A new study from scientists with the International Maize and Wheat Improvement Center (CIMMYT) shows that drought tolerant (DT) maize varieties can provide farming families in Zimbabwe an extra 9 months of food at no additional cost. As climate change related weather events such as variable rainfall and drought continue to impact the southern African nation at an increasing rate, these varieties could provide a valuable safety net for farmers and consumers.

The study found that households that grew DT maize were able to harvest 617 kilograms more maize per hectare than households that did not grow DT maize varieties. This translates into $240 per hectare extra income for households that grow DT maize varieties, equivalent to 9 months’ worth of additional food security.

As 93 percent of households surveyed grow improved maize varieties using seed purchased from local markets, this shows that by switching to DT varieties local farmers could greatly improve their livelihoods and food security at no additional cost. Currently, only 30 percent of households surveyed grow DT varieties.

Drought is a major limiting factor for maize production and can reduce maize yields by up to nearly 40 percent. In the past 10 years, most farmers in southern Africa have experienced around 1–3 drought years, potentially due to climate change. However, Zimbabwean farmers reported 4–5 years of drought in the past 10 years. Adoption of drought-tolerant maize varieties by farmers is crucial to maintaining food security in the region. Studies have shown that CIMMYT DT maize varieties can increase yields by 40 percent under severe drought conditions compared to local commercial varieties.

The production and productivity of maize in Zimbabwe have been decreasing since the early 1990s, taking the country from its role as a surplus producer of maize to a net food importer. Climate change is contributing significantly to this decline, as Zimbabwe is particularly vulnerable to climate change due to its dependence on rain-fed agriculture. The study’s authors recommend an increase in the promotion and production of DT maize in order to help reverse this trend and help smallholder farmers in Zimbabwe mitigate the effects of climate change while increasing maize production and yield.

This research was conducted under the Drought Tolerant Maize for Africa (DTMA) project. Jointly implemented by CIMMYT and the International Institute of Tropical Agriculture (IITA) with funding from the CGIAR Research Program on Maize (MAIZE), the project worked to mitigate drought and other constraints to maize production in sub-Saharan Africa through improved drought-tolerant maize varieties. Millions of farmers in the region benefited from the outputs of this partnership, which included support and training for African seed producers and the promotion of vibrant, competitive seed markets. The project ended in 2015, but DTMA varieties continue to be promoted through the Stress Tolerant Maize for Africa (STMA) project, which will work to develop 70 additional new improved stress-tolerant varieties using innovative modern breeding technologies.

Read the full study here.

Impact of adoption of drought-tolerant maize varieties on total maize production in south Eastern Zimbabwe. 2017. Lunduka, R.W., Mateva, K.I., Magorokosho, C., Manjeru, P. In: Climate and Development, DOI: 10.1080/17565529.2017.1372269

AGADIR, Morocco (CIMMYT) – Eighty delegates from across the globe recently gathered at the 6^th International Cereal Nematode Symposium in Agadir, Morocco to discuss the spread of nematodes, what strategies can be used to lessen their impact on crops and boost international collaboration on research.

Plant–parasitic nematodes pose an enormous threat to global food security, destroying about 15 percent of global food production annually, a loss of more than $157 billion worldwide.

“Nematodes are the unseen enemy of our crops,” said Ricard Sikora, a professor at the University of Bonn in Germany who spoke at the symposium. “[They] attack the root of the crop…they are little worms that most people don’t even know exist, but they are having a devastating effect on our ability to feed ourselves properly now and in the future.”

During the opening speech of the symposium, which was held from September 11-16, the Director of Morocco’s National Institute for Agricultural Research’s (INRA) regional center in Agadir Abdelaziz Mimouni gave a general presentation about the different centers of INRA-Morocco as well as its research programs on cereals.

Fatih Ozdemir, director of the Bahri Dağdaş International Agricultural Research Institute and coordinator for the International Winter Wheat Improvement Program in Turkey, spoke about the importance of the soil borne diseases in Turkey and the region. Tadesse Wuletaw, wheat breeder at the International Center for Agricultural Research in Dry Areas (ICARDA), welcomed participants and spoke about the role of breeding programs to control diseases.

“We have so many common problems in each of our nations,” said Richard Smiley, a professor from Oregon State University who presented on cereal nematodes in the Pacific Northwest. “Our goal is to understand and describe the biology of those nematodes, but also to determine how they can best be managed economically by our farmers.”

Abdelfattah Dababat, leader of the International Maize and Wheat Improvement Center’s (CIMMYT) Soil Borne Pathogens Program, thanked CIMMYT and donors for supporting the Symposium as well as INRA for hosting this symposium. The conference was coordinated and organized by Dababat as part of the ICARDA-CIMMYT Wheat Improvement Program (ICWIP), and funded by CIMMYT, INRA, DuPont, Bisab, Labomine, Agrifuture, GRDC and Syngenta.

