funder_partner: Australian Centre for International Agricultural Research (ACIAR)

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Crop model gives scientists a window on future farming in the Eastern Gangetic Plains

Written by on February 23, 2015. Posted in News.

In work to help farmers in South Asia tackle changing climates and markets through resilient and productive cropping systems, scientists are now using a leading and longstanding model, the Agricultural Production System Simulator (APSIM).

To foster better use of soil and water through conservation agriculture and other resource- conserving practices, the Sustainable and Resilient Farming System Intensification in the Eastern Gangetic Plains (SRFSI) project held an APSIM workshop for nine researchers from Bangladesh, India and Nepal at Bihar Agricultural University (BAU), Bihar, India during 27-29 January. The workshop was inaugurated by the Honourable Vice Chancellor, Dr. M.L. Choudhary, accompanied by Research Director Dr. Ravi Gopal Singh.

The Vice Chancellor of Bihar Agricultural University, Dr. M.L. Choudhary, opens the APSIM Exposure Workshop. L-R: Ms. Alison Laing (CSIRO), Dr. Don Gaydon (CSIRO), Mr. Ashraf Ali (CIMMYT-Bangladesh), Dr. Ravi Gopal Singh (BAU) and Dr. Choudhary. Photos: Alison Laing (CSIRO) and Ashraf Ali (CIMMYT). — The Vice Chancellor of Bihar Agricultural University, Dr. M.L. Choudhary, opens the APSIM Exposure Workshop. L-R: Ms. Alison Laing (CSIRO), Dr. Don Gaydon
(CSIRO), Mr. Ashraf Ali (CIMMYT-Bangladesh), Dr. Ravi Gopal Singh (BAU) and Dr. Choudhary. Photos: Alison Laing (CSIRO) and Ashraf Ali (CIMMYT).

“The aim was to introduce these colleagues to the model and help them explore its adaptation and use,” said Md. Ashraf Ali, CIMMYT scientist and manager of SRFSI, which was launched in 2014 and is funded by the Australian Centre for International Agricultural Research (ACIAR).

“Our research targets rice-based systems in eight districts across those three countries, where wheat is often a key part of the rotation and climate change is already constraining crop yields.”

– Mahesh Kumar Gathala

CIMMYT cropping systems agronomist

According to SRFSI lead scientist, Mahesh Kumar Gathala, a CIMMYT cropping systems agronomist based in Bangladesh, SERFI works in Bangladesh, SERFI works in northwestern Bangladesh, West Bengal and Bihar in India, and the eastern Terai region of Nepal. “Our research targets rice-based systems in eight districts across those three countries, where wheat is often a key part of the rotation and climate change is already constraining crop yields.”

Ved Prakash (L) and Swaraj Dutta (R) work on modeling exercises.

One response to climate change – conservation agriculture – involves a complex, knowledge-intensive suite of practices including reduced tillage, keeping crop residues on the soil surface and careful use of rotations. A model like APSIM can speed the design and adoption of approaches tailored to specific locations, Singh explained. “But to provide reliable results, the model has to be adapted for the soil, climate and other conditions of each area,” he said.

Led by Don Gaydon and Alison Laing from Australia’s Commonwealth Scientific and Industrial Research Organisation (CSIRO) and with practical assistance from Dr. Sanjay Kumar, BAU, and Ali, the course provided theory and practice on the APSIM user interface and how to manage data on soils, weather and soil dynamics such as residue decomposition and moisture levels. “We also looked at how to model direct-seeded rice and wheat crops, long-term crop rotations and cropping simulations under climate-change,” Ali said.

Once assembled, a project modelling team with members from Bangladesh, India, Nepal and CSIRO will identify relevant parameters, calibrate the model and test it for diverse locations. Ultimately they will analyze scenarios for diverse crop management options, both current and proposed.

“With APSIM we can virtually ‘extend’ SRFSI field trials into the future by twenty years or more, gaining insight on long-term system variability,” Gathala said. “We can also explore likely impacts of the region-wide outscaling of new management options from one farm or village, including effects of different options on sustainability or greenhouse gas emissions, which can be difficult or expensive to measure in the field.”

Ved Prakash (L) and Swaraj Dutta (R) work on modeling exercises.

CIMMYT prepares to launch second phase of SIMLESA in Kenya and Tanzania

Written by on October 30, 2014. Posted in News.

Dr. Fidelis Myaka, director of research and development with the Tanzanian Ministry of Agriculture, Food and Cooperatives, officially opens the meeting in Arusha, Tanzania.

Representatives from the Australian Center for International Agricultural Research (ACIAR), Queensland Alliance for Agricultural and Food Innovation (QAAFI), the International Center for Tropical Agriculture (CIAT), the national agricultural research systems (NARS) of Kenya and Tanzania, and CIMMYT scientists from Ethiopia, Kenya and Zimbabwe met between 14-17 October in Arusha, Tanzania, to finalize activities to meet the objectives of the second phase of CIMMYT’s Sustainable Intensification of Maize-Legume Cropping Systems for Food Security in Eastern and Southern Africa (SIMLESA) project.

The joint meeting for the Kenya and Tanzania country teams was the third and last launch and planning meeting. It was also a follow-up of two previous operational meetings held in Lilongwe, Malawi, and Hawassa, Ethiopia.

