Category Archives: Malawi

Africa’s vast eastern and southern drylands get new attention–and support–from agricultural researchers

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Strategic research themes of CRP on Dryland Systems

A new CGIAR Research Program on Dryland Systems is being planned to find ways to help dryland communities climb out of poverty while enhancing their food security and protecting their natural resources. This program will conduct four strategic research themes in five regions. Two of the research themes—reducing vulnerability/managing risk and sustainably intensifying production—make up the ‘meat’ of what has come to be called ‘the hamburger’ diagram. The top and bottom ‘buns’ represent the other two research themes:  strengthening innovations systems and measuring impacts/synthesizing knowledge across regions, respectively (figure by the CGIAR Research Program on Dryland Systems).

This week in Nairobi, Kenya, opening on a morning as grey and cold as London’s weekend Diamond Jubilee celebrations on the Thames, a Regional Inception Workshop of the CGIAR Research Program on Dryland Agricultural Systems for East and Southern Africa is being held. The 3-day workshop (5–7 Jun) is organized and hosted by the International Livestock Research Institute (ILRI). This inception workshop brings together more than 50 experts working in the drylands of eastern and southern Africa to identify key hypotheses and research questions for the research program, to agree on initial sites for its activities and to develop impact pathways and implementation plans. See the introductory slide presentation by Maarten Van Ginkel, deputy director general of the International Centre for Agricultural Research in the Dry Areas (ICARDA): The CGIAR Research Program on Dryland Systems: Scientific content and progress in the inception phase.

The planners of this CGIAR Research Program on Dryland Systems (the full mouthful of a title of which is ‘Integrated and Sustainable Agricultural Production Systems for Improved Food Security and Livelihoods in Dry Areas’) say this large, multi-institutional, multi-stakeholder and multi-diciplinary research program aims to develop a series of complementary technologies, policies and institutional innovations that will help very poor and highly vulnerable dryland populations improve their livelihoods—and do so over the longer term.

As its full name suggests, this CGIAR research program will apply ‘integrated systems’ approaches, which focus less on technical fixes for discrete problems and more on how interventions can be combined to meet the many needs of a profitable, equitable and sustainable agricultural production system. And the program will use large, so-called ‘landscape level’ frameworks to help scientists think through the links between farm or community practices and the broader ecosystem in which they are located; such analyses should allow, for example, more comprehensive assessments of the increasingly hard trade-offs in use of natural resources.

See consultant John Lynam’s slide presentation (below), which gives a comprehensive overview of ‘systems thinking’. Lynam argued that we need to change our research designs and methods if we’re going to serve the expanding agendas for international agricultural research. In his presentation he asked asked some provocative questions, such as, ‘How do we (should we) understand system performance? Is it by productivity, profitability, or income? Is it levels of vulnerability or food security? Or is it resource efficiency or resilience?. . . . Why do we have plantain (matoke) systems in Uganda while beer banana systems dominate in Burundi and Rwanda? . . . Why are many more people exiting agriculture in Africa than they are in Asia?’

Applying a systems framework to research on African farming systems

Presentation by John Lynam,

The dry areas of the developing world occupy some 3 billion hectares, which represent 41% of the earth’s land area. These drylands are home to 2.5 billion people, who make up about a third of the population in developing countries. At least 16% of this population lives in chronic poverty.

These people make a living from the drylands by growing and managing a mix of food, fodder and fibre crops; vegetables; rangeland and pasture grasses, shrubs and trees; fruit and fuel-wood trees; medicinal plants; livestock; and fish. These dryland people face enormous environmental challenges, which in many regions are likely only to worsen with climate change.

This program targets two kinds of drylands. The first are those with the deepest endemic poverty and the most marginalized and vulnerable people, the most extreme environmental variability, and often the greatest natural resource degradation as well. The second are those with the greatest potential to increase food security and reduce poverty over the short to medium terms.

Dryland Systems Workshop at ILRI

Table discussions at an ILRI-hosted inception workshop for eastern and southern Africa component of the CGIAR Research Program on Dryland Agricultural Systems, 5-7 Jun 2012 (photo by ILRI/Susan MacMillan).

The future of dryland farming communities, the research planners assume, depends largely on their ability to more effectively manage  risk as well as to diversify and intensify their agricultural production systems. The integrated approach the program will take should help people better manage their natural resources and improve their crop, vegetable, livestock, tree and fish production. The approach should also help facilitate for dryland communities the establishment of enabling policy environments; the provision of greater institutional support; and a more equitable distribution of, and control over, resources, access to information, livelihood opportunities and decision-making.

