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Learning climate smart agricultural practices empowers women farmers in Haryana

Written by on July 6, 2015. Posted in News.

Haryana is traditionally an agrarian state where many farm operations are undertaken by women; however, in this male-dominated farm society, decision-making does not involve women folk. Under CIMMYT-CCAFS, we developed a farm budgeting booklet that was distributed to women and men farmers in climate-smart villages (CSVs) and got very good response from young educated women farmers. To further empower them, we have been training women farmers in these CSVs to make them confident farmers so that in this world of changing climate, they are knowledge-empowered and able to increase their family income and develop stable rural livelihoods by actively contributing to decision-making.

During training, women farmers are taught technical aspects of agriculture such as how to sow direct-seeded rice and the importance of fertilizer management and crop yield.

They also become acquainted with a farm lekha jokha book, which is an accounting and farm management tool that allows farmers to understand and compare farm expenses that, though important, are commonly neglected. This book was designed keeping in mind the situation of women farmers in Haryana. Keeping a record of farm practices makes women more knowledgeable, thereby escalating their decision-making authority at home. Their decision-making is supported by their understanding of technological interventions that help them manage their farms more efficiently and reduce the errors of current farm practices by analyzing data which they record in this book.

Training makes women farmers realize that their knowledge is not only technical but valuable. We hope this realization will lead them to consciously explore, strengthen and share the expertise they have acquired.

Direct sowing of rice (DSR) in Unchasaman village, Haryana. Photo: CIMMYT

B.M. Prasanna appointed as MAIZE CRP Director

Written by on June 18, 2015. Posted in News.

The CGIAR Research Program on MAIZE, CIMMYT and IITA are pleased to announce that effective 1 June 2015, MAIZE will be led by a dedicated CRP Director, who is spearheading the international maize research agenda of CGIAR. The CIMMYT Board, upon endorsement of the MAIZE Stakeholder Advisory Committee (StAC), has agreed to the CIMMYT Director General appointing Dr. B.M. Prasanna as MAIZE CRP Director.

CSISA mechanization meets farmers’ needs in Bihar, India

Written by on June 1, 2015. Posted in Features.

“A huge bottleneck exists in terms of time wasted in harvesting and threshing that is preventing timely sowing of crops,” said Scott Justice, agriculture mechanization specialist, CIMMYT. The Cereal Systems Initiative for South Asia (CSISA) is working to ensure smallholder farmers have access to machinery based on their specific requirements by improving existing designs to meet local needs.”

For shelling maize, farmers in Bihar can either purchase a very large, efficient machine that costs approximately US $786 or use a cheap handheld sheller that can shell only 15-20 kilograms per hour. According to Justice, “these lightweight, affordable shellers are relatively new on the scene. Their simple design means that they can easily be made by local manufacturers and can also be modified as required.”

CSISA worked with a local manufacturer to modify the design of a medium-sized sheller and created a double cob maize sheller powered by an electric motor, which can shell 150 kg of maize per hour and consumes only 2-4 units of electricity. Priced at US $126, the machine is fairly affordable. “In fact, half the cost of the machine is that of the electric motor alone. For farmers who already own one, the machine would only cost US $63,” said Suryakanta Khandai, Postharvest Specialist at the International Rice Research Institute (IRRI), who works for CSISA in Bihar.

During a pilot program with members of the Kisan Sakhi Group in Muzzafarpur, Bihar, nearly 350 women farmers were trained to operate the diesel engine-powered, open-drum thresher. In this picture, Suryakanta Khandai (center), IRRI postharvest specialist, conducts a demonstration for two women’s self-help groups interested in purchasing four machines next season. Photo: CSISA — During a pilot program with members of the Kisan Sakhi Group in Muzzafarpur, Bihar, nearly 350 women farmers were trained to operate the diesel engine-powered, open-drum thresher. In this picture, Suryakanta Khandai (center), IRRI postharvest specialist, conducts a demonstration for two women’s self-help groups interested in purchasing four machines next season.
Photo: CSISA

Until recently, farmers in Bihar only had two options for mechanized rice threshing –a very large axial flow thresher that can cost up to US $2,700 with subsidies, or a pedal-powered, open-drum thresher that has very low capacity and is difficult to operate for extended periods.

“Farmers clearly needed a medium-sized, affordable, efficient and portable mechanical rice thresher,” said Khandai. “The existing models lacked grain-separating or bagging functions, which we included in the new design. In addition to giving it wheels, we also decided to use a diesel engine to power the machine to allow for threshing in the field immediately upon cutting, which helps reduce losses.” The result was a diesel-powered, open-drum thresher.

It costs US $23.96 to hire one person to manually thresh one acre of rice and it takes seven days. However, the diesel-powered, open-drum thresher covers the same area in just over four hours, at a total cost of US $10.54.

Since the modified machines do not offer an attractive profit for larger manufacturers and retailers, CSISA approached local companies to fill the gap. The maize sheller was customized in cooperation with Dashmesh Engineering, which sells the machine at a profit of US $11–13. “Profits help ensure that the manufacturers are motivated to scale out the machines,” said Khandai.

Justice added, “Equipment like the diesel-powered, open-drum rice thresher is very simple but has not spread very widely. I feel these should now also be promoted to the owners of two-wheel tractors and mini tillers in India and Nepal.”

Well-positioned for next phase, CSISA India plans for monsoon cropping season

Written by on June 1, 2015. Posted in News.

As Phase II of the Cereal Systems Initiative for South Asia (CSISA) draws to a close in India, it is well positioned for a Phase III, according to Andrew McDonald, CIMMYT Cropping Systems Agronomist and CSISA Project Leader speaking at the Objective 1 planning and evaluation meeting for the 2015 monsoon cropping season held in Kathmandu, Nepal, on 22-24 April. The meeting was attended by CSISA’s Objective 1 teams from the Bihar, eastern Uttar Pradesh, Odisha and Tamil Nadu hubs, comprising diverse disciplinary experts from CIMMYT, the International Food Policy Research Institute (IFPRI), the International Livestock Research Institute (ILRI) and the International Rice Research Institute (IRRI).

Phase II began in October 2012 and will be completed in October of this year. The external evaluation report, commissioned by the United States Agency for International Development (USAID), commended the uniqueness of CSISA’s work with service providers and farmers, its staff’s dedication and the strong collaboration among CSISA partners. CSISA was established in 2009 to promote durable change at scale in South Asia’s cereal-based cropping systems, and operates rural “innovation hubs” throughout Bangladesh, India and Nepal.