Scale-appropriate mechanization: the intercontinental connection

Written by on October 26, 2014. Posted in Features.

CIMMYT aims to improve the livelihoods of poor farmers in the developing world by providing practical solutions for more efficient and sustainable farming. Among the options to improve efficiency, scale-appropriate and precise planting machinery is a crucial yet rarely satisfied need.

Mechanization efforts are ongoing across CIMMYT’s projects, with a strong focus on capacity building of functional small- and medium-scale engineering and manufacturing enterprises. Projects involved include ‘Farm Power and Conservation Agriculture for Sustainable Intensification’ in eastern and southern Africa, funded by the Australian Center for International AgriculturalResearch (ACIAR) and the Cereal Systems Initiative in South Asia (CSISA), funded by the Bill & Melinda Gates Foundation and USAID. CSISA collaborates closely with the machinery research and development work done on the farms of the Borlaug Institute for South Asia in India, CIMMYT conservation agriculture (CA) projects funded by the Australian Centre for International Agricultural Research, the Agri-Machinery Program based in Yinchuan, Ningxia, China, and the MasAgro Take It to the Farmer machinery and intelligent mechanization unit based in Mexico.

Applied research scientists and technicians assisting these projects work specifically to tackle problems in diverse farming conditions and for varying production systems. Despite their geographically diverse target areas, this team strives to reach a common focal point from which they can learn and compare technical advancements. These advancements are achieved through mutual machine technology testing programs, exchanging machines and expertise and evaluations of best solutions for scale-appropriate mechanization to boost sustainable intensification for resource poor farmers.

Recently, this collaboration model led to the export of several units of a toolbar-based, two-wheel tractor implement for bed shaping, direct seeding of different crops and precise fertilizer application. They will be tested by CIMMYT projects in Bangladesh, Ethiopia and Nepal. This multi-purpose, multi-crop equipment was developed to be CA-compatible and has been fine-tuned in Mexico, with design priorities that kept in mind the implement’s usefulness for smallholder farmers in other parts of the world. The machinery will be tested next in Zimbabwe and possibly India and Pakistan.

The team’s goal is to help developing countries and viable business models of local enterprises in specific regions to have access to good quality implements and tools at reasonable prices. This open-source prototyping strategy is based on the free sharing of technical designs and machinery construction plans. The strategy combines patent-free, lowcost replication blueprints of promising technologies with strong agronomical testing as the ultimate ‘make or break’ criterion. This crucial interaction sets CIMMYT’s engineering platforms apart from commercial options that determine research and development priorities based mainly on sales projections and marketing objectives.

The mechanization team strongly believes in the power of cross regional collaboration – a multidisciplinary work environment, connected intercontinentally with social stewardship and the potential to bring transformative changes to farmers’ fields across the developing world.

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

Will yield increases continue to feed the world? The case for wheat

Written by on September 25, 2014. Posted in Blogs.

Tony Fisher is Plant Industry Honorary Fellow with the Commonwealth Scientific and Industrial Research Organization (CSIRO). Any opinions expressed are his own

The release of the bread wheat variety Borlaug100 earlier this year in the irrigated Yaqui Valley of northwest Mexico was both apt and reassuring.

The 100th anniversary of the late scientist Norman Borlaug’s birth was also celebrated in 2014. The performance of his namesake wheat variety represented a notable jump in potential yield, lifting bread wheat up to the potential of the best durum wheat variety, currently dominant in the valley.

Borlaug, who is credited with saving more than 1 billion lives, was awarded the Nobel Peace Prize in 1970 for his work at the International Maize and Wheat Improvement Center (CIMMYT) and its predecessor organization, the Office of Special Studies, where he began breeding wheat in the 1940s. Scientist Sanjaya Rajaram took over leadership of breeding in 1972, followed by Maarten van Ginkel in 1995, and Ravi Singh as breeder for irrigated areas in 2005. Between 1950 and 2014, potential yield of the approximately 160,000 hectares (400,000 acres) of wheat in the valley increased from about 5 metric tons (5.5 tons) per hectare to 9 metric tons per hectare, while farm yield rose five-fold, from 1.3 metric tons per hectare to 6.5 metric tons per hectare as varieties and agronomic management improved hand in hand.

These technologies have also had an impact on many developing countries with similar or related wheat agro-ecologies.

Many people are quick to point out that yield is not everything in global food security, that other issues are also important, including grain nutritive value, yield stability in the face of pests and diseases, crop input requirements, and more broadly, access of the poor to food (income and price), diversion of grain to animal feed and biofuel, and losses due to wastage.

However, nutritive value of the staples has not greatly changed, nor have yields become less stable, while input use per kilogram of grain produced has decreased, so that none of those issues are as fundamental to food security as farm yield increase.

Indeed yield increase has contributed more than 80 percent of the huge global consumption increase over the last 50 years (incidentally supplying of the burgeoning world population with more calories per capita). The increase in arable land area contributed only about half of the remaining supply increase, since cropping intensity (crops per year per hectare of arable land) also increased. This yield increase has saved vast areas of land from the plow. It is for these reasons that the subtitle of my recent book, Crop yields and global food security: will yield increase continue to feed the world?, asks whether yield increase will continue to feed the world.

While the book looked at past and prospective farm yield change across many crops, here space permits only a brief look at the global wheat yield situation.

