for crop establishment, dry direct seeding allows earlier rice planting due to its lower water requirement for establishment. Direct-seeded rice also matures earlier than puddled transplanted rice. Thus, earlier harvesting improves the chance to sow wheat on time.

“CIMMYT researchers are working with the local mechanical engineers on rolling out simple tweaks to enable the Happy Seeder to be used for direct rice seeding. The existing availability of Happy Seeders in the region will improve the speed direct rice sowing can be adopted,” Jat said.

Crop diversification with maize: Replacing rice with maize in the monsoon season is another option to alleviate the potential shortage of agricultural labor due to COVID-19, as the practice of establishing maize by machine is already common.

“Research evidence generated over the past decade demonstrates that maize along with modern agronomic management practices can provide a profitable and sustainable alternative to rice,” Jat explained. “The diversification of rice with maize can potentially contribute to sustainability that includes conserving groundwater, improving soil health and reducing air pollution through eliminating residue burning.”

A combine harvester equipped with the Super SMS (left) harvests rice while a tractor equipped with the Happy Seeder is used for direct seeding of wheat. (Photo: Sonalika Tractors)

Getting innovations into farmers’ fields

Rapid policy decisions by national and state governments on facilitating more mechanized operations in labor-intensive rice-wheat production regions will address labor availability issues while contributing to productivity enhancement of succeeding wheat crop in rotation, as well as overall system sustainability, said ICAR’s deputy director general for agricultural extension, AK Singh.

The government is providing advisories to farmers through multiple levels of communications, including extension services, messaging services and farmer collectives to raise awareness and encourage adoption.

Moving toward mechanization and crop diversity should not be viewed as a quick fix to COVID-19 related labor shortages, but as the foundation for long-term policies that help India in achieving the UN Sustainable Development Goals, said ICAR’s deputy director general for Natural Research Management, SK Chaudhari.

“Policies encouraging farming practices that save resources and protect the environment will improve long term productivity of the nation,” he said.

Northwestern India is home to millions of smallholder farmers making it a breadbasket for grain staples. Since giving birth to the Green Revolution, the region has continued to increase its food production through rice and wheat farming providing bulk of food to the country.

This high production has not come without shortfalls, different problems like a lowering water table, scarcity of labor during peak periods, deteriorating soil health, and air pollution from crop residue burning demands some alternative methods to sustain productivity as well as natural resources.

Cover photo: A farmer uses a tractor fitted with a Happy Seeder. (Photo: Dakshinamurthy Vedachalam/CIMMYT)

A farmer uses a two-wheel tractor-mounted reaper to harvest wheat in Nepal. (Photo: Timothy J. Krupnik/CIMMYT)

Mechanized harvesting fuels rural prosperity in Nepal

Written by Matthew O'Leary on July 6, 2020. Posted in Features.

In response to increasing labor scarcity and costs, growth in mechanized wheat and rice harvesting has fueled farm prosperity and entrepreneurial opportunity in the poorest parts of Nepal, researchers from the International Maize and Wheat Improvement Center (CIMMYT) have recorded.

Farmers are turning to two-wheeled tractor-mounted reaper-harvesters to make up for the lack of farm labor, caused by a significant number of rural Nepalese — especially men and youth — migrating out in search of employment opportunities.

For Nandalal Oli, a 35-year-old farmer from Bardiya in far-west Nepal, investing in a mechanized reaper not only allowed him to avoid expensive labor costs that have resulted from out-migration from his village, but it also provided a source of income offering wheat and rice harvesting services to his neighbors.

“The reaper easily attaches on my two-wheel tractor and means I can mechanically cut and lay the wheat and rice harvests,” said Oli, the father of two. “Hiring help to harvest by hand is expensive and can take days but with the reaper attachment it’s done in hours, saving time and money.”

Oli was first introduced to the small reaper attachment three years ago at a farmer exhibition hosted by Cereal Systems Initiative for South Asia (CSISA), funded through USAID. He saw the reaper as an opportunity to add harvesting to his mechanization business, where he was already using his two-wheel tractor for tilling, planting and transportation services.

Prosperity powers up reaper adoption

Number of 2-wheel tractor-attachable reaper-harvesters operational through service providers in Nepal’s Terai, 2014–2019

Over 4,000 mechanized reapers have been sold in Nepal with more than 50% in far and mid-west Nepal since researchers first introduced the technology five years ago. The successful adoption — which is now led by agricultural machinery dealers that were established or improved with CSISA’s support — has led nearly 24,000 farmers to have regular access to affordable crop harvesting services, said CIMMYT agricultural economist Gokul Paudel.

“Reapers improve farm management, adding a new layer of precision farming and reducing grain loss. Compared to manual harvesting mechanized reapers improve farming productivity that has shown to significantly increase average farm profitability when used for harvesting both rice and wheat,” he explained.

Nearly 65% of Nepal’s population works in agriculture, yet this South Asian country struggles to produce an adequate and affordable supply of food. The research indicated increased farm precision through the use of mechanized reapers boosts farm profitability by $120 a year when used for both rice and wheat harvests.

Oli agreed farmers see the benefit of his harvesting service as he has had no trouble finding customers. On an average year he serves 100 wheat and rice farmers in a 15 kilometer radius of his home.

“Investing in the reaper harvester worked for me. I earn 1,000 NRs [about $8] per hour harvesting fields and was able to pay off the purchase in one season. The added income ensures I can stay on top of bills and pay my children’s school fees.”

Farmers who have purchased reapers operate as service providers to other farms in their community, Paudel said.

“This has the additional benefit of creating legitimate jobs in rural areas, particularly needed among both migrant returnees who are seeking productive uses for earnings gained overseas that, at present, are mostly used for consumptive and unproductive sectors.”

“This additional work can also contribute to jobs for youth keeping them home rather than migrating,” he said.

The adoption rate of the reaper harvester is projected to reach 68% in the rice-wheat systems in the region within the next three years if current trends continue, significantly increasing access and affordability to the service.

Private and public support for mechanized harvester key to strong adoption

Achieving buy-in from the private and public sector was essential to the successful introduction and uptake of reaper attachments in Nepal, said Scott Justice, an agricultural and rural mechanization expert with the CSISA project.

Off the back of the popularity of the two-wheel tractor for planting and tilling, 22 reaper attachments were introduced by the researchers in 2014. Partnering with government institutions, the researchers facilitated demonstrations led by the private sector in farmers’ fields successfully building farmer demand and market-led supply.

“The reapers were introduced at the right place, at the right time. While nearly all Terai farmers for years had used tractor-powered threshing services, the region was suffering from labor scarcity or labor spikes where it took 25 people all day to cut one hectare of grain by hand. Farmers were in search of an easier and faster way to cut their grain,” Justice explained.

“Engaging the private and public sector in demonstrating the functionality and benefits of the reaper across different districts sparked rapidly increasing demand among farmers and service providers,” he said.

