Livestock present Africa with huge – ‘right now!’ – opportunities for food, prosperity, environment

ILRI presentation for ALiCE2013: Major opportunities for Africa's livestock sector

Slide from presentation made by ILRI director general Jimmy Smith at the Africa Livestock Conference and Exhibition 2013 (credit: ILRI/Jimmy Smith).

Yesterday, Jimmy Smith, director general of the International Livestock Research Institute (ILRI), briefed Felix Kosgey, Kenya’s new cabinet secretary for Agriculture, Livestock and Fisheries, who was guest of honour at the opening of the African Livestock Conference and Exhibition (ALiCE), on key messages delivered during the opening session of the conference.

ILRI director general Jimmy Smith took the opportunity at this conference, being held this week (26–28 Jun 2013) in Nairobi, Kenya, to speak about the enormous opportunity, as well as special challenges, the livestock sector presents Africa at this particular moment, with the sector’s many direct current and potential twin benefits in terms of both agricultural prosperity and agricultural sustainability.

‘The theme for this conference and exhibition is Towards a competitive and sustainable world-class livestock sector.

. By then, with about 2.5 billion more people than there are now, 60–70% more food will have to be produced on a fixed land base that some argue is reaching its ecological limits. This theme addresses the global concern, even anxiety, about how the world will feed itself by the time the human population is expected to stabilize at over 10 billion by about mid-century

The livestock sector must play a major role in meeting our food and nutritional security here in Africa and the world over. I say food and nutritional security because one can be fed but not be nourished; the livestock sector contributes to both.

‘The livestock sector in the developing world is growing very rapidly. In these regions, the sector contributes between 30 and 40% of agricultural gross domestic product (GDP), with this growth driven by increasing population, urbanization and, in particular, incomes.

‘This rapid growth in demand for animal-source foods will continue well into the future because per capita consumption of milk, meat and eggs is still quite low in the developing world. Here in Africa, for example, per capita consumption is only about 10kg a year, whereas in the USA it’s about 100kg. As incomes continue to rise in Africa, which has some of the world’s fastest-growing economies, so, too, will demand for animal-source foods.

Little known or appreciated is that more than 50% of the world’s supply of animal-source foods comes from small-scale livestock producers. Here in Africa, some 70% of the supply of milk, meat and eggs is produced by smallholder farmers and herders.

‘Also here in Africa, consumption of animal-source foods will increase greatly between 2000 and 2030. The total percent increases between actual 2000 and anticipated 2030 figures are dramatic:

Africa’s consumption of poultry meat will increase by 200%, beef by over 100%, pork by 150% and milk by about 100%.

In Africa in 2006/07 (base years), the value of all animal-source foods consumed, excluding eggs, was USD33 billion.

Around the time population growth is expected to stabilize on the continent, in 2050, the value of animal-source foods consumed is projected to reach USD107 billion.

A critical part of our deliberations at this conference will be how to facilitate full participation of smallholder producers in this rapidly expanding livestock market.

‘There is a sobering side to this livestock growth story; increasingly, a larger and larger share of this rapidly rising demand for animal-source foods in Africa is being met by imports, despite the fact that the continent is extremely well endowed with livestock resources and the potential of the sector is vast.

Despite the importance of the livestock sector, it remains largely neglected, with discussions on agriculture by policymakers and others invariably still focused on crops.

‘The neglect of the sector, and in particular the potential of 200 million small-scale livestock producers, not only condemns the continent to steeply rising import bills but also ensures that we will miss an enormous opportunity to meet the need for food and nutritional security while also creating prosperity and transforming rural economies.

‘Here in Kenya, I’m happy to say, the livestock sector receives more attention than in most other countries and we can see its commensurate growth and development.

‘I know that there are many powerful voices out there who say that the neglect of the livestock sector is justified because livestock contribute to global warming, and high levels of meat consumption contribute to obesity and the poor health that often comes with it.

‘Regarding the livestock and environment issue, we can make livestock systems much more environmentally sustainable and we are working to do so. For example, we can cut the carbon footprint per unit of livestock product as aggressively as we can increase the productivity of cattle, sheep and goats.

Regarding the meat and obesity issue, I would argue that there is no moral equivalent between those who make poor a choice of food and those who have no choice of food.’

Jimmy Smith made his presentation to Kenya cabinet secretary Felix Kosgey on behalf of all the co-organizers and co-hosts of ALiCE, including:

  • African Union–Interafrican Bureau for Animal resources (AU-IBAR)
  • Eastern Africa Farmers Federation (EAFF)
  • Eastern and Southern Africa Dairy Association (ESADA)
  • Global Alliance for Livestock Veterinary Medicines (GALVmed)
  • International Livestock Research Institute (ILRI)
  • Kenya Livestock Producers Association (KLPA)
  • New Kenya Co-operative Creameries (New KCC)
  • Unga Ltd.

About the conference
ALiCE is the largest convergence of stakeholders in the livestock sector in Africa. This is a platform specifically aimed at stimulating trade in livestock and livestock products in Africa and beyond and facilitating technology and knowledge transfer and sharing. The event brings together producers, processors and traders of livestock and livestock products and suppliers of technology, solutions and services in the entire value chain.

Roots and tubers to the fore: How a Tanzanian crop and goat project is helping farmers

Integrated Dairy Goat and Root Crop in Tanzania workshop

A meeting to review research results from a dairy goat and root crop project in Tanzania was held in Nairobi last week (photo credit: ILRI/Paul Karaimu).

Last week (18-20 Jun 2013) the Nairobi campus of the International Livestock Research Institute (ILRI) hosted partners in a crop and goat project working to improve food security in Tanzania. The meeting reviewed research results from the two-year-old project.

This project is helping Tanzanian farmers integrate their dairy goat production with growing root crops. It’s raising incomes by improving the milk production potential of dairy goats, introducing improved sweet potato and cassava varieties and improving marketing options for goats and crops in Tanzania’s Kongwa and Mvomero districts.

Led by Tanzania’s Sokoine University of Agriculture and the University of Alberta in Canada, the project also involves collaboration with an agricultural research institute in Kibaha, the Kongwa and Mvomero district councils and the Foundation for Sustainable Rural Development, a non-governmental organization in the country. ILRI is serving as knowledge-support partner for the project and is providing expertise on goat production, gender issues and monitoring and evaluation.

Started in March 2011, the project is funded by the Canadian International Development Research Centre (IDRC) and the Canadian International Development Agency. The project brings together farmers and scientists in setting up community-managed breeding programs for dairy goats and introducing improved varieties of cassava and sweet potato in agro-pastoral area of the two districts. Previously, dairy goat keeping was restricted to wetter areas of the districts.

‘This is one of few projects whose achievements so far the IDRC is proud of and it stands a good chance for being considered for funding for scaling-up under the Food Security Research Fund,’ said Pascal Sanginga, of IDRC.

The program’s interventions have focused on understanding women’s roles in livestock activities such as feeding and milking, getting more women involved in livestock keeping and increasing women’s access to, and control over, benefits from livestock rearing and farming.

‘This project highlights the central role of partnerships in ILRI’s work in Tanzania, which is a focus country for the CGIAR Research Program on Livestock and Fish,’ says Amos Omore, the project’s coordinator at ILRI.

ILRI's Okeyo Mwai and Amos Omore with Immaculate Maina (KARI)

Participants in the meeting, who included graduate students and faculty from Sokoine and Alberta universities and researchers from ILRI, shared 16 research presentations, which will now be reworked as papers for submission to scientific journals. Feedback from these presentations guided a project evaluation and planning session that followed the workshop.

‘We’re learning about the challenges in establishing root crops and dairy goat production in marginal environments where there is a high variability in rainfall and stiff competition from pastoralism,’ said John Parkins, of Alberta University.

The project, which is reaching more than 100 farmers, has conducted a baseline study and has developed gender and monitoring & evaluation strategies.

Findings from this workshop, which included determination of specific environmental constraints and the costs and benefits of adopting new varieties of sweet potatoes and cassava, guided preparation of a proposal to scale up the project’s interventions. This proposal will be used to implement the final phase of the project, which ends in August 2014.

‘This meeting revealed a need to focus on doing a few things well—like facilitating fodder production, animal health and disease control,’ said Parkins.

View presentations from the meeting:

Read more about the project, ‘Integrating dairy goats and root crop production for increasing food, nutrition and income security of smallholder farmers in Tanzania’, http://ilri.org/node/1177 and https://sites.google.com/a/ualberta.ca/diary-goats-and-root-crops-tanzania/home. Download a project brochure

Read an ILRI news article about the project: Cassava and sweet potato may improve dairy goat production in Tanzania’s drylands, but will women benefit?

 

More meat, milk and fish — Big interventions for ‘farm-to-table’ livestock value chains in poor countries

Watch this brief (3-minute) film introducing a new multi-centre CGIAR research program, one after ‘more meat, milk and fish by and for the poor’, that has ambitions to do research differently, moving from research products to research outcomes. Developing—and getting into use—big interventions that help transform eight ‘whole farm-to plate livestock and fish value chains’ are what this program is about. Is it doable? Let us know what you think.

In this 3-minute film, Tom Randolph, an agricultural economist with the International Livestock Research Institute (ILRI), explains what’s new about the multi-disciplinary and multi-institutional CGIAR Research Program on Livestock and Fish that he directs.

‘Meat, milk and fish are critical to the poor both as food and income’, Randolph says. ‘But while research has hugely increased farm production in rich countries, we haven’t suceeded yet to help the millions of family farms in developing nations to raise their production very much.