The importance of wheat as a food calorie and protein source has already been pointed out in this “Wheat Matters” series of blogs: suffice to say wheat, being produced equally in developing and developed countries, is the top global source of calories (rice is actually the top source for poor consumers) and the top traded food grain, a position it is unlikely to lose.

Estimates of wheat-demand increase from 2010 to 2050 vary considerably: if prices are to be kept no greater than 2010 average real prices, I estimate a supply increase of about 50 percent is needed. Thus production needs to grow at 1.25 percent a year linear relative to the 2010 yield in order to meet estimated demand growth, but currently world wheat yield is growing at only 1 percent a year (relative to the 2010 trend yield of 3.0 metric tons per hectare).

While the potential yield of wheat has been lifted remarkably by breeding, as was seen in the example above, current rates of potential yield progress have slowed, averaging only 0.6 percent a year (range 0.3 to 1.1 percent) across 12 case studies around the world.

Experience suggests that the newest varieties are adopted relatively quickly by farmers and should as a consequence lift farm yield by about the same relative amount (i.e. 0.6 percent a year).

A separate source of progress in farm yield comes from farmers adopting new management practices, which close the gap between farm and potential yield. Actually, the current gap averaged only 48 percent (of farm yield itself), ranging from 23 percent to 69 percent across the case studies, with little difference between developing and developed countries, or irrigated and rainfed environments.

Interested in this subject? Find out more information here:

Fischer R.A., Byerlee D. and Edmeades G.O. 2014. Crop yields and global food security: will yield increase continue to feed the world? ACIAR Monograph No. 158. The Australian Centre for International Agricultural Research: Canberra. Access at http://aciar.gov.au/publication/mn158

Since the minimum yield gap, due to considerations of costs and risk, is around 30 percent (of farm yield), the scope for further yield gap closing is more limited in wheat than in the other major cereals, which, in contrast to wheat, showed many larger yield gaps, especially in developing countries.

Besides, the gap-causing constraints in the cases of wheat are generally multiple, related to small deficiencies in soil fertility, weeds and disease management and in the timing of operations. This puts special pressure in the case of wheat on lifting potential yield progress, and justifies substantial increases in research in this area. There is certainly no sign that a biological limit in wheat potential yield has been reached, and several new tools and strategies of sufficient promise are available to justify such investment.

Finally, although increasing carbon dioxide is probably lifting both potential and farm yields of wheat about 0.2 percent a year, it is suggested that out to 2050, this will be cancelled by the negative effect of mean temperature increase, which is now becoming more evident.

Boosting productivity of smallholder farms in Nepal, India and Bangladesh

Written by on July 18, 2014. Posted in News.

By Mahesh Gathala, TP Tiwari, Pat Wall/CIMMYT

CIMMYT will lead a new research initiative to make agriculture more productive, profitable and sustainable for smallholder farmers in the Eastern Gangetic Plains (EGP) of Nepal, Bangladesh and India.
Launched in Dhulikhel, Nepal, on 4 July, the five-year US$6.8 million regional research initiative, Sustainable and Resilient Farming Systems Intensification in the Eastern Gangetic Plains (SRFSI), will tap the agricultural potential of the area and target 7,000 farmers to test and adopt appropriate new technology and farming approaches.

The program, funded by the Australian Centre for International Agricultural Research (ACIAR), will operate in eight districts: two in northwest Bangladesh, two in the eastern Terai of Nepal and two each in the Indian states of Bihar and West Bengal.

The three-day Inception and Planning Meeting that launched the program was attended by 84 participants from Australia, Bangladesh, India, Mexico and Nepal. SRFSI is managed by CIMMYT on behalf of multiple partners including the national research and extension systems of Bangladesh, India and Nepal, Indian and Australian universities, national and international nongovernmental organizations, the Commonwealth Scientific and Industrial Research Organisation of Australia and four CGIAR Centers (CIMMYT, the International Rice Research Institute, the International Food Policy Research Institute and the International Water Management Institute).

The project was officially initiated by the Australian Ambassador to Nepal, Glenn White, together with the Executive Director of the Nepal Agricultural Research Council (NARC), Dr. Dil Bahadur Gurung; the Joint Secretary of the Nepal Ministry of Agricultural Development, Dr. Rajendra Prasad Adhikari; Dr. Claire Glendenning of the Australian Department of Foreign Affair and Trade; and Dr. John Dixon, principal adviser for ACIAR.

“This initiative will help to raise agricultural productivity in a region which has the potential to become one of Asia’s great food bowls,” White told the gathering of scientists and development practitioners.

The EGP is home to some 300 million people, with the world’s highest concentration of rural poverty and a strong dependence on agriculture for food security and livelihoods. The region is dominated by small farms with many female farmers who have little access to credit, quality seeds, fertilizers, irrigation or formal extension services. They also have to contend with climate-related risks and extreme events such as floods, drought and cold snaps.

“This program will allow farmers to test a range of innovations to help them boost food production, including conservation agriculture and efficient use of water resources, while strengthening their ability to adapt and link to markets and support services,” White said. “Our aim is to enable at least 130,000 farmers to adopt these technologies within the next 10 years.”

Gurung and Adhikari lauded the long-term partnership between CIMMYT and Nepal, as well as the ACIAR support of this project, and assured that the Ministry will extend its full support.

