According to the Millennium Development Goals Report of 2013, the proportion of people living in extreme poverty (less than US $1.25 a day) has been halved at the global level, yet 1.2 billion people still live in extreme poverty. In 1992, the United Nations (UN) established the International Day for the Eradication of Poverty (IDEP), which will be observed internationally for the 22nd time on October 17, 2014, to “promote awareness of the need to eradicate poverty and destitution in all countries.”

The theme for IDEP 2014 is “leave no one behind: think, decide and act together against extreme poverty,” which “recognizes and underscores the demanding challenge of identifying and securing the participation of those experiencing extreme poverty and social exclusion in the Post-2015 Development Agenda that will replace the Millennium Development Goals (MDGs).”2 The eradication of poverty was one of the chief MDGs, and remains at the forefront of the development of the post-2015 development agenda.

Agricultural development is critical in the fight to eradicate poverty, and CIMMYT has developed and designed its programs and projects to contribute to this effort. The work done at CIMMYT to improve the yields of maize and wheat, increase their tolerance to climate change, fight pests and diseases and add higher nutritional value to crops has helped to eradicate poverty by improving the livelihoods of farmers and their families as well as their nutrition and health.

The UN highlights that 17 October also serves as an important reminder to acknowledge the effort and struggle of people living in poverty as well as promoting opportunities for them to make their concerns heard. “Poor people are the first ones to fight against poverty. Participation of the poor themselves has been at the center of the Day’s celebration since its very beginning,” CIMMYT works with its donors and partners to assist smallholder farmers in developing countries, generating solutions to the issues they face with their active input and participation. The mission of CIMMYT, to “sustainably increase the productivity of maize and wheat systems to ensure global food security and reduce poverty,” cannot be realized without the efforts and cooperation of farmers, scientists, researchers and staff working together across the developing world to improve agriculture and eradicate poverty.

Jennifer Johnson

A rural woman in Bangladesh cuts up feed for her family’s livestock.
Photo: S. Mojumder/Drik/CIMMYT.

15 October 2014 will mark the sixth celebration of the International Day of Rural Women, a United Nations (UN) day dedicated to recognizing “the critical role and contribution of rural women, including indigenous women, in enhancing agricultural and rural development, improving food security and eradicating rural poverty.” The International Day of Rural Women was first celebrated on 15 October 2008, and was established by the UN General Assembly on 18 December 2007. CIMMYT acknowledges the importance of understanding and recognizing the important role of women in agriculture, and is committed to the inclusion and participation of women – especially rural women – in its research and programs.

An dealer displays KDV1 drought-tolerant seed at the Dryland Seed Company shop in Machakos, Kenya. The CIMMYT study observed that men and women engage with the seed market differently. Photo: Florence Sipalla/CIMMYT.

Preliminary results from a CIMMYT-led pilot study in 10 seed markets across eastern Kenya show that there is a significant difference in the way that men and women engage with improved maize seed markets. “In most major centers, you have at least twice as many men as women coming to buy seed,” said Vongai Kandiwa, CIMMYT gender and development specialist who designed and led the study. The patterns improve a bit when you move to centers that are closer to rural communities. “This tells us that to reach more women, it is important that seed outlets are closer to them in the remote areas.”

Seed companies are key partners in delivering improved seed to smallholder farmers in Africa, the key beneficiaries of agricultural research. Meru Agro in Tanzania is one such partner, producing ‘fertilizer-friendly’ maize varieties with support from the Improved Maize for African Soils (IMAS) project. “We call the varieties ‘fertilizer-friendly’ because they use the small amounts of fertilizer that smallholder farmers in Africa apply more efficiently,” said Dr. Biswanath Das, CIMMYT maize breeder. Since 2013, Meru Agro has been multiplying HB513, a fertilizer-friendly and drought-tolerant hybrid. The company has produced over 1,200 metric tons of HB513 seed, which can potentially reach 50,000 smallholder farmers in the mid-elevation regions of Tanzania in the upcoming cropping season.