We’ve been doing a lot of good science a lot of good research over the years. But all that good science has not translated into significant improvements in the amount of milk meat and fish that people are able to produce and put on their tables for themselves and their communities.

‘To change this, we’re experimenting with a new approach. The focus of research in the past was on research products. Now we’re making ourselves accountable for getting research into use.

This is what a new program called More Meat, Milk and Fish by and for the Poor is all about.

‘So what’s different about this program? Well, for one thing, we’re addressing the whole way these foods move from small farms to tables. This so-called ‘food chain’ includes producing, processing, selling and consuming meat, milk and fish.

‘And we’re working to design big interventions that can transform whole farm-to-table chains in selected countries. This will help us scale up our research, with direct benefits for large numbers of people.

‘Also, we’re teaming up early with development partners who know how to take these interventions to scale.

‘Finally our program is focusing all its research capacity on just 8 farm-to-table livestock and fish systems selected because their successes can be replicated in many other regions. These 8 systems include small-scale dairying, goat and sheep raising, pig production and aquaculture in 8 countries in Africa, Asia and Latin America.

‘Our intention is to show that small-scale farmers and businesses, already central to feeding the world’s poor, will be key to food security up to the year 2050, when global populations peak. We want to demonstrate that their systems can be transformed. And this kind of science can make a big difference in everyone’s lives. Additionally, you can explore more about our program and initiatives at https://cherrypickertraining.org.uk/.

By doing research in this different way, we expect within a decade to see more meat, milk and fish being produced and consumed by the people who need it most.’

Below, view a slide presentation version of the film above by Tom Randolph: ‘More meat, milk and fish by and for the poor: How the Livestock and Fish Research Program Helps Improve Access to Critical Animal-source Foods’, Mar 2013.

Four CGIAR research institutions—the International Center for Agricultural Research in the Dry Areas (ICARDA), the International Center for Tropical Agriculture (CIAT), the International Livestock Research Institute (ILRI) and WorldFish—as well as many other partners are working together in the CGIAR Research Program on Livestock and Fish.

Watch two companion film presentations
Shirley Tarawali, ILRI director of Institutional Planning and Partnerships, on Livestock Research for Food Security and Poverty Reduction (15 minutes)
Jimmy Smith, ILRI director general, on ILRI and the Global Development Agenda (13 minutes)

Jimmy Smith on the global development agenda, and livestock’s role in it — 13-minute film

Watch this 13-minute film-enhanced slide presentation by ILRI director general Jimmy Smith on the global development agenda and the roles of livestock, and the International Livestock Research Institute (ILRI), within it.

‘Over the last several decades, up until the early 2000s, agriculture was a very neglected sector. Agricultural investments precipitously declined from about 15% of official development assistance to about 2.5% in the early 2000s.

‘However, the world food crisis of 2008 and the recurring ones since then have elevated the agricultural agenda high up on the development agenda. So the challenge for us now is how we will feed the world, what will be the contribution of livestock, and how will we address poverty and environmental sustainability.

Trends
‘Livestock often make up 40% of agricultural GDP, and the sector is growing fairly rapidly; 4 of the top 5 agricultural commodities by value are livestock, and in Africa, 4 of the top 10 agricultural commodities are livestock. So livestock are quite important in terms of the global food and poverty agenda.

No matter which region we look at, livestock’s contribution to agricultural GDP is growing as fast as the rest of agriculture, and in most cases faster. Per capita consumption of meat in the developing parts of the world, for example in Africa, is only 13 kg, when meat consumption in North America, for example, is 125 kg per person.

The growth in demand for livestock products is happening everywhere. No matter which region we look at, and no matter which commodity of livestock we look at, there is growth. Between now and 2030, the demand for various livestock commodities will grow, from 50% in the case of pork to up to 600% in the case of poultry.

‘Less than 15% of the total livestock commodities are traded, so though trade is important, local markets matter more. And these local markets in the case of livestock commodities are mostly informal. So as we attempt to deal with meeting the rising demand for livestock products, we must work on the informal markets as much as we work on the formal ones.

‘So what’s the global development agenda that livestock faces? First, livestock contributes to the livelihoods of over a billion people. And so there is a great opportunity for us in this rising demand for livestock products to integrate small farmers into markets. For us, that’s a big opportunity to contribute both to food security and to poverty reduction. . . .

‘About one billion people rely on livestock for their livelihoods in the developing world. And these people, relatively poor, in rural areas, need attention so that they will not only contribute to the global food equation, but also reduce their poverty.

Livestock ‘goods’ and ‘bads’
‘But as we know, livestock are not all good. There are also some “bads” about livestock. They contribute significantly to greenhouse gas emissions, amounting (depending on whose calculations you look at) to somewhere between 14 and 26%. So as we integrate smallholders into markets, we must be sure that we give them the tools to cut the carbon footprint of livestock.

‘As livestock populations have been growing around the world, disease challenges have emerged more and more. And these mostly include (but are not limited to) “zoonotic” diseases that can go from humans to livestock and livestock to humans.

‘In many developing countries, consumption of meat and milk is low, and there is an opportunity to increase that consumption for better nutrition and health. There’s also the concern, even in developing countries, about obesity—people who consume too much.

‘There are many other ways that livestock contribute to the rural poor. These are what we refer to as the “non-tradables”, such as manure, which, for example, in India is about 50% of the nitrogen used in crop farming. And livestock provide traction and fuel in addition to the enormous cultural values that livestock have held for people since ancient times.

‘In our efforts to address the global livestock agenda, we see ourselves working in three broad systems.

Three systems ILRI works in
High growth
‘The first are those systems where the possibilities for growth are quite high, and where there is good market access, where we can increase the productivity of livestock, so that smallholders can contribute to the global food equation and at the same time use that to escape poverty.

Fragile growth
‘But we also have very fragile environments in which livestock are raised, in the drylands, for example, where pastoralism is the main means of livelihood. And there is very little opportunity to increase the productivity of livestock. Rather, the challenge in these systems is mainly to put safety nets under those who are very vulnerable to changing climates and harsh ecological conditions.

Growth with externalities
‘The third are those systems with high growth but also externalities. These are what we refer to as ‘factory farms’, large intensive farms found in many parts of the developed world but also increasingly in the developing world. And here the issues are about how you dispose of manure, and how you deal with the threat of livestock diseases. We see a marginal role for ILRI in these latter systems, but aware that small-scale farming in the developing world will over time increase in size. this is not a system that we will ignore entirely.

Livestock in CGIAR research programs
‘We’re addressing these livestock issues through what are known as the CGIAR research programs. We lead the Livestock and Fish program and we are major players in the other seven CGIAR research programs. We are addressing our agenda through these new CGIAR research programs, which are giving us huge access not only to our traditional partners, who are the other CGIAR research centres, but also many development partners in both the developed and developing worlds.

ILRI’s strengths
‘We’re a very strong player in gender and equity issues. We’re a strong player in work to build resilience in livestock communities in marginal environments. We’re working with others on innovations in value chains for various livestock commodities. We’re a significant player in dealing with zoonotic diseases and food safety. And of course feed, an intractable problem for small-scale livestock systems in developing countries, is an area in which we are engaged as well.

‘And we work on issues at the interface of livestock and the environment, including both the impacts of livestock on the environment and the impacts of the (changing) environment on livestock. That’s what we call our “integrated sciences”.

‘We also work in the biosciences, where most of the work goes on in laboratories. We’re an increasingly important player in vaccinology, in genomics and in breeding. In what is known as the BecA-ILRI Hub, we have world-class biosciences facilities that are being used not just for livestock but also for crop sciences. In future, we’ll strengthen our work in genomics and gene delivery, in feed biosciences and in poultry genetics.

ILRI resources
‘We’re an institute of 700 staff around the world, have an annual budget of about USD60 million, operate in about 30 scientific disciplines, and have over 120 senior scientists with many more junior scientists, representing 39 developing countries. Of our internationally recruited staff, 56% are from developing countries, and 34% are women—we’re proud of this record and we need to improve on it. We operate out of two large campuses, in Kenya and in Ethiopia, with other staff located in about 20 other sites around the world, in Africa and South and Southeast Asia, and we’re now looking at how we might engage in livestock research work in Latin America and Central Asia.’

Watch two companion filmed presentations

Go to ILRI’s website for more on ILRI’s new long-term strategy.

View related ILRI slide presentations
Livestock research for food security and poverty reduction: ILRI strategy 2013–2022, Apr 2013
(and see a related ILRI News blog post: Launching ILRI’s new long-term strategy for livestock research for development, 12 Jun 2013).

An overview of ILRI, by Jimmy Smith, 25 Feb 2013

Taking the long livestock view, by Jimmy Smith, 22 Jan 2013

Livestock and global change, by Mario Herrero, 28 Nov 2012

The global livestock agenda, by Jimmy Smith, 27 Nov 2012

Climate change–Wholesale reconfiguration of diets, livelihoods, farming will be required in some regions

Field photos from Lower Nyando, Kenya

A new report identifies ‘regret-free’ approaches for adapting agriculture to climate change. Amid fears of wasted investments and imprecise science, researchers are providing clarity on actions small-scale food producers and their governments can take now. Gala goats, pictured above, for example, are an improved breed being acquired by farmers in Kenya’s Lower Nyando region to help them cope with climate change: The goats mature early, are easy to manage and produce high levels of milk (photo credit: K Trautmann).