The teams took a critical view of activities from the previous monsoon cropping season and highlighted priority areas for this year. “Sustainable intensification of cropping systems should be the centerpiece of our growth strategy. Rice followed by mustard followed by spring maize or green gram is a great system that can help us achieve 300% cropping intensity,” said R.K. Malik, CIMMYT Senior Agronomist and CSISA Objective 1 Leader. “We need to focus not only on how to create new service providers but also on how existing ones can be used as master trainers. This will help fill the gap of field technicians and further strengthen delivery,” Malik explained, regarding CSISA’s network of more than 1,800 service providers.

Andrew McDonald, CSISA Project Leader, speaks at CSISA’s planning and evaluation meeting in Kathmandu, Nepal. Photo: Ashwamegh Banerjee

Leading discussions on the Odisha hub, Sudhir Yadav, IRRI Irrigated Systems Agronomist, emphasized the importance of identifying the non-negotiable steps for successful technology implementation. “The performance of zero tillage, for example, depends on soil type, date of seeding and whether the crop is rainfed or receives supplementary irrigation,” said Yadav. CSISA successfully introduced zero tillage in Odisha’s Mayurbhanj District, where it has enabled crop intensification thanks to the retention of residual soil moisture.

The meeting served as a platform for representatives from Catholic Relief Services’ (CRS) Improved Rice-based Rainfed Agricultural Systems project to showcase lessons in managing rainfed rice systems in northern Bihar.

CSISA is currently in discussions with USAID and the Bill & Melinda Gates Foundation (BMGF) to design the technical program, and determine the scope, geography, duration and budget of Phase III.

SUPER WOMAN: Paula Kantor engages men to support gender progress

Written by Mike Listman on May 29, 2015. Posted in Features.

FOCUS ON WOMEN CAN INADVERTENTLY END UP ALIENATING MEN

Gender research and outreach should engage men more effectively, according to Paula Kantor, CIMMYT gender and development specialist who is leading an ambitious new project to empower and improve the livelihoods of women, men and youth in wheat-growing areas of Afghanistan, Ethiopia and Pakistan.

“We tend to focus on women in our work and can inadvertently end up alienating men, when they could be supporters if we explained what we’re doing and that, in the end, the aim is for everyone to progress and benefit.”

Participants in the global project will carry out 140 case studies in 29 countries; WHEAT and MAIZE together will conduct 70 studies in 13 countries.

Kantor and Lone Badstue, strategic leader for gender research at the International Maize and Wheat Improvement Center, are members of the executive committee coordinating the global initiative, along with Gordon Prain of CIP-led Roots, Tubers and Bananas Program, and Amare Tegbaru of the IITA-led Program on Integrated Systems for the Humid Tropics.

“The cross-CRP gender research initiative is of unprecedented scope,” said Kantor. “For WHEAT, CIMMYT, and partners, understanding more clearly how gendered expectations affect agricultural innovation outcomes and opportunities can give all of our research more ‘ooomph’, helping social and biophysical scientists to work together better to design and conduct socially and technically robust agricultural R4D, and in the end achieve greater adoption and impact.”

“The increase in de facto female-headed households in South Asia, for example, would imply that there are more opportunities for women in agriculture,” she explained, “but there is resistance, and particularly from institutions like extension services and banks which have not evolved in ways that support and foster the empowerment of those women.”

Any views expressed in this article are those of the author and not of the International Maize and Wheat Improvement Center.

Climate-smart agriculture achievements inspire support for BISA-CIMMYT in Bihar, India

Written by on April 28, 2015. Posted in News.

The Director of Agriculture (3rd from left) and the District Collector (2nd from right) view a demonstration of urea drilling in a standing wheat crop. Photo: Manish Kumar/CIMMYT

The Borlaug Institute for South Asia (BISA), CIMMYT and stakeholders are developing, adapting and spreading climate-smart agriculture technologies throughout Bihar, India. During the 2014-2015 winter season, BISA hosted visits for national and international stakeholders to view the progress of participatory technology adaption modules and climate-smart villages throughout the region.

“It is very encouraging to see the [BISA-CIMMYT’s] trials of new upcoming technology…We will be ready to support this,” wrote Dharmendra Singh, Bihar’s Director of Agriculture, in the visitor book during a state agriculture department visit to one of BISA’s research farms and climate-smart villages in Pusa. BISA, CIMMYT and the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS), in collaboration with local stakeholders and farmer groups, established 15 Borlaug climate-smart villages in Samastipur district and 20 in Vaishali district, as part of a 2012 research initiative to test various climate-smart tools, approaches and techniques.

Agriculture Production Commissioner (3rd from the left) discussing climate smart practices with farmers in Digambra village. Photo: Deepak/CIMMYT

“I could understand conservation agriculture better than ever after seeing the crop and crop geometry in the field today,” wrote Mangla Rai, former Director General of the Indian Council of Agricultural Research (ICAR) & Agriculture Advisor to the Chief Minister of Bihar. Raj Kumar Jat and M.L. Jat, CIMMYT cropping system agronomist and senior cropping system agronomist, respectively, showcased research trials on zero-tillage potato and maize, early-planted dual-purpose wheat, precision nutrient management in maize-wheat systems under conservation agriculture, genotype -by- environment interaction in wheat and crop intensification in rice-wheat systems through introduction of inter-cropping practices. Raj Kumar Jat also gave a presentation on how to increase cropping intensity in Bihar by 300% through timely planting and direct seeding techniques.

“Technologies like direct-seeded rice and zero-till wheat, which save both time and labor, should be adapted and transferred to Bihar’s farmers,” said Thomas A. Lumpkin, CIMMYT director general, at a meeting of the CIMMYT Board of Trustees with the Chief Minister of Bihar and other government representatives. “BISA is a key partner in building farmer and extension worker capacity, in addition to testing and promoting innovative agriculture technologies.”

The Agriculture Minister of Bihar visiting a zero tillage wheat field in a climate-smart village ( Bhagwatpur) of Samstipur district. Photo: Deepak/CIMMYT

“State agriculture officials should support BISA to hold trainings on direct-seeded rice for fast dissemination across Bihar,” agreed Vijay Chaudhary, Agriculture Minister of Bihar, at a BISA field day. Chaudhary along with 600 farmers and officials visited a climate-smart village where farmers plant wheat using zero tillage. Zero-till wheat is sown directly into soil and residues from previous crops, allowing farmers to plant seed early and to avoid losing yields due to pre-monsoon heat later in the season. Direct-seeded rice is sown and sprouted directly in the field, eliminating labor- and water-intensive seedling nurseries.