Promotion

The small-to-medium enterprise uses innovative methods to promote its maize varieties. The company runs extensive demonstration plots at key locations and gives away ‘promo packs’ to farmers during field days. “These are 100 gram packs that we give away through the agrodealers. The packs allow farmers to test the varieties for themselves and compare them with what they are growing,” said Watanga Chacha, the company’s chief executive officer. The company also participates in the annual NaneNane agricultural shows held in Arusha, Mbeya and Mwanza in August where they showcase their varieties. “When they plant for NaneNane, they do it at intervals to ensure that farmers can see how the hybrid performs at different growth stages,” said Dr. Mosisa Worku Regasa, CIMMYT seed systems specialist.

Meru Agro has embraced radio as a marketing tool. “We use radio advertisements to reach farmers in our target areas,” said Chacha. “We have the advertisements recorded in the local accents which help the audience identify with them.” The company also invests in extension, training farmers in good agricultural practices augmented with training for agro-dealers. “This has contributed to the expansion of our distribution network as farmers get to know the merits of the maize varieties we are selling,” adds Chacha. “The training gives farmers confidence that they are buying a good variety by knowing the merits of the varieties in advance.”

Rapid Growth

Meru Agro has grown from an agro-dealer that began operations in October 2006 and evolved into a seed and farm input supplier in 2009. “We started with three employees, we now have 34 people, eight graduates, five diploma holders and one master’s degree holder,” says the entrepreneur. “A good strategy does not automatically translate to good performance. The team you have makes the difference – their technical skills and capacity to execute the strategy makes the difference,” said Chacha, crediting his staff for contributing to the company’s success.

Seed production and breeding research done by organizations such as CIMMYT and the national agriculture institutes benefit small seed companies like Meru Agro. “We have released four maize hybrid varieties in collaboration with CIMMYT and we are producing some open-pollinated varieties (OPVs) that have been released by the national program in Tanzania,” said Chacha. The company’s product portfolio leans towards hybrid seeds; this is informed by the market response. “Most farmers in Tanzania are now shifting from OPVs to hybrids.” The company is planning to establish a breeding unit in the near future. In the meantime, it relies on public goods derived from breeding research produced by CIMMYT and the national agriculture institute.

The company is partnering with other agencies involved in seed distribution in Tanzanian including the Tanzania Agricultural Partnerships (TAP), Farm Input Promotional Services (FIPS) and the Government Farm Input Subsidy Program to distribute 400,000 two-kilogram packs of maize seed to smallholder farmers. “We are targeting smallholder farmers, some of whom have very little land, between one-quarter of an acre to three acres,” said Chacha. “In Tanzania, farmers prefer small packs of certified seed. There is a huge untapped market in Tanzania as maize is the staple crop,” said Chacha explaining the rationale behind their expansion plans.
“The IMAS program provided technical backstopping and financial support to Meru Agro for seed production of MERU HB 513 which is drought-tolerant, in addition to being nitrogen use efficient,” said Das. Meru Agro staff have participated in seed business management courses facilitated by CIMMYT, contributing to capacity building within the company. “The company has produced large volumes of certified seed,” said Regasa.

Challenges

“The seed business is challenging,” said Chacha. The CEO cites the high investment costs in machinery for seed cleaning, grading and packaging. Chacha says drought is one of the challenges that hamper their seed production as not all of it is done under irrigation. “It takes time to convince farmers,” added Chacha, citing promotion as another challenge.

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The CCAFS Climate Smart Village (CSV) program recently earned significant media attention for its successes in the Indian states of Bihar, Haryana and Punjab where the program is being implemented. The CSVs were featured in BBC News as well as several newspapers in the region. The CSV program is helping farmers in developing countries adapt their agricultural practices to secure dependable food supplies and livelihoods, while also decreasing greenhouse gas emissions and increasing carbon sequestration, thereby decreasing future climate change. The project began in 2011 and works with villages in East and West Africa and South Asia. “The Climate Smart Villages program is a community-based approach to sustainable agricultural development,” said M.L. Jat, CIMMYT senior cropping system agronomist and South Asia coordinator of the CCAFS- CIMMYT project.