Key Objectives of the SRFSI

The Eastern Gangetic Plains region has the potential to become a major contributor to South Asian regional food security, but rice and wheat productivity remain low and diversification is limited because of poorly developed markets, sparse agricultural knowledge and service networks, and inadequate development of available water resources and sustainable production practices. Labor shortages – mainly during sowing and harvesting – are becoming more acute. These factors lead to smallholder vulnerability to climate and market risks that limit investments in new technologies.

SRFSI will undertake several high-priority activities to reduce these factors:

• Improving farmers’ access to inputs, services and market information in order to reduce the risk associated with adopting new practices.

• Removing policy barriers to technology adoption.

• Analyzing the appropriateness of technologies, service provider models, markets and policies for women farmers, and adjusting them where necessary, to help ensure food security and gender equity in the region.

• Developing new knowledge among farmers, researchers, extension and change agents, service providers, agro-dealers and others involved in agriculture. This has been identified as the key to achieving widespread adoption of new technologies and reductions in poverty in the EGP.

• Investing heavily in capacity building at multiple levels, from field days to short courses to linkages with advanced research institutions. Ultimately the project focal communities, where all aspects of the project activities are put into place to achieve the desired change, will become demonstration or learning sites for institutions or individuals interested in agricultural development, where they can observe the technological changes and talk with farmers and farmer organizations about the importance of the different components of the project in bringing about agriculture change.

SIMLESA Phase II up and running

Written by on July 18, 2014. Posted in News.

By Gift Mashango and Mekuria Mulugetta

Members of the project management committee discussed SIMLESA’s second phase during a 1 July planning meeting in Addis Ababa.

Phase II of the Sustainable Intensification of Maize-Legume Systems for Food Security in Eastern and Southern Africa project (SIMLESA) began 1-4 July with a series of planning meetings in Addis Ababa, Ethiopia. SIMLESA-II is a five-year project funded by the Australian Centre for International Agricultural Research (ACIAR).

Members of the project management committee (PMC) met on 1 July to ensure that management and implementing partners have a common understanding of project objectives, targets, milestones, indicators and the assignment of coordination responsibilities. The PMC includes Olaf Erenstein, director of the Socio-economics Program; Bruno Gérard, director of the Conservation Agriculture Program; Mekuria Mulugetta, SIMLESA project coordinator; Daniel Rodriguez of the Queensland Alliance for Agricultural and Food Innovation; and Peter Craufurd, SIMLESA strategy leader.

Based on lessons learned from SIMLESA’s first phase, the PMC adjusted the design of activities, timelines and strategies for scaling out SIMLESA practices to farmers. One recommendation was to assign a coordinator to each of SIMLESA’s four objectives: Paswel Marenya for objective one, Isaiah Nyagumbo for objective two, Peter Setimela for objective three and Michael Misiko for objective four. The PMC noted that during the first phase, research scientists were operating in silos, and they urged the scientists to work as a team since the project objectives and activities are more closely linked in the second phase.

Olaf Erenstein, director of CIMMYT’s Socio-economics Program, addressed CIMMYT scientists, SIMLESA national coordinators and partners during a SIMLESA planning meeting.

The PMC also appointed a committee to spearhead the selection of partners for competitive grants in each country. The committee will consist of the national coordinator for each of the five target countries, an ACIAR representative, a project steering committee member, the objective four leaders and a PMC member. The two new partners, the International Livestock Research Institute and the International Center for Tropical Agriculture, are responsible for forage- and soil science-related activities, respectively.

A joint meeting with SIMLESA country coordinators was held on 3-4 July. The coordinators gave presentations on achievements of the first phase and lessons learned, plus the challenges and strategic plan for the second phase. Planned project activities for the second phase are not homogeneous across the SIMLESA countries; they are guided by the country’s priorities, the amount of support that will be required and the opportunities for scaling out. Discussion centered on strategies to scale out new technologies to more than 650,000 small-scale farmers by 2023.

At the end of the meeting, all participants agreed on an implantation plan that will be further refined at the national level during country-specific planning and review meetings.

Farmers in southern Africa reap benefits of conservation agriculture

Written by on July 1, 2014. Posted in News.

CIMMYT’S Global Conservation Agriculture Program Manager, Irene Christiansen, received a first-hand look at the benefits and challenges of practicing conservation agriculture (CA) in southern Africa during a 9-13 June visit to the region.

Irene Chakoma of ILRI explains how livestock feeding trials have helped demonstrate the value of fodder crops to farmers.

On the first day, she met with scientists in the CIMMYT Southern Africa Regional Office and the country liaison officer, Dr. Mekuria Mulugetta. The scientists gave formal presentations of their key activities and how these are linked to GCAP activities in the region. The remainder of the week was enriched by site visits to project areas and partner meetings.

One of the highlights was a visit to the Integrating Crops and Livestock for Improved Food Security and Livelihoods in Rural Zimbabwe (ZimCLIFS) project, which is funded by the Australian Centre for International Agricultural Research. The project is joined by the International Livestock Research Institute (ILRI), CIMMYT, and the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT).