During the Bihar Festival, 22-24 March, BISA-CIMMYT showcased conservation agriculture practices and live demonstrations of quality protein maize-based food products, with over 10,000 famers and visitors participating. Vijoy Prakash, Agriculture Production Commissioner of Bihar, and other Bihar government officials discussed with farmers about new BISA-CIMMYT agriculture practices and emphasized the need to “introduce conservation agriculture in the state government’s agricultural technology dissemination program.” Prakash, along with government representatives, has approved two BISA proposals for a training hostel and research.

Mother-baby trials promote conservation agriculture in Manica, Mozambique

Written by on April 13, 2015. Posted in Features.

A testament to increased climate variability and risk for farming systems already operating on the razor’s edge, the 2014-15 cropping season will be recognized as a sad write-off by most farmers in Central Mozambique. The rains started six weeks late and most of the rainfall fell in only two months (normally it’s distributed over four), followed by a long drought and some few showers at the end.

But with funds from the CGIAR Research Program on Maize, partners from the Instituto de Investigação Agrária de Moçambique (IIAM) and CIMMYT are working with farmers in Manica Province, Mozambique, to test and promote conservation agriculture practices that better capture and retain precious precipitation, among other advantages.

As part of this, they have revived “mother-baby” trials, a participatory methodology pioneered over a decade ago by CIMMYT for testing drought tolerant maize in Africa and which was subsequently adapted for diverse agronomic practices and is used by researchers worldwide.

Drought-stricken maize: For most farmers around Machipanda village, Manica Province, Mozambique, the situation this season is bleak, auguring complete crop failure or a harvest of a few small maize cobs. Photos: CIMMYT

Comprising field experiments grown in farming communities, mother-baby trials feature a centrally-located mother trial that is set up with researchers’ support. Baby trials, which contain subsets of the mother-trial treatments, are grown, managed and evaluated by interested farmers.

Moving from “business as usual” to innovation

In Machipanda, a small village in Manica on the border with Zimbabwe, IIAM maize breeder Dr. David Mariote established three mother trials, each with two conservation agriculture-based systems and a conventional control plot, combined with four maize varieties from the Drought Tolerant Maize for Africa (DTMA) project, which is funded by the Bill & Melinda Gates Foundation, and a traditional variety, in full rotation with cowpeas.

Farmers then put up the baby trials from a menu of practices that included direct seeding with no tillage, crop rotations, residue retention, herbicide applications, fertilizer use and improved varieties. Interest was high: 54 farmers grew baby trials and some even extended their plots beyond the designated areas, in the excitement of trying something new, according to Mariote.

“Conditions are changing fast; business as usual is no longer an option,” Mariote said. “We have to offer improved technologies that farmers can use to mitigate negative effects from climate change and improve their lives.”

Mariote witnessed first-hand the synergistic benefits of combining conservation agriculture and drought tolerant maize, as part of work in the Platform on Agriculture Research and Technology Innovation (PARTI), a project funded through the US Agency for International Development (USAID) via Feed the Future and implemented by CIMMYT in Central and northern Mozambique.

IIAM researcher David Mariote (right) with farmers of Manica Province, Mozambique.

With training from CIMMYT’s global maize program and technical backstopping from the CIMMYT global conservation agriculture program, Mariote sought new and stronger ways to spread these technologies. That’s when he hit upon mother-baby trials, which had never been used before with drought tolerant maize and conservation agriculture in tandem.

Farmers who grew baby trials unanimously agreed that new ways of farming are needed and that the trials had been eye-openers. In a community meeting, some said: “We often do not have money to buy expensive fertilizers but we have seen that with good agronomic practices and good maize varieties we can already increase our maize yields.”

More farmers in Machipanda have signed up for future baby trials and, as a clear indication of commitment and excitement about conservation agriculture and improved maize, they will use their own inputs to grow them.

Growing the gains and pruning the pains in producing Africa’s food

Written by on April 7, 2015. Posted in News.

Because GYGA is a crucial pointer to where the greatest gains in food production can be made, and the pains to sidestep, all in a bid to close the yawning gap on hunger by going beyond gigabytes of data to concrete actionAfrica’s food production is not limited by lack of potential. Rather, it’s a question of priorities and targeting

For this reason, let us turn to the Atlas of African agriculture research and development, which will be a crucial roadmap in navigating the Global Yield Gap Atlas (GYGA) Project’s work in Africa over the past four years (May 2012 to March 2015). Published by the International Food Policy Research Institute (IFPRI), the Atlas of African agriculture research and development jumps straight to the point in the foreword: “Africa is a paradox. This vast continent is home to almost half of the world’s uncultivated land fit for growing food crops – an estimated 202 million hectares but much of it is off-limits to farmers because it is difficult to farm or is used for other purposes.”

Life on the edge: farming fragile and frugal marginal lands along steep slopes in north Ethiopia. (Photo: K. Tesfaye, July 2015).

The heat is on, so are ways to beat the heat: Go, GYGA, Go!
“The pressure on land is enormous, resulting in agriculture creeping up steep hillsides where it does not belong, with the soil washing away,” observed Kenneth G. Cassman, GYGA Project Leader, from the University of Nebraska, USA. GYGA aims to provide information from farm level to the landscape, watershed, continent and the globe, to assure informed decisions on optimizing food production. GYGA operates on the principle that ensuring food security while protecting carbon-rich and biodiverse rainforests, wetlands, and grasslands depends on achieving the highest possible yields from existing farmland.

“Our aspiration is to have complete global coverage of all global farmland, “added Cassman. But GYGA’s quest is not just about gigabytes of data: “To feed billions in the future, we need to have not only the knowledge, but also the know-how.”

According to Samuel Adjei-Nsiah of the International Institute of Tropical Agriculture and GYGA country agronomist for Ghana, there are two options to increase food production: (1) expanding arable land; or, (2) closing the yield gap in existing farmland by expanding irrigation, intensifying cropping systems and adopting improved crop management technologies “But option one may result in significant losses of important ecosystem services such as biodiversity, while option two depends on the socioeconomic conditions of farmers, and local food preferences, cultural traditions, and markets.”

Focus on Africa
In Africa, GYGA has convened thrice before in Kenya, Benin and Ethiopia in 2012, 2013 and 2014, respectively. This year, the meeting returned to Addis Ababa, Ethiopia in what will be the close of the four-year project. “For this closing meeting, the goals are taking agronomic practices to scale, substantive collaborations in the face of climate change, and helping to prioritize research,” said Cassman.

