funder_partner: CGIAR

https://www.cgiar.org/

Local irrigation service providers in southern Bangladesh demonstrate the use of a two-wheeled tractor to power an axial flow pump to provide fuel-efficient surface water irrigation. (Photo: Tim Krupnik/CIMMYT)

New publications: A study of water markets in Bangladesh

Written by Emma Orchardson on July 30, 2019. Posted in Publications. 3 Comments on New publications: A study of water markets in Bangladesh

Domestic rice and wheat production in Bangladesh has more than doubled in the last 30 years, despite declining per capita arable land. The fact that the country is now almost self-sufficient in staple food production is due in large part to successful and rapid adoption of modern, high-yielding crop varieties. This has been widely documented, but less attention has been paid to the contribution of small-scale irrigation systems, whose proliferation has enabled double rice cropping and a competitive market system in which farmers can purchase irrigation services from private pump owners at affordable rates.

However, excess groundwater abstraction in areas of high shallow tube-well density and increased fuel costs for pumping have called into question the sustainability of Bangladesh’s groundwater irrigation economy. Cost-saving agronomic methods are called for, alongside aligned policies, markets, and farmers’ incentives.

A recent study by researchers at the International Maize and Wheat Improvement Center (CIMMYT) examines the different institutions and water-pricing methods for irrigation services that have emerged in Bangladesh, each of which varies in their incentive structure for water conservation, and the level of economic risk involved for farmers and service providers.

Using primary data collected from 139 irrigation service providers and 556 client-farmers, the authors assessed the structure of irrigation service types as well as the associated market and institutional dimensions. They found that competition between pump owners, social capital, and social relationship between of pump owners and client farmers, significantly influence the structure of irrigation services and irrigation water pricing methods. Greater competition between pump owners, for instance, increases the likelihood of pay-per-hour services while reducing that of crop sharing arrangements.

Based on these and other findings, authors made policy recommendations for enhancing irrigation services and sustainability in Bangladesh. As Bangladesh is already highly successful in terms of the conventional irrigation system, the authors urge taking it to the next level for sustainability and efficiency.

Currently Bangladesh’s irrigation system is based on centrifugal pumps and diesel engines. The authors suggest scaling out the energy efficient axial flow pump, and the alternate wetting and drying system for water conservation and irrigation efficiency. They also recommend further investment in rural electrification to facilitate the use of electric motors, which can reduce air pollution by curbing dependency on diesel engines.

Read the full article:
“Understanding clients, providers and the institutional dimensions of irrigation services in developing countries: A study of water markets in Bangladesh” in Agricultural Water Management, Volume 222, 1 August 2019, pages 242-253.

This study was made possible through the support provided by the United States Agency for International Development (USAID) and the Bill & Melinda Gates Foundation to the Cereal Systems Initiative for South Asia (CSISA). Additional support was provided by the CGIAR Research Programs on Maize (MAIZE) and Wheat (WHEAT).

Read more recent publications by CIMMYT researchers:

A spatial framework for ex-ante impact assessment of agricultural technologies. 2019. Andrade, J.F., Rattalino Edreira, J.I., Farrow, A., Loon, M.P. van., Craufurd, P., Rurinda, J., Shamie Zingore, Chamberlin, J., Claessens, L., Adewopo, J., Ittersum, M.K. van, Cassman, K.G., Grassini, P. In: Global Food Security v. 20, p. 72-81.
Assessing genetic diversity to breed competitive biofortified wheat with enhanced grain ZN and FE concentrations. 2019. Velu, G., Crespo-Herrera, L.A., Guzman, C., Huerta-Espino, J., Payne, T.S., Singh, R.P. In: Frontiers in Plant Science v. 9, art. 1971.
Genome-wide association mapping and genomic prediction analyses reveal the genetic architecture of grain yield and flowering time under drought and heat stress conditions in maize. 2019. Yibing Yuan, Cairns, J.E., Babu, R., Gowda, M., Makumbi, D., Magorokosho, C., Ao Zhang, Yubo Liu, Nan Wang, Zhuanfang Hao, San Vicente, F.M., Olsen, M., Prasanna, B.M., Yanli Lu, Zhang, X. In: Plant Breeding v. 9, art. 1919.
Diversifying conservation agriculture and conventional tillage cropping systems to improve the wellbeing of smallholder farmers in Malawi. 2019. TerAvest, D., Wandschneider, P.R., Thierfelder, C., Reganold, J.P. In: Agricultural Systems v. 171, p. 23-35.
Biofortified maize can improve quality protein intakes among young children in southern Ethiopia. 2019. Gunaratna, N.S., Moges, D., De Groote, H. Nutrients v. 11, no. 1, art. 192.

Scientist Bekele Abeyo details research in Africa with BBC

Written by Rodrigo Ordóñez on July 26, 2019. Posted in News.

CIMMYT’s representative in Ethiopia, Bekele Abeyo, gives an interview for Ethiopian media. (Photo: Jérôme Bossuet/CIMMYT)

Most African countries have good potential for boosting wheat production if they are supported with technology, innovation and research, said Bekele Abeyo, a senior scientist with the International Maize and Wheat Improvement Center (CIMMYT).