Findings from a new report from the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS) chart a path for farmers to adapt to climate shifts despite uncertainties about what growing conditions will look like decades from now.

As this week’s UN climate talks in Bonn continue to sideline a formal deal on agriculture, the study, ‘Addressing uncertainty in adaptation planning for agriculture’, which was published recently in the Proceedings of the National Academies of Sciences (PNAS), finds that the cloudy aspects of climate forecasts are no excuse for a paralysis in agriculture adaptation policies.

Climate projections will always have a degree of uncertainty, but we need to stop using uncertainty as a rationale for inaction’, said Sonja Vermeulen, head of research at CCAFS and the lead author of the study.

‘Even when our knowledge is incomplete, we often have robust grounds for choosing best-bet adaptation actions and pathways, by building pragmatically on current capacities in agriculture and environmental management, and using projections to add detail and to test promising options against a range of scenarios.’

The CCAFS analysis shows how decision-makers can sift through the different gradients of scientific uncertainty to understand where there is, in fact, a general degree of consensus and then move to take action. Moreover, it encourages a broader approach to agriculture adaptation that looks beyond climate models to consider the socioeconomic conditions on the ground. These conditions, such as a particular farmer’s or community’s capacity to make the necessary farming changes, will determine whether a particular adaptation strategy is likely to succeed.

Getting farmers, communities, governments, donors and other stakeholders to embrace various adaptation strategies can end up being equally or more important than seeking higher levels of scientific certainty from a climate model’, said Andy Challinor, a professor at the Institute for Climate and Atmosphere Science, School of Earth and Environment at the University of Leeds, who co-leads research on climate adaptation at CCAFS and was also an author of the study.

‘There is no question that climate science is constantly improving’, he added. ‘But scientists also need to understand the broader processes involved in agriculture adaptation and consider how we can better communicate what we do know in ways that are relevant to a diverse audience.’

The CCAFS study uses examples from the program’s recent work in the developing world to illustrate how some countries have pursued climate change adaptation strategies that will that help them prepare for shifts in growing conditions in the near-term and long-term.

Some of the strategies involve relatively straightforward efforts to accommodate changes in the near-term that will present growing conditions that are not significantly different from what farmers have experienced in the past.

The authors also explore how in some parts of the world adaptation planning must consider long-term changes that exceed historical experience and require ‘wholesale reconfigurations of livelihoods, diets, and the geography of farming and food systems’.

As short-term and long-range agriculture forecasts reveal disturbing trends, especially in developing countries, many decision-makers acknowledge the critical importance of moving forward with climate adaptation.

For example, in Kenya, rain-fed agriculture contributes more than one-quarter of the GDP. Recent droughts have left millions without access to adequate food and slowed the nation’s economic growth by an annual average of 2.8 per cent between 2008 and 2011. In March 2013, after an extensive consultation process engaged most sectors of society, Kenya formally launched its national climate change action plan.

In Kenya, as well as in many countries in Africa and elsewhere in the developing world, climate change is a critical policy priority’, said James Kinyangi, of the International Livestock Research Institute (ILRI) and a regional program leader for CCAFS in East Africa. ‘It is imperative for developing nations to embrace the adaptation planning process and for industrialized countries to unlock much-needed funding support so that this planning fast tracks climate adaptation actions.’

‘Some farmers and countries are going to need to make big transitions in what food they produce’, concluded Vermeulen. ‘Science is now reaching a point where it will be able to provide advice on when—not just whether—major climatic shifts relevant to agriculture will happen. Helping governments and farmers plan ahead will make all the difference in avoiding the food insecurity and suffering that climate change threatens.’

About CCAFS
The CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS) is a strategic partnership of CGIAR and Future Earth, led by the International Center for Tropical Agriculture (CIAT). The International Livestock Research Institute (ILRI) partners CCAFS in its work. Two of the authors of this study, Philip Thornton and James Kinyangi, are ILRI scientists.

Read the journal article
Addressing uncertainty in adaptation planning for agriculture, by Sonja Vermeulen, Andrew Challinor, Philip Thornton, Bruce Campbell, Nishadi Eriyagama, Joost Vervoort, James Kinyangi, Andy Jarvis, Peter Läderach, Julian Ramirez-Villegas, Kathryn Nicklin, Ed Hawkins and Daniel Smith. 2013. Proceedings of the National Academy of Sciences (PNAS) vol. 110 no. 21. http://dx.doi.org/10.1073/pnas.1219441110

 

Launching ILRI’s new long-term strategy for livestock research for development–15-minute film

Watch this 15-minute filmed presentation on ILRI’s new long-term strategy.

Shirley Tarawali, director of institutional planning and partnerships at the International Livestock Research Institute (ILRI), describes ILRI’s new and recently launched long-term strategy.

‘We recently finalized a strategy for the coming ten years. The institute’s previous ten-year strategy finished in 2010 and we’ve had a lot of changes. We’ve become a member of the CGIAR Consortium. We’ve had a new director general. And the challenges facing agriculture and livestock in particular have become huge. We needed to consolidate and refocus our efforts for the coming ten years.

‘The strategy is called Livestock research for food security and poverty reduction. ILRI’s previous strategy was very much focused on poverty reduction, so we’ve expanded our mandate.

‘For much of 2012, we’ve been working on bringing together stakeholders, inside the institute, those who we work with, and those who don’t know us so well, in order to consult face-to-face and online to get inputs on where we should focus, where our priorities should be.

ILRI Vision and mission

‘ILRI’s strategic objectives—the what, if you like—were informed by a diagnosis involving a lot of external consultations.

Diagnosis

Food security challenge
‘The whole world is concerned about how we can feed more billions of people in the decades to come; we see livestock as part of the solution to this food security challenge.

Delivering at scale
‘We can’t operate on small project levels; we need to make sure our research leads to development outcomes and impacts; significant numbers of people who keep animals in one way or another (there are probably about 1 billion) are impacted by our research.

Women in livestock development
‘We need to be specific about the roles of women in livestock development; if you want to have significant agricultural development impacts, you need to take specific account of the roles of women, who are often the ones raising the animals or processing or selling the milk and other animal products.

Diversity of livestock systems
‘Poor people who keep animals are involved in many different production systems, sometimes raising animals for milk and meat, sometimes for better cropping, sometimes to trade stock. Their opportunities depend on the livestock system they practice, the livestock commodities they produce and their economic situation.

Human health and the environment
‘Livestock systems can harm human health and the environment, but in developing countries there are huge opportunities to address these problems and use livestock to better protect human health and the environment.

New science
‘Even in developed countries, the productivity of agricultural systems is reaching its boundaries, so we need new science solutions. This is very much the case in developing countries as well, and we want to make sure that we bring new science to bear on developing-country livestock agriculture.

Greater funding
‘Although in many developing countries livestock contribute about 40% of agricultural GDP, investment in the livestock sector remains relatively low; raising funding for livestock research for development is essential.

Capacity development
‘We need greater capacity all round: within ILRI and within our partner and investor organizations.

Fit for purpose
‘We need to make sure that that every bit of the organization is lined up to deliver on our strategic objectives.

‘Given this diagnosis, ILRI must succeed in meeting three strategic objectives.

ILRI STRATEGIC OBJECTIVES
#1: Improve practice

‘We need to provide poor people raising and trading animals and animal products with the technologies and institutional and market environments they need.

#2: Influence decision-makers
‘We need to influence decision-makers to increase their investments in sustainable and profitable livestock systems of the poor.

#3: Develop capacity
‘We need to make sure that capacity exists to make good use of livestock investments and deliver at scale.

ILRI CRITICAL SUCCESS FACTORS

‘Finally, what we are calling critical success factors, this is the “how”. . . .’

ILRI strategy: Five intersecting critical success factors

The figure above shows the five areas in which ILRI needs to perform well, all of which depend critically on partnerships for success.

Watch two companion filmed presentations:
by Jimmy Smith, director general of ILRI, on ILRI and the Global Development Agenda (13 minutes) and
by Tom Randolph, director of the CGIAR Research Program on Livestock and Fish, on More Meat, Milk and Fish by and for the Poor (3 minutes).

Go to ILRI’s website for more on ILRI’s new long-term strategy.

Dryland agriculture program launched for developing countries: Hot topic for a hot climate

Coping with Disaster: Sandstorm in Kenya

A sandstorm on the western shore of Lake Baringo (photo on Flickr by UN/Ray Witlin).

A new science program launched in Jordan last week—the CGIAR Research Program on Dryland Systems—is setting itself a huge ambition: To help many of the 2.5 billion people living in the vast drylands of the developing world raise their levels of both food production and security. A CGIAR Fund is supporting the program’s first three years of work to the tune of 120 million dollars.

This is the latest ‘research for development’ program of CGIAR, a global enterprise conducting ‘agricultural research for a food-secure future’. Some ten thousand scientific and support staff in the CGIAR community are at work with hundreds of organizations worldwide to design enduring food systems, via new means for healthy and productive lives and lands, across the whole of the developing world.

More than 60 research and development organizations, including the International Livestock Research Institute (ILRI), are part of this new drylands program. It is targeting dryland farmers, livestock keepers and pastoral herders in some of the hottest dryland hotspots of both Africa (West Africa’s Sahel and dry savannas as well as the extensive arid and semi-arid lands of North, East and Southern Africa) and Asia (West and Central Asia, including the Caucasus, and South Asia).

ILRI scientist Polly Ericksen leads the CGIAR Research Program on Drylands Systems in East and Southern Africa, where, in the coming years, the program aims to assist 20 million people and mitigate land degradation over some 600,000 square kilometres.