Dryland Systems Workshop at ILRI: Agenda

Dryland Systems Workshop at ILRI: Outcomes

More specifically, this dryland research program aims to:

  • prioritize agricultural systems for impact
  • identify key researchable issues
  • increase the efficiency and sustainability of natural resource use
  • develop more resilient agricultural systems to manage risk and production variability
  • promote in situ and ex situ conservation and sustainable use of dryland agrobiodiversity
  • improve the productivity and profitability of dryland agricultural systems through sustainable intensification, diversification, and creation of value-added products and market links
  • identify niches of importance to the most vulnerable livelihoods (even if they appear to have low marketing potential)
  • address constraints faced by the most marginal farmers
  • develop new partnerships and models of working together.

Dryland Systems Workshop at ILRI: Organizer Polly Ericksen of ILRI and facilitator Constance Neely of ICRAF

Dryland Systems inception workshop for East and southern Africa organizer Polly Ericksen of ILRI (left) and facilitator Constance Neely of ICRAF (photo credit: ILRI/Susan MacMillan).

The structure and process of this workshop, which is focused on eastern and southern Africa, have been developed by an interdisciplinary research team headed by ILRI’s Polly Ericksen, with participants from the World Agroforestry Centre, the International Water Management Institute and the International Crops Research Institute for the Semi-Arid Tropics, as well as agricultural research consultants John Lynam and Brian Keating. The lead centre for this CGIAR research program is the International Center for Agricultural Research in Dry Areas.

In this region, the drylands program plans to work to reduce vulnerability in three areas of three East Africa countries:
Northern Kenya/southeastern Ethiopia: the triangle from Garissa in Kenya to Borana in south-central Ethiopia to Somali Region in southeast Ethiopia
Central Kenya: Baringo District
Southern Kenya/northern Tanzania: Kajiado and Narok districts and Serengeti National Park and Monduli and Samanjiro districts.

The program plans work to intensify agricultural production in three areas of three eastern and southern African countries:
Zambia-Malawi-Mozambique: the Chinyanja Triangle
Northeast Tanzania: from Kahama through Shinyanga to Babati districts
Ethiopia: the Oromia zones of East Shoa, West Shoa, Horogudru and the Amhara zone of North Shoa

For more information, visit the website for this CGIAR Research Program.

See previous blogs about this workshop:

ILRI Clippings Blog: CGIAR Drylands Research Program sets directions for East and Southern Africa, 4 Jun 2012.

ILRI Clippings Blog: Supporting dryland pastoralism with eco-conservancies, livestock insurance and livestock-based drought interventions, 5 Jun 2012.

A set of images of this workshop are on ILRI’s Flickr site.

 

‘It takes an orchestra to play a symphony’: Jemimah Njuki on making market-oriented agriculture work for women

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Jemimah Njuki

Agricultural intensification in many parts of Africa has meant that traditional food crops such as bananas and beans have entered sophisticated market chains which, though they provide benefits, also carry certain risks for smallholder producers, most of whom are women.

Jemimah Njuki, a Kenyan sociologist and gender specialist at the International Livestock Research Institute (ILRI), says that ‘despite women’s involvement in agricultural development in rural parts of Africa, how they benefit from this involvement is often unclear, because as commodity market chains become increasingly commercialized, they often end up marginalizing the women they sought to help in the first place.’

In a keynote speech at the opening of a workshop on ‘Gender and Market-oriented Agriculture: From Research to Action’ (#AgriGender2011) being held at ILRI’s campus in Addis Ababa, Ethiopia, Njuki noted that ‘with the emergence of regional and export markets, as soon as women’s crops become profitable, they are no longer women’s crops. And we can end up doing as much harm as good.’

Cautionary tale
Njuki told a story to illustrate this. It’s about a farmer named Mercy that she knew and worked with in Malawi. Mercy is a smallholder bean farmer from Chinseu Village who often intercropped her beans with maize on her small plot of land. Using little fertilizer or other farm inputs, Mercy produced between 50 and 100 kilogrammes of beans in a good year. Her family consumed half her bean crop at home and she sold the remainder on the roadside near her village. She used the money she earned from the sale of the beans to buy food and clothes for her family.