Ambo w

Visit to Ambo Research Center on 22nd September by participants of the 2015 GYGA meeting in Ethiopia, 22nd to 24th September 2015. (Photo provided by K. Tesfaye, CIMMYT)

Funded by the Bill & Melinda Gates Foundation and the Water for Food Institute, GYGA covers 23 countries, of which 10 are in Africa – Burkina Faso, Mali, Ghana, Niger, Nigeria, Ethiopia, Kenya, Uganda, Tanzania and Zambia. All of GYGA’s rich information and data are fully in the public domain. “GYGA has built a great and informative website in a very short space of time. This is remarkable,” said Christian Witt, Senior Program Officer at the Bill & Melinda Gates Foundation.

What next? Sealing the gap by going from gigabytes of data to informed action
While information is very important, it is but a stepping stone in the quest to close the yawning gap on hunger .“If we stop at identifying gaps, this alone will not help us solve the problems,” observed Kindie Tesfaye, Crop and Geospatial Modeler at CIMMYT. “We need to act on this information where the opportunities for growth are. Therefore, the next step is mapping what is hampering production. For example, is it the price of seed, inputs, markets, or other factors?”

For this reason, the conclusion of GYGA’s work after four productive years also marks new beginnings for a continuation, albeit on a smaller scale in the foreseeable future. “Parts of the work will continue in Ethiopia and Ghana, focusing on maize,” said Martin Ittersum from Wageningen University and Research Centre. “This work will be funded by the UK’s Department for International Development, and begins in 2015.”

Why zero in on maize for this further work? Because in Ethiopia, GYGA cereal studies show that maize leads and teff trails in productivity (i.e., yield per unit area, see graph below), even if in area coverage and popularity it is the reverse, with teff as Ethiopia’s most popular cereal.

“In Ghana, rainfed maize has the highest yield potential at 9.5 tonnes per hectare, compared to 7.5 for sorghum, 6.6 for rice and 4.6 for sorghum,” said l Adjei-Nsiah. “With irrigation, maize still leads at 14.9 tonnes compared to rice at 8.3 tonnes.”

Elsewhere, it is a largely similar sweet story for maize. In Uganda, more than 90 percent of the maize is grown by smallholders, underscoring the significant socioeconomic impact of the benefits of research to improve maize productivity. Moving from east to west, in Mali, maize ranks fourth in productivity, after millet, sorghum and rice, in that order, while southwards in Zambia, more than 65 percent of the nation’s cropland is devoted to maize, making it the principal crop in a country where 85 percent of the population depend on agriculture. “On average, maize yields about 1.5 tonnes per hectare, compared to 0.55 for sorghum and 0.65 for millet,” said Regis Chikowo, GYGA’s country agronomist for Zambia, who however added that maize yields have been stagnant for the last two decades. Therefore, much remains to be done for this leading crop to realize its full potential in Ghana, and thereby seal the yield gap.

On-the-ground realities: global scope, but down-to-earth
GYGA is led by the University of Nebraska, Lincoln (USA) and Wageningen University and Research Centre (The Netherlands), with collaborators from the International Crops Research Institute for the Semi-Arid Tropics, the Africa Rice Center, CIMMYT, the Commonwealth Scientific and Industrial Research Organisation (Australia), and agronomists in the GYGA Project countries. All these partners participated in the GYGA closing meeting.

Also present were the Africa Soil Information Service, the CGIAR Research Program on Climate Change, Agriculture and Food Security, Harvest Choice, IFPRI, the International Rice Research Institute, and the International Soil Reference Information Centre. A fitting representation of – and emphasis on – soil, given it is the root of life, and 2015 the International Year of Soils designated by the United Nations.

Links:

Global Yield Gap Atlas website
Atlas of African agriculture research & development (IFPRI)
Related CIMMYT blogpost (social science view): Yield gap analysis key to meeting future crop demand
Global Soil Week and International Year of Soils (2015) at CIMMYT with our IMAS Project
World Soil Day 2015 at CIMMYT
More on CIMMYT’s Socioeconomic Program

Maize and wheat global gender study: coding large-scale data to reveal the drivers of agricultural innovation

Written by on March 9, 2015. Posted in News.

Over the last week, MAIZE and WHEAT CRP investigators from the global cross-CRP study on gender in agricultural innovation met at El Batán from 26 Feb to 1 March to take stock of progress so far and plan the next steps in the implementation of this unique research initiative.

From left to right: Patti Petesch, Diana Lopez, Paula Kantor, Vongai Kandiwa, Dina Najjar, Lone Badstue, Anuprita Shukla and Amare Tegbaru. Photo: Xochiquetzal Fonseca/CIMMYT

The study will draw on interviews and focus groups with men and women engaged in small-scale farming around the world, to hear in their words how they practice and innovate in agriculture, and what factors, especially gender relations, they feel have influenced their success and failures. Through rigorous analysis both of the broader patterns in the data and delving deep into the case studies, the aim is to develop strategic research publications as well as practical observations and tools to integrate gender-sensitivity into agricultural research and development.

The appetite for more knowledge about the role of gender was clear at Gender and Development Specialist Paula Kantor’s well-attended brown bag lunch on Friday, introducing the GIZ-funded project on gender constraints to wheat R4D in Afghanistan, Ethiopia and Pakistan.

As CIMMYT Gender Specialist Lone Badstue opened the workshop, she reflected on how quickly gender research has advanced since the CRPs were set up in 2011. From less than one full-time gender-specialist on staff, there are now the equivalent of eight full-time staff working with the CRPs on gender and 20 large projects with gender-integration.

At the workshop, the gender specialists shared their experiences of the 19 case studies conducted under MAIZE and WHEAT so far, before settling down to discuss data quality control and coding.

Men’s roles and attitudes are key to gender progress, says CIMMYT gender specialist

Written by Mike Listman on March 4, 2015. Posted in Features.

Gender research and outreach should engage men more effectively, according to Paula Kantor, CIMMYT gender and development specialist who is leading an ambitious new project to empower and improve the livelihoods of women, men and youth in wheat-based systems of Afghanistan, Ethiopia and Pakistan.

“Farming takes place in socially complex environments, involving individual women and men who are embedded in households, local culture and communities, and value chains — all of which are colored by expectations of women’s and men’s appropriate behaviors,” said Kantor, who gave a brownbag presentation on the project to an audience of more than 100 scientists and other staff and visitors at El Batán on 20 February. “We tend to focus on women in our work and can inadvertently end up alienating men, when they could be supporters if we explained what we’re doing and that, in the end, the aim is for everyone to progress and benefit.”