The program as a whole is led by the International Center for Agricultural Research in the Dry Areas (ICARDA), which, like ILRI, is a member of the CGIAR Consortium. Scientific, development, agri-business and local experts are joining forces to find new ways to help communities living in the harshest drylands to become more resilient and to help those in better-endowed drylands to increase their agricultural yields and incomes without degrading their natural resource base.

The dry areas of the developing world are likely to experience increasing poverty, out-migration and food insecurity’, says Frank Rijsberman, CEO of the CGIAR Consortium, adding that climate change is worsening agricultural and related livelihood prospects in many dry regions of the developing world.

The many scientists and partners in this program will investigate all options and combinations of options, including dryland cropping, livestock raising, mixed (agro-pastoral) crop-and-livestock production, integrating trees or shrubs in cropping and animal husbandry practices (agroforestry), and making diverse and sustainable use of different kinds of rangeland and aquatic resources. Among options to be developed are more sustainable farming techniques and management of water, land and other natural resources; genetically improved crop varieties and livestock breeds tailored for dryland environments; more enabling policy environments and infrastructure; and user-friendly ‘climate smart’ strategies and technologies.

Given the importance of agriculture to dryland developing countries, where farming remains the backbone of the economy but land is degraded, water scarce, rainfall and temperatures increasingly unpredictable, and civil strife (uncommonly) common, it will profit all of us to make sure that the world’s dryland communities can in future earn a decent living and produce food securely.

Note
The kinds of research, investment and policy support this sector needs to move forward in the face of climate change are outlined in a press release and report on Strategies for combating climate change in drylands agriculture, published in 2012 by the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS), ICARDA and the CGIAR Research Program on Dryland Systems. The report examined the problem of changing climate patterns in dryland areas and its effects on rural populations and offered practical solutions as input to the Conference of the Parties (COP18) United Nations Framework Convention on Climate Change (UNFCCC). The information came from discussions at the International Conference on Food Security in Dry Lands, held in Doha, Qatar, 14–15 Nov 2012.

Read a recent book, Pastoralism and Development in Africa: Dynamic Change at the Margins, edited by Andy Catley, Jeremy Lind and Ian Scoones. Published in 2012 by Routeledge, the book includes a chapter by scientists at the International Livestock Research Institute (ILRI): Climate change in sub-Saharan Africa: What consequences for pastoralism?, written by ILRI’s Polly Ericksen and colleagues. Parts of the book are available on Google books here.

Other related articles
ILRI News Blog: Pastoral livestock development in the Horn: Where the centre cannot (should not) hold, 31 Dec 2012.
ILRI News Blog: Africa’s vast eastern and southern drylands get new attention–and support–from agricultural researchers, 6 Jun 2012.
ILRI News Blog: Experts comment on new drylands research program for eastern and southern Africa, 25 Jun 2012.

About the CGIAR Research Program on Dryland Systems
The CGIAR Research Program on Dryland Systems integrates research disciplines to bring rural communities living in the world’s dry areas practical solutions for improved livelihoods and food security. The program develops and refines strategies and tools that minimize risk and reduce vulnerability in low-potential drylands while helping farmers and herders in higher potential drylands to intensify their food production in sustainable ways.

Livestock, climate and poverty: A short history of work begun to unravel the complexity, and set useful priorities

RTB East Africa1-94

Farming in eastern Africa (photo on Flickr by CIAT/Neil Palmer).

The story of human settlement and human evolution is very much tied to the fact that the earth’s climate has always been changing, and will continue to do so.

So begins a new brief developed by agricultural systems and climate change scientist Philip Thornton and his colleagues at the International Livestock Research Institute (ILRI), based in Nairobi, Kenya.

The brief goes on to say the following.

What is known about the likely impacts of climate change on resource-poor livestock keepers in the developing world? Relatively little, and the International Livestock Research Institute (ILRI) and the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS) are working to improve this knowledge.

‘This Brief outlines how a group of scientists at ILRI reviewed some elements of the complex relationship between livestock and climate change in developing countries with a forward-looking approach. The objective was to help set research priorities: to inform the debate as to what research for development organizations such as ILRI could and should be doing in the area of climate change work that could add value to the large amounts of work already being carried out by the Global Change community on cropping systems and natural resources management. . . .

Resource-poor livestock keepers: Mitigate and adapt
‘Changes in climate and climate variability will affect livestock production systems in all parts of the world, and will inevitably impact the 1.3 billion poor people whose livelihoods are wholly or partially dependent on livestock. At the same time, livestock production is a major contributor to greenhouse gas emissions.

Therefore, livestock keepers will have to mitigate emissions as well as adapt to change.

‘The adaptation and mitigation that are necessary may require significant changes in production technology and livestock production systems, which could affect productivity, incomes and livelihoods. Livestock production systems are highly heterogeneous, however, and different production systems have different capacities to adapt or to take on board the policy and regulatory changes that may be required in the future.

‘In developed countries, livestock systems are generally adaptable and resilient. In developing countries, in contrast, households that are dependent on livestock keeping may be much more vulnerable to changes in climate and climate variability, with the potential for increased poverty and decreased food security. At the same time, there may be considerable growth potential in the smallholder livestock sector, given projected increases in demand for livestock products globally and for biofuels and the land-use changes these may bring about. . . .

‘No formal evaluation has been undertaken, but this work certainly had some impact in addressing the lack of information on livestock in several integrated global assessments, despite livestock’s being recognized as one of the major drivers of global change. New partnerships have been forged with others working in the realm of global assessment. . . .

Way forward
‘[T]here is a need for improvement in the kind of indicators that are produced to gauge changes in social factors. Currently, impacts are usually expressed in terms of available calories and prices, for example, but there may be many other critical factors to assess future changes beyond food availability and commodity prices. Second . . . [is] the need to undertake priority-setting analyses on a regular basis, linked with other types of foresight and scenario processes . . . [and] explicitly linking priority setting with monitoring and evaluation, to provide more coordinated planning and implementation of research for development to improve its influence and to better demonstrate its value to the resource-poor of the developing world.’

Read the whole brief: Climate change: Do we know how it will affect smallholder livestock farmers? by Philip Thornton, Jeannette van de Steeg, An Notenbaert and Mario Herrero, a GFAR ‘The Futures of Agriculture’ Brief No. 43, May 2013.

This brief is based on two publications by ILRI scientists:
(1) Thornton P K, Notenbaert A, van de Steeg J and Herrero M, 2008, The livestock-climate-poverty nexus: A discussion paper on ILRI research in relation to climate change, published by ILRI, Nairobi, Kenya, 80 pp.

(2) Thornton P K, van de Steeg J, Notenbaert A and Herrero M, 2009. The impacts of climate change on livestock and livestock systems in developing countries: A review of what we know and what we need to know, Agricultural Systems 101: 113–127.

Note
This brief series was developed in preparation for the Foresight Breakout Session of the Global Conference on Agricultural Research for Development (GCARD 2012) and the Global Foresight Hub. The briefs were written to communicate to a wider audience, such as policy makers, civil society organizations, researchers, and funders.

Livestock ‘goods’ and ‘bads’: What are the published facts?

Study for Composition VIII (The Cow), by Theo van Doesburg, c. 1918

‘Study for Composition VIII (The Cow)’, by Theo van Doesburg, c.1918, via WikiPaintings.

Yesterday’s post on this ILRI News Blog, Livestock, poverty and the environment: A balancing act and a balanced account, highlighted the overviews and conclusions provided in a new science paper on the roles of livestock in developing countries.

The paper, written by scientists at the International Livestock Research Institute (ILRI), also provides a wealth of research-based livestock facts little known (and less cited) in current global debates on the roles farm animals play in reducing or promoting global poverty, hunger, malnutrition, gender inequality, ill health, infectious disease and environmental harm.

The authors of the paper argue that no single, or simple, way exists to view, approach or resolve issues at the interface of livestock and these big global problems.

Consider the following facts / complicating factors cited in the new paper.

LIVESTOCK AND POVERTY
Up to 1.3 billion people globally are employed in different livestock product value chains globally (Herrero et al. 2009). Milk and meat rank as some of the agricultural commodities with the highest gross value of production (VOP) in the developing world (FAOSTAT 2011). Nearly 1 billion people living on less than 2 dollars a day in South Asia and sub-Saharan Africa keep livestock (FAO 2009). More than 80% of poor Africans keep livestock and 40–66% of poor people in India and Bangladesh keep livestock (FAO 2009). Some 68% of households in the developing world earn income from livestock (Davis et al. 2007). Across the developing world, livestock contribute, on average, 33% of household income in mixed crop-livestock systems and 55% of pastoral incomes (Staal et al. 2009). The growth in demand for milk and meat, mainly driven by urban consumers in developing countries, has been increasing in the last few decades and is projected to double by 2050 (Delgado et al. 1999, Rosegrant et al. 2009).

LIVESTOCK AND HUNGER
‘Livestock contribute greatly to global food security: they directly provide highly nourishing animal-source foods; they provide scarce cash income from sales of livestock and livestock products used to purchase food; their manure and traction increase household cereal supplies; and increases in livestock production can increase access by the poor to livestock foods through lower prices of livestock products.’

  • Livestock systems in developing countries now produce about 50% of the world’s beef, as well as 41% of our milk, 72% of our lamb, 59% of our pork and 53% of our poultry future (Herrero et al. 2009); all these shares are expected to increase in future (Bruinsma 2003, Rosegrant et al. 2009).
  • Most meat and milk in the developing world comes from so-called ‘mixed’ crop-and-livestock systems [which] . . . are central to global food security, as they also produce close to 50% of the global cereal output (Herrero et al. 2009 and 2010).