Abeyo, who is based in Ethiopia, which is one of the top wheat-producing countries in Africa, was speaking to BBC Newsday from the International Wheat Congress in the city of Saskatoon in Canada’s western wheat growing province of Saskatchewan.

Interview starts at 31:00:
https://www.bbc.co.uk/sounds/play/w172wpkb45wc459

In Ethiopia, a third of local demand is satisfied by imports, Abeyo said, adding that to reduce import bills, the government is trying to expand wheat production and irrigation in the lowlands where there is high potential for wheat production.

Climate change in Ethiopia and across sub-Saharan Africa is affecting yields, so scientists are working on producing drought-tolerant varieties of wheat. They are also producing biofortified varieties of wheat to help meet nutritional demand for zinc and iron.

More than 800 delegates, including researchers from the CGIAR Research Program on Wheat, CIMMYT, the International Center for Agricultural Research in the Dry Areas (ICARDA), the International Wheat Yield Partnership (IWYP), Cornell University’s Delivering Genetic Gain in Wheat project (DGGW), the University of Saskatchewan and many other organizations are discussing the latest research on wheat germplasm.

The CGIAR Research Program on Wheat (WHEAT), led by the International Maize and Wheat Improvement Center (CIMMYT), is a founding member of the G20 Wheat Initiative, a co-host of the conference.

Wheat provides 20% of all human calories consumed worldwide. In the Global South, it is the main source of protein and a critical source of life for 2.5 billion people who live on less than $2 a day. Wheat is central to conversations about the rural environment, agricultural biodiversity and global food security.

The new challenges of wheat improvement

Written by Rodrigo Ordóñez on July 26, 2019. Posted in News.

CIMMYT scientist Velu Govindan (right) is interviewed by Michael Condon of ABC Rural at the International Wheat Conference in Sydney, Australia, 2015. (Photo: Julie Mollins/CIMMYT)

In the Green Revolution era, the focus for wheat breeders was on boosting yields to feed more people, but today the challenge is not only to increase production on smaller plots of land, but also to improve nutritional quality, said CIMMYT wheat breeder Velu Govindan, during an interview on BBC Newsday.

Interview starts at 43:23:
https://www.bbc.co.uk/sounds/play/w172wpkb45wcm4t

Govindan was speaking from the International Wheat Congress in the city of Saskatoon in Canada’s breadbasket province on the prairies, Saskatchewan.

Int’l Wheat Congress: Bangladesh’s success sung in Saskatoon

Written by Mary Donovan on July 25, 2019. Posted in In the media.

At the opening session of the International Wheat Congress 2019 in Saskatoon, the director general of the International Maize and Wheat Improvement Center (CIMMYT), Martin Kropff, told a gathering of 900 wheat scientists that, with CIMMYT support, Bangladesh developed blast resistant wheat in the quickest possible time. Read more here.

A researcher uses a vertical probe to measure moisture at different soil depths. (Photo: CIMMYT)

New manual provides quantitative approach to drought stress phenotyping

Written by Carolyn Cowan on July 22, 2019. Posted in News.

Since 1900, more than two billion people have been affected by drought worldwide, according to the Food and Agriculture Organization of the United Nations (FAO). Drought affects crops by limiting the amount of water available for optimal growth and development, thereby lowering productivity. It is one of the major abiotic stresses responsible for variability in crop yield, driving significant economic, environmental and social impacts.

A new technical manual, “Management of drought stress in field phenotyping,” provides a quantitative approach to drought stress phenotyping in crops. Phenotyping is a procedure vital to the success of crop breeding programs that involves physical assessment of plants for desired traits.

The manual provides guidance for crop breeders, crop physiologists, agronomists, students and field technicians who are working on improving crop tolerance to drought stress. It will help ensure drought screening trials yield accurate and precise data for use by breeding programs.

A sprinkler system irrigates a drought phenotyping trial field in Hyderabad, India. (Photo: CIMMYT)

Based on decades of CIMMYT’s research and experience, the manual covers aspects related to field site selection, effects of weather, crop management, maintaining uniform stress in trials, and duration of stress. It focuses on an approach that standardizes the required intensity, timing and uniformity of imposed drought stress during field trials.

Such a rigorous and accurate approach to drought screening allows for precision phenotyping. Careful management of imposed drought stress also allows the full variability in a population’s genotype to be expressed and identified during phenotyping, which means the full potential of the drought tolerance trait can be harnessed.

Variability among maize genotypes for agronomic and yield traits under managed drought stress. (Photo: CIMMYT)

“Crop breeding programs using conventional or molecular breeding approaches to develop crops with drought tolerance rely heavily on high-quality phenotypic data generated from drought screening trials,” said author and CIMMYT scientist P.H. Zaidi. “By following the guidance in this manual, users can maximize their quality standards.”

The International Maize and Wheat Improvement Center (CIMMYT) has been a pioneer in developing and deploying protocols for drought stress phenotyping, selection strategy and breeding for drought tolerance. CIMMYT’s research on drought stress in maize began in the 1970s and has since remained a top priority for the organization. Drought-tolerant maize is now one of CIMMYT’s flagship products and is a key component of CIMMYT’s portfolio of products aimed to cope with the effects of climate change in the tropics.