Funded by Germany’s Federal Ministry for Economic Cooperation and Development, the new project will include 14 village case studies across the three countries. It is part of a global initiative involving 13 CGIAR research programs (CRPs), including the CIMMYT-led MAIZE and WHEAT. Participants in the global project will carry out 140 case studies in 29 countries; WHEAT and MAIZE together will conduct 70 studies in 13 countries. Kantor and Lone Badstue, CIMMYT’s strategic leader for gender research, are members of the Executive Committee coordinating the global initiative, along with Gordon Prain of CIP-led Roots, Tubers and Bananas Program, and Amare Tegbaru of the IITA-led Program on Integrated Systems for the Humid Tropics.

To that end, outcomes will include joint interpretation of results with CRP colleagues and national stakeholders, scientific papers, policy engagement and guidelines for integrating gender in wheat research-for-development, according to Kantor. “The research itself is important, but can’t sit on a shelf,” she explained. “We will devise ways to communicate it effectively to partners in CGIAR and elsewhere.”

Another, longer-term goal is to question and unlock gender constraints to agricultural innovation, in partnership with communities. Kantor said that male migration and urbanization are driving fundamental, global changes in gender dynamics, but institutional structures and policies must keep pace. “The increase in de facto female-headed households in South Asia, for example, would imply that there are more opportunities for women in agriculture,” she explained, “but there is resistance, and particularly from institutions like extension services and banks which have not evolved in ways that support and foster the empowerment of those women.”

“To reach a tipping point on this, CGIAR and the CGIAR Research Programs need to work with unusual partners — individuals and groups with a presence in communities and policy circles and expertise in fostering social change,” said Kantor. “Hopefully, the case studies in the global project will help us identify openings and partners to facilitate some of that change.”

Kantor has more than 15 years of experience in research on gender relations and empowerment in economic development, microcredit, rural and urban livelihoods, and informal labor markets, often in challenging settings. She served four years as Director and Manager of the gender and livelihoods research portfolios at the Afghanistan Research and Evaluation Unit (AREU) in Kabul. “AREU has influenced policy, for example, through its work on governance structures at the provincial and district levels,” Kantor said. “They will be a partner in the Afghan study.”

She added that working well in challenging contexts requires a complex combination of openness about study aims and content in communities, sensitivity and respect for relationships and protocol, careful arrangements for logistics and safety, diverse and well-trained study teams and being flexible and responsive. “Reflections on doing gender research in these contexts will likely be an output of the study.”

After her first month at CIMMYT, Kantor, who will be based in Islamabad, Pakistan, said she felt welcome and happy. “My impression is that people here are very committed to what they do and that research is really a priority. I also sense real movement and buy-in on the gender front. An example is the fact that, of all the proposals that could’ve been put forward for funding from BMZ, the organization chose one on gender. That’s big.”

CSISA hosts regional cross-learning event on sustainable intensification

Written by on February 10, 2015. Posted in News.

Irmgard Hoeschle-Zeledon, International Institute of Tropical Agriculture (IITA) from Africa RISING speaks at the event.

Developing a global ‘community of practice’ for sustainable intensification (SI) and the need to define indicators for measuring SI activities were highlighted at the cross-learning SI event hosted by Cereal Systems Initiative for South Asia (CSISA) on 28 January in New Delhi, India.

A group of 50 participants from USAID, the Bill & Melinda Gates Foundation (BMGF), Africa RISING, USAID’s Sustainable Intensification Innovation Lab, the Innovation Lab for Small-scale Irrigation, CIMMYT, the International Food Policy Research Institute, International Livestock Research Institute and International Rice Research Institute attended the event and shared perspectives on SI in African and South Asian contexts.

Applying principles of SI in mixed crop-livestock systems is key to achieving better food security and improved livelihoods, while minimizing negative impacts on the environment. The full-day program looked at the approaches taken by SI projects of CSISA and Africa RISING, collaborative research opportunities by the Sustainable Intensification Innovation Lab and the Innovation Lab for Small-scale Irrigation and the perspectives of donors who fund SI projects.

Andrew McDonald, CSISA Project Leader, outlines South Asia agricultural systems and the CSISA initiative.

“We need broad systems programs to make impacts truly happen,” said Thomas Lumpkin, Director General, CIMMYT, talking about CSISA’s cropping systems approach at the start of the event. He added, “We should get more value chains involved and look at regional and global levels to extract maximum value from our R4D projects.” Andrew McDonald, CSISA Project Leader, talked about the history and context of CSISA, highlighting its 10-year vision of success that aims to significantly increase the incomes and staple crop productivity of 6 million farm families by 2018.

Christian Witt, Senior Program Officer at BMGF, gave a brief overview of the Foundation’s global and regional strategies in SI, which highlighted significant investments in digital soil mapping in Africa and work with CIMMYT to merge soil data with agronomic research. “We are also enhancing communication within farming communities through informal methods. A good example is our partnership with Digital Green,” he added.

Christian Witt, Bill & Melinda Gates Foundation, talks about emerging agricultural R4D priorities at the foundation.

The event provided CSISA an opportunity to discuss its current status in India and Bangladesh and to outline the potential future direction of CSISA as a regional initiative, now that CSISA Phase II is being renewed. A series of presentations also outlined the project’s progress and emerging priorities in strategic agronomic, livestock, socio-economic and policy research and rice and wheat breeding.

Following the event, a group of 13 representatives accompanied members of CSISA’s leadership team on a tour of CSISA sites in Bihar and Odisha over the course of a week in January and February. The tour was designed to enable cross-learning among the flagship SI investments of USAID.

Scientists seal agreement to boost adaptability of wheat to climate change

Written by on December 9, 2014. Posted in Press releases.

climate change FOR IMMEDIATE RELEASE

Frankfurt, Germany – December 9, 2014 – Wild ancestral relatives of wheat will play a key role in fortifying the world’s food supply as climate change warms the planet, according to a team of top scientists.

Heat and drought are already a major cause of wheat yield losses in both developing and developed countries, a situation that scientists predict will worsen due to warmer temperatures and erratic rainfall patterns caused by global climate change. Some of the potential risks were demonstrated in 2003, when farmers in France lost nearly a quarter of their crop due to an unusually hot growing season.