Early sales of the reaper attachments have mostly been directly to farmers without the need for considerable government subsidy. Much of the success was due to the researchers’ approach engaging multiple private sector suppliers and the Nepal Agricultural Machinery Entrepreneurs’ Association (NAMEA) and networks of machinery importers, traders, and dealers to ensure stocks of reapers were available at local level. The resulting competition led to 30-40% reduction in price contributing to increasing sales.

“With the technical support of researchers through the CSISA project we were able to import reaper attachments and run demonstrations to promote the technology as a sure investment for farmers and rural entrepreneurs,” said Krishna Sharma from Nepal Agricultural Machinery Entrepreneurs’ Association (NAMEA).

From 2015, the private sector capitalized on farmers’ interest in mechanized harvesting by importing reapers and running their own demonstrations and several radio jingles and sales continued to increase into the thousands, said Justice.

Building entrepreneurial capacity along the value chain

Through the CSISA project private dealers and public extension agencies were supported in developing training courses on the use of the reaper and basic business skills to ensure long-term success for farmers and rural entrepreneurs.

Training was essential in encouraging the emergence of mechanized service provision models and the market-based supply and repair chains required to support them, said CIMMYT agricultural mechanization engineer Subash Adhikari.

“Basic operational and business training for farmers who purchased a reaper enabled them to become service providers and successfully increased the access to reaper services and the amount of farms under improved management,” he said.

As commonly occurs when machinery adoption spreads, the availability of spare parts and repairs for reapers lagged behind sales. Researchers facilitated reaper repair training for district sales agent mechanics, as well as providing small grants for spare parts to build the value chain, Adhikari added.

Apart from hire services, mechanization creates additional opportunities for new business with repair and maintenance of equipment, sales and dealership of related businesses including transport and agro-processing along the value chain.

The Cereal Systems Initiative for South Asia (CSISA) aims to sustainably increase the productivity of cereal based cropping systems to improve food security and farmers’ livelihoods in Nepal. CSISA works with public and private partners to support the widespread adoption of affordable and climate-resilient farming technologies and practices, such as improved varieties of maize, wheat, rice and pulses, and mechanization.

Cover photo: A farmer uses a two-wheel tractor-mounted reaper to harvest wheat in Nepal. (Photo: Timothy J. Krupnik/CIMMYT)

Women harvest wheat in India. (Photo: J. Cumes/CIMMYT)

New publications: From working in the fields to taking control

Written by Alison Doody on June 24, 2020. Posted in Publications. 1 Comment on New publications: From working in the fields to taking control

Using data from 12 communities across four Indian states, an international team of researchers has shed new light on how women are gradually innovating and influencing decision-making in wheat-based systems.

The study, published this month in The European Journal of Development Research, challenges stereotypes of men being the sole decision-makers in wheat-based systems and performing all the work. The authors, which include researchers from the CGIAR Research Program on Wheat (WHEAT)-funded GENNOVATE initiative, show that women adopt specific strategies to further their interests in the context of wheat-based livelihoods.

In parts of India, agriculture has become increasingly feminized in response to rising migration of men from rural areas to cities. An increasing proportion of women, relative to men, are working in the fields. However, little is known about whether these women are actually taking key decisions.

The authors distinguish between high gender gap communities — identified as economically vibrant and highly male-dominant — and low gender gap communities, which are also economically vibrant but where women have a stronger say and more room to maneuver.

The study highlights six strategies women adopt to participate actively in decision-making. These range from less openly challenging strategies that the authors term acquiescence, murmuring, and quiet co-performance (typical of high gender gap communities), to more assertive ones like active consultation, women managing, and finally, women deciding (low gender gap communities).

In acquiescence, for example, women are fully conscious that men do not expect them to take part in agricultural decision-making, but do not articulate any overt forms of resistance.

In quiet co-performance, some middle-income women in high gender gap communities begin to quietly support men’s ability to innovate, for example by helping to finance the innovation, and through carefully nuanced ‘suggestions’ or ‘advice.’ They don’t openly question that men take decisions in wheat production. Rather, they appear to use male agency to support their personal and household level goals.

In the final strategy, women take all decisions in relation to farming and innovation. Their husbands recognize this process is happening and support it.

A wheat farmer in India. (Photo: J. Cumes/CIMMYT)

“One important factor in stronger women’s decision-making capacity is male outmigration. This is a reality in several of the low gender gap villages studied—and it is a reality in many other communities in India. Another is education—many women and their daughters talked about how empowering this is,” said gender researcher and lead-author Cathy Farnworth.

In some communities, the study shows, women and men are adapting by promoting women’s “managerial” decision-making. However, the study also shows that in most locations the extension services have failed to recognize the new reality of male absence and women decision-makers. This seriously hampers women, and is restricting agricultural progress.

Progressive village heads are critical to progress, too. In some communities, they are inclusive of women but in others, they marginalize women. Input suppliers — including machinery providers — also have a vested interest in supporting women farm managers. Unsurprisingly, without the support of extension services, village heads, and other important local actors, women’s ability to take effective decisions is reduced.

“The co-authors, partners at Glasgow Caledonian University and in India, were very important to both obtaining the fieldwork data, and the development of the typology” said Lone Badstue, researcher at the International Maize and Wheat Improvement Center (CIMMYT) and another co-author of the paper.

The new typology will allow researchers and development partners to better understand empowerment dynamics and women’s agency in agriculture. The authors argue that development partners should support these strategies but must ultimately leave them in the hands of women themselves to manage.

“It’s an exciting study because the typology can be used by anyone to distinguish between the ways women (and men) express their ideas and get to where they want”, concluded Farnworth.

Read the full article in The European Journal of Development Research:
From Working in the Fields to Taking Control. Towards a Typology of Women’s Decision-Making in Wheat in India

See more recent publications from CIMMYT researchers:

isqg: A Binary Framework for in Silico Quantitative Genetics. 2019. Toledo, F.H., Perez-Rodriguez, P., Crossa, J., Burgueño, J. In: G3: Genes, Genomes, Genetics v. 9, no. 8, pag. 2425-2428
Short-term impacts of conservation agriculture on soil physical properties and productivity in the midhills of Nepal. 2019. Laborde, J.P., Wortmann, C.S., Blanco-Canqui, H., McDonald, A., Baigorria, G.A., Lindquist, J.L. In: Agronomy Journal v.111, no. 4, pag. 2128-2139.
Meloidogyne arenaria attacking eggplant in Souss region, Morocco. 2019. Mokrini, F., El Aimani, A., Abdellah Houari, Bouharroud, R., Ahmed Wifaya, Dababat, A.A. In: Australasian Plant Disease Notes v. 14, no. 1, art. 30.
Differences in women’s and men’s conservation of cacao agroforests in coastal Ecuador. 2019. Blare, T., Useche, P. In: Environmental Conservation v. 46, no. 4, pag. 302-309.
Assessment of the individual and combined effects of Rht8 and Ppd-D1a on plant height, time to heading and yield traits in common wheat. 2019. Kunpu Zhang, Junjun Wang, Huanju Qin, Zhiying Wei, Libo Hang, Pengwei Zhang, Reynolds, M.P., Daowen Wang In: The Crop Journal v. 7, no. 6, pag. 845-856.
Quantifying carbon for agricultural soil management: from the current status toward a global soil information system. 2019. Paustian, K., Collier, S., Baldock, J., Burgess, R., Creque, J., DeLonge, M., Dungait, J., Ellert, B., Frank, S., Goddard, T., Govaerts, B., Grundy, M., Henning, M., Izaurralde, R.C., Madaras, M., McConkey, B., Porzig, E., Rice, C., Searle, R., Seavy, N., Skalsky, R., Mulhern, W., Jahn, M. In: Carbon Management v. 10, no. 6, pag. 567-587.
Factors contributing to maize and bean yield gaps in Central America vary with site and agroecological conditions. 2019. Eash, L., Fonte, S.J., Sonder, K., Honsdorf, N., Schmidt, A., Govaerts, B., Verhulst, N. In: Journal of Agricultural Science v. 157, no. 4, pag. 300-317.
Genome editing, gene drives, and synthetic biology: will they contribute to disease-resistance crops, and who will benefit?. 2019. Pixley, K.V., Falck-Zepeda, J.B., Giller, K.E., Glenna, L.L., Gould, F., Mallory-Smith, C., Stelly, D.M., Stewart Jr, C.N. In: Annual Review of Phytopathology v. 57, pag. 165-188.
Rice mealybug (Brevennia rehi): a potential threat to rice in a long-term rice-based conservation agriculture system in the middle Indo-Gangetic Plain. 2019. Mishra, J. S., Poonia, S. P., Choudhary, J.S., Kumar, R., Monobrullah, M., Verma, M., Malik, R.K., Bhatt, B. P. In: Current Science v. 117, no. 4, 566-568.
Trends in key soil parameters under conservation agriculture-based sustainable intensification farming practices in the Eastern Ganga Alluvial Plains. 2019. Sinha, A.K., Ghosh, A., Dhar, T., Bhattacharya, P.M., Mitra, B., Rakesh, S., Paneru, P., Shrestha, R., Manandhar, S., Beura, K., Dutta, S.K., Pradhan, A.K., Rao, K.K., Hossain, A., Siddquie, N., Molla, M.S.H., Chaki, A.K., Gathala, M.K., Saiful Islam., Dalal, R.C., Gaydon, D.S., Laing, A.M., Menzies, N.W. In: Soil Research v. 57, no. 8, Pag. 883-893.
Genetic contribution of synthetic hexaploid wheat to CIMMYT’s spring bread wheat breeding germplasm. 2019. Rosyara, U., Kishii, M., Payne, T.S., Sansaloni, C.P., Singh, R.P., Braun, HJ., Dreisigacker, S. In: Nature Scientific Reports v. 9, no. 1, art. 12355.
Joint use of genome, pedigree, and their interaction with environment for predicting the performance of wheat lines in new environments. 2019. Howard, R., Gianola, D., Montesinos-Lopez, O.A., Juliana, P., Singh, R.P., Poland, J.A., Shrestha, S., Perez-Rodriguez, P., Crossa, J., Jarquín, D. In: G3: Genes, Genomes, Genetics v. 9, no. 9 pag. 2925-2934.
Deep kernel for genomic and near infrared predictions in multi-environment breeding trials. 2019. Cuevas, J., Montesinos-Lopez, O.A., Juliana, P., Guzman, C., Perez-Rodriguez, P., González-Bucio, J., Burgueño, J., Montesinos-Lopez, A., Crossa, J. In: G3: Genes, Genomes, Genetics v. 9. No. 9, pag. 2913-2924.
Multi-environment QTL analysis using an updated genetic map of a widely distributed Seri × Babax spring wheat population. 2019. Caiyun Liu, Khodaee, M., Lopes, M.S., Sansaloni, C.P., Dreisigacker, S., Sukumaran, S., Reynolds, M.P. In: Molecular Breeding v. 39, no. 9, art. 134.
Characterization of Ethiopian wheat germplasm for resistance to four Puccinia graminis f. sp. tritici races facilitated by single-race nurseries. 2019. Hundie, B., Girma, B., Tadesse, Z., Edae, E., Olivera, P., Hailu, E., Worku Denbel Bulbula, Abeyo Bekele Geleta, Badebo, A., Cisar, G., Brown-Guedira, G., Gale, S., Yue Jin, Rouse, M.N. In: Plant Disease v. 103, no. 9, pag. 2359-2366.
Marker assisted transfer of stripe rust and stem rust resistance genes into four wheat cultivars. 2019. Randhawa, M.S., Bains, N., Sohu, V.S., Chhuneja Parveen, Trethowan, R.M., Bariana, H.S., Bansal, U. In: Agronomy v. 9, no. 9, art. 497.
Design and experiment of anti-vibrating and anti-wrapping rotary components for subsoiler cum rotary tiller. 2019. Kan Zheng, McHugh, A., Hongwen Li, Qingjie Wang, Caiyun Lu, Hongnan Hu, Wenzheng Liu, Zhiqiang Zhang, Peng Liu, Jin He In: International Journal of Agricultural and Biological Engineering v. 14, no. 4, pag. 47-55.
Hydrogen peroxide prompted lignification affects pathogenicity of hemi-bio-trophic pathogen Bipolaris sorokiniana to wheat. 2019. Poudel, A., Sudhir Navathe, Chand, R., Vinod Kumar Mishra, Singh, P.K., Joshi, A.K. In: Plant Pathology Journal v. 35, no. 4, pag. 287-300.
Population-dependent reproducible deviation from natural bread wheat genome in synthetic hexaploid wheat. 2019. Jighly, A., Joukhadar, R., Sehgal, D., Sukhwinder-Singh, Ogbonnaya, F.C., Daetwyler, H.D. In: Plant Journal v. 100, no, 4. Pag. 801-812.
How do informal farmland rental markets affect smallholders’ well-being? Evidence from a matched tenant–landlord survey in Malawi. 2019. Ricker-Gilbert, J., Chamberlin, J., Kanyamuka, J., Jumbe, C.B.L., Lunduka, R., Kaiyatsa, S. In: Agricultural Economics v. 50, no. 5, pag. 595-613.
Distribution and diversity of cyst nematode (Nematoda: Heteroderidae) populations in the Republic of Azerbaijan, and their molecular characterization using ITS-rDNA analysis. 2019. Dababat, A.A., Muminjanov, H., Erginbas-Orakci, G., Ahmadova Fakhraddin, G., Waeyenberge, L., Senol Yildiz, Duman, N., Imren, M. In: Nematropica v. 49, no. 1, pag. 18-30.
Response of IITA maize inbred lines bred for Striga hermonthica resistance to Striga asiatica and associated resistance mechanisms in southern Africa. 2019. Gasura, E., Setimela, P.S., Mabasa, S., Rwafa, R., Kageler, S., Nyakurwa, C. S. In: Euphytica v. 215, no. 10, art. 151.
QTL mapping and transcriptome analysis to identify differentially expressed genes induced by Septoria tritici blotch disease of wheat. 2019. Odilbekov, F., Xinyao He, Armoniené, R., Saripella, G.V., Henriksson, T., Singh, P.K., Chawade, A. In: Agronomy v. 9, no. 9, art. 510.
Molecular diversity and selective sweeps in maize inbred lines adapted to African highlands. 2019. Dagne Wegary Gissa, Chere, A.T., Prasanna, B.M., Berhanu Tadesse Ertiro, Alachiotis, N., Negera, D., Awas, G., Abakemal, D., Ogugo, V., Gowda, M., Fentaye Kassa Semagn In: Nature Scientific Reports v. 9, art. 13490.
The impact of salinity on paddy production and possible varietal portfolio transition: a Vietnamese case study. 2019. Dam, T.H.T., Amjath Babu, T.S., Bellingrath-Kimura, S., Zander, P. In: Paddy and Water Environment In: 17. No. 4, pag. 771-782.