Read the manual:
Pervez H. Zaidi, 2019. Management of drought stress in field phenotyping. CIMMYT, Mexico.

The information presented in the manual is based on the work on quantitative management of drought stress phenotyping under field conditions that received strong and consistent support from several donor agencies, especially Germany’s Federal Ministry for Economic Cooperation and Development (BMZ), Germany’s GIZ and the CGIAR Research Program on Maize (MAIZE). The manual itself was funded by the CGIAR Excellence in Breeding (EiB) platform.

A woman operates a precision spreader during a demonstration for a farmer group in Guleriya MCP, Bardiya, in coordination with the Suahaara nutrition project. (Photo: Salin Acharya/CIMMYT)

Precision spreader for fertilizer set to change the agriculture scene in Nepal

Written by Rodrigo Ordóñez on July 19, 2019. Posted in News.

A man demonstrates the precision spreader to farmers in Bardiya, Nepal, in collaboration with the Janaekata cooperative and the local government. (Photo: Hari Prasad Acharya/CIMMYT)

Smallholder farmers in Nepal tend to apply fertilizer by hand, spreading it as they walk through the field. Under this practice, fertilizer is dispersed randomly and is therefore unevenly distributed among all the seedlings. A recently introduced method, however, helps farmers spread fertilizer in a more uniform, faster and easier way.

The precision spreader is a hand-operated device that ensures an even distribution of fertilizer and is easy to operate. This technology is endorsed by the Cereal Systems Initiative for South Asia (CSISA), a project led by the International Maize and Wheat Improvement Center (CIMMYT) which helps Nepalese farmers adapt measures that are efficient, effective and resilient to the impacts of climate change.

In addition to more consistent distribution, the precision spreader regulates the exact amount of fertilizer required and helps the farmer cover a considerable area with limited movement. This technology has been proven to require less time and effort than the traditional method of broadcasting by hand.

Considering the potential benefits, the CSISA team introduced farmers in Nepal to the precision spreader through training sessions followed by demonstrations of its use. They took place in wheat fields in Bansgadhi, Barbardiya and Duduwa, in Lumbini province, in collaboration with multipurpose cooperative Janaekata and the local governments. Through these sessions, conducted in 45 different sites, more than 650 farmers had a chance to familiarize themselves with the precision spreader, and most of them took a keen interest in incorporating the device into their cropping management practices.

Perhaps the most prominent reason why the precision spreader sparked such interest is that women can easily use it. Most men in rural areas have migrated to the city or abroad in hopes of higher income, so work in the fields has been inadvertently transferred to women. Since Nepal is a predominantly conservative patriarchal society, women have not yet become comfortable and familiarized with all farming practices, especially operating heavy agricultural machinery. However, as expressed by women themselves, the precision spreader is highly convenient to use. Its use could help ease women into the agriculture scene of Nepal and consequently reduce farming drudgery.

Healthier crops, healthier people

Nestled between China and India, Nepal predominantly relies on agriculture for employment. With the majority of its population engaged in the agricultural sector, the country still struggles to produce an adequate food supply for its people, resulting in depressed rural economies, increased malnutrition and widespread hunger.

Sustainable intensification, therefore, is necessary to increase the overall yield and to accelerate agricultural development.

Better distribution of fertilizer in the fields results in a higher chance of healthier crops, which are the source of better nutrition.

A wider use of a seemingly small technology like the precision spreader would not only reduce hardships in farming, but it would also help farmers become more resilient towards the natural and economic adversities they face.

The Cereal Systems Initiative for South Asia (CSISA) is a regional project in Bangladesh, India and Nepal that was established in 2009 with the goal of benefiting more than 8 million farmers by the end of 2020. Funded by the United States Agency for International Development (USAID) and the Bill & Melinda Gates Foundation, CSISA is led by the International Maize and Wheat Improvement Center (CIMMYT) and implemented jointly with the International Food Policy Research Institute (IFPRI) and the International Rice Research Institute (IRRI).

Farmers in Katitu, Machakos County, evaluate maize varieties at a trial plot. (Photo: Joshua Masinde/CIMMYT)

What farmers want

Written by Jérôme Bossuet on July 19, 2019. Posted in Features.

Tabitha Kamau, 29, is scrutinizing a maize demonstration plot on which 12 different varieties were planted in November 2018. “What I am looking for is a maize variety that produces a lot, even when there is scarce rainfall,” says the single mother of three, who lives in Katheini, in Kenya’s Machakos County, on a quarter of an acre of land.

Together with 350 other smallholder farmers from Katheini and neighboring villages, Kamau is assessing the maize crops and ranking them based on her preferred traits.

Like her peers when asked what makes a good maize variety, she gives high scores to drought-tolerant varieties and those that can yield large and nicely filled cobs despite the dry spell that has affected the area over the last two months.

For five years, Kamau has been planting KDV4, a drought-tolerant open pollinated variety on the family land and another piece of leased plot. This early variety matures in 100 to 110 days and is adapted to dry mid-altitude conditions.