More than 100 plant scientists from 22 major wheat-growing countries in the global south and north, met last week to discuss an ambitious international plan to incorporate the most advanced genetic technologies into traditional plant breeding to improve heat and drought tolerance of wheat.

“Not only are the livelihoods of farmers at risk from climate change, but people living in some of the world’s most vulnerable areas could see entire food supplies wiped out with increasing frequency if we don’t act quickly to boost the resilience of wheat to heat waves and more extreme periods of drought,” said Matthew Reynolds, a distinguished scientist at the International Maize and Wheat Improvement Center (CIMMYT), who co-organized the three-day Heat and Drought Wheat Improvement Consortium (HeDWIC) meeting.

“A new generation of plant screening and molecular technologies can speed up our capacity to transfer stress-tolerance traits into new wheat varieties. Wild relatives of wheat, which evolved in hot and dry places, will provide the crucial genes we need for crop improvement,” Reynolds added.

Findings in a report released earlier this year by the Intergovernmental Panel on Climate Change (IPCC) state it is very likely that heat waves will occur more often and last longer throughout the 21^st century and rainfall will be more unpredictable.

Mean surface temperatures could potentially rise by between 2 to 5 degrees Celsius or more, despite efforts to limit the global rise in temperature to 2 degrees Celsius, the report said.

Wheat – a major staple crop, which provides 20 percent of calories consumed worldwide and is an important source of protein especially for poor consumers– is expected to be subject to dramatic increases in temperature and more variable and extreme precipitation, particularly in tropical and semi-tropical regions.

“The risks to food security will be highest for people living in vulnerable parts of Africa and Asia, but will affect the disadvantaged and low-income communities in every country,” Reynolds said.

Adaptation can play a key role in reducing potential socio-economic shocks caused by climate change.

HeDWIC, launched in 2014 by the Global Agricultural Research Partnership (CGIAR) Research Program on Wheat, is a multi-disciplinary, 15- to 20-year global partnership serving as a vehicle for plant scientists to address these food security challenges. In its initial stages, it will be funded by the CGIAR Research Program on Wheat, and attract support from other public and private sector donors.

The meeting was organized by CIMMYT, CGIAR’s lead research center for wheat, part of a global coalition that includes CGIAR’s International Centre for Agricultural Research in the Dry Areas (ICARDA), and shares a mandate to deliver new wheat cultivars to resource-poor farmers. It was co-sponsored by Bayer CropScience, which has heavily invested in wheat breeding as part of its overall mission to provide agricultural technologies for professional farmers and growers.

Co-organizers of the event included the Julius Kuehn Institute (JKI), Germany’s Federal Research Centre for Cultivated Plants affiliated with the country’s Federal Ministry of Food and Agriculture, and the international public-private Wheat Initiative coalition.

“The meeting was a good example of the private and public sectors working together to solve a common problem,” said Hans Braun, director of CIMMYT’s Global Wheat Program.

“We’ve laid the foundations for a successful research venture that will help farmers and many of the world’s most marginalized people living in some of the most difficult environmental conditions. From here, we’ll produce a comprehensive road map,” he said.

Representatives from international development and science funding agencies also attended the three-day meeting

Contacts:

Matthew Reynolds
Distinguished Scientist
International Maize and Wheat Improvement Center (CIMMYT)
Email: m.reynolds@cgiar.org

Julie Mollins
Wheat Communications Officer
International Maize and Wheat Improvement Center (CIMMYT)
Telephone: +52 (55) 5804 2004
Email: j.mollins@cgiar.org

Address:
International Maize and Wheat Improvement Center (CIMMYT)
Km. 45 Carretera México Veracruz
El Batán, Texcoco
Estado de México, C.P. 56237

About the International Maize and Wheat Improvement Center (CIMMYT)
CIMMYT, headquartered in El Batan, Mexico, is the global leader in research for development in wheat and maize and wheat- and maize-based farming systems. CIMMYT works throughout the developing world with hundreds of partners to sustainably increase the productivity of maize and wheat systems to improve food security and livelihoods.

CIMMYT is a member of the CGIAR Consortium and leads the Consortium Research Programs on Wheat and Maize. CIMMYT receives support from national governments, foundations, development banks and other public and private agencies.
CIMMYT wheat research: http://staging.cimmyt.org/en/what-we-do/wheat-research
Additional links:

JKI: http://www.jki.bund.de/en

ICARDA: http://www.icarda.org/

CGIAR: http://www.cgiar.org/

Wheat: http://www.wheat.org

Bayer CropScience: http://www.cropscience.bayer.com/

Wheat Initiative: http://www.wheatinitiative.org/

IPCC: http://www.ipcc.ch

Wheat area expansion faces a headwind requiring increased spending on R&D to raise yields

Written by on October 9, 2014. Posted in Blogs.

Photo credit: Madan Raj Bhatta

#WheatMatters

Derek Byerlee is a visiting scholar at Stanford University.
Any views expressed are his own.

Over the last 50 years or so, the big increases in agricultural production have come through improved yields largely as a result of the Green Revolution.

From 1961 to 2011, per capita cereal production increased by 40 percent, while the amount of cropland per capita fell by half. In most regions, the total area of cropland has either reached a peak or declined. However, in three tropical regions, land expansion has been and still is a significant source of agricultural growth: Southeast Asia, tropical South America and sub-Saharan Africa.

Since 1990, wheat is the only major crop to experience an overall decline in area.

Looking to the future, how much land can be expected to come into production for cropping?

Currently, about 1,500 million hectares (Mha) of land is used for crops.

I project that additional demand for land will be 6 to 12 Mha each year for a total of 120 to 240 Mha increase from 2010 to 2030.

The higher projection allows a greater role for trade and thereby production by the lowest-cost producers who are often located in land-abundant countries.

These estimates are broadly in line with a synthesis by Erik Lambin & Patrick Meyfroidt who also include projections of the loss of land due to expansion of urban settlements and infrastructure as well as losses due to land degradation. Taking these losses into account, Tony Fischer provides an estimate of total additional gross cropland demand from 2010 to 2030 of 160 Mha to 340 Mha. Global models also suggest expansion of cropland to 2050 of about 300 Mha, given projected yield growth.

Is there enough land to satisfy demand? The Food and Agriculture Organization of the United Nations’s World Agriculture Towards 2030/2050 report estimates that some 1.4 billion hectares of currently uncultivated land that is not forested or in protected areas is suited to crop agriculture although they note that this is an optimistic estimate. A more conservative estimate of available land with at least moderate suitability for rainfed cultivation in low population-density areas – that is, non-forested, non-protected and with a population density of less than 25 people per square kilometer – is approximately 450 Mha.