When a new farming project was started in Chinseu, Mercy got access to improved bean varieties and markets. Because the new bean variety could not be intercropped, she had to grow the beans on a different plot of land from her maize. The investment paid off, however, and in the first year she produced nearly one ton of beans. To sell the increased produce, she needed to find new markets, and these were far from her village. Her husband thus started to transport the surplus beans to the city for bulking and sale there. He began spending less and less time at home, and sometimes he spent the income from the beans before he reached home. Meanwhile, Mercy remained at home, often with less bean income than she had before she began to adopt the ‘improvements’.

Doing right by women does right by everyone
Njuki believes that market-oriented agriculture will succeed in helping women only if it moves beyond ‘doing right for women.’ ‘We should not include gender development in agriculture to help women only; we ought to focus on women because if we do not, there will be adverse repercussions for the incomes, nutrition and empowerment not only of women but also of households, communities and countries.’

To get market-oriented agriculture to work for women, Njuki suggests the following ways of raising the often under-recognized role of women in agricultural production.

Increase women’s decision-making in agricultural projects to enable them play a role in identifying markets and commodities in specific value chains. ‘We should not push any one commodity at women to bring about change; we must first understand from them what they need.’

Work with both men and women because women live in households and communities that include their husbands, brothers and other men. ‘If we do not put money in pockets of men, we will not manage to put money in the pockets of women.’

Raise women’s assertiveness and leadership skills by linking them directly with (especially urban) consumers who buy their products so that the women producers understand at first hand how markets work and what kinds of products their clients prefer.

Encourage women to come together in groups, which give them better bargaining power to access banking and other financial services.

Increase women’s access to technologies and inputs and services to ensure that they can on-goingly adopt production practices needed to meet new and changing market needs and demands.

Njuki recommends that projects widen their indicators of success beyond just increases in women’s income. ‘We need to expand our indicators to look at the distribution of this income. We need to know which households and individuals are benefiting. We need to pay attention to labour issues.’

Finally, Njuki warns that success in work aiming to redress gender imbalances depends on a multitude of actors working together. ‘No one (woman) can whistle a symphony. It takes an orchestra to play it,’ she concluded, quoting Halford Luccock. ‘These initiatives need to be driven and replicated by many individuals and organizations working together to scale up community successes regionally.’

AgriGender 2011 logo

Working with women and men in agricultural market development: The missing link

View more presentations from ILRI CGIAR.
Read more about the ‘Gender and Market-oriented Agriculture: From Research to Action’ in the ILRI gender and agriculture blog.

US$4.4 million awarded for research to build a climate model able to predict outbreaks of infectious disease in Africa

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Cow suffering from trypanosomosis

Scientists at the University of Liverpool, in the UK, and the International Livestock Research Institute (ILRI), in Kenya, are working with 11 other African and European partners on a US$4.4-million (UK£3 million-) project to develop climate-based models that will help predict the outbreak and spread of infectious diseases in Africa.

The researchers are working to integrate data from climate modelling and disease-forecasting systems so that the model can predict, six months in advance, the likelihood of an epidemic striking. The research, funded by the European Commission Seventh Framework, is being conducted in Ghana, Malawi and Senegal. It aims to give decision-makers the time needed to deploy intervention methods to stop large-scale spread of diseases such as Rift Valley fever and malaria, both of which are transmitted by mosquitoes.

It is thought that climate change will change global disease distributions, and although scientists know a lot about the climate triggers for some diseases, they don’t know much about how far into the future these disease events can be predicted. This new project brings together experts to investigate the links between climate and vector-borne diseases, including ‘zoonotic’ diseases, which are transmissible between animals and humans.

ILRI veterinary researcher Delia Grace says that diseases shared by people and animals are under-investigated although they are critically important for public health. ‘Fully 60% of all human diseases, and 75% of emerging diseases such as bird flu, are transmitted between animals and people,’ she said.

ILRI geneticist Steve Kemp said that the project is making use of ILRI’s advanced genomics capacities to analyse pathogens from the field and to integrate the data collected on both pathogen distribution and climatic factors. ‘From ILRI’s point of view,’ Kemp said, ‘this project is particularly exciting because it brings strong climate and weather expertise that complements systems recently built by ILRI and its partners to detect outbreaks of Rift Valley fever and to determine its spread.’

The new project also complements ILRI’s ongoing work to better control trypansomosis in West African livestock, a disease transmitted by tsetse flies. Trypanosomosis, which is related to sleeping sickness in humans, causes devastating losses of animals—along with animal milk, meat, manure, traction and other benefits—across a swath Africa as big as continental USA. Members of the new modeling project will conduct research in some of the same locations as ILRI’s West African trypanosomosis project, Kemp explained, and work with some of the same partner organizations, which should generate synergies that benefit both projects.