Tabitha Kamau examines drought-tolerant KDV4 maize in her plot in the village of Kavilinguni, Machakos County, Kenya. (Photo: Joshua Masinde/CIMMYT)

KDV4 was released by the Kenya Agricultural & Livestock Research Organization (KALRO) using the International Maize and Wheat Improvement Center (CIMMYT)’s germplasm. It is currently marketed by Dryland Seed Limited and Freshco Seeds, targeting farmers in the water-stressed counties of Kitui, Machakos and Makueni, in the lower eastern regions of Kenya.

The early maturing of varieties like KDV4 presents a good opportunity for its adopters, says Kamau. “If I am able to harvest in three and a half months or less, compared to four months or more for other varieties, I can sell some grain to neighbors still awaiting their harvest who want to feed their families.”

“I heard of new varieties that can germinate well and produce lots of leaves,” explains Catherine Musembi. This farmer from Kivaani looks for maize that performs well even under heat and drought. She likes maize plants with high biomass, as the foliage is used to feed the family’s three cows and two goats.

An enumerator (left) collects a farmer’s details and socioeconomic data before she participates in the evaluation of maize varieties. (Photo: Joshua Masinde/CIMMYT)

Farmers’ picks

The International Maize and Wheat Improvement Center (CIMMYT) has been undertaking participatory maize variety evaluations since 2016 in Kenya, Rwanda, Tanzania and Uganda. Every year, during the main maize growing season, researchers plant on-farm trials that can be evaluated by farmers.

Kamau and Musembi attended a selection trial in Machakos County, facilitated by a team from KALRO on February 18-19, 2019. This exercise was part of the 2018 mid-season evaluations, which were followed up by end-season assessments a month later.

Participatory farmer evaluations are used to give crucial feedback to CIMMYT’s maize breeding work. First, farmers get an opportunity to state what traits are important for them and rank them according to their importance. Then, participants evaluate varieties planted in the trial and give a score on individual trait and the overall performance for each variety planted. And they conclude the exercise by rating the best three plots.

In the drier eastern part of Kenya, farmers might be more interested in traits such as drought tolerance, early maturity and disease resistance. In central Kenya, where dairy farming is commonly practiced, a variety with more biomass could be preferred.

“Our work is to tease out the information regarding which traits contribute to a good score in the overall score,” explains Bernard Munyua, a socioeconomics research assistant at CIMMYT. Statistical analysis of the farmers’ score cards will reveal if the initial rating of criteria plays a strong role in the final overall appreciation of a variety. For instance, farmers may give high importance to height or biomass, yet it may not play a role in their ranking of best varieties.

“Such data is important for maize breeders to support future variety improvement work,” Munyua notes. “Moreover, by disaggregating the farmers opinions by region and socioeconomic attributes such as gender, education and income, we can define the priority traits by region or farmers’ socioeconomic profiles. It helps better target maize breeding work according to the needs on the ground and gives useful knowledge to seed companies for their seed marketing strategy,” he adds.

For instance, in the drier eastern part of Kenya, farmers might be more interested in traits such as drought tolerance, early maturity and disease resistance. In central Kenya, where dairy farming is commonly practiced, a variety with more biomass could be preferred. In western Kenya, they could be more interested in grain yields and cob characteristics to improve their sales after harvest.

Agnes Nthambi (left) and other farmers evaluate maize varieties developed through CIMMYT’s Stress Tolerant Maize for Africa (STMA) project. (Photo: Joshua Masinde/CIMMYT)

Agnes Nthambi, the farmer who hosted the demonstration plot, is very positive about her participation, as she learned about some of the ideal agronomic practices as well as the performance of new varieties. “On this trial, I learned that spacing was about two times shorter than we are generally used to. Even with the more constricted spacing, the maize has performed much better than what we are used to seeing,” she says. She also learned that fertilizer is applied at the time of planting. In her case, she normally applies fertilizer much later after germination has already occurred.

Nthambi says her family cannot afford losing both the fertilizer and the seed in case the rains fail. This time, she expects a good harvest from the one-acre farm, to supplement her family’s income.

Technical assistant Tigist Masresra examines breeding trials at the Ambo Research Center in Ethiopia. (Photo: Peter Lowe/CIMMYT)

More with less: Research for intensified food production with scarcer resources and heating climates

Written by Rodrigo Ordóñez on July 18, 2019. Posted in Director General's corner.

After declining for nearly a decade to around 770 million, in the last three years the number of hungry people has shot up to more than 850 million. At the same time, erratic weather and crop pests and diseases are ruining harvests, intensifying farmers’ risks, and threatening local and global food security.

In an article for Rural 21, I describe how plant breeding has changed over the last four decades and which methods the international research community is developing to master present and future challenges.

Read the full article

Morning dew on a wheat spike. (Photo: Vadim Ganeyev/CIMMYT)

Top scientists from CGIAR to present latest research at International Wheat Congress in Canada

Written by Rodrigo Ordóñez on July 17, 2019. Posted in Press releases.