At first glance, it would thus seem that projected demand for land (even under the scenarios of the higher demand estimates) over the next two decades can be accommodated by available uncultivated land.

However, most of this uncultivated land is concentrated in a few countries in Sub-Saharan Africa, Latin America, Eastern Europe and Central Asia and is often far from ports and roads.

A global analysis may also miss key constraints at the local level such as human diseases and unrecorded current land use that reduce effective land supply.

In addition, an expansion of land area of the order of 160 Mha (the lower-bound estimate of the estimated future land needs) could have significant biodiversity costs from conversion of natural ecosystems, even in the non-forested areas considered above.

Indeed, one of the sustainable development goals currently under discussion in international fora is to reduce deforestation to zero by 2030 – implying a closing of the land frontier. Finally with the exception of some areas in Russia, Ukraine and Kazakhstan, most of the available land is in the tropics and is unsuitable for wheat production.

Overall then, projections of future land availability for agriculture suggest a growing land scarcity, particularly for wheat, especially when taking into account that demand for food and feed will continue to rise with growing affluence in rapidly industrializing countries, as well as the use of land for biofuel feedstocks.

Growing scarcity together with high commodity prices have combined to stimulate global investor interest in farmland that underlies much of the recent discussion on intensification as a strategy to save land and concerns about a global ‘land grab’ by investors from land-scarce countries.

Wheat area is also being pushed out by other crops in many countries. Over the period 1993 to 2013, wheat area has fallen by 4.5 Mha, exceeded only by other winter cereals (barley, rye, and oats) that have collectively lost over 40 Mha.

During the same period, the area of oil crops (mostly soybeans, rapeseed and oil palm) has increased by an astonishing 100 Mha, maize by a hefty 53 Mha and rice by 20 Mha.

This year for example, North Dakota, a quintessential wheat-producing state in the United States, for the first time planted more soybeans than wheat.

In Argentina, soybeans rotated with maize have also displaced a significant wheat area, while in northern China, increasing maize area appears to be at the expense of spring wheat. Wheat area in the United States and China has fallen by 7 Mha and 6 Mha respectively since 1993. The major exceptions to these trends are India and Australia, where wheat area is up sharply.

All of this, of course, implies that increasing wheat yields will be especially critical to maintain its competitiveness and to save further land expansion into forests.

Norman Borlaug, the pioneer of the Green Revolution, long recognized that increased yields were not only essential to increasing global food security but also to saving forests.

This has now been enshrined in the environmental literature as the Borlaug Hypothesis. The real world is not so simple since there are situations where increasing yields may enhance crop profitability and encourage its expansion at the expense of forests. However, we found that just the CGIAR investment in germplasm is likely to have saved from 18-27 Mha of land from 1965-2000.

The bottom line is that increased spending on research and development (R&D) by national programs and CGIAR is a priority to achieving not only food security but confronting land scarcity.

None of the above considers the negative impacts of climate change, but a recent thoughtful analysis by David Lobell of Stanford University has shown that investing in R&D to adapt to climate change and maintain yields in the face of rising temperatures and increased drought is one of the most cost-effective ways to save forests and therefore mitigate climate change.

Surprisingly, wheat is the crop that faces the strongest headwind from both land scarcity and climate change. Wheat also appears to be grossly underfunded at the international level as measured by the budget provided to the WHEAT CRP – one of the lowest among the 15 CRPs. Tony Fischer, Honorary Research Fellow, at the Commonwealth Scientific and Industrial Research Organisation (CSIRO), in a companion piece has shown that there are many promising avenues to higher R&D spending, both to raise yield potential and close large yield gaps.

Interested in this subject? Find out more information here:

Alexandratos, N., & Bruinsma, J. (2012). World agriculture towards 2030/2050: the 2012 revision (No. 12-03, p. 4). Rome, FAO: ESA Working paper.

Borlaug, N. 2007. “Feeding a Hungry World.” Science 318(5849):359–359.

Deininger, K.W., and D. Byerlee. 2011. Rising Global Interest in Farmland: Can it Yield Sustainable and Equitable Benefits? Washington D.C.: World Bank Publications.

Fischer RA, Byerlee D, Edmeades GL. 2014. Crop Yields and Food Security: Will Yield Increase Continue to Feed the World? Canberra: Aust. Cent. Int. Agric. Res.

Lambin, E. F. 2012. Global land availability: Malthus versus Ricardo. Global Food Security. 1; 83-87.

Lobell, D.B., U.L.C. Baldos, and T.W. Hertel. 2013. “Climate Adaptation as Mitigation: the Case of Agricultural Investments.” Environmental Research Letters 8(1):015012.

Stevenson, J.R., N. Villoria, D. Byerlee, T. Kelley, and M. Maredia. 2013. “Green Revolution Research Saved an Estimated 18 to 27 Million Hectares from Being Brought into Agricultural Production.” Proceedings of the National Academy of Sciences. Available at: 10.1073/pnas.1208065110 [Accessed May 13, 2013].

Go back to: Wheat Matters

Overview of CGIAR Development Dialogues

Written by on September 9, 2014. Posted in News.

Overview of CGIAR Development Dialogues

The inaugural CGIAR Development Dialogues will focus attention on the vital role of agriculture, forestry, fisheries, landscapes and food systems in achieving sustainable development. The one-day event will be held at the Faculty House of Columbia University in New York City on 25 September. A by-invitation-only audience of some 300 will attend. Thousands more will be included online through live webcasting and social media channels.

Background

2014 marks an historic opportunity to communicate the importance of research on sustainable agriculture to stakeholders involved in the climate change and development policy processes. In Paris in December 2015, the 21^st Conference of the Parties of the UN Framework Convention on Climate Change (UNFCCC COP 21) will seek to agree on a successor to the Kyoto Protocol. In September of the same year, the UN hopes to forge a consensus and agreement on the creation of the Sustainable Development Goals (SDGs) and accompanying targets, in what UN Secretary General Ban Ki-moon has termed the post-2015 development framework and agenda. These two processes will help define the global development path of donors, civil society and policymakers in coming decades. Shaping, delivering and monitoring the targets set by these agreements will require not only new funding commitments but also the latest knowledge and innovations from the global research and academic community, in partnership with governments, civil society and the private sector.

Why CGIAR Development Dialogues?