The risk of epidemics in tropical countries increases shortly after a season of good rainfall—when heat and humidity allow insects, such as mosquitoes, to thrive and spread diseases. Matthew Baylis, from Liverpool’s School of Veterinary Science, explained how this works with Rift Valley fever: ‘Rift Valley fever can spread amongst the human and animal population during periods of heavy rain, when floodwater mosquitoes flourish and lay their eggs. If this rainfall occurs unexpectedly during the dry season, when cattle are kept in the villages rather than out on the land, the mosquitoes can infect the animals at the drinking ponds. Humans can then contract the disease by eating infected animals. Working with partners in Africa, we can bring this information together to build a much more accurate picture of when to expect epidemics.

Andy Morse, from Liverpool’s School of Environmental Sciences, said the project combines historical and contemporary climate data with disease incidence information, including that for vector-borne diseases, as well as integrating monthly and seasonal forecasts. The resulting single, seamless, forecast system, Morse said, should allow projections of disease risk to be made beyond the conventional predictable time limit. ‘All this information will be fed into a decision-support system to be developed with decision-makers on national health issues’ in the three target countries.

The project was launched at a conference at the University of Liverpool on 19 April 2010.

For more information, contact ILRI scientist Steve Kemp. ILRI email contacts are formatted as follows: f.surname@cgiar.org: replace ‘f’ with the staff member’s first initial and replace ‘surname’ with the staff member’s surname.

The 13 research partners:
Abdus Salam International Centre for Theoretical Physics (Italy), Centre de Suivi Ecologique (Senegal), Consejo Superior de Investigaciones Cientificas (Spain), European Centre for Medium-Range Weather Forecasts (UK), Fundació Privada Institut Català de Ciències del Clima (Spain), Institut Pasteur de Dakar (Senegal), International Livestock Research Institute (Kenya), Kwame Nkrumah University of Science and Technology (Ghana), Universitaet zu Koeln (Germany), University Cheikh Anta Diop de Dakar (Senegal), University of Liverpool (UK), University of Malawi (Polytechnic & College of Medicine), University of Pretoria (South Africa)

East Coast fever vaccine comes to market in eastern and southern Africa

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As the board of trustees of the International Livestock Research Institute (ILRI) meets in Addis Ababa, Ethiopia, this week, reviewing ILRI’s animal health research among other work, an ILRI vaccine project is highlighted in a new publication, DFID Research 2009–2010: Providing research evidence that enables poverty reduction. The UK Department for International Development (DFID) and the Bill & Melinda Gates Foundation both support the Global Alliance in Livestock Veterinary Medicines (GALVmed), which works to convert existing or near-market technologies into livestock medicines and vaccines for use in developing countries. The notable success of this strategy in 2009, says DFID, is an East Coast fever vaccine produced by ILRI. East Coast fever is a tick-transmitted disease that kills one cow every 30 seconds in eastern, central and southern Africa, where it threatens some 25 million cattle in 11 countries and is now putting at risk a further 10 million animals in new regions, such as southern Sudan, where the disease has been spreading at a rate of more than 30 kilometres a year. The disease is a major cattle killer. In herds kept by the pastoralist Maasai, it kills 20–50% of all unvaccinated calves, which makes it difficult and often impossible for the herders to plan for the future or to improve their livestock enterprises. A vaccine for East Coast fever could save over a million cattle and up to £170 million a year in the 11 countries where the disease is now endemic. An experimental vaccine against East Coast fever, which makes use of live but weakened parasites, has existed for more than three decades, with batches mass produced in ILRI’s Nairobi laboratories. Although constrained by the need for a ‘cold chain’ to keep the ‘live’ vaccine viable, field use of this vaccine in Tanzania and elsewhere has proved it to be highly effective and in demand by poor livestock keepers, who are paying for the vaccine to keep their animals alive. GALVmed has worked with ILRI and private companies, such as VetAgro Tanzania Ltd., to make East Coast fever vaccine available to the livestock keepers who need it most and to scale up production in future. With £16.5 million provided by DFID and the BMGF, GALVmed began working on the registration and commercial distribution and delivery of a new batch of the vaccine produced by ILRI. The vaccine was successfully registered in 2009 in Malawi and Kenya, with Tanzania and Uganda expected to follow soon. If it is approved in Uganda, it will be the first veterinary vaccine formally registered in that country. GALVmed is now working to establish viable commercial production and delivery systems, aiming that by the end of 2011, all aspects of the production and delivery of East Coast fever vaccine are in private hands.