The 7^th International Cereal Nematode Symposium will be held in India in 2019. For more information, please contact Abdelfattah A. Dababat at a.dababat@cgiar.org or the local organizer for the 7^th Symposium in India Umarao at umanema@gmail.com.

Watch a video summary of the 6^th International Cereal Nematode Symposium in Agadir, Morocco below:

The second generation of tropically adapted haploid inducers developed by the International Maize and Wheat Improvement Center (CIMMYT) are now available for use by interested breeders and institutions.

Haploid inducers are a specially developed maize genetic stock that are used to develop doubled haploid (DH) maize lines. DH maize lines are highly uniform, genetically pure and stable, making the maize breeding process more intuitive and efficient by simplifying logistics.

These improved second-generation tropically adapted haploid inducers will help more tropical maize breeding programs adopt DH technology and develop improved maize varieties faster than ever before, cutting down the time it takes to get improved maize varieties to the farmers that need them.

The original first-generation tropically adapted haploid inducer lines (TAILS) were developed by CIMMYT and the University of Hohenheim (UHo). Recognizing the scope to further improve the first-generation TAILs for various traits, CIMMYT initiated the development of second-generation haploid inducers for the tropics by transferring the haploid induction trait from first-generation TAILs to elite CIMMYT maize lines. Selections were made for higher haploid induction rates and superior agronomic performance.

The CIM2GTAILs showed high haploid induction rates (~8-15%) under CIMMYT-tested (sub)tropical conditions in Mexico and Kenya, besides better agronomic performance in terms of plant vigor, synchrony with tropical source populations, better standability, and resistance to important tropical foliar diseases and ear rots. CIMMYT will share specific quantity of seed of these CIM2GTAILs and will grant authorization for use of these CIM2GTAILs to interested applicants.

Click here to learn more.

EL BATAN, Mexico (CIMMYT) — A powerful 7.1 magnitude earthquake rattled Mexico on Tuesday, killing more than 200 people less than two weeks after a 8.1 magnitude earthquake hit Oaxaca and Chiapas.

Although the full impact of the earthquakes is unknown at this time, the International Maize and Wheat Improvement Center (CIMMYT) would like to express condolences to all those affected throughout the country.

“All staff at our global headquarters are safe,” said Marianne Bänziger, deputy director general of CIMMYT, which is 150 km from the earthquake epicenter in central Mexico and 45 km northeast of Mexico City. “We hope the same to be true for their families, friends, research partners, and express our solidarity with Mexico and its people.”

Our buildings and infrastructure remained intact and our genebank, which houses 150,000 wheat seed samples and 28,000 maize samples, is safe, she said.

For those who want to help, we recommend contacting the Mexican Red Cross or any other local organization that supports affected people.

DHAKA, Bangladesh (CIMMYT) — Leaders from across South and Southeast Asia will gather from September 17-19 to exchange ideas and strategies on how to support the growth of farmer-focused and relevant agricultural climate services in the region.

Ensuring that farmers have access to real-time climate services, such as early warning systems for drought or crop index insurance, is critical to support rural livelihoods and mitigate crop production loss in the event of a climatic shock.

The three-day workshop will evaluate how climate and agricultural extension advisories are produced and conveyed, emphasizing farming community involvement in the development of climate information and extension messaging.

By the conclusion of the workshop, participants will have a broad overview of South and Southeast regional agricultural climate services programs, become familiar with participatory approaches and methods in agricultural climate services and able to enact or improve them in their own country contexts. They’ll also develop an increased understanding of how to identify and leverage “decision points” in the agricultural calendar during which climate information and advisories can most benefit farmers. Finally, participants will understand the need for appropriate institutional arrangements to facilitate the flow of relevant climate information and advisories to farmers, and to supply feedback to meteorological, extension, development and policy oriented organizations.

Workshop participants will also develop an outline for a scientific review paper on the subject of participatory climate services for agricultural decision making in South and Southeast Asia, which will be submitted to a peer-reviewed journal.

This workshop is sponsored by the United States Agency for International Development on behalf of the Climate Services for Resilient Development (CSRD) and is organized by the International Maize and Wheat Improvement Center alongside South Asian CSRD partners.

Click here to see the full list of participating organization and read the full workshop program.

Learn more about agricultural climate services:  

Role of Mobile Phone-enabled Climate Information Services in Gender-inclusive Agriculture

Scaling up climate services for farmers

Managing Climatic Risks in Agriculture in South Asia: Climate Services

New initiative strengthens drought monitoring in Bangladesh

Index insurance to safeguard farmers from climate change