The Dialogues present an opportunity to shape research and development for tomorrow’s food systems, landscapes and rural economy. The Dialogues are designed to influence policy and leverage the attention of world leaders, scientists, donors, media, civil society, the private sector, community groups and SDG negotiators on the vital role that agriculture, forestry, fisheries, landscapes and food systems play in sustainable development. The event offers an opportunity to forge a link between the experience of CGIAR, the Centers and CRPs and the implementation and achievement of the emerging SDGs. The event will take place in conjunction with the most important conversations on global development in recent years and will leverage the presence of key players at concurrent events.

Dialogue objectives:

Demonstrate the fundamental role of agriculture, forestry, fisheries, landscapes and food systems for achieving each of the emerging SDGs.
Highlight key areas of opportunities, including: improving livelihood opportunities for poor rural people; reducing risks in long-term food supply; improving nutrition; enhancing efficiency in food systems and renewable products’ value chains; investing in sustainable landscapes; conserving and wisely using biodiversity; and meeting the challenges of climate change.
Point to important gaps in knowledge and the need for public and private investments in research, outreach and capacity development.

Intended outcomes

Improved clarity for key decision makers on the importance of agriculture, forestry and fisheries landscapes and food systems in achieving the SDGs and climate agenda.
Raised profile for food systems and landscapes as cross-cutting issues.
Identification of research gaps to achieve the SDGs and targets under the climate agreement.
Commitments to investments in research and capacity development.
Strengthened partnerships with CGIAR.
Identification of key recommendations for further discussion and debate, to be delivered to the UNGA.

Panel

CIMMYT and the WHEAT and MAIZE CRPs were asked to develop one of the eight panels that will take place at the Development Dialogues. Other Centers and CRPs (IRRI, ILRI, ICRISAT, the Roots, Tubers and Bananas CRP) were also invited to help develop the panel. The topic that we are developing for the event is “Global food security for 9.6 billion people in 2050: What does agricultural research (including breeding for major crops) have to do with it?”

Panel summary

After identifying key by-2050 food security and rural development challenges related to major crop farming systems, the panelists will discuss how crop production and agricultural productivity can address those challenges and translate them into agricultural research priorities. Panelists will outline the role of publicly funded international agricultural research and that of the private sector research and development in addressing those priorities. Finally, the panelists will discuss where the funding should, or could come from.

Among the key points that will be made during the panel discussion:

Crop productivity increases (breeding and agronomy) currently do not keep pace with demand. This will lead to further food price increases.
Food price increases will delay efforts to reduce poverty, perpetuate malnutrition and be an incentive for further deforestation.
Demand for food will increase fastest in low- and middle-income countries.
Most production increases will need to come from the developing world where climate change impacts will also be the greatest.
Today’s investment in international agricultural research will determine technologies and know-how available to farmers in coming decades.

Panelists/Key Areas of Discussion

Raj Kumar, the president and editor-in-chief of Devex, will serve as the panel’s moderator. Dave Watson, manager of the MAIZE CRP, will lead the panel. Other panelists include: Timothy D. Searchinger, research scholar at the Woodrow Wilson School at Princeton University and senior fellow at the World Resources Institute; Rhoda Peace Tumusiime, African Union commissioner of Agriculture & Rural Development; and Natalie Rosenbloom, vice president of Sustainability & Signature Partnerships at Monsanto Corporation. Ashok Gulati, chair/professor of agriculture at the Indian Council for Research on International Economic Relations was also scheduled to be a panelist, but was just asked to serve on an Indian national commission that will be meeting at the same time. A substitute panelist may be added in the near-term.

Sustainable intensification (GCAP)

Written by on August 21, 2014. Posted in Features.

Go back to Conservation Agriculture

The primary purpose of the CIMMYT Global Conservation Agriculture Program (GCAP) is to co-develop sustainable intensification options for and with smallholder farmers in maize- and wheat-based farming systems in Latin America, Africa and Asia. Doing so contributes to CGIAR intermediate development outcomes on food security and poverty reduction. GCAP initially focused on conservation agriculture (CA) principles and high-quality, site-specific field agronomy research in a wide range of agro-ecosystems. Over the past few years, GCAP broadened its research portfolio in close collaboration with the CIMMYT Socio-Economics Program (SEP) to more holistically address sustainable intensification pathways and tackle adoption and adoptability of technical innovations.

In short, sustainable intensification of agriculture seeks to increase farming enterprises’ productivity in regard to land, water, labor and input productivity of farming enterprises in a socially equitable manner while preserving the natural resource base and the environment. This is easier said than done as the sustainable intensification paradigm requires understanding of the complex interactions (synergies and trade-offs) between bio-physical, environmental and socio-economic/market/policy factors at different scales/levels (field, farm, landscape, regions) in order to develop viable options in changing rural environments.

Not being ‘lost in, but dealing with complexity’ is GCAP staff members’ primary concern in order to achieve impact at scale and propose site- and farm-specific integrated adoptable solutions. This requires the use of systems research approaches and the development and use of conceptual frameworks. An example of this is the partnership with Wageningen University funded by the MAIZE and WHEAT CRPs.

Reaching impact at scale also requires strategic partnerships with a wide range of stakeholders – from advanced research institutions to government and private extension agencies, non-governmental organizations (NGOs) and the private sector. GCAP’s flagship projects in South Asia (CSISA), Africa (SIMLESA) and Mexico (MasAgro/TTF) were all designed specifically to use agricultural research for development (AR4D) to intensify farming systems. At the same time, these projects implement innovative approaches with effective methodological use of gender and innovation. A specific program to backstop gender and innovation in GCAP projects is led by the Royal Institute of the Tropics (KIT) of the Netherlands and funded by the MAIZE and WHEAT CRPs.

GCAP operates on the principles that technical innovations and scientific progress have great potential to help smallholder farmers when properly put in context. Therefore, a large part of the GCAP research portfolio is still focused on technical innovations and on the following themes:

Conservation agriculture and its contribution to sustainable intensification (i.e. the Nebraska Declaration).
Small-scale mechanization and labor saving technologies (i.e. the FACASI project).
Decision support tools (DSTs) for site-specific nutrient/water management and precision agriculture/remote sensing for smallholders farmers.
Effective use of information and communication technologies.

For more information, please contact: Bruno Gerard (b.gerard@cgiar.org)

Strategic research theme leaders for sustainable intensification:

In East and Southern Africa: Peter Craufurd (p.craufurd@cgiar.org)
In South Asia: Andrew McDonald (a.mcdonald@cgiar.org)
In Latin America: Bram Govaerts (b.govaerts@cgiar.org)