“Our work under conservation agriculture is focused on three aspects – food, feed and soil fertility management,” explained cropping systems agronomist Isaiah Nyagumbo. Christiansen met farmers who are testing different maize-legume systems, including fodder legumes. “The use of velvet beans and lablab as supplementary feed for livestock during the dry season is proving to be very popular among farmers,” said Irene Chakoma of the International Livestock Research Institute.

Another group of farmers, who are implementing ZimCLIFS trials in Goromonzi District, said they have benefited from learning new farming techniques such as growing grain and forage legumes for soil fertility improvement, growing crops for fodder and preparing hay bales from forage crops. One challenge they face is keeping maize residue on the fields, a key component of CA. Because of communal grazing, they said, most of the maize residue is eaten by livestock, leaving thatch grass species as the main source of residue for soil cover. “Residue application is the most labordemanding task for us when practicing CA, as it involves fetching grass from our field boundaries and from fields that are farther away,” one said.

To address this challenge, ZimCLIFS is testing the potential of using biomass from unpalatable legumes such as fish bean and common rattlepot. Finding innovative solutions to smallholder farmers’ problems is a key component of the program. “We are also testing the effects of different residue types in CA such as maize residues, grass and leaf litter and their interaction with nitrogen management in trials implemented in the 11 wards across Goromonzi and Murehwa districts,” reported cropping systems agronomist Walter Mupangwa.

Later in the week Christiansen visited a site near Bindura, Mashonaland Central, where farmers have been implementing CA with a CIMMYT team led by cropping systems agronomist Christian Thierfelder for the last 10 years. Farmers in the Pindukai Valley explained that they stopped using plows in all their operations after realizing the benefits of minimum soil disturbance. Using a direct seeder or ripper allows them to plant their fields in one-quarter of the time it would take to plow the heavy soils.

Farmers also use herbicides for weed control, which makes CA very attractive to them. “We arrived in 1987 at this farm with 16 families and have now grown to 56 families. None of us is currently using a plow except for some tobacco growers,” said farmer Hendrixius Zvamarima during discussions.

Another farmer said the long-term intervention “changed our way of agriculture completely.” Christiansen then enjoyed lunch with farmers in the field, testing local chicken with sadza (maize porridge) and muriwo (rape leaves). Wrap-up discussions with the GCAP team focused on developing new strategies to bridge funding gaps when projects end to ensure continuity with stakeholders. Christiansen added examples from her own experience in Tanzania and stressed the need to involve the private sector in GCAP activities.

The visit was a great success for everybody involved, as Christiansen saw first-hand the work of GCAP scientists in the region, while the scientists used the opportunity to highlight challenges with current funding and support needed in future work.

Hidden factors contribute to food insecurity in female-headed households

Written by on July 1, 2014. Posted in News.

By Florence Sipalla/CIMMYT

Results of a survey conducted by the Adoption Pathways (AP) project indicate that even when male-headed and female-headed households have the same resources, the latter are still less food-secure. This difference could be attributed to unreported social exclusion, discrimination and access to credit facilities which the researchers will explore further through group discussions and using repeated observations (panel data) with the farmers.

ACIAR donor representatives at Egerton University.

“Equal access to inputs, human capital, resources and institutional services may not close the gender food security gap,” said Menale Kassie, CIMMYT socioeconomist and the AP project leader. “The quality of information extension workers are providing to female farmers could be different.” Kassie presented research results of a survey conducted in Ethiopia, Kenya, Malawi, Mozambique and Tanzania to donor representatives from the Australian Centre for International Agricultural Research (ACIAR) led by Nick Austin, the chief executive officer, and Mellissa Wood, director of the Australian International Food Security Research Centre (AIFSRC) at Egerton University in Njoro, Kenya.

Farmers who adopt a suite of conservation agriculture (CA) technologies get the best returns. “If farmers combine technologies, the income they generate is much higher,” Kassie said. “Farmers who adopted a combination of sustainable intensification practices (SIPs) such as crop rotation, minimum tillage and improved maize seed had the highest returns.” Survey results from Tanzania also show that adoption of improved varieties improves the food security status of food-insecure households.

The results also shed light on the spill-over effects of SIP adoption, risk of crop failure and the cost of risk reduction. The AP project is compiling detailed gender-disaggregated data to study causes of food insecurity and technology gaps. “This data set is cross-cutting and will be used by stakeholders beyond the project partners,” Kassie said. “We are bringing students on board to increase research productivity.”

From right: Donor representatives ACIAR CEO Nick Austin, AIFSRC director Mellissa Wood and Australian High Commission’s Paul Greener listen to Egerton University

Wilcyster Nyateko, a master’s student at Egerton University using AP data and working under the supervision of Professor Gideon Obare, presented her research proposal “Determinants of diffusion of agro-innovation amongst smallholder farmers in Eastern and Western Kenya” to the donor delegation. “The AP data helped to widen my perspectives,” said Nyateko, who is going to include variables such as plot characteristics, tenure and distance of the plot from the household and market in her analysis based on the feedback she received. Other stakeholders who will have access to the panel data include Egerton University’s policy thinktank, Tegemeo Institute. “This is a fascinating data set,” Austin said after the presentation.

The project has contributed to capacity building of partners and young economists who have participated in data collection. “The project also provided employment opportunities to the enumerators,” Kassie said. The project has produced 15 publications and seven policy briefs and presented research results in various international forums. “Some of the challenges encountered include attrition problems such as spouses working in distant places and who are not able to participate in the survey or families included in the original sample who had migrated to other villages.”