Collective action on food crisis

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“Food Needs to Move!” Especially across national borders.
“The levers to solve this problem are in our own hands.”—Joseph Karugia

Collective action on food crisis

New research showing how the global food price crisis is playing out in 17 countries of eastern and central Africa was presented at a roundtable discussion in Nairobi 22 July 2008.

The research results show that the regional food situation differs significantly from the global one, largely because of this region’s exceptional diversity. That regional diversity provides these countries with opportunities to turn the volatile global and local food situations to their advantage.

By integrating markets and simplifying trade within the region, policymakers can efficiently link areas with food deficits to areas with food surpluses. This integration will help the region’s small farmers get better prices for their crops and livestock while also helping the region’s urban consumers get reliable year-round access to staple food items.

The July Roundtable on the Global Food Crisis was organized by the Kenya country offices of the World Bank and World Food Program and the Nairobi-headquartered International Livestock Research Institute (ILRI). Fifty key decision-makers in agricultural and rural development met on ILRI’s campus to discuss interventions that governments, development agencies, research organizations and nongovernmental organizations could make to help poor people cope with the rising prices of staple foods.

Joseph Karugia, a Kenyan agricultural economist, provided an overview of the regional food situation. Karugia coordinates a Regional Strategic Analysis and Knowledge Support System for Eastern and Central Africa (ReSAKSS-ECA). His review was based on a study led by the region’s leading agricultural research group, the Association for Strengthening Agricultural Research in Eastern and Central Africa (ASARECA). Under pressure by policymakers needing to take action to address the food price crisis, a team of 26 researchers within ASARECA and several centres supported by the Consultative Group on International Agricultural Research (CGIAR) that work in this region, including ILRI, with study activities coordinated by ReSAKSS-ECA, conceived and executed the study together and with speed.

“Our regional food prices have generally risen much slower than global ones,” Karugia said. Even the countries within the region are being affected differently by the global food prices, largely because of their different “food baskets”. Kenya’s main staple is maize, but in Uganda it’s plantain, in Ethiopia it’s teff and in Rwanda it’s beans. Those countries that deal in non-traded commodities are buffered from the rising prices of globally traded staples. “Rice and wheat,” Karugia said, “two hugely important staples globally, are relatively trivial in this region. Moreover, most of the region’s maize needs are met outside the global markets because most people in the region obtain their maize in locally, in informal as well as formal markets.”

One result is that while the food price index (FPI) of the United Nations Food and Agriculture Organization (FAO), which captures trends in major food commodities, rose by 56% between March 2007 and March 2008, the FPI increases in this region were all below 40% and in most cases significantly lower. The FPI increased by 39% in Ethiopia, 20% in Burundi and Kenya, and just 11% in Tanzania. In several other countries in the region, including Madagascar, Malawi, Rwanda, Uganda and Zambia, the increase was less than 10%.

It’s not only the staples of these neighbouring countries that differ. Their climate and rainfall patterns differ, and consequently their planting and harvest times differ, too.

These within-region variations give policymakers a powerful lever for transforming a global food crisis into a regional opportunity for farm producers and urban consumers alike.


“The spatial and temporal distribution of production and staggered harvesting
in the countries of eastern and southern Africa offer large opportunities for trade.”

By integrating the region’s food markets and simplifying its food trade regulations, Karugia said, the region could link up food-deficit to food-surplus areas and thus provide its citizens with staples in an given season. A truly integrated regional market would provide farmers with remunerative prices and alternative reliable markets for their produce while also providing urban consumers and rural net buyers of food with a variety of reasonably priced food staples throughout the year.

Most of the trade in food in this region is informal. It is wasteful not because it is informal but rather because of the many obstacles the informal traders have to face. Karugia explains: “At the border between Kenya and Uganda, trucks laden with sacks of grain and other food staples are unloaded, reloaded onto bicycles, bicycled across the border to be reloaded onto trucks on the other side. This is not an efficient way to move food!”

It would be a shame, Karugia said, quoting the economist Paul Romer, for the eastern and southern Africa region “to waste a good crisis”. “This global food price crisis provides the 19 countries of eastern and southern Africa with a golden opportunity to promote agricultural-led development through increased domestic production, regional trade and integration.”

The ASARECA research presented at this roundtable discussion was a demonstration of this new networked science. Diverse scientists from ReSAKSS-ECA, ASARECA and the CGIAR worked together for months amassing data from country and regional organizations and consulting with key experts and partners within governments, policy think tanks, research institutions, emergency relief agencies and the private sector. Although their individual perspectives on, and interpretations of, the data they collected vary considerably, the research group reached consensus on several points.