A member of a women farmers group serves a platter of mung bean dishes in Suklaphanta, Nepal. (Photo: Merit Maharajan/Amuse Communication)

Small but mighty

Written by Alison Doody on June 16, 2020. Posted in Features.

Nearly 65,000 farmers in Nepal, 40% of which were women, have benefited from the Agronomy and Seed Systems Scaling project, according to a comprehensive new report. This project is part of the Cereals Systems Initiative for South Asia (CSISA), led by the International Maize and Wheat Improvement Center (CIMMYT) and supported by USAID.

One of the project’s most recent successes has been in accelerating the adoption of the nutritious and stress-tolerant mung bean in rice-wheat farming systems.

Farmer Chhalu Bhattarai harvests her mung bean crop in Manikapur, Surkhet, Nepal. (Photo: P. Lowe/CIMMYT)

Rice-wheat is the dominant cropping system in the lowland region of Nepal. Farmers typically harvest wheat in March and transplant rice in July, leaving land fallow for up to 100 days. A growing body of evidence shows, however, that planting mung bean during this fallow period can assist in improving farmers’ farming systems and livelihoods.

“The mung bean has multiple benefits for farmers,” says Narayan Khanal, a researcher at CIMMYT. “The first benefit is nutrition: mung beans are very rich in iron, protein and are easily digestible. The second benefit is income: farmers can sell mung beans on the market for a higher price than most other legumes. The third benefit is improved soil health: mung beans fix the nitrogen from the atmosphere into the soil as well as improve soil organic content.”

Commonly used in dishes like dahl, soups and sprout, mung beans are a common ingredient in Asian cuisine. However, prior to the project, most farmers in Nepal had never seen the crop before and had no idea how to eat it. Encouraging them to grow the crop was not going to be an easy task.

Thanks to dedicated efforts by CIMMYT researchers, more than 8,000 farmers in Nepal are now cultivating mung bean on land that would otherwise be left fallow, producing over $1.75 million of mung bean per year.

The newfound enthusiasm for growing mung bean could not have been achieved without the help of local women’s farming groups, said Timothy J. Krupnik, CIMMYT senior scientist and CSISA project leader.

Employees select and clean mung beans at Poshan Foods in Butwal, Nepal. (Photo: Merit Maharajan/Amuse Communication)

An employee selects mung beans at Poshan Foods, in Butwal, Nepal. (Photo: Merit Maharajan/Amuse Communication)

After mung bean is toasted, employees at Poshan Foods select the beans. (Photo: Merit Maharajan/Amuse Communication)

Poshan Foods uses mung bean for a wide range of products but has been particularly successful with baby food, which includes important nutrition advice for parents. (Photo: Merit Maharajan/Amuse Communication)

Bringing research and innovations to farmers’ fields

Introducing the mung bean crop to farmers’ fields was just one of the successes of Agronomy and Seed Systems Scaling, which was an added investment by USAID in the wider CSISA project, which began in 2014. The project aims to move agronomic and crop varietal research into real-world impact. It has helped farmers get better access to improved seeds and machinery and strengthened partnerships with the private sector, according to Khanal.

CSISA support in business mentoring and capacity building of seed companies to popularize newly released, biofortified and stress-tolerant wheat varieties has led to seed sales volumes tripling between 2014 to 2019. The project also led to a 68% increase in the number of new improved wheat varieties since the inception of the project.

Nepal’s National Wheat Research Program was able to fast track the release of the early maturing variety BL 4341, by combining data generated by the project through seed companies and the Nepal Agricultural Research Council (NARC) research station. Other varieties, including Borlaug 100 and NL 1327, are now in the pipeline.

Empowering women and facilitating women’s groups have been critical components of the project. Nepal has seen a mass exodus of young men farmers leaving the countryside for the city, leaving women to work the farms. CIMMYT worked with women farmer groups to expand and commercialize simple to use and affordable technologies, like precision seed and fertilizer spreaders.

Over 13,000 farmers have gained affordable access to and benefited from precision agriculture machinery such as two-wheel ‘hand tractors’ and ‘mini tillers.’ This is a major change for small and medium-scale farmers in South Asia who typically rely on low horsepower four-wheel tractors. The project also introduced an attachment for tractors for harvesting rice and wheat called the ‘reaper.’ This equipment helps to reduce the costs and drudgery of manual harvesting. In 2019, Nepal’s Terai region had almost 3,500 reapers, versus 22 in 2014.

To ensure the long-term success of the project, CSISA researchers have trained over 2,000 individuals from the private and public sector, and over 1,000 private organizations including machinery manufacturers and agricultural input dealers.

Researchers have trained project collaborators in both the public and private sector in seed systems, resilient varieties, better farming practices and appropriate agricultural mechanization business models. These partners have in turn passed this knowledge on to farmers, with considerable impact.

“The project’s outcomes demonstrates the importance of multi-year and integrated agricultural development efforts that are science-based, but which are designed in such a way to move research into impact and benefit farmers, by leveraging the skills and interests of Nepal’s public and private sector in unison,” said Krupnik.

“The outcomes from this project will continue to sustain, as the seed and market systems developed and nurtured by the project are anticipated to have long-lasting impact in Nepal,” he said.

Download the full report:
Cereal Systems Initiative for South Asia: Agronomy and Seed Systems Scaling. Final report (2014-2019)

The Cereal Systems Initiative for South Asia (CSISA) is led by the International Maize and Wheat Center (CIMMYT), implemented jointly with the International Food Policy Research Institute (IFPRI) and the International Rice Research Institute (IRRI). CSISA is funded by the U.S. Agency for International Development (USAID) and the Bill & Melinda Gates Foundation.

Cover photo: A member of a women farmers group serves a platter of mung bean dishes in Suklaphanta, Nepal. (Photo: Merit Maharajan/Amuse Communication)

Establishment of demo trial in Nyanga, Zimbabwe. (Photo: CIMMYT)

Farm mechanization under COVID-19

Written by Emma Orchardson on June 2, 2020. Posted in Features.

The COVID-19 pandemic continues to transform the way the world operates, and agricultural production systems are not exempt.

Even in countries that have identified the agricultural sector as an essential one, ongoing restrictions on transport and freedom of movement are causing disruptions across the value chain — with potentially devastating impact on already fragile food systems in Latin America, sub-Saharan Africa and South Asia.

With this in mind, systems agronomists and mechanization specialists at the International Maize and Wheat Improvement Center (CIMMYT), discuss the impact of restrictions on agricultural labor and production, and the role farm mechanization can play in addressing new challenges.

What are the implications of the agricultural labor shortages that are emerging in Africa and Latin America as a result of COVID-19 restrictions?

A woman demonstrates the use of a mini-tiller in Naivasha, Kenya. (Photo: Matt O’Leary/CIMMYT)

Frédéric Baudron: The pandemic has demonstrated that food production systems around the world — even in countries where agriculture is thought to be highly mechanized — are highly dependent on farm labor.

Africa is often presented as being dominated by farms which rely mainly on the labor of family members. Therefore, one could expect that Africa would be spared from the consequences of unavailability and/or unaffordability of hired labor. However, a recent CIMMYT study shows that farming systems in Africa are far more dependent on hired labor than commonly thought, and that the quasi total dependence of smallholder farming on family labor is a myth. Depending on the farming system, a complete loss of hired labor could lead to a productivity decrease of up to 20% in Eastern and Southern Africa. Hired labor is also likely to be replaced by child labor.

Because most production on the continent is rainfed during a single season, most farmers only plant and harvest once per year, making the timing of each task critical. A delay in planting because of labor shortages — as will soon occur Ethiopia — could lead to dramatically reduced yields. A delay in harvesting — as is currently experienced in Zimbabwe — means a large fraction of the crop is likely to be spoilt in the field.

Jelle Van Loon: The situation is similar for Mexico and the general Central American corridor, although the main production cycle is only just starting. Proper land preparation and timely sowing are critical, not only in terms of food production and achieving proper yields, but also to ensure that farmers have a stable income at the end of the year. This is especially important now, as financial and food reserves are shrinking at a faster pace due to COVID-19 restrictions that heavily affect demand on informal markets.

An operator demonstrates the use of a reaper in Bangladesh. (Photo: CIMMYT)

Are you seeing a similar situation in South Asia?

Timothy Krupnik: Depending on the country, we’ve seen either abrupt interruptions in the movement of agricultural laborers — for example in India where millions of migrant laborers have not been able to travel home during lockdown — or an influx of people from urban areas who fled to their villages when lockdown began.

In the latter case, one might expect this to increase labor availability for farming, but we tended to observe the reverse. People remain largely frightened of coming out of their homes, so even in rural areas which saw an influx of people, labor availability has not necessarily increased. Where laborers are willing to work, our initial scan of the evidence indicates that daily wage labor costs have also increased considerably due to risks of infection spreading. In either situation, smallholder farmers who need to hire labor to assure crucial crop management activities like planting or harvesting are suffering. There are reports emerging also of increased child labor in the region as schools are closed and resource-poor farmers are allocating family members and children to work where they can’t afford to hire labor.

M.L. Jat: I would like to cite the specific example of intensive rice-wheat rotation in India’s breadbasket and the Green Revolution corridors in the western Indo-Gangetic plains, which provide the bulk of cereals to the national food basket. An ex-ante analysis on the consequences of the reverse migration of the agricultural workforce and social distancing due to COVID-19 revealed that a delay in the transplanting of rice seedlings by two weeks is likely, which will delay rice harvesting and consequently delay the planting of wheat. This will potentially lead to rice and wheat production losses of 10-25%, worth up to $1.5 billion.

In addition, the shorter turn around between harvesting rice and planting wheat may further increase the incidence of rice residue burning. This is a major problem which creates significant health issues and may exacerbate the threat of COVID-19 by increasing both infection rates and disease severity.

Krupnik: The situation has increased interest and policy to support use of scale-appropriate machinery for operations like harvesting. In Bangladesh, for example, there was a recent and very serious risk of losing much of the rice harvest as the monsoon has started early and flash flooding has been a concern. Without manual laborers to harvest the crop, CIMMYT-led projects like the Cereal Systems Initiative for South Asia – Mechanization and Extension Activity (CSISA-MEA) have played a key role in assisting the movement of combine harvesters and crop reapers to areas at risk of crop losses and helping to assure the rice crop is harvested on time.

An operator demonstrates the use of a starwheel planter in Zimbabwe. (Photo: Frederic Baudron/CIMMYT)

It sounds like these machines were instrumental in avoiding crop losses. Does this mean that mechanization has a key role to play in lessening the impact of these labor shortages?

Krupnik: During the COVID-19 crisis, scale-appropriate machinery has become even more important for mitigating labor shortages. We work to facilitate the availability of scale-appropriate machinery not only so that farmers can buy and use equipment, but also by encouraging those who own machineries to become entrepreneurial service providers who offer efficient and mechanized land preparation, planting, irrigation, harvesting and post-harvesting to other farmers on an affordable fee-for-service basis.

This is a win-win situation for farmers who can’t access or afford the escalating costs of labor. In the COVID-19 crisis, these arrangements assist in responding to the labor crunch in locations where resource-poor farmers are most in need, and also allow farmers to get crucial work done while maintaining and encouraging social distancing.

Baudron: Over the past seven years, CIMMYT and its partners have fine-tuned technologies and developed delivery models — based on rural service providers supported by private sector companies — to scale the use of small machines in East and Southern Africa. These are profitable for both farmers and service providers and reduce labor requirements tremendously.

In Zimbabwe, we found that labor requirements were 15 times lower when establishing a maize field with a direct seeder pulled by a two-wheel tractor, and 23 times lower using a similar technology for establishing wheat in Rwanda, compared to the conventional method based on labor and draft power. A ton of maize that would take 12 people a full day to shell manually, can be shelled in one hour using a small double-cob sheller that costs about $300.

Jat: Rapid policy decisions by sub-national and national governments on facilitating more mechanized operations in labor intensive rice-wheat production regions will address labor availability issues while contributing to productivity enhancement of succeeding wheat crop in rotation, as well as overall system sustainability. Our ex-ante analysis on the implications of labor shortages in rice-wheat rotation in the western Indo-Gangetic plains due to COVID-19 indicates that adoption of scale-appropriate farm mechanization has the potential to stabilize the food production as well as reducing the income losses and air pollution surges in northwest India.

Harvesting maize in Mexico. (Photo: CIMMYT)

The situation in the regions each of you have mentioned is unique, but are there any global trends that you’ve noticed? And if so, can other regions learn from these localized experiences?

Krupnik: A huge part of what we do as a research and training institute is facilitate exchanges of information across continents and countries. Different types and designs of machinery that can be used in similar circumstances can be shared, as can business models supporting service providers.

Importantly, part of the concept of ‘scale-appropriate mechanization’ is also learning when and where machinery makes sense — where labor is not scarce and rural communities are highly dependent on income from labor to sustain their communities, some forms of mechanization may not be appropriate. We work to understand these dynamics and target the right machines in the right time and right places.

Van Loon: In addition to reducing pressure on available labor and alleviating drudgery, modern farm equipment tailored to the needs of smallholders can also increase competitiveness, as it allows for higher precision and efficiency.

In this sense, scale-appropriate mechanization can stimulate rural transformation incentivizing short and efficient value chains while ensuring stable food provision — aspects that have become essential to navigating the present crisis.

Has the current pandemic brought up any new perspectives in terms of how you consider labor and mechanization?

Baudron: We often look at yield and area planted in staple crops to assess the food security situation of a country during a particular year. This pandemic has shown us that we need to pay more attention to labor productivity. In many countries, policy-makers and development agents fear that mechanization will displace labor, but the dependency of staple crops on labor is a threat to food security, as we currently see in Africa and South Asia.

If the production of fruit, vegetables, cash crops, and so on will continue to depend on manual labor, it is essential in my view for critical tasks in the production of staples to be mechanized — particularly planting and harvesting. This will ensure the resilience of national food systems in the case of a future disruption similar to the COVID-19 pandemic.

Cover photo: Establishment of demo trial in Nyanga, Zimbabwe. (Photo: CIMMYT/ZRBF)

Breaking Ground: Yoseph Beyene breeds desirable maize varieties for smallholder farmers in sub-Saharan Africa

Written by Rodrigo Ordóñez on May 28, 2020. Posted in Features.

About 25 years ago, Yoseph Beyene first heard about the International Maize and Wheat Improvement Center (CIMMYT) from one of his professors, back when he was pursuing his undergraduate degree in Plant Science at Haramaya University in Ethiopia. “The professor, whom I regard as a great mentor, (…) always told me that if I ever got an opportunity to work at CIMMYT, I should not hesitate to take it up, as it was a great place to conduct maize breeding,” recollects Beyene, now a maize breeder at CIMMYT. He grew up in Alem Ketema, a village located 190 km north of Addis Ababa, Ethiopia’s capital.

In retrospect, he did not know this would change his perspective on how he viewed crops, especially maize, on smallholder farms. Like many other families in Alem Ketema, his family attended to their small farm to meet their food and nutritional needs. Most people practiced subsistence farming, intertwined with livestock keeping, on small plots that were typically less than 2 hectares. At the backyard of his family’s farm, different crops such as maize, sorghum and teff were grown. As a child, he never quite registered in his mind that farmers grew mainly recycled seed. “In hindsight, I can say that the yield of a crop such as maize was just about 1.5 tons per hectare at the time,” he reckons.

Such low yield potential meant feeding relatively large family sizes of about seven people was a tall order. It did not help that crops such as maize and wheat were frequently affected by diseases and pests and erratic rains, which diminished yields. It was not until his high school days when he had firsthand experience with high-yielding improved crop varieties. As part of the farm management class, he actively participated in the school’s farm management unit. He got to appreciate the yield variation between improved and local varieties, grown on the school plots. These improved seed, he quickly realized, were the ideal antidote to the low yield farmers obtained.

Struck by an epiphany

“This was like a eureka moment for me. When I realized that it was possible to improve and deliver desirable seed varieties that could double farmers’ yields, I decided to study plant breeding at the university. If only the farmers back in my village knew about the improved seed and adopted them at the time, it could not only have helped solve the problems of food insecurity but also bettered their livelihoods,” he ponders.

When he enrolled for a PhD in Plant Breeding and Genetics at the University of Pretoria, he did his research in highland maize in collaboration with CIMMYT in Ethiopia. Upon completion, he was appointed as a senior cotton breeder at South Africa’s Agricultural Research Council (ARC), where he worked for one and a half years.

“One day, I saw an advertisement in which CIMMYT was looking for a maize breeder. I applied, went for the interview and was happy to get the position. That was in 2008,” he says.

The right tool for the right variety

Biotic and abiotic stresses are becoming more frequent and vicious because of climate change and there is growing urgency to tackle them to avert future potential food crises.

Beyene’s current research focuses on developing high-yielding and climate-resilient maize inbred lines and hybrids for sub-Saharan Africa. He uses conventional and molecular breeding, including integration of novel tools and techniques, such as doubled haploid, and marker-assisted recurrent section and genomic selection. Over the years, he has developed at least 25 new drought-tolerant maize hybrids recommended for commercialization in Kenya, Mozambique, Uganda, South Africa and Tanzania. Currently, 23 seed companies have been engaged to produce and market the released hybrids through sub-licensing.

Presently, as the Regional Breeding Coordinator for Africa, he is responsible for assessing the progress of implementing product profile-based breeding, appropriate germplasm exchange within and across regional breeding hubs, and ascertaining the progress on new initiatives by regional breeding teams.

A long-term endeavor

Breeding is a costly, time consuming and complex exercise. “It takes at least 10 years from crossing to release using pedigree breeding because the hybrids should be evaluated in multiple years and tested in multiple locations, which increases costs and time of the breeding cycle. You have to appreciate the fact that you are not breeding for now but for the future,” he says.

“As a breeder, you have to keep testing new tools and techniques to make breeding more efficient. Yet, resources are not always constant but inadequate. Stresses are becoming more urgent and vicious, despite increased urgency in tackling them to avert a potential food crises,” he says.

To reduce the time and accelerate genetic gains, Beyene and his colleagues at CIMMYT are currently applying the genomic selection technique for maize breeding, using it to predict the performance of un-phenotyped genotypes at early stage of testing. He and his colleagues recently published their research comparing genomic selection with phenotypic selection, as used by CIMMYT’s maize breeding program in sub-Saharan Africa. They found that the use of genomic selection for yield under optimum and drought conditions in tropical maize can produce selection candidates with similar performance as those generated from conventional phenotypic selection, but at a lower cost. They concluded that this strategy should be effectively incorporated into maize breeding pipelines to enhance breeding program efficiency.

Breeding challenges notwithstanding, Beyene feels fulfilled whenever he sees a farmer has planted a variety that he helped breed. “The epitome of my inspiration is when there is a smile on their face because of the variety’s good performance on their farm,” he says.

Interacting with the farmers and seed companies provides an opportunity for him to learn, understand their varietal preferences as well as appreciate the impact that his work has on their operations. He is also actively engaged in building the capcity of public and private partners, and supervising master’s and doctoral students from various countries. He has published more than 50 articles in journals.

The life of a breeder is not as lonely and boring as some would think. Beyene creates time to be with his three children, playing with them and helping with their homework, taking them out for social events. He also dedicates time to watch football, reality television, comedy and drama with his family.

Preventing Seed Transmission of Maize Lethal Necrosis in Africa

Written by Emma Orchardson on May 4, 2020. Posted in Uncategorized.

The outbreak of maize lethal necrosis (MLN) disease in east Africa in 2011 (first reported in Kenya’s South Rift Valley) was a major concern, given that maize is the region’s most important staple crop. This disease is caused by co-infection of plants with two viruses – maize chlorotic mottle virus (MCMV) and sugarcane mosaic virus (SCMV) – and can cause yield losses of up to 90%. It spread rapidly across east Africa, compromising food and economic security for several million smallholder farmers.

MLN is a complex challenge that must be addressed through a multipronged approach. While significant advances have been made through intensive efforts by CIMMYT and other partners in terms of identifying and developing MLN tolerant or resistant hybrids, the rapid spread of the epidemic over the last few years remains a concern for farming communities, policy makers, national plant protection organization and the commercial seed sector, as well as the international scientific community.

There is also increasing suspicion that commercial seed flows may have been the initial source of the dissemination of the MLN-causing viruses over large distances, and it is thought that transmission of MCMV through contaminated maize seed continues to be a major risk factor in the spread of MLN across east Africa and beyond. However, there is a lack of reliable information on various aspects of MLN epidemiology, including the rate of MCMV transmission through seed.

The project on ‘Preventing Seed Transmission of Maize Lethal Necrosis in Africa’ aims to generate a better understanding of these epidemiological issues to allow for more effective control of MCMV transmission through commercial seed, support the development of effective, evidence-based phytosanitary regulations, reduce MLN disease pressure in eastern Africa, and curb the spread to non-endemic countries in other parts of the continent.

Objectives

Develop appropriate protocols for assessing MLN transmission through seed
Develop reliable and cost-effective diagnostic protocols for curbing the spread of MCMV/MLN through seed implemented by NPPOs and commercial seed companies.
Determine the rates of transmission for the East African and US (Hawaiian) isolates of MCMV in tropical, subtropical and temperate maize germplasm
Understand the mode of MCMV transmission through commercial seed within endemic areas to allow more effective control
Determine the distribution of MCMV in maize seed, and the effects of seed treatments on virus transmission
Analyze whether virus and/or host factors control seed transmission of MCMV
Identify economical treatment methods to reduce or prevent MCMV transmission through seed for commercial seed industry and casual seed trade
Generate detailed understanding of the role of root debris on persistence of MCMV in the soil, the persistence of the virus in different soil types, and the duration of virus viability in the soil
Disseminate science-based knowledge and evidence generated through this project to National Plant Protection Organizations (NPPOs) and Ministries of Agriculture in sub-Saharan Africa

Asia Regional Resilience to a Changing Climate (ARRCC)

Written by Emma Orchardson on April 30, 2020. Posted in Uncategorized.

The Asia Regional Resilience to a Changing Climate (ARRCC) program is managed by the UK Met Office, supported by the World Bank and the UK’s Department for International Development (DFID). The four-year program, which started in 2018, aims to strengthen weather forecasting systems across Asia. The program will deliver new technologies and innovative approaches to help vulnerable communities use weather warnings and forecasts to better prepare for climate-related shocks.

Since 2019, as part of ARRCC, CIMMYT has been working with the Met Office and Cambridge University to pilot an early warning system to deliver wheat rust and blast disease predictions directly to farmers’ phones in Bangladesh and Nepal.

The system was first developed in Ethiopia. It uses weather information from the Met Office, the UK’s national meteorological service, along with field and mobile phone surveillance data and disease spread modeling from the University of Cambridge, to construct and deploy a near real-time early warning system.

Phase I: 12-Month Pilot Phase

Around 50,000 smallholder farmers are expected to receive improved disease warnings and appropriate management advisories in the first 12 months as part of a proof-of-concept modeling and pilot advisory extension phase focused on three critical diseases:

Wheat stripe rust in Nepal: extend and test the modelling framework developed in Ethiopia to smallholder farmers in Nepal as proof-of concept;
Wheat stem rust in Bangladesh and Nepal: while stem rust is currently not widely established in South Asia, models indicate that devastating incursion from neighboring regions is likely. This work will prepare for potential incursions of new rust strains in both countries;
Wheat blast in Bangladesh: this disease is now established in Bangladesh. This work will establish the feasibility of adapting the dispersal modelling framework to improve wheat blast predictability and deploy timely preventative management advisories to farmers.

Phase II: Scaling-out wheat rust early warning advisories, introducing wheat blast forecasting and refinement model refinement

Subject to funding approval the second year of the project will lead to validation of the wheat rust early warnings, in which researchers compare predictions with on-the-ground survey results, increasingly supplemented with farmer response on the usefulness of the warnings facilitated by national research and extension partners. Researchers shall continue to introduce and scale-out improved early warning systems for wheat blast. Concomitantly, increasing the reach of the advice to progressively larger numbers of farmers while refining the models in the light of results. We anticipate that with sufficient funding, Phase II activities could reach up to 300,000 more farmers in Nepal and Bangladesh.

Phase III: Demonstrating that climate services can increase farmers’ resilience to crop diseases

As experience is gained and more data is accumulated from validation and scaling-out, researchers will refine and improve the precision of model predictions. They will also place emphasis on efforts to train partners and operationalize efficient communication and advisory dissemination channels using information communication technologies (ICTs) for extension agents and smallholders. Experience from Ethiopia indicates that these activities are essential in achieving ongoing sustainability of early warning systems at scale. Where sufficient investment can be garnered to support the third phase of activities, it is expected that an additional 350,000 farmers will receive disease management warnings and advisories in Nepal and Bangladesh, totaling 1 million farmers over a three-year period.

Objectives

Review the feasibility of building resilience to wheat rust through meteorologically informed early warning systems.
Adapt and implement epidemiological forecasting protocols for wheat blast in South Asia.
Implement processes to institutionalize disease early warning systems in Nepal and Bangladesh.

Ugali made with different maize varieties is served to participants of a sensory evaluation in Kakamega County, Kenya. (Photo: Joshua Masinde/CIMMYT)

In the best possible taste

Written by Rodrigo Ordóñez on April 29, 2020. Posted in Features. 2 Comments on In the best possible taste

The pursuit for higher and more stable yields, alongside better stress tolerance, has dominated maize breeding in Africa for a long time. Such attributes have been, and still are, essential in safeguarding the food security and livelihoods of smallholder farmers. However, other essential traits have not been the main priority of breeding strategies: how a variety tastes when cooked, its smell, its texture or its appearance.

They are now gradually coming into the mainstream of maize breeding. Researchers are exploring the sensory characteristics consumers prefer and identifying the varieties under development which have the desired qualities. Breeders may then choose to incorporate specific traits that farmers or consumers value in future breeding work. This research is also helping to accelerate varietal turnover in the last mile, as farmers have additional reasons to adopt newer varieties.

In the last five years, the International Maize and Wheat Improvement Center (CIMMYT) has been conducting participatory variety evaluations across East Africa. First, researchers invited farmers and purchasers of improved seed in specific agro-ecologies to visit demonstration plots and share their preferences for plant traits they would like to grow in their own farms.

In 2019 and 2020, researchers also started to facilitate evaluations of the sensory aspects of varieties.

Fresh samples of green maize, from early- to late-maturing maize varieties, were boiled and roasted. Then, people assessed their taste and other qualities. The first evaluations of this kind were conducted in Kenya and Uganda in August and September 2019, and another exercise in Kenya’s Machakos County took place in January 2020.

Similar evaluations have looked at the sensory qualities of maize flour. In March 2020, up to 300 farmers in Kenya’s Kakamega County participated in an evaluation of ugali, or maize flour porridge. Participants assessed a wider range of factors, including the aroma, appearance, taste, texture on the hand, texture in the mouth and overall impression. After tasting each variety, they indicated how likely they would be to buy it.

Participants were asked to rate the texture of different maize varieties, cooked as ugali, at a sensory evaluation in Kakamega County, Kenya. (Photo: Joshua Masinde/CIMMYT)

Participants were asked to rate the smell of different maize varieties, cooked as ugali, at a sensory evaluation in Kakamega County, Kenya. (Photo: Joshua Masinde/CIMMYT)

Participants taste ugali at a sensory evaluation in Kakamega County, Kenya. (Photo: Joshua Masinde/CIMMYT)

Cooks prepare ugali, or maize flour porridge, with different maize varieties at a sensory evaluation in Kakamega County, Kenya. (Photo: Joshua Masinde/CIMMYT)

At a sensory evaluation in Kakamega County, Kenya, different types of ugali were cooked using maize flour from several varieties. (Photo: Joshua Masinde/CIMMYT)

Ugali made with different maize varieties is served to participants of a sensory evaluation in Kakamega County, Kenya. (Photo: Joshua Masinde/CIMMYT)

Tastes differ

“Farmers not only consume maize in various forms but also sell the maize either at green or dry grain markets. What we initially found is green maize consumers prefer varieties that are sweet when roasted. We also noted that seed companies were including the sensory characteristics in the maize varieties’ product profiles,” explained Bernard Munyua, Research Associate with the Socioeconomics program at CIMMYT. “As breeders and socioeconomists engage more and more with farmers, consumers or end-users, it is apparent that varietal profiles for both plant and sensory aspects have become more significant than ever before, and have a role to play in the successful turnover of new varieties.”

For researchers, this is very useful information, to help determine if it is viable to bring a certain variety to market. The varieties shared in these evaluations include those that have passed through CIMMYT’s breeding pipeline and are allocated to partners for potential release after national performance trials, as well as CIMMYT varieties marketed by various seed companies. Popular commercial varieties regions were also included in the evaluations, for comparison.

A total of 819 people participated in the evaluation exercises in Kenya and Uganda, 54% of them female.

“Currently, there is increasing demand by breeders, donors, and other agricultural scientists to understand the modalities of trait preferences of crops by women and men farmers,” said Rahma Adam, Gender and Development Specialist at CIMMYT.

Bags of seeds with a diversity of maize varieties are displayed before being cooked at a sensory sensory evaluation in Kakamega County, Kenya. (Photo: Bernard Munyua/CIMMYT)

That’s the way I like it

For Gentrix Ligare, from Kakamega County, maize has always been a staple food in her family. They eat ugali almost daily. The one-acre farm that she and her husband own was one of the sites used to plant the varieties ahead of the evaluation exercise. Just like her husband, Fred Ligare, she prefers ugali that is soft but absorbs more water during preparation. “I also prefer ugali that is neither very sticky nor very sweet. Such ugali would be appropriate to eat with any type of vegetable or sauce,” she said.

Fernandes Ambani prefers ugali that emits a distinct aroma while being cooked and should neither be very sweet nor plain tasting. For him, ugali should not be too soft or too hard. While it should not be very sticky, it should also not have dark spots in it. “When I like the taste, smell, texture and appearance of a particular variety when cooked, I would definitely purchase it if I found it on the market,” he said.

While the task of incorporating all the desired or multiple traits in the breeding pipeline could prove complex and costly, giving consumers what they like is one of the essential steps in enhancing a variety’s commercial success in the market, argues Ludovicus Okitoi, Director of Kenya Agricultural and Livestock Organization’s (KALRO) Kakamega Center.

“Despite continuously breeding and releasing varieties every year, some farmers still buy some older varieties, possibly because they have a preference for a particular taste in some of the varieties they keep buying,” Okitoi said. “It is a good thing that socioeconomists and breeders are talking more and more with the farmers.”

Advancements in breeding techniques may help accelerate the integration of multiple traits, which could eventually contribute to quicker varietal turnover.

“Previously, we did not conduct this type of varietal evaluations at the consumer level. A breeder would, for instance, just breed on-station and conduct national performance trials at specific sites. The relevant authorities would then grant their approval and a variety would be released. Things are different now, as you have to go back to the farmer as an essential part of incorporating end-user feedback in a variety’s breeding process,” explained Hugo de Groote, Agricultural Economist at CIMMYT.

TELA Maize Project

Written by Emma Orchardson on April 27, 2020. Posted in Uncategorized.

The name TELA is derived from the Latin word tutela, which means “protection.” The TELA Maize Project is a public-private partnership led by the African Agricultural Technology Foundation (AATF) working towards the commercialization of transgenic drought-tolerant and insect-protected (TELA®) maize varieties to enhance food security in sub-Saharan Africa. Launched in 2018, the TELA Maize Project builds on progress made from a decade of breeding work under the Water Efficient Maize for Africa (WEMA) Project.

Africa is a drought-prone continent, making farming risky for millions of smallholders who rely on rainfall to water their crops. Climate change will only worsen the problem. Identifying ways to mitigate drought risk, stabilize yields, and encourage small-scale farmers to adopt best management practices is fundamental to realizing food security and improved livelihoods for the continent. Drought is just one of the many challenges facing sub-Saharan African farmers. Insects pose additional challenges as farmers in the developing world have little or no resources to effectively manage them. Insect protection complements and protects yield made possible through research and development.

Through TELA, AATF and its partners are pursuing the regulatory approval and dissemination of new biotech/genetically-modified maize seeds containing either an insect-resistant trait or the stacked insect-resistant and drought-tolerant traits across seven target countries in Africa (Ethiopia, Kenya, Mozambique, Nigeria, South Africa, Tanzania and Uganda). The transgenic technology, including gene constructs, transformation and other recombinant DNA technologies, and other proprietary information and materials regarding the transgenes, owned by Bayer CropScience LP (formerly Monsanto Company), is licensed royalty-free to the partners for use in the project.

To the extent where their germplasm is transformed/incorporated into finished lines, Bayer and CIMMYT further grant AATF the license to commercially release the transgenic maize varieties within the partner countries, provided that no royalty fee shall be charged by AATF/its sublicensees, and subject to compliance with all regulatory, biosafety and stewardship requirements. CIMMYT’s non-transgenic parental lines which may be used for introgression in this project have been shared under the terms of the Standard Material Transfer Agreement (SMTA) of the Plant Treaty, and remain available to other third parties outside the project in the same way. The partner countries are in different stages of the approval process to test and commercialize TELA® hybrids, which will determine when farmers can access the improved TELA seeds.

Seed companies can receive license rights to produce and commercialize the new TELA® hybrids under their private brand from AATF in due course. Licensed seed companies will access the technology royalty-free for them to produce and sell the seeds to farmers at prevailing market prices. Better yield performance, combined with improved seed quality, will deliver more value to farmers and create more demand and potential for the seed brand.

Smallholder farmers benefit from TELA maize, as it provides better drought tolerance, protection against stem borers, and partial but significant protection against fall armyworm. As a result, smallholders will spend less money on insecticides and reduce their exposure to these chemicals, besides benefiting from improved yields and better grain quality.