AP plans to produce more empirical outputs using the panel data, build the capacity of partners and share the research outputs with key stakeholders (e.g. policymakers, development partners, researchers and farmers). “The key challenge is taking research products to these stakeholders; doing so requires more resources and time, beyond the project period,” Kassie said. The donors also paid a courtesy call to the Egerton University leadership where they were hosted by Professor Rose Mwonya, the deputy vice chancellor of academic affairs, and Professor John Mwangi, who gave them an overview of the university and its involvement in the AP project.

First SRFSI strategic planning meeting

Written by on June 24, 2014. Posted in News.

By Mahesh Gathala and Pat Wall/CIMMYT

A new project designed to improve farming systems in Bangladesh, India and Nepal kicked off work with a strategic planning meeting 19-21 May in New Delhi.

The Sustainable and Resilient Farming System Intensification (SRFSI) project, funded by the Australian Centre for International Agricultural Research (ACIAR), is scheduled to run for 50 months and will focus on the heavily populated Eastern Gangetic Plains, home to some 300 million people and the world’s highest concentration of rural poverty. Together with farmers – especially women farmers – project staff will develop more intensive, sustainable and resilient farming systems by incorporating conservation agriculture (CA) and strategic supplementary irrigation into the current farming systems. The changes allowed by these two practices will permit more timely planting of the main cereal crops – rice, maize and wheat – increasing yield and allowing for a third crop to be sown between the main winter crop and summer rice. Supplementary irrigation will help ensure timely planting and act as a buffer against mid-season droughts, predicted to become more frequent with the advance of climate variability.

The project also calls for crop and system modeling to aid the development of farmer decision support tools, frequent farmer discussions and consultations, support and training of local service providers and agricultural dealers and farmer-to-farmer information exchange.

The strategic planning meeting set the stage for summer field work in Bangladesh, India and Nepal. Photo: Mahesh K Gathala

The meeting opened with an introduction to the program and background information from Dr. John Dixon, the ACIAR principal advisor responsible for SRFSI and a former director of CIMMYT’S Impact and Assessment (Socio-economics) Program, and Dr. Mahesh Gathala, a CIMMYT cropping systems agronomist and leader of the SRFSI project. Partners from the region then presented results from pre-project activities, including reports of field research in Bangladesh and West Bengal, and studies on the hydrology of the communities where the project will be based. Dr. Rasheed Sulaiman discussed a survey of potential partners for the innovation systems developed in the project.

With this background, workshop attendees began to focus on planning the field work for the coming summer season. Gathala and Andy McDonald presented a view of the researchable issues common to the project areas, followed by presentations from longtime CIMMYT partners in the region on opportunities for change. Based on these presentations, Gathala and Pat Wall, former director of CIMMYT’s Global Conservation Agriculture Program who has been involved in the development of the SRFSI project, developed and proposed a core research program for the coming season based on direct seeding and/or direct transplanting of rice (a key strategy to reach CA systems), strategic supplementary irrigation of the rice crop and short-season rice varieties, all of which will enable timely harvest of the rice crop and allow for seeding of the winter crops at the optimum time. This plan will be discussed and refined with partners in separate country planning workshops.

Initially the SRFSI was to include a large component of technology out-scaling (commonly called extension), but ACIAR decided to make out-scaling the focus of a separate but associated project. Dixon discussed current thinking on the phases of technology generation, out-scaling, adoption and impact, followed by interesting and enlightening presentations on successful projects linking agribusiness and small farmers to achieve technology adoption from Sanjeev Asthana and N. Sai Krishna of the National Skills Foundation of India, Srivalli Krishnan of USAID and Madan Pariyar of the SRFSI partner organization, iDE. A framework for the project will now be developed and this will be the focus of discussion at the next planning workshop set for 6-7 July in Kathmandu, Nepal.

Workshop gives agronomists tips on writing for scientific journals

Written by on June 23, 2014. Posted in News.

By Isaiah Nyagumbo/CIMMYT

Agronomy scientists got practical, hands-on advice on translating their research data into credible scientific publications during a five-day workshop in Harare, Zimbabwe.

The 13 scientists have been conducting research for the past four years addressing sustainable intensification in Africa using conservation agriculture and improved maize and legume varieties as part of the SIMLESA program, funded by the Australian Centre for International Agricultural Research. The goal of the workshop was to help them accelerate production of publications based on their research.

Participants met with biometricians one-on-one to discuss the data and experiments they wanted to analyze, and the outputs of the statistical analyses for each data set were shared in feedback sessions. Feyissa Mekonnen, data manager for CIMMYT’s Global Conservation Agriculture Program and Socioeconomics Program, assisted with the analysis of the data, which was collected under objective 2 during phase 1 of SIMLESA. In the final session, participants received some hints on how to present statistical results in scientific publications.

Dr. Mulugetta Mekuria, the SIMLESA program coordinator, emphasized the need to transform research data into scientific publications in peer-reviewed journals for the benefit of the scientific and development communities. All the participants confirmed to Dr. Mekuria that they would complete draft papers by the end of July.