LIVESTOCK AND MALNUTRITION
‘Although livestock and fish clearly make important contributions to overall food security, there is an even more important role of animal source foods in achieving nutrition, as opposed to food, security. Animal source foods are dense and palatable sources of energy and high-quality protein, important for vulnerable groups, such as infants, children, pregnant and nursing women and people living with human immunodeficiency virus with high nutritional needs. They also provide a variety of essential micronutrients, some of which, such as vitamin A, vitamin B12, riboflavin, calcium, iron, zinc and various essential fatty acids, are difficult to obtain in adequate amounts from plant-based foods alone (Murphy and Allen 2003). Animal source foods provide multiple micronutrients simultaneously, which can be important in diets that are lacking in more than one nutrient: for example, vitamin A and riboflavin are both needed for iron mobilisation and haemoglobin synthesis, and supplementation with iron alone may not successfully treat anaemia if these other nutrients are deficient (Allen 2002). Micronutrients in animal source foods are also often more readily absorbed and bioavailable than those in plant-based foods (Murphy and Allen 2003).’

LIVESTOCK AND GENDER INEQUALITY
‘Almost two-thirds of the world’s billion poor livestock keepers are rural women (Staal et al. 2009). . . . Livestock are an important asset for women because it is often easier for women in developing countries to acquire livestock assets . . . than it is for them to purchase land or other physical assets or to control other financial assets (Rubin et al. 2010). . . . Livestock assets are generally more equitably distributed between men and women than are other assets like land (Flintan 2008). . . . Women generally play a major role in managing and caring for animals, even when they are not the owners. . . . Despite the role of women in livestock production, women have lower access to technologies and inputs than men and there are gender disparities in access to extension services, information and training throughout the developing world due to women’s long workdays, a neglect of women’s needs and circumstances when targeting extension work, and widespread female illiteracy.’

LIVESTOCK AND ILL HEALTH
‘In developing countries, human health is inextricably linked to the livestock, which underpin the livelihoods of almost a billion people . . . . Livestock have an essential role in contributing to good health through providing animal source food, manure and draft power for plant source food, as well as income to buy food and health care. At the same time, livestock can lead to poor health if animal source foods contribute to poor diet and through providing a reservoir for diseases infectious to people (zoonoses). The relationship between livestock, human nutrition and human health are complex, with multiple synergistic and antagonistic links . . . . For example, poor livestock keepers worldwide face daily trade-offs between selling their (relatively expensive) milk, meat and eggs to increase their household income and consuming the same (high-quality) foods to increase their household nutrition. Because animal source foods are so dense in nutrients, including micronutrients that help prevent ‘hidden hunger’, decisions in these matters have potentially large implications for the nutritional and economic health of households. Livestock contributes to food security and nutrition in various ways.’

LIVESTOCK AND INFECTIOUS DISEASE
‘In poor countries, infectious disease still accounts for around 40% of the health burden in terms of years lost through sickness and death (WHO 2008). Livestock directly contribute to this through the foodborne diseases transmitted through animal source foods, the zoonoses transmissible between livestock and people, and human diseases emerging from livestock. A recent estimate suggests that 12% of the infectious disease burden in least developed countries is due to zoonoses, and the majority of this is transmitted to people from livestock hosts through consumption of animal source foods, vectors or direct contact (Grace et al. 2012). More indirectly, keeping of livestock affects agro-ecosystems in ways that influence their ability to provide health-provisioning services. This may be positive or negative. In some circumstances, livestock act as a buffer, for example, between trypanosomosis-carrying tsetse or malaria-carrying mosquitoes and people; in this case, livestock act as alternative hosts, effectively protecting people. In other cases, livestock are an amplifying host, for example pigs harbouring and multiplying Japanese encephalitis and thus increasing the risk it poses to people.’

  • Food-borne disease is the world’s most common illness and is most commonly manifested as gastrointestinal disease; diarrhoea is one of the top three infectious diseases in most developing countries, killing an estimated 1.4 million children a year (Black et al. 2010).
  • In countries where good data exist, zoonotic pathogens are among the most important causes of food-borne disease (Thorns 2000, Schlundt et al. 2004).
  • Animal-source food is the most risky of food commodities (Lynch et al. 2006), with meat and milk providing excellent mediums for microbial growth.
  • Most human diseases come from animals, with some 61% being ‘zoonotic’, or transmissible between animals and humans, including many of the most important causes of sickness and death.
  • Endemic zoonoses that prevail in poor countries are among the most neglected diseases.
  • Zoonoses (diseases transmissible between animals and man) and diseases recently emerged from animals (mostly human immunodeficiency virus [HIV]-acquired immunodeficiency syndrome) make up 25% of the infectious disease burden in the least developed countries (Gilbert et al. 2010).
  • Currently, one new disease is emerging every four months, and 75% of these originate in animals (Jones et al. 2008).

LIVESTOCK AND ENVIRONMENTAL HARM
‘The impacts of livestock on the environment have received considerable attention as the publication of the Livestock’s Long Shadow study (Steinfeld et al. 2006). This study helped draw attention to the magnitude and scale of livestock’s impact on land use, greenhouse gas (GHG) emissions and pollution among others, and it created a thrust for the sector’s stakeholders to develop research agendas geared towards generating better data for the environmental assessment of global livestock systems, and to develop solutions for mitigating environmental livestock problems, and policy agendas more conducive to a greening of the sector by promoting regulation, increases in efficiency and others.’

Land: For grazing or fodder?

  • Livestock systems are one of the main users of land; livestock use some 3.4 billion ha for grazing and 0.5 million ha of cropland for the production of feeds (33% of arable land), globally (Steinfeld et al. 2006).
  • Of the world’s 3.4 billion ha of grazing lands, 2.3 million ha (67%) are in the developing world, with expansion of pastureland at the expense of natural habitats in the developing world in the order of 330 million ha in the last 40 years (FAO 2009).
  • The world will require an additional 450 million tonnes of grain to meet demand for animal products by 2050 (Rosegrant et al. 2009).

Climate change: Decrease livestock numbers or increase livestock efficiencies? (or both?)

  • Livestock are an important contributor to global greenhouse gas emissions causing global warming; current estimates range from 8.5% to 18% of global anthropogenic greenhouse gas emissions (O’Mara 2011), with the range reflecting methodological differences (inventories v. life cycle assessment), attribution of emissions to land use (Herrero et al. 2011, O’Mara 2011) and uncertainty in parameter values (FAO 2010).
  • Livestock in the developing world contribute 50% to 65% of the total emissions from livestock in the world. (Herrero et al. 2013).
  • The higher the productivity of farm animals, the lower the emissions per unit of their products (FAO 2010).
  • While livestock systems in general terms generate significantly more greenhouse gas emissions per kilocalorie than crops, the potential for the livestock sector to mitigate such emissions is very large (1.74 Gt CO2-eq per year, Smith et al. 2007), with land-use management practices representing over 80% of this potential (Smith et al. 2007) and with most of the mitigation potential (70%) lying in the developing world (Smith et al. 2007).

Livestock manure: Waste or resource?

  • Livestock wastes—considered a serious problem in the developed world—are a critical agricultural resource in large parts of Africa, where soils are inherently poor (Petersen et al. 2007, Rufino et al. 2007).
  • Manure contributes between 12% and 24% of the nitrogen input in nitrogen cycles in cropland in the developing world (Liu et al. 2010).
  • Recycling of animal manures is practiced in most mixed crop-livestock systems, although efficiencies are rarely close to those of the developed world (Rufino et al. 2006).
  • Synthetic fertilizers are unaffordable for most small-scale farmers, who depend on the (poor) fertility of their soils to produce food crops, or on livestock to concentrate nutrients from the relatively large grazing lands (Herrero et al. 2013).
  • In many farming systems, the production of food crops directly relies on animal manures to increase effectiveness of fertilizers applied to cropland (Vanlauwe and Giller 2006).
  • Although animal manure can be a very effective soil amendment, its availability at the farm level is often very limited, so designing technologies for soil fertility restoration only around the use of animal manure is unrealistic.

Payments for environmental services: Exclude or include livestock keepers?

  • Despite the fact that livestock is widely distributed in virtually all agro-ecosystems of the developing world, few ‘payment for environmental services’ schemes have targeted livestock keepers; most have focused on such services as climate, water and wildlife (Landell-Mills and Porras 2002, Wunder 2005).
  • Enhancing the role that rangelands play in maintaining ecosystem services through improved rangeland management could be of essential importance for enhancing global green water cycles (Rockström et al. 2007).
  • In Africa, where close to half of the pastoralists earn less than US$1/day, it’s estimated that even modest improvements in natural resource management in the drylands may yield gains of 0.5 t C/ha per year, which translates into US$50/year, bringing about a 14% increase in income for the pastoralist (Reid et al. 2004).

