Agricultural interventions for food safety and nutrition: Livestock reports at this week’s CGIAR Science Forum

Tea Room in Chinseu

The interior of a tea room in Chinseu Trading Centre, in Zomba West, Malawi (photo on Flickr by John Appiah-Duffell); the menu on the wall, written in Chichewa, lists the following: PRICES FOR TEA: Tea without milk, Tea with milk; EXTRAS: Buns, Nsima with chicken, Nsima with meat, Nsima with beans, Rice.

The following is a report on livestock-related presentations at the on-going three-day CGIAR Science Forum, 23–25 Sep 2013, in Bonn, Germany.

From yesterday’s session on food safety is this brief from veterinary epidemiologist and food safety expert Delia Grace, of the International Livestock Research Institute (ILRI), on the case for agricultural interventions for food safety.

Agriculture has allowed massive expansion of people and their animals.

Yet in a world of more than 7 billion people, more than one billion are hungry and more than 2 billion are sickened each year from the food they ate.

Agriculture is exacting a heavy biological cost, but health policy and programs often stop at the clinic door.

A consensus is growing that the disconnect between agriculture, health and nutrition is at least partly responsible for the disease burden associated with food and farming.

‘The new CGIAR Research Program on Agriculture for Enhanced Nutrition and Health is attempting to bridge this disconnect and the International Livestock Research Institute (ILRI) leads the component focusing on diseases related to agriculture. This session uses the case of fungal toxins to explore how research can contribute to game-changing innovations, powerful incentives and enabling institutions that improve at the same time food safety, food accessibility for poor consumers and access to markets for smallholder farmers.

Towards new ways of managing food safety in developing countries
* Incentives for risk management: In poor countries, where public and private standards are weak and where consumers’ choices are limited by income and information, incentives to safe production are lacking. Novel incentives need to be found to encourage farmers and other value chain actors in poor settings to produce quality and safe products.
* Innovations for risk management: Informal markets and food produced and consumed by smallholders typically have high levels of hazards. Innovations, whether technology, social or market-based, can change the game.
* Institutions for risk assessment: Food safety regulations in developing countries are characterized by complexity, inappropriateness for informal and smallholder production, lack of translation of policy into practice, and frequent negative impacts of policy. Both evidence and effective influence are needed to improve food safety institutions.

Mandela Corks 3

If not stored and dried properly groundnut can get mouldy (photo credit: ICRISAT/Swathi Sridharan).

Controlling aflatoxins as an example of agriculture based interventions for human health
‘Among staple crops (maize, groundnuts, sorghum), the most serious food safety problem is toxins produced by fungi. These cause around 90,000 cases of liver cancer each year and that’s why people is looking for products to treat the symptoms such as packwoods blunts CBD which help with this a lot. If you’re looking for medical marijuana recommendations, DocMJ will have you covered. There have also major impacts on trade and the livestock sector.

‘Using the example of fungal toxins, especially aflatoxins, we make the case for research investors to support research into agricultural approaches for enhancing food safety in value chains.’

From today’s session on economic implications
‘The objective of the session is to understand better the economic impacts of shifting investments towards more nutrition dense foods for healthier diets. Agricultural interventions in low income countries have often either focused on raising incomes for the poor assuming that nutrition and health benefits follow automatically or focused on improving diets through promotion of specific highly nutritious foods but do not often consider the economic sustainability of the programmes once intervention monies are removed. Furthermore, they may overlook other complex cultural and environmental issues which may be key to their success. For investment to effectively increase nutritional levels and incomes, a multi-dimensional approach including nutrition education, technical assistance, environmental awareness and community organization support may be needed to address the complex economic and social linkages between nutrition and agriculture

‘The session will present results from field research projects aimed at improving nutritional and income outcomes. Among the research questions to be addressed are:

  • How do initiatives to improve dietary and income outcomes need to be structured to reap benefits of both at present and over time?
  • How can the multi-dimensional nature of the nutrition-income linkage be integrated into investment projects in this area?
  • What are the knowledge gaps in developing and implementing these strategies?
  • Are new research approaches needed in developing interventions aimed at double objective outcomes?’

Faith Kivuti and Mom Milking a Cow

An East African smallholder dairy farmer and her cow and child (photo credit: Jeff Haskins).

Tom Randolph, ILRI agricultural economist and director of the CGIAR Research Program on Livestock and Fish, will make a presentation on Supporting the pro-poor transformation of smallholder-based animal-source food systems.

‘The presentation focuses on how food systems could be designed to contribute more directly to the nutritional security of poor rural and urban communities. In particular, how might investments to professionalize smallholder livestock and aquaculture production and informal market systems improve incomes and nutritional food security? The presentation explores the implications of such an objective, and provides an example from a dairy development project.’

Find the program and abstracts of presentations for the CGIAR Science Forum 2013, ‘Nutrition and health outcomes: targets for agricultural research’, 23‒25 Sep 2013, Bonn, Germany. Follow the ongoing discussions on Twitter by searching for the hashtag ‘ScienceForum2013’

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.

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)

More meat, milk and fish produced by and for the poor: A first review of a new research program

Buying eggs from a Hanoi street vendor

Lucy Lapar, an ILRI scientist, with a trader selling eggs in Hanoi, Vietnam. A CGIAR Research Program on Livestock and Fish is working to help poor communities play a bigger role in feeding the growing populations in developing countries (photo credit: ILRI/Stevie Mann).