Agronomy scientists from Ethiopia, Kenya, Malawai, Mozambique and Zimbabwe trained with biometricians and data analysts. Photo: CIMMYT

The workshop, held 26-31 May, was attended by scientists from Ethiopia, Kenya, Malawi, Mozambique and Zimbabwe, organized by regional CIMMYT scientists Dr. Fred Kanampiu and Dr. Isaiah Nyagumbo and facilitated by five biometricians from the Agricultural Research Council of South Africa led by Yolisa Pakela-Jezille. It ended with a social event for participants and CIMMYT staff where Dr. Mekuria bid farewell to Dr. Kanampiu, who will be leaving CIMMYT at the end of July after 17 years.

Afghan researchers learn the essentials of wheat rust management

Written by on June 10, 2014. Posted in News.

By Rajiv Sharma/CIMMYT

Wheat has been receiving a lot of attention ever since new races of destructive fungi emerged, threatening the world’s second most important food crop. The onslaught of stem rust race Ug99 taught researchers and farmers how to use fungicides to control wheat rusts; meanwhile, new races of yellow rust continue to appear, keeping researchers on their toes to offer usable, economical solutions to farmers.

Afghanistan grows wheat on about 2.5 million hectares and has about 20 wheat varieties in its seed chain. Most of them are rust-resistant, but varieties keep losing resistance, while new varieties are added to the seed chain. Since it is not possible to take a newly susceptible variety out of cultivation and out of the seed chain immediately, an integrated rust management strategy must be in place to protect farmers’ interests.

To help develop such a strategy, CIMMYT-Afghanistan joined the country’s Ministry of Agriculture, Irrigation and Livestock (MAIL), the Afghan government and the Agricultural Research Institute of Afghanistan (ARIA) to host a two-day training on “Wheat Rust Management” at the MAIL campus on 6-7 May. The training was conducted by Dr. Ruth Wanyera, principal scientist from the Kenya Agricultural Research Institute, and attended by 47 experts from ARIA, MAIL, the Japan International Cooperation Agency (JICA), the Agriculture Input Project (AIP) of the World Bank, the International Center for Agricultural Research in the Dry Areas (ICARDA), Kabul University and the Australian Centre for International Agricultural Research (ACIAR).

Hashim Azmatyar, acting director of ARIA, stressed that chemical control of rusts is sometimes necessary in cases where virulent races suddenly appear. Dr. Rajiv Sharma, CIMMYT country representative for Afghanistan, exhorted MAIL officials to take urgent steps to remove susceptible varieties from Afghanistan’s seed chain.

The training also covered an introduction to rusts and their scoring, integrated rust management and the evolution of new races. Wanyera delivered a special lecture on how Kenya and the region collaborated with CIMMYT and responded to the Ug99 threat to safeguard the interests of affected farmers. She discussed at length the use of fungicides in managing rusts and shared the African experience on how chemicals offered an economically feasible solution when genetic resistance was not available.

Crop yields and global food security: will yield increase continue to feed the world?

Written by on June 3, 2014. Posted in Features.

By Tony Fischer (Honorary Research Fellow, CSIRO Plant Industry, Canberra, ACT, Australia), Derek Byerlee (Independent Researcher, Washington, DC, USA), Greg Edmeades (Independent Consultant, Cambridge, New Zealand) Monograph No. 158 (2014) of the Australian Centre for International Agricultural Research (ACIAR)

Co-authored by three former CIMMYT scientists and officially released at the recent Borlaug Summit on Wheat for Food Security, this book concludes that further, sustainable intensification of agriculture can produce enough food to meet the demand of a growing world population to 2050. Achieving this will require greater effort and investment in agricultural research, development and extension, especially in the developing world.

Moreover, the increased-but-efficient (i.e., environmentally friendly) use of inputs will challenge scientists and farmers alike, particularly in high-potential, high-input environments. The authors focus on the major grains maize, rice, soybean and wheat, but touch briefly upon 20 or so other crops. They see special potential in Sub-Saharan Africa, where intensification has barely begun and there is large scope for closing the “yield gap” – the difference between farmers’ yields and those obtained on research stations.

The three authors coincided at CIMMYT in the late 1980s-early 1990s and afterward continued eminent careers in agricultural research for development. Byerlee headed socioeconomics research at CIMMYT and later led the team at the World Bank that produced the agency’s influential 2008 World Development Report Agriculture for Development. Edmeades coordinated maize physiology research at CIMMYT and, notably, studies on drought and low-nitrogen tolerance whose principles were applied to develop maize varieties that benefit an estimated 3 million households in Sub-Saharan Africa.

A wheat physiologist, Fischer served as leader of CIMMYT’s global wheat program and subsequently as a program manager in crops and soils at ACIAR in Canberra, Australia. His research publications are widely cited, he has received numerous science and development awards and, in 2007, he was elected a Member of the Order of Australia. To download or order copies of the book, click here.

Adoption Pathways project strengthens partnership with Kenya’s Egerton University

Written by on May 30, 2014. Posted in News.

By Florence Sipalla/CIMMYT

CIMMYT and Kenya’s Egerton University have agreed to strengthen their research collaboration, policy formulation and data sharing and to engage more graduate students in data analysis as part of the Adoption Pathways (AP) project. “This will accelerate the use of data sets to quickly produce products,” said Menale Kassie, CIMMYT socioeconomist, who is also the AP project leader.