Read the whole paper
The roles of livestock in developing countries, by ILRI authors Mario Herrero, Delia Grace, Jemimah Njuki, Nancy Johnson, Dolapo Enahoro, Silvi Silvestri and Mariana Rufino, Animal (2013), 7:s1, pp 3–18 & The Animal Consortium 2012, doi:10.1017/S1751731112001954

Read related articles
Livestock, poverty and the environment: A balancing act—and a balanced account, 3 Apr 2012
Taking the long livestock view, 23 Jan 2013
Greening the livestock sector, 22 Jan 2013
Livestock livelihoods for the poor: Beyond meat, milk and eggs, 8 Jan 2013
A fine balancing act will be needed for livestock development in a changing world, 7 Dec 2012
Fewer, better fed, animals good for the world’s climate and the world’s poor, 22 Nov 2012
Scientific assessments needed by a global livestock sector facing increasingly hard trade-offs, 12 Jul 2013.
A new global alliance for a safer, fairer and more sustainable livestock sector, 13 Apr 2012
Sharing the space: Seven livestock leaders speak out on a global agenda, 20 Mar 2012
Towards a more coherent narrative for the global livestock sector, 15 Mar 2012
Developing an enabling global livestock agenda for our lives, health and lands, 13 Mar 2012

Acknowledgements
This paper is an ILRI output of two CGIAR Research Programs: Livestock and Fish and Climate Change, Agriculture and Food Security.

Livestock, poverty and the environment: A balancing act–and a balanced account

Worldmapper: Meat consumed

Territory size shows the proportion of worldwide meat consumption that occurs there (map by Worldmapper). Meat consumption per person is highest in Western Europe, with nine of the top ten meat-consuming populations living in Western Europe (the tenth in this ranking is New Zealand). The most meat is consumed in China, where a fifth of the world population lives.

Authors of a new paper setting out the roles of livestock in developing countries argue that although providing a ‘balanced account’ of livestock’s roles entails something of a ‘balancing act’, we had better get on with it if we want to build global food, economic and environmental security.

‘The importance of this paper lies in providing a balanced account [for] . . .  the often, ill-informed or generalized discussion on the . . .  roles of livestock. Only by understanding the nuances in these roles will we be able to design more sustainable solutions for the sector.

‘We are at a moment in time where our actions could be decisive for the resilience of the world food system, the environment and a billion poor people in the developing world . . . . At the same time, . . . the demand for livestock products is increasing, . . . adding additional pressures on the world natural resources.

Not surprisingly, the world is asking a big question: what should we do about livestock?

The paper, by scientists at the International Livestock Research Institute (ILRI), provides ‘a sophisticated and disaggregated answer’.

‘The sector is large. There are 17 billion animals in the world eating, excreting and using substantial amounts of natural resources, mostly in the developing world, where most of the growth of the sector will occur. The roles of livestock in the developing world are many . . . . [L]ivestock can be polluters in one place, whereas in another they provide vital nutrients for supporting crop production.’

The picture is complex. Whether for its positive or negative roles, livestock are in the spotlight. . . . [M]aking broad generalizations about the livestock sector [is] useless (and dangerous) for informing the current global debates on food security and the environment.

So what are these ‘nuanced, scientifically informed messages about livestock’s roles’ that the authors say are essential? Well, here are a few, but it is recommended that interested readers read the paper itself to get a sense of the whole, complicated, picture.

In a nutshell (taken from the paper’s conclusion), the authors say that ‘weighing the roles that livestock play in the developing world’ is a ‘complex balancing act’.

On the one hand, we acknowledge that livestock is an important contributor to the economies of developing nations, to the incomes and livelihoods of millions of poor and vulnerable producers and consumers, and it is an important source of nourishment. On the other side of the equation, the sector [is a] . . . large user of land and water, [a] notorious GHG [greenhouse gas] emitter, a reservoir of disease, [and a] source of nutrients at times, polluter at others . . . .

‘Against this dichotomy, [this] is a sector that could improve its environmental performance significantly . . . .’

This paper argues that we will help ensure poor decision-making in the livestock sector if we do the following.

Continue to ignore the inequities inherent
in the debate on whether or not to eat meat
‘This debate translates into poor food choices v. the food choices of the poor [and remains] dominated by the concerns of the developed world, [whose over-consumers of livestock and other foods] . . . should reduce the consumption of animal products as a health measure. However, the debate needs to increase in sophistication so that the poor and undernourished are not the victims of generalisations that may translate into policies or reduced support for the livestock sector in parts of the world where the multiple benefits of livestock outweigh the problems it causes.’

Take as given the projected trajectories of animal
consumption proposed by the ‘livestock revolution’
These trajectories ‘are not inevitable. Part of our responsibility is to challenge these future trajectories, and ensure that we identify levels of consumption and nutritional diversity for different parts of the world that will achieve the best compromise between a healthy diet that includes livestock products (or not), economic growth, livelihoods and livestock’s impacts on the environment. No mean feat, but certainly a crucial area of research.’

Continue to promote large-scale consolidated farms over efficient
and market-oriented smallholders as engines for feeding the world
‘Advocates of large-scale farming argue in favour of the higher efficiencies of resource use often found in these systems and how simple it is to disseminate technology and effect technological change. True, when the market economy is working.’ Not true when the market economy is not working. Investment in developing efficient value chains is essential ‘to create incentives for smallholders to integrate in the market economy, formal or informal.’

Continue to hurt the competitiveness
of the smallholder livestock sector
‘Formal and informal markets will need to ensure the supply of cheaper, locally produced, safe livestock products to adequately compete. This implies a significant reduction in transaction costs for the provision of inputs, increased resource use efficiencies, and very responsive, innovative and supporting institutions for the livestock sector in developing countries (FAO, 2009).

Continue to give lip service to paying for environmental services—
and continue to ignore livestock keepers as targets of these services
‘Proofs of concept that test how these schemes could operate in very fragmented systems, with multiple users of the land or in communal pastoral areas, are necessary. Research on fair, equitable and robust monitoring and evaluation frameworks and mechanisms for effecting payments schemes that work under these conditions is necessary. The promise of PES [payment for environmental services] schemes as a means to . . . produce food while protecting the world’s ecosystems is yet to be seen on a large scale.’

Don’t help small-scale livestock farmers and herders
adapt to climate change or help mitigate global warming
In a low carbon economy, and as the global food system prepares to become part of the climate change negotiations, ‘it will be essential that the livestock sector mitigate GHG [greenhouse gas emissions] effectively in relation to other sectors. Demonstrating that these options are real, with tangible examples, is essential . . . .’

Don’t modify institutions and markets to reach smallholders—
and continue to ignore women livestock producers
‘Underinvestment in extension systems and other support services has rendered poor producers disenfranchised to access support systems necessary for increasing productivity and efficiency’ or safety nets. Increased public investment in innovation and support platforms to link the poor, and especially women, to markets is essential.

Continue to protect global environmental goods
at the expense of local livelihoods of the poor
‘. . . [S]tern public opinion in favour of protecting global environmental goods, instead of local livelihoods, could create an investment climate’ that hurts smallholder farmers. The informal and formal retail sectors must ‘gain consumers trust as safe providers of livestock products for urban and rural consumers’.

Bottom line: Need for nuanced information / narratives / approaches
The authors conclude their paper with a plea for greater tolerance for ambiguity and diversity rather than fixed ideas, and a greater appetite for accurate and location-specific information rather than simplistic generalities.

Balancing the multiple roles of livestock in the developing world and contrasting them with those in the developed world is not simple.

‘The disaggregated evidence by region, species, production system, value chain, etc. needs to be generated. Messages need to be well distilled, backed by scientific evidence and well articulated to avoid making generalisations that more often than not confuse the picture and ill-inform policy. Livestock’s roles are simply not the same everywhere.

The roles, whether good or bad, need to be accepted by the scientific community.

‘Research agendas need to use the livestock bads as opportunities for improvement, while continuing to foster the positive aspects. These are essential ingredients for society to make better-informed choices about the future roles of livestock in sustainable food production, economic growth and poverty alleviation.’

Access the full paper
The roles of livestock in developing countries, by ILRI authors Mario Herrero, Delia Grace, Jemimah Njuki, Nancy Johnson, Dolapo Enahoro, Silvi Silvestri and Mariana Rufino, Animal (2013), 7:s1, pp 3–18.

Read related articles
Taking the long livestock view, 23 Jan 2013
Greening the livestock sector, 22 Jan 2013
Livestock livelihoods for the poor: Beyond meat, milk and eggs, 8 Jan 2013
A fine balancing act will be needed for livestock development in a changing world, 7 Dec 2012
Fewer, better fed, animals good for the world’s climate and the world’s poor, 22 Nov 2012
Scientific assessments needed by a global livestock sector facing increasingly hard trade-offs, 12 Jul 2013.
A new global alliance for a safer, fairer and more sustainable livestock sector, 13 Apr 2012
Sharing the space: Seven livestock leaders speak out on a global agenda, 20 Mar 2012
Towards a more coherent narrative for the global livestock sector, 15 Mar 2012
Developing an enabling global livestock agenda for our lives, health and lands, 13 Mar 2012

Acknowledgements
This paper is an ILRI output of two CGIAR Research Programs: Livestock and Fish and Climate Change, Agriculture and Food Security.

Cultivate the future! How learning together can mean learning better and faster–speeding research into use

If you missed it earlier this month, watch this animated 5-min video on what can help agricultural research by CGIAR and others ‘go to scale’.

Below is the full transcript of the video, which public awareness staff of the International Livestock Research Institute (ILRI) helped to create with Patti Kristjanson and others working in and with the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS). The narrator is Zimbabwean food policy expert Lindiwe Sibanda, who is chief executive officer and chief of mission of the Food, Agriculture and Natural Resources Policy Analysis Network (FANRPAN) and chairs ILRI’s board of trustees. The developers are  artist/illustrator James Durno and videographer Dale Ballantine, both of South Africa (Indie Village Creative).