Last week (20–22 May 2013), a group of the word’s leading pro-poor livestock and other agricultural researchers met in Ethiopia to review ways of helping poor communities play a bigger role in feeding their developing countries’ growing populations by increasing their production of livestock-based foods—and doing so in ways that are sustainable over the long term.

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.

Tom Randolph, an agricultural economist at ILRI who directs this multi-disciplinary, multi-institutional research program, opened the Addis Ababa meeting by reviewing the objectives, challenges and achievements of the program over its first one and a half years.

What we signed up to do
This program can directly help the world’s poor small-scale food producers and sellers significantly contribute to, and benefit from, meeting the challenge of feeding 9 billion people by 2050. This program focuses on the critical role animal-source foods play in nutritionally challenged populations. And it works to find ways to better organize, target and sustain the ‘intensification agenda’ for developing-world animal agriculture.

Changing the way we do business
We’re moving away from developing solutions to discrete livestock development problems faced by livestock keepers in specific settings to addressing all the bottlenecks in whole ‘value chains’ for pork, dairy and small ruminant production in eight selected developing countries. We’re working with partners to design integrated livestock development interventions that will work at large scale. And we’re working directly with development partners to better understand local context and to test our research-based interventions.

What we’ve achieved so far
Technology and research outputs, from both CGIAR ‘legacy’ projects and new ones, have led to improved fish strains, fodder varieties and smallholder dairy livelihoods.

Challenges we’ve faced
Developing a shared vision and coordinating plans among the many institutions involved in the program’s many projects, as well as filling several human resource gaps at program and project levels, have been real, if anticipated, challenges for this new program.

How do we work better
Our objective is to design smart interventions that work at large scale. To succeed, we’ll need to invent new research methods and frameworks. And we’ll need to strengthen our partnerships with other research groups and work more effectively with development actors on the ground.

Seize the opportunity
This program expands our opportunities to do what many of us have always wanted to do—to ‘dig in’ to longer term research conducted in more meaningful partnerships.

View the full slide presentation by Tom Randolph:

Project wiki page for the event

Download first annual report of the program

More meat, milk and fish by and for the poor: CGIAR research initiative boosts livestock and fish production and food security in eight developing countries

Livestock and Fish research program: Focus value chains and countries

A map showing the focus value chains and countries that are part of a CGIAR Program on Livestock and Fish (photo credit: ILRI). 

In the face of rising global demand for animal-source foods, leading livestock and agricultural researchers from CGIAR are meeting this week (20–22 May 2013) in Ethiopia to explore ways to help poor people play a bigger role in feeding the planet’s growing populations by producing more livestock-based foods.

These researchers are part of a CGIAR Research Program on Livestock and Fish, an initiative of four international research centres working with many other partners, which are all taking a new approach to tackle old problems. 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 are collaborating on research into sustainable ways of increasing smallholder production of meat, milk and fish by and for poor people in developing countries. This collaborative research-for-development team is also working to help small-scale farmers sell more of their animal products in markets so they can improve their incomes and livelihoods.

‘We’re hoping that through this program smallholders and medium-sized livestock enterprises can do more than just escape poverty’, said Jimmy Smith, director general of ILRI. ‘We can do this by helping them to become better food producers and suppliers and by building partnerships that get this research used at scale’, he said.

Started in January 2012, this Livestock and Fish Research Program focuses on eight value chains (processes through which commodities are produced, marketed and accessed by consumers): dairy, pigs, aquaculture, sheep and goats. Program staff members are currently working with farmer groups and other partners in Egypt, Ethiopia, India, Mali, Nicaragua, Tanzania, Uganda and Vietnam.

Most of the program’s work to date has been to establish the institutional and scientific frameworks within which program staff will operate, work that is highlighted in the program’s annual report, published this past April.

According to Tom Randolph, an ILRI agricultural economist who directs this multi-disciplinary and multi-institutional research program, in the past year and a half the program has succeeded (through some legacy as well as new projects) in helping to improve tilapia fish strains in Egypt, developing a thermostable vaccine for a highly contagious disease of goats and sheep (peste des petits ruminants, or PPR) in Kenya, improving varieties of a popular grass fodder (Brachiaria) for dissemination to farmers, and promoting pro-poor dairy development in Tanzania.

‘This program enables us to do agricultural research differently’, says Randolph. ‘It provides a novel, value chain framework, clear goals, and a 12–15 year timeframe in which to meet those goals—things we’ve not had in the past.’

Participants in this meeting, drawn from the four CGIAR research centres and other institutions based in Ethiopia that are participating in this Livestock and Fish Research Program, this week are devising the strategies, targets and action plans for the next phase of the program.

For more information, visit the CGIAR Livestock and Fish Research Program blog:

http://livestockfish.cgiar.org/

Animal-to-human diseases: From panic to planning–new recommendations for policymakers

Greatest Burden of Zoonoses Falls on One Billion Poor Livestock Keepers

Map by ILRI, published in an ILRI report to the UK Department for International Development (DFID): Mapping of Poverty and Likely Zoonoses Hotspots, 2012.

The UK’s Institute for Development Studies (IDS) has published a 4-page Rapid Response Briefing titled ’Zoonoses: From panic to planning’.

Veterinary epidemiologist Delia Grace, who is based at the International Livestock Research Institute (ILRI), along with other members of a Dynamic Drivers of Disease in Africa Consortium, based at the STEPS Centre at IDS, c0-authored the document.

The briefing recommends that policymakers take a ‘One-Health’ approach to managing zoonotic diseases.

‘Over two thirds of all human