Through AP, CIMMYT is partnering with universities in Ethiopia, Kenya, Malawi, Mozambique and Tanzania to identify the incentives and constraints to farmers’ adoption of new techniques in maize-legume systems. The project is funded by the Australian International Food Security Research Centre (AIFSRC) and managed by the Australian Centre for International Agricultural Research (ACIAR).

CIMMYT and Egerton University have pledged to strengthen their collaboration through capacity building, research, policy advocacy and data sharing, especially through the Adoption Pathways project. Photos: Florence Sipalla

The enhanced collaboration between CIMMYT and Egerton was discussed at a meeting held at the CIMMYT-Nairobi office on 24 April and attended by Professor James Tuitoek, vice chancellor at Egerton; Professor Gideon Obare, the AP national coordinator in Kenya and a lecturer at the university; and Mary Mathenge, director of the Tegemeo Institute of Public Policy and Development, a policy think tank of Egerton University based in Nairobi.

Senior staff from Tegemeo, which specializes in agricultural policy formulation backed by data, will supervise the graduate students in collaboration with CIMMYT, Tuitoek said. The two institutions train young economists pursuing postgraduate degrees, and research on maize is a major component of their socioeconomic studies. “Almost 50 percent of Tegemeo’s research has been on maize policy,” said Mathenge. “It is often difficult to showcase the value of economic research to policymakers because it is an intangible product – it is not like a new seed variety, for example,” said Kassie. Despite that challenge, Kassie is confident that the partnership with Tegemeo will be mutually beneficial. “If we work with Tegemeo, who already have established ways of packaging research outcomes from economics studies, then we can have a far greater impact from the work we do.”

Supporting sustainable intensification by tracking farmers’ adoption patterns

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

By Florence Sipalla/CIMMYT

Identifying the socioeconomic constraints farmers face in adopting a technology is central to ensuring they adopt it sustainably. This is the work that the Pathways to Sustainable Intensification in Eastern and Southern Africa (Adoption Pathways) project is doing in collaboration with partners from national universities and agriculture research systems in Africa and Europe.

Adoption Pathways partners met in Addis Ababa, Ethiopia, on 10-12 April to review activities to date and to plan for 2014. The four-year project is funded by the Australian International Food Security Research Centre (AIFSRC) and managed by the Australian Centre for International Agricultural Research (ACIAR). Project partners from seven institutions collaborating on the project in Ethiopia, Kenya, Malawi, Mozambique and Tanzania attended the meeting.

Participants included policymakers and vice-chancellors from universities as well as donor representatives – John Dixon, ACIAR principal adviser for research/cropping systems and economics and Liz Ogutu, ACIAR regional manager for Africa. Fentahun Mengistu, director general of the Ethiopian Institute of Agricultural Research (EIAR), officially opened the meeting and described the project as one that represents a unique cross-country research and development effort.

“Africa is at the tipping point,” said Dixon, adding that six of the world’s top 10 fastest growing countries are in Africa. Dixon identified food, economic growth and sustainable intensification as keys to tapping global opportunities. “Sustainable intensification of maize and legumes will increase resources productivity and reduce production risk,” he said.

Understanding what drives farmers to take up different sustainable intensification practices (SIPs) — such as zero/minimum tillage, maize-legume intercropping, maize-legume rotations, new maize and legume varieties and using chemical fertilizer — is important. The project has developed several policy briefs based on research to share its outputs with a wider audience. “Don’t just push policymakers but push them with evidence,” said Wilfred Mwangi, CIMMYT’s regional representative for Africa. Mwangi emphasized the need for policy dialogue and more capacity building.

The project has helped train 18 early-career economists in research design and implementation. An additional 120 people have gained practical experience in conducting surveys through their participation as enumerators or supervisors. Mengistu said the project has “planted seeds for impact” because different countries can benefit from the regional approach to tackling development challenges.

Referencing a policy brief on the SIPs adopted by farmers in Ethiopia, he noted that farmers who implemented a suite of multiple agronomic practices were able to double or even triple their income from maize. Menale Kassie, the Adoption Pathways project leader, shared some of the project’s key achievements, which include establishing panel data, analysis to determine gaps in technology adoption through a gender lens, impact analysis and risk assessment. “We need policy dialogue, followed by policy advocacy,” Kassie said. “We would be happy if our products are used by our partners.”

Policymakers, including top university administrators, pledged their support for policy advocacy. “We will help support this project through linkages with policymakers and the Ministry of Agriculture,” said James Tuitoek, professor and vice-chancellor at Egerton University in Kenya. Angelo Macuacua, professor and vice-chancellor at Eduardo Mondlane University in Mozambique, thanked the project for inviting the vice-chancellors to participate in the meeting.

“It helps us understand, in detail, the work the researchers are doing,” he said. Other vice-chancellors at the meeting were Professor Phiri Kanyama and Professor Gerald Monela from Malawi’s Lilongwe University of Agriculture and Natural Resources (formerly known as Bunda College) and Sokoine University of Agriculture in Tanzania.

The importance of monitoring and evaluation in project implementation was emphasized by AIFSRC’s Ogutu. “Results from this project will not only help farmers, there is potential on a larger scale,” she said. The meeting provided partners an opportunity to closely interact, share their research results and plan for the next phase of activities.