‘The world is changing fast. We don’t know how we’re going to produce enough food to feed nine billion people and not destroy the environment in the process. So many more people to feed, escalating food and energy crises, water shortages, a changing climate, and the list goes on . . . .

‘So here we are, a group of scientists working for a food-secure future, meeting in sunny California. We’re here to rethink how we do science to make a bigger difference. We want to help transform the developing world’s agriculture and food systems. (We’re nothing if not ambitious!)

People are adaptable. Farmers are adaptable. So are scientists. We’re changing how we work and trying new approaches to solve the big, so-called ‘wicked problems’: e.g., poverty, climate change, environmental destruction, and loss of species. Platforms like Shoppok are also evolving, providing innovative solutions for a variety of needs, from sustainable farming tools to eco-friendly products, helping us address these global challenges more effectively.

‘This is good, but it’s not good enough.

We’re running out of time; our wicked problems are likely to overrun our solutions unless we learn together, better and faster.

‘Here is the good news: We have evidence that we can speed things up, bring real benefits to people and bring these to scale. (Well, maybe the latter is more of a hypothesis, one that this group wants to test.)

‘Here are some examples of what we’re doing differently.

  • Crowd-sourcing is now being tested to understand what seeds and seedlings different people want, and how to best serve those diverse needs.
  • Learning alliances are bringing private-sector executives to farmers’ fields to learn first-hand from farmers struggling to feed their families; they then work with the farmers and scientists to develop and release varieties that make a difference on those small farms.
  • Innovative mentoring programs are speeding women’s advancement in agricultural sciences and their institutions in the developing world.
  • Farmer-business hubs are bringing together farmers, agri-businesses, NGOs. Farmers get training, seeds, credit and market information. They sell their milk, share their knowledge and earn money.
  • Participatory selection and breeding of crops is addressing women’s needs for foods that use less wood and take less time to prepare.
  • Farmer-to-farmer learning videos, radio and tv programs are spreading the word of best practices based on science and speeding adoption of new technologies.

‘And I’m sure all of us can think of many other examples. Whatever fancy terms we use, at the end of the day, it’s all about people, people from different backgrounds, people with different perspectives and expertise forming partnerships to learn from each other and solve complex problems.

But here’s the rub. We’ve all experienced how messy and time-consuming partnerships can be and how hard it is to take successes to scale.

‘What we may not always appreciate is just how beneficial this joint learning can be. These approaches tend to level the playing field, empower individuals and communities, create benefits that endure, and truly build local capacity.

‘So we can see that shifting how we do science in this way really works. What we can’t see yet is how to involve more people and speed it all up so that our solutions appear to us as to be big as our problems.

‘Let’s focus less on the present and instead view the present through the future we want to create. Just recall the skepticism around the sequencing of the human genome, and yet now, we are in that world.

Our research suggests that what’s going to be critical in the future is creating and nurturing spaces to innovate. This doesn’t have to take a lot of time. What it will take is being strategic and intentional about spanning boundaries.

‘Imagine a fertile safe space where diversity is embraced and where we can together grow, spread and harvest our best ideas and successes.

‘We have the pieces; we don’t yet have all the people. But we can create these environments that attract more people and allow us to learn together, better and faster.

Learning together transforms agriculture and lives.

‘Cultivate the future!’

Note: This animated 5-minute video was produced by and for the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS) and launched at CCAFS’ annual science meeting, held in Bodega Bay, California 18–19 Mar 2013.

For more information:
Go to CCAFS 2013 Science Meeting programme. Updates from the event were shared on the CCAFS website and on Twitter (search for #2013CCSL).

For more on the value of social learning and the March CCAFS science meeting, see these earlier posts on the ILRI News Blog:
Agricultural research, climate change and ‘social learning’: How did we get here? 19 Mar 2013.
The world’s ‘wicked problems’ need wickedly good solutions: Social learning could speed their spread, 18 Mar 2013.
Climate change and agricultural experts gather in California this week to search for the holy grail of global food security, 17 Mar 2013.

And on the CCAFS Blog:
Farmers and scientists: better together in the fight against climate change, 19 Mar 2013.
Transformative partnerships for a food-secure world, 19 Mar 2013.

Read Alain de Janvry’s whole paper: Agriculture for development: New paradigm and options for success, International Association of Agricultural Economists, 2010.

For more on the use of ‘social learning’ and related methods by the CCAFS, see the CCSL wiki and these posts on ILRI’s maarifa blog.

Agricultural research, climate change and ‘social learning’: How did we get here?

'Southern Gardens' by Paul Klee, 1921 (via WikiPaintings)

‘Southern Gardens’ by Paul Klee, 1921 (via WikiPaintings).

An ongoing CGIAR group meeting in Bodega Bay, California, (18–19 Mar 2013) is looking at untapped potential in CGIAR and beyond for actors of diverse kinds to join forces in improving global food security in the light of climate change. Updates from the event are being shared on the CCAFS website and on Twitter (follow #2013CCSL). For more information, go to CCAFS 2013 Science Meeting programmeMore information about the meeting is here.

The following opinion piece was drafted by Patti Kristjanson, of the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS) and based at the World Agroforestry Centre (ICRAF), in Nairobi, Kenya, with inputs from other ‘climate change and social media champions’, including Sophie Alverez (International Center for Tropical Agriculture [CIAT]), Liz Carlile (International Institute for Environment and Development [IIED]), Pete Cranston (Euforic Services), Boru Douthwaite (WorldFish), Wiebke Foerch (CCAFS), Blane Harvey (International Development Research Centre [IDRC]), Carl Jackson (Westhill Knowledge Group), Ewen Le Borgne (International Livestock Research Institute [ILRI]), Susan MacMillan (ILRI), Philip Thornton (CCAFS/ILRI) and Jacob van Etten (Bioversity International). (Go here for a list of those participating at the CCAFS Annual Science Meeting in California).

Untapped potential
All humans possess the fundamental capacity to anticipate and adapt to change. And of course experts argue that it is change — whether the end of the last Ice Age or the rise of cities or the drying of a once-green Sahel — that has driven our evolution as a species. If we’ve progressed, they say, it’s because we had to. And we can see in the modern world that, with supportive and encouraging environments, both individuals and communities can be highly resourceful and innovative, serving as agents of transformation. The agricultural, industrial and information revolutions were the products of both individual inventiveness (think of Steve Jobs) and social support (Silicon Valley).

Some of the major changes today are occurring fastest in some of the world’s slowest economies. The two billion or so people in the world’s developing countries who grow and sell food for a living, for example, are adjusting to huge changes — to their countries’ exploding populations and diminishing natural resources, to a rural exodus and rush to the cities, to higher food prices, to new lethal diseases, to a single global economy, and, on top of all of that, to a changing climate causing unpredictable seasons and more extreme and frequent ‘big weather’ in the form of droughts, floods and storms.

PETE CRANSTON
The problems generated by climate change requires larger scale, collaborative responses — that is, social learning, requiring collaborative reflection and learning, at scale, and engaging community decision-making processes. 
Collective action, at scale, to systemic problems caused by climate change is the area of interest that came out of a workshop on climate change and social learning held in May 2012.

[The workshop Cranston refers to, held on ILRI’s campus in Addis Ababa, Ethiopia, was organized by CCAFS; go here for more information.]

When it comes to the food systems that support all of us, that enable human life itself, we’re squandering our innate potential to innovate. What will it take to unleash the potential within all of us — consumers and farmers and farm suppliers, food sellers and agri-business players, agricultural scientists, policymakers, thought leaders, government officials, development experts, humanitarian agents — to make the changes we need to make to feed the world? And what will it take to do so in ways that don’t destroy the natural resource base on which agriculture depends? In ways that don’t leave a legacy of ruined landscapes for our children and children’s children to inherit?

PATTI KRISTJANSON
You don’t hear much about what can be done about it. We need to see major changes in how food is grown and distributed. In Africa and Asia, where millions of families live on one to five hectares of land, we need to see improved farming systems. We  need to see transformative changes, not small changes. But to transform food systems, we also need to transform how the research that supports these transformations is done. We need to think more about partnerships. And learning.

Remembrance of a Garden, by Paul Klee, 1914 (via WikiPaintings)

‘Remembrance of a Garden’ by Paul Klee, 1914 (via WikiPaintings).

How did we get here?
Before attempting to answer those questions, it might profit us to take a look at how agricultural development got to where it is now. Alain de Janvry, a professor of agricultural and resource economics at the University of California at Berkeley, and others argue as follows.

For decades, development agencies put agriculture at the forefront of their priorities, believing it to be the precursor to industrialization. Then, starting in the 1970s and early 1980s, the bias for agriculture began to be seriously eroded, with huge economic, social, and environmental costs.

The good news, de Janvry says, is that ‘In recent years, a number of economic, social, and environmental crises have attracted renewed attention to agriculture as both a contributor to these problems and a potential instrument for solutions. . . . A new paradigm has started to emerge where agriculture is seen as having the capacity to help achieve several of the major dimensions of development, most particularly accelerating GDP growth at early stages of development, reducing poverty and vulnerability, narrowing rural-urban income disparities, releasing scarce resources such as water and land for use by other sectors, and delivering a multiplicity of environmental services.’

The bad news, he says, is that ‘renewed use of agriculture for development remains highly incomplete, falling short of political statements.’

Let’s now return to our questions about what’s missing in agricultural development today, and what that has to do with ‘social learning’, or lack of it.