FOR IMMEDIATE RELEASE

SASKATOON, Canada (CIMMYT) — Amid global efforts to intensify the nutritional value and scale of wheat production, scientists from all major wheat growing regions in the world will gather from July 21 to 26, 2019 at the International Wheat Congress in Saskatoon, the city at the heart of Canada’s western wheat growing province, Saskatchewan. The CGIAR Research Program on Wheat (WHEAT), led by the International Maize and Wheat Improvement Center (CIMMYT), is a founding member of the G20 Wheat Initiative, a co-host of the conference.

In spite of its key role in combating hunger and malnutrition, the major staple grain faces threats from climate change, variable weather, disease, predators and many other challenges. Wheat’s vital contribution to the human diet and farmer livelihoods makes it central to conversations about the rural environment, agricultural biodiversity and global food security.

More than 800 delegates, including researchers from the CGIAR Research Program on Wheat, CIMMYT, the International Center for Agricultural Research in the Dry Areas (ICARDA), the International Wheat Yield Partnership (IWYP), Cornell University’s Delivering Genetic Gain in Wheat project (DGGW), the University of Saskatchewan and many other organizations worldwide will discuss the latest research on wheat germplasm.

“We must solve a complex puzzle,” said Martin Kropff, CIMMYT’s director general. “Wheat must feed more people while growing sustainably on less land. Wheat demand is predicted to increase 60% in the next three decades, while climate change is putting an unprecedented strain on production.”

“The scientific community is tackling this challenge head-on, through global collaboration, germplasm exchange and innovative approaches. Researchers are looking at wheat’s temperature response mechanisms and using remote sensing, genomics, bio-informatics and other technologies to make wheat more tolerant to heat and drought,” Kropff said.

The congress is the first major gathering of the wheat community since the 2015 International Wheat Conference in Sydney, Australia.

CGIAR and CIMMYT scientists will share the latest findings on:

State-of-the-art approaches for measuring traits to speed breeding for heat and drought tolerance
Breeding durum (pasta) wheat for traits for use in bread products
New sources of diversity — including ancient wheat relatives — to create aphid-resistant wheat and other improved varieties
DNA fingerprinting to help national partners identify gaps in improved variety adoption

For more details on schedule and scientists’ presentations, click here.

Research shows that more than 60% of wheat varietal releases since 1994 were CGIAR-related.

Low- and middle-income countries are the primary focus and biggest beneficiaries of CGIAR wheat research, but high-income countries reap substantial rewards as well. In Canada, three-quarters of the wheat area is sown to CGIAR-related cultivars and in the United States almost 60% of the wheat area was sown to CGIAR-related varieties, according to the research.

WHEN

July 21-26, 2019

The opening ceremony and lectures will take place on
Monday, July 22, 2019 from 08:50 to 10:50 a.m.

WHERE

TCU Place
35 22nd Street East,
Saskatoon, SK S7K 0C8, Canada
https://g.page/TCUPlace

CONTACTS

For further information, or to arrange interviews, please contact:

Marcia MacNeil: m.macneil@cgiar.org

Julie Mollins: j.mollins@cgiar.org

About CGIAR

CGIAR is a global research partnership for a food secure future dedicated to reducing poverty, enhancing food and nutrition security, and improving natural resources.

About the CGIAR Research Program on Wheat

Joining advanced science with field-level research and extension in lower- and middle-income countries, the Agri-Food Systems CGIAR Research Program on Wheat (WHEAT) works with public and private organizations worldwide to raise the productivity, production and affordable availability of wheat for 2.5 billion resource-poor producers and consumers who depend on the crop as a staple food. WHEAT is led by the International Maize and Wheat Improvement Center (CIMMYT), with the International Center for Agricultural Research in the Dry Areas (ICARDA) as a primary research partner. Funding for WHEAT comes from CGIAR and national governments, foundations, development banks and other public and private agencies, in particular the Australian Centre for International Agricultural Research (ACIAR), the UK Department for International Development (DFID) and the United States Agency for International Development (USAID). www.wheat.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.

Halima Begum operates her two-wheel tractor, equipped with a self-starter device. (Photo: Mostafa Kamrul Hasan/CIMMYT)

Cranking, a thing of the past

Written by Rodrigo Ordóñez on July 10, 2019. Posted in Features. 1 Comment on Cranking, a thing of the past

Halima Begum wanted to increase her income by providing mechanization services to other farmers in Bangladesh’s Chuadanga district, but she was limited by the level of physical effort required. Starting the engine of her tractor was difficult and embarrassing — cranking it required a lot of strength and she had to rely on others to do it for her. She was also afraid she would get injured, like other local service providers.

Women in rural areas of Bangladesh are often hesitant to work in the fields. Social norms, limited mobility, physical exertion, lack of time and other constraints can cause aspiring female entrepreneurs to step back, despite the prospect of higher income. The few women like Halima who do step out of their comfort zone and follow their dreams often have to overcome the physical effort required to operate these machines.

Starting the tractor is a daunting task on its own and the possibility of having to do it multiple times a day adds to the reluctance of ownership.

To make manual cranking a thing of the past for Bangladeshi women entrepreneurs, and to encourage others, the International Maize and Wheat Improvement Center (CIMMYT), through the Cereal Systems Initiative for South Asia-Mechanization and Irrigation (CSISA-MI), is supporting small businesses who manufacture and sell affordable mechanical self-starter attachments for two-wheel tractors.