China’s Wheat Production Critical to Global Food Security

Zhonghu He is country representative in China for the International Maize and Wheat Improvement
Center (CIMMYT), and Qiaosheng Zhuang is a professor at the
Chinese Academy of Agricultural Science (CAAS).

China’s domestic agricultural activities are vital to ensuring food security for its 1.4 billion people and – as the world’s largest wheat producer – the country plays a major role in shaping international markets.

China produces about 120 million metric tons (265 million pounds) of wheat each year – on approximately 24 million hectares (59 million acres) of land, an area similar to the size of Algeria, according to statistics from the Food and Agriculture Organization of the United Nations (FAO).

Wheat makes up 40 percent of grain consumption in China and about 60 percent of the country’s population eats the grain daily.

Cultivated wheat, which was likely introduced to China in the late 6th to early 5th millennium B.C., is the second most important food crop in China after rice. It is the dominant staple food in the northern part of the country where it is used mainly to produce noodles and steamed bread.

In present-day China, more than 95 percent of wheat is sown in the autumn. A double cropping system is used in the Yellow River and Huai River valleys in which wheat is rotated with maize. In the Yangtze Valley it is rotated with rice.

Chinese wheat matures early, so two crops can be harvested each year.

Wheat in China is also exceptionally resistant to high temperatures during the grain filling stage, during which kernel size is determined, as well as such diseases as head scab, septoria and karnal bunt. The wheat cultivar Sumai 3, a plant selected by breeders for its desirable characteristics, is used globally as a source for improving scab resistance.

Current Challenges

Demand for wheat in China is growing due to population increase and rising living standards, but production is challenged by water scarcity, environmental contamination, rising temperatures, droughts, labor shortages and land-use shifts from grain production to cash crops.

Researchers anticipate that in the near future the consumption of homemade steamed bread and raw noodles will decrease in favor of western-style breads and pastries.

Breeding for high-yield potential remains the first priority, as the available planting area for wheat is unlikely to increase.

Overall breeding goals include increasing grain yield, while maintaining genetic gains already made by scientists in grain yield and improving the processing quality without increasing needed inputs to grow healthy crops.

Conventional breeding – in which wheat plants with desirable, or “elite” traits are selected and used as “parents” for subsequent generations – has been in use for more than a hundred years. The technique, combined with an increased application of biotechnology, will continue to play a leading role in wheat variety development.

In addition to powdery mildew and yellow rust, Fusarium head blight has migrated to the main wheat regions in northern China due to climate change and the continuous practice of wheat and maize rotation, posing a major threat to wheat production. Other diseases, such as sharp eyespot and take-all, are also becoming increasingly troublesome as scientists try to increase grain yields. Wheat in the area has a very low resistance to scab, which is creating another challenge.

Scientific Innovation

It is important that foreign germplasm – the genetic resources of an organism – from international research centers and alien genes from wild relative species be explored as potential sources of multiple-disease resistance.

In order to reduce inputs for wheat production, it is essential to breed varieties with higher water, nitrogen (N) and phosphorus (N) fertilizer use efficiencies, but this must be combined with high-yielding potential.

Drought tolerance for wheat grown in rain-fed areas must be strengthened, because varieties with drought tolerance and better water-use efficiency are already urgently needed.

Under altered conditions driven by climate change, planting dates have been delayed by 10 days over the last 20 years, but maturity has remained basically unchanged. Climate-resilient varieties are needed.

New genes and genetic resources must be explored with novel tools to realize higher genetic gains. Gene-specific markers will play an important role in facilitating the genes for disease resistance and quality. Genetically modified wheat could offer potential tools in reducing damage from head scab and aphids.

Crop management must play an important role in increasing wheat production. Low-cost farming practices are needed so that wheat can be more competitive in the financial markets and new cropping systems must be suited to machinery operation. International collaboration has contributed significantly to improving Chinese wheat research and development capacity.

The government of China considers the International Maize and Wheat Improvement Center (CIMMYT) an important strategic partner in wheat research and continues to work closely with CIMMYT and other international partners to meet future wheat demands.