 The poor in this region are spending 40 to 70% of their income on buying food.
The poor are being hit hardest by the rise in food prices, especially the rural net buyers of food.
Contrary to popular belief, most of the farming households in the rural areas are net buyers rather than net producers of food if price rather than volume of food is considered. Poverty forces them to sell their grain and other crops at harvest time, when prices are at their lowest, and to buy grain again, several months later, when the households run out of the staple, often at two to three times the price at which they sold their grain.
Prices of agricultural inputs are increasing across the 17 countries of the region. (The price of fertilizer rose 200% in Kenya in the last year.)
Yields of staple food crops are stagnating or decreasing in 17 of the 19 countries of Eastern and Central Africa (only Egypt and Mauritius are increasing their yields) because farming is moving onto increasingly marginal agricultural lands, causing yield aggregates to fall.

One other salient fact leaped out of the data—the region cannot continue to spend less than 10% (and in some cases as low as 2%) of its national budgets in a sector that provides 25% of the region’s gross domestic product, 75% of its citizen’s livelihoods, and food for 100% of its people. ‘We have neglected our agriculture, our farmers and our food markets for decades,” says Karugia. “This is the result.”

Karugia and his many colleagues in this multi-institutional, multi-disciplinary, and multi-commodity project asked themselves one central question: What levers can we pull to take advantage of the higher food prices? The two conventional answers—increase farm production and control consumer demand—were deemed by the group to be too slow to be useful. This regional group of scientists concluded that a regional strategy for exploiting the food price hikes offered the best opportunities for the most numbers of people: “Exploit the regional diversity by facilitating regional trade”.

Priority actions for such a regional strategy would include the following:
 Markets: Remove export bans, eliminate non-trade barriers, simplify trade regulations and upgrade infrastructure along the region’s main trade corridors.
Farmers: Reduce the high cost of fertilizer and other agricultural inputs and facilitate their trade, widen use of best-bet agricultural technologies, pilot innovative risk-management strategies such as index-based insurance schemes.
Institutions: Strengthen market information and intelligence as well as frameworks for preparedness, response and learning.

Addressing these issues in these ways, with evidence-based policy options, is thus feasible, say the study team, and should lead to lowering the prices of food staples while also raising farm productivity and agricultural livelihoods.

In summing up the day’s roundtable discussion, host Carlos Seré, who is ILRI’s director general, said that it’s not only food we should be moving within the region but also the agricultural technologies that allow greater and more sustainable food production. The current food price crisis also has that silver lining: “When you have high food prices, you can move those technologies for improved food production. And you can get attention for neglected alternative crops, such as cassava chips for livestock feed. Which become viable as the price of grain staples rise.”

“This is something happening now,” Seré said. “We need smart interventions that target the region’s poor consumers and farmers alike. We need to get fertilizers into the region’s high potential farming areas. The key thing is to work with markets—to arbitrage across countries and across the region. We must reduce trade barriers within the region, which will greatly improve the efficiency of its markets.”

“We must also think through new crop portfolios for this region,” he continued. “How, for example, could we continue to support maize production in Kenya without penalizing those farmers pursuing a more diversified system that includes sorghum or millet?”

Seré concluded: “Climate and other fast-evolving changes affecting developing-country food production will make our problems worse in future. Finding the institutional frameworks for addressing these problems in collective action is our challenge.”

Welcome address by ILRI director general Carlos Seré

In welcoming participants to the roundtable forum, ILRI director general Carlos Seré said: “Global analysis of the food situation is relatively simple. We need to bring the discussion and analysis down to regional levels to increase the specificity, the granularity, of our information.” . . . Read more
Read profile of Carlos Seré
Interview with Ravi Prabhu, a member of the study team and coordinator of a CGIAR initiative called Collective Action for Eastern and Southern Africa

Let’s take a look at what we heard today from Joseph Karugia and his ASARECA, ReSAKSS-ECG and CGIAR team.

We heard that have opportunities to exploit regional food heterogeneity, capacities and systems that we are not doing a good job of exploiting . . . Read more


The latest version of the ASARECA Food Crisis Report is available: http://www.asareca.org/resources/reports/resp2food_pr_main.pdf

Further Information Contact:

Joseph Karugia
Coordinater, ReSAKSS-ECA
International Livestock Research Institute (ILRI)
Nairobi, KENYA
Email: j.karugia@cgiar.org
Telephone: +254 (20) 422 3016