Apparatus for the Magnetic Treatment of Plants, by Paul Klee, 1908 (via WikiPaintings)

‘Apparatus for the Magnetic Treatment of Plants’ by Paul Klee, 1908 (via WikiPaintings).

Unlocking the human potential for innovating solutions
Agricultural scientists are important actors both in instigating change and in helping people anticipate and adapt to climate and other agriculturally important changes. They have played a key role so far in spearheading major agricultural movements such as the Green Revolution in Asia. Yet one billion poor people have been left behind by the Green Revolution, largely because they live in highly diverse agro-ecological regions that are relatively inaccessible and where they cannot access the research-based information, technologies and support they need to improve, or ‘intensify’, their farming systems.

The complex agriculturally related challenges of today require going way beyond ‘business as usual’. And they offer agricultural scientists unprecedented opportunities to play major roles in some of the major issues of our time, including reducing our greenhouse gas emissions and adapting to climate change. But we’re not going to make good use of these opportunities if we don’t recognize and jump on opportunities for joint societal learning and actions.

POTATOES IN THE ANDES
Take this example from Latin America, where agricultural researchers set about documenting the biodiversity of potato varieties in the high-elevation Andes. An unanticipated consequence of this activity was learning from local farmers about numerous varieties previously unknown to science. And the scientists realized that traditional knowledge of these hardy varieties and other adaptive mechanisms are helping many households deal with climate variability at very high elevations. Further learning in this project showed that women and the elderly tended to have much better knowledge of traditional varieties and their use than the owners of the land. This kind of knowledge is now being shared widely in an innovative Andean regional network.

RICE IN VIETNAM
Here’s another example. Rice is now being grown by over a million farmers in Vietnam using a new management system that reduces water use and methane gas emissions while generating higher incomes for farm families. This happened through farmers — both men and women — experimenting and sharing experiences in ‘farmer field schools’ that had strong government support. It turns out that the women farmers are better trainers than men. After participating in a farmer field school, each woman helped 5–8 other farmers adopt the new approach, while every male participant helped only 1–3 additional farmers. So making sure women were a key part of this effort led to much greater success in reducing poverty and environmental damage.

Ravaged Land, by Paul Klee, 1921, Galarie Beyeler (via WikiPaintings)

‘Ravaged Land’ by Paul Klee, 1921, Galarie Beyeler (via WikiPaintings).

New opportunities for doing research differently
Back to de Janvry for a moment. ‘Crises and opportunities’, he says, ‘combine in putting agriculture back on the development agenda, as both a need and a possibility. This second chance in using agriculture for development calls for a new paradigm, which is still largely to be consistently formulated and massively implemented. . . [A] Green Revolution for Sub-Saharan Africa is still hardly in the making.’

ALAIN DE JANVRY
In the new paradigm, process thus matters along with product if the multiple dimensions of development are to be achieved. . . . As opposed to what is often said in activist donor circles, it is a serious mistake to believe that we know what should be done, and all that is left to do is doing it. . . . Because objectives and contexts are novel, we are entering un-chartered territory that needs to be researched and experimented with. Extraordinary new opportunities exist to successfully invest in agriculture for development, but they must be carefully identified. . . . Innovation, experimentation, evaluation, and learning must thus be central to devising new approaches to the use agriculture for development. This requires putting into place strategies to identify impacts as we proceed with new options.

The biggest mistake one could make about using agriculture for development is believe that it is easy to do and that we already know all we need to do it. It is not and we don’t. . . . Lessons must be derived from past mistakes, and new approaches devised and evaluated.

So how do we derive lessons from past mistakes? How do we devise new approaches and evaluate them on-goingly?

LIVESTOCK IN EAST AFRICA
One way is to take a proactive social learning approach — learning together through action and reflection, which leads to changes in behaviour. Researchers from ILRI, for example, learned by interacting closely with pastoral groups in East Africa that intermittent engagement is not as powerful a force of social change as is continual engagement, which they achieved by instituting ‘community facilitators-cum-researchers’. This led to transformative changes in land policy and management, with long-lasting benefits for wildlife populations, pastoral communities and rangelands alike.

Public-private partnerships that include researchers can also help. Through active learning together we can reach more people, more efficiently and effectively than before — this approach is further supported through widespread access to the internet and smartphones that allow greater engagement from communities and individuals spread far and wide. We can map the soils and water resources needed to grow food, and try new ‘crowdsourced’ approaches to identify needs for different types of seeds and seedlings. We can democratize research, and make scientists much more responsive to the needs of different groups of people.

Rising Sun, by Paul Klee, 1907 (via WikiPaintings)

‘Rising Sun’ by Paul Klee, 1907 (via WikiPaintings).

Why bother?
What’s the incentive for researchers to do things differently? For all of us, it lies in the opportunity to sharpen our edge, to become better solvers of bigger, more complex problems, or at least to ask better questions about ‘wicked problems’. For scientists in particular, the opportunity to make our research, including fundamental and lab-based research, more relevant and targeted to meeting demand — user-inspired rather than supply-driven research — is tremendous.

RICE IN AFRICA
When researchers at two international rice research institutes, IRRI and AfricaRice, started to include women in participatory varietal selection, different preferences emerged. Women focused more on food security than yields. Through working directly with women as well as men, the nature of research challenges and questions changed to accommodate different needs, values and norms. The use of farmer-to-farmer learning videos accelerated the transfer of different types of learning. Evaluations show that this approach has led to an 80% greater adoption rate of different technologies and practices than previous dissemination techniques.

In these ways, socially differentiated and participatory research approaches hold the promise of making our research more central to the major agricultural problems we’re facing — and to anticipate future problems, issues and questions by sharpening our critical questioning through ongoing learning.

Reconstructing by Paul Klee, 1926 (via WikiPaintings)

‘Reconstructing’ by Paul Klee, 1926 (via WikiPaintings).

How do we learn and make this happen?
We learn by using, by doing, by trying, by failing, by modeling, through engagement, dialogue and reflection. Knowledge links to action more effectively when the users are involved from the problem definition stage onwards, when they ‘co-own’ the problem and questions that could lead to solving it. So a shift towards joint observation, trials, modeling and experimentation is key. CGIAR and its partners have used learning approaches to catalyze transformative change in the ways in which food is grown, distributed and consumed.

LEARNING ALLIANCES IN LATIN AMERICA
CIAT has been taking a ‘learning alliance’ approach, partnering with intermediaries such as the Sustainable Food Lab, global food and commodity corporations, local farmer associations and international development-oriented non-governmental organizations. Innovative networks have been formed that link local producers (rural poor) with global buyers. Executives from global food companies have gone on learning journeys where they hear first-hand from small farmers about 3-month periods of food insecurity; they responded by supplying alternate seed varieties for food security over this period. Global companies have reoriented their buying patterns to accommodate local producer needs. These new alliances are generating longer-term networks that are building the adaptive capacity of both food sellers and producers.

Refuge by Paul Klee, 1930 (via WikiPaintings)

‘Refuge’ by Paul Klee, 1930 (via WikiPaintings).

What are we asking people to do?
We want to see more people embracing the idea of joint, transformative learning, the co-creation of knowledge. This is not a new idea. But the imperatives we’re facing now demand a more conscious articulation, promotion and facilitation of this approach by a wide range of people, especially scientists from all disciplines. More relevant science leads to social credibility and legitimacy, which in turn should lead to the ability to mobilize support — a win-win for researchers.

PATTI KRISTJANSON
To enable social learning, incentives and institutions — the rules of the game — have to change also. This includes our changing how research is planned, evaluated and funded. We need much longer time horizons than those currently in play (with 2–3 year projects the norm). And we need to share this critical lesson with governments and other investors in agricultural research for development.

Our vision of success includes many more scientists engaged in broad partnerships; producing more relevant, useful and used information; doing less paperwork and more mentoring of young people and more interactive science; and more generously sharing their knowledge. This helps us to see — much more clearly than before — our scientific contributions to improved agricultural landscapes, sustainable food systems, profitable and productive livelihoods, and improved food security globally.

EWEN LE BORGNE
For more on social learning, consult these ‘social learning gurus’ cited by Ewen Le Borgne:
•  Mark Reed, author of the definition that a few of us have been quoting — see his What is social learning? response to a paper published in Ecology and Society in 2010.
•  Harold Jarche or Jane Hart, both write well on social learning in an enterprise — see Social Learning Centre website and Jarche’s blog.
•  Sebastiao Ferreira Mendonca — see the Mundus maris website (Sciences and Arts for Sustainability International Initiative)
•  Valerie BrownAustralian academic who worked a lot on multiple knowledges in IKM-Emergent, a five-year research program in ’emergent issues in information and knowledge management and international development’ (blog here)

For more information:
Go to CCAFS 2013 Science Meeting programme. Updates from the event are being shared on the CCAFS website and on Twitter (follow #2013CCSL).

For more on this week’s meeting, see these earlier posts on the ILRI News Blog:
The world’s ‘wicked problems’ need wickedly good solutions: Social learning could speed their spread, 18 May 2013.
Climate change and agricultural experts gather in California this week to search for the holy grail of global food security, 17 Mar 2013.

And on the CCAFS Blog:
Farmers and scientists: better together in the fight against climate change, 19 Mar 2013.
Transformative partnerships for a food-secure world, 19 Mar 2013.

Read Alain de Janvry’s whole paper: Agriculture for development: New paradigm and options for success, International Association of Agricultural Economists, 2010.

For more on the use of ‘social learning’ and related methods by the CCAFS, see the CCSL wiki and these posts on ILRI’s maarifa blog.