The self-starter is a simple spring-loaded device mounted over the old crank handle socket, which allows users to start the engine with the flick of a lever.

For women like Begum, manually starting a tractor was a difficult task that is now gone forever.

“I used to struggle quite a lot before, but now I can easily start the machine, thanks to this highly convenient self-starter,” Begum said.

The self-starter reduces the risk of accidents and coaxes hesitant youth and women to become entrepreneurs in the agricultural mechanization service industry.

CIMMYT is supporting businesses like Janata Engineering, which imports self-starter devices and markets them among local service providers in the district of Sorojgonj, Chuadanga district. The project team worked with the owner, Md. Ole Ullah, to organize field demonstrations for local service providers, showing how to use and maintain the self-starter device.

The Cereal Systems Initiative for South Asia-Mechanization and Irrigation (CSISA-MI) is led by the International Maize and Wheat Improvement Center (CIMMYT) and funded by the United States Agency for International Development (USAID). The project focuses on upstream market interventions in Bangladesh, ensuring technologies are reliably available in local markets and supported by an extensive value chain.

Farmers in low- and middle-income countries are benefiting from CIMMYT's improved maize and wheat varieties, suitable for drought- and disease-affected areas. (Photo: Apollo Habtamu/ILRI)

Inequality, agriculture and climate change: From a vicious to a virtuous circle

Written by Rodrigo Ordóñez on July 10, 2019. Posted in News.

A new urgency is being felt on climate change. Schoolchildren are striking, there are protests in the streets, and politicians across the world, including the UK, are pushing to call climate change a national emergency.

A cruel irony is that climate change will not be felt equally by all—those who have contributed the least to rising temperatures are set to suffer the most.

Read the full op-ed authored by Elwyn Grainger-Jones, Executive Director of the CGIAR System Organization, in Diplomatic Courier’s special G20 Edition.

Members of the association pose with CIMMYT staff that helped facilitate the creation of the group. (Photo: ProMaíz Nativo)

New association formed to support smallholder native maize farmers in Mexico

Written by Jennifer Johnson on July 8, 2019. Posted in Features. 3 Comments on New association formed to support smallholder native maize farmers in Mexico

Expert Mexican scientists and farmer cooperatives have formed a non-profit organization to support small-scale landrace maize farmers who continue to conserve and plant seeds of their own native heirloom varieties. The civil association, known as ProMaíz Nativo, intends to work collaboratively on projects to improve the lives of native maize and milpa farm families. Group members include national and internationally recognized maize experts, ethnobotanists, socioeconomists, food and nutrition scientists, marketing experts, maize farmers and farmer groups.

The civil association has also created a collective trademark, Milpaiz, which can be used by farmers to demonstrate the authenticity of the native maize varieties they grow and sell. This trademark will certify that a farmer’s maize is native to their community and derived from their continuous selection of seed. It will also certify that it is grown by small farmers and that they are selling only the surplus of their crops after feeding their own family. The trademark will also make a transparent effort to connect these farmers to a culinary market which values the quality, rarity and history of their production.

“Mexico is the center of origin of maize, and home to much of its genetic diversity. This initiative will allow us to certify that products are truly landrace maize from smallholder farmers, so that the benefits reach the smallholder farmers that have provided us with this biodiversity,” said Flavio Aragón, a genetic resources researcher with Mexico’s National Institute for Forestry, Agriculture and Livestock Research (INIFAP).

Members of the association gather for a photo at the launch event. (Photo: ProMaíz Nativo)

Researchers like Aragon, members of farmer groups and local chefs attended the official launch of ProMaíz Nativo on June 14, 2019, at the World Trade Center in Mexico City, during restaurant trade fair ExpoRestaurantes.

Edelmira Linares, ethnobotanist at the National Autonomous University of Mexico (UNAM) and member of the association, emphasized that the collective trademark Milpaiz covers all crops grown in the traditional milpa intercrop farming system in Mexico: maize, beans, squash, edible greens, amaranth, pumpkin seeds, and certain vegetables.

“The trademark will make it easier for income to reach the farmers, will allow smallholder farmers to sell their products in supermarkets and to have a legal presence,” said Amanda Galvez, a food chemist at UNAM and president of ProMaíz Nativo.

Traditional milpa products: native maize, beans, squash, chilies and other local fruits and vegetables. (Photo: Martha Willcox/CIMMYT)

Fair and sustainable market growth

Many smallholder farmers continue to plant the same native maize varieties that their parents and grandparents planted, developed in their villages and regions and improved by farmer selection dating back to their ancestors. These varieties are prized by their local communities for their unique flavors, colors, texture and use in special dishes — and the global culinary community is catching on. Native maize, or landraces, have become extremely popular with chefs and consumers in the past few years, drawing attention and imports from across the world. However, increased demand can mean increased vulnerability for farmers.

Many maize experts in Mexico were concerned with how to best support and protect smallholder farmers navigating this increase in demand. Without guidelines and transparency, it is difficult to ensure that farmers are being fairly compensated for their traditional maize, or that they are able to save enough to feed their own families.

In a discerning culinary market, a symbol of certification such as the collective trademark could serve to differentiate the families who have long been the guardians of these native varieties from larger commercial farmers who acquire these heirloom seeds. But there was no pre-existing space for these guidelines to be determined and developed.

Martha Willcox (left) with farmers and their milpa products in Santa María Yavesía, Oaxaca state, México. (Photo: Arturo Silva/CIMMYT)

“There is a depth of expertise on maize in Mexico, but these experts all work at different institutions, making it more difficult for all of them to collaborate on a project like this,” said Martha Willcox, landrace improvement coordinator at the International Maize and Wheat Improvement Center (CIMMYT).

“The formation of this civil association is truly novel in the history of native maize in Mexico, and its strength comes from the expertise of its members, made up entirely of Mexican scientists and Mexican farmer co-ops,” Willcox explained.

She initiated and facilitated the formation of this group of scientists and continues to work closely with them as an advisor. “This association will help provide a space and network where these experts can work together and speak in one voice to support maize and maize farmers.”

CIMMYT does not have a seat in the association but has played a key role in its facilitation and has provided funding to cover logistics and fees related to the formation of the organization, through the CGIAR Research Program on Maize (MAIZE). Mexico’s National Commission for the Knowledge and Use of Biodiversity (CONABIO) has also participated in the logistics and facilitation of the formation of the organization.

Call for Nominees for the 2019 Maize Youth Innovators Awards – Latin America

Written by Mary Donovan on June 27, 2019. Posted in News.

Nominations are now open for the 2019 MAIZE Youth Innovators Awards – Latin America!

These awards are part of the efforts that the CGIAR Research Program on Maize (MAIZE) is undertaking to promote youth participation in maize agri-food systems. These awards recognize the contributions of young women and men under 35 who are implementing innovations in Latin American maize-based agri-food systems, including research for development, seed systems, agribusiness, and sustainable intensification.

Latin America is the birthplace of maize and home to much of its genetic diversity. Maize is a main staple food across the continent and plays an important role in local culture and gastronomy. However, maize faces many challenges, from climate change-related stresses such as drought and heat to emerging pests and diseases. These challenges cannot be solved without the participation of young people at all levels of the maize value chain, from farmers to researchers and change agents. Over one-fourth of Latin America’s total population is between the ages of 15 and 29 – approximately 156 million people, the largest proportion of young people ever in the region’s history. By encouraging and empowering young people to develop innovative solutions to these challenges we can strengthen maize agri-food systems and improve food security in Latin America and across the world.

The MAIZE Youth Innovators Awards aim to identify young innovators who can serve to inspire other young people to get involved in maize-based agri-food systems. Part of the vision is to create a global network of young innovators in maize-based systems from around the world.

Award recipients will be invited to attend the 23^rd Latin American Maize Reunion (XXIII Reunión Latinoamericana del Maíz) in Monteria, Colombia October 7-10 where they will receive their awards and be given the opportunity to present their work. The project meeting and award ceremony will also allow these young innovators to network and exchange experiences with MAIZE researchers and partners. Award recipients may also get the opportunity to collaborate with MAIZE and its partner scientists in Latin America on implementing or furthering their innovations.

MAIZE invites young innovators to apply and CGIAR researchers and partners to nominate eligible applicants for any of the following three categories:

Researcher: Maize research for development (in any discipline)
Farmer: Maize farming systems in Latin America
Change agent: Maize value chains (i.e., extension agents, input and service suppliers, transformation agents).

We ask nominators/applicants to take into account the following criteria and related questions:

Novelty and Innovative Spirit: To which specific novel findings or innovation(s) has this young person contributed? (in any of the three categories mentioned above)
Present/Potential Impact: What is the present/potential benefit or impact of the innovation(s) in maize-based agri-food systems?

To apply:

Applications should be submitted online, through the Application Form by July 22, 2019.

Key dates:

Opening date for nominations: June 19, 2019

Closing date for nominations: July 22, 2019

Notification of winners: August 6, 2019

NOTE: Nominations received after the closing date will not be considered.

Additional information:

A PDF version of this Call for Nominees is available here.

Nomination/Application Guidelines can be found here.

The Application Form can be found here and is also available on the MAIZE and YPARD websites.

For any questions or issues, contact us at maizecrp@cgiar.org

This award is sponsored by the CGIAR Research Program on Maize (MAIZE) in collaboration with YPARD (Young Professionals for Agricultural Development).

Modern wheat breeding benefits high- and low-input farmers, study shows

Written by Marcia MacNeil on June 26, 2019. Posted in News. 1 Comment on Modern wheat breeding benefits high- and low-input farmers, study shows

Farmer Gashu Lema’s son harvests improved variety “Kubsa” wheat, Gadulla village, Mojo, Ethiopia. (Photo: P. Lowe/CIMMYT/P. Lowe

A recent article in the journal Nature Plants validates the work of wheat breeders who produce yield-boosting varieties for farmers across a range of incomes and environments.

Based on a rigorous large-scale study spanning five decades of wheat breeding progress under cropping systems with low, medium and high fertilizer and chemical plant protection usage, the authors conclude that modern wheat breeding practices aimed at high-input farming systems have promoted genetic gains and yield stability across a wide range of environments and management conditions.

In other words, wheat breeding benefits not only large-scale and high-input farmers but also resource-poor, smallholder farmers who do not use large amounts of fertilizer, fungicide, and other inputs.

This finding underscores the efficiency of a centralized breeding effort to improve livelihoods across the globe – the philosophy behind the breeding programs of the International Maize and Wheat Improvement Center (CIMMYT) over the past 50 years.

It also contradicts a commonly held belief that breeding for intensive systems is detrimental to performance under more marginal growing environments, and refutes an argument by Green Revolution critics that breeding should be targeted to resource-poor farmers.

In a commentary published in the same Nature Plants issue, two CIMMYT scientists — Hans Braun, director of CIMMYT’s global wheat program and the CGIAR Research Program on Wheat, and Matthew Reynolds, CIMMYT wheat physiologist — note the significance of the study.

“Given that wheat is the most widely grown crop in the world, sown annually on around 220 million ha and providing approximately 20% of human calories and protein, the social and economic implications are large,“ they state.

Among other implications:

The study found that modern breeding has reduced groups of genes (haplotypes) with negative or neutral effects – a finding which will help breeders combine positive haplotypes in the future, including for hybrid breeding.
The study demonstrates the benefits of breeding for overall yield potential, which — given that wheat is grown over a wider range of environments, altitudes and latitudes than any other crop, with widely ranging agronomic inputs – has significant cost-saving implications.

Braun and Reynolds acknowledge that the longstanding beliefs challenged by this study have a range of influences, from concern about rural livelihoods, to the role of corporate agribusiness and the capacity of Earth’s natural resources to sustain 10 billion people.

While they welcome the conclusions as a validation of their work, they warn against seeing the study as “a rubber stamp for all things ‘high-input’” and encourage openness to new ideas as the need arises.

“If the climate worsens, as it seems destined to, we must certainly be open to new ways of doing business in crop improvement, while having the common sense to embrace proven technologies,” they conclude.

The case for rushing farmer access to BARI Gom 33

Written by Emma Orchardson on June 26, 2019. Posted in News. 1 Comment on The case for rushing farmer access to BARI Gom 33

In 2016, the emergence of wheat blast, a devastating seed- and wind-borne pathogen, threatened an already precarious food security situation in Bangladesh and South Asia.

In a bid to limit the disease’s impact in the region, the Bangladesh Agricultural Research Institute (BARI) collaborated with the International Maize and Wheat Improvement Center (CIMMYT) and researchers from nearly a dozen institutions worldwide to quickly develop a long-term, sustainable solution.

The result is BARI Gom 33, a new blast-resistant, high-yielding, zinc-fortified wheat variety, which Bangladesh’s national seed board approved for dissemination in 2017. In the 2017-18 season, the Bangladesh Wheat Research Council provided seed for multiplication and the country’s Department of Agricultural Extension established on-farm demonstrations in blast prone districts.

However, the process of providing improved seed for all farmers can be a long one. In a normal release scenario, it can take up to five years for a new wheat variety to reach those who need it, as nucleus and breeder seeds are produced, multiplied and certified before being disseminated by extension agencies. Given the severity of the threat to farmer productivity and the economic and nutritional benefits of the seed, scientists at CIMMYT argue that additional funding should be secured to expedite this process.

According a new study on the economic benefits of BARI Gom 33, 58 percent of Bangladesh’s wheat growing areas are vulnerable to wheat blast. The rapid dissemination of seed can help resource-poor farmers better cope with emerging threats and changing agro-climatic conditions, and would play a significant role in combatting malnutrition through its increased zinc content. It could also have a positive effect on neighboring countries such as India, which is alarmingly vulnerable to wheat blast.

“Our simulation exercise shows that the benefits of disseminating BARI Gom 33 far exceed the seed multiplication and dissemination costs, which are estimated at around $800 per hectare,” explains Khondoker Mottaleb, CIMMYT socioeconomist and lead author of the study. Even in areas unaffected by wheat blast, scaling out BARI Gom 33 could generate a net gain of $8 million for farmers due to its 5 percent higher average yield than other available varieties. These benefits would nearly double in the case of an outbreak in blast-affected or blast-vulnerable districts.

More than 50 percent of Bangladesh’s wheat growing areas are vulnerable to wheat blast. (Source: Mottaleb et al.)

Based on these findings, the authors urge international development organizations and donor agencies to continue their support for BARI Gom 33, particularly for government efforts to promote the blast-resistant variety. The minimum seed requirement to begin the adoption and diffusion process in the 2019-20 wheat season will be 160 metric tons, which will require an initial investment of nearly $1 million for seed multiplication.

Read more study results and recommendations:
“Economic Benefits of Blast-Resistant Biofortified Wheat in Bangladesh: The Case of BARI Gom 33” in Crop Protection, Volume 123, September 2019, Pages 45-58.

This study was supported by the CGIAR Research Program on wheat agri-food systems (CRP WHEAT), the Australian Centre for International Agricultural Research (ACIAR), the CGIAR Research Program on Agriculture for Nutrition and Health (CRP-A4NH), and the HarvestPlus challenge program (partly funded by the Bill and Melinda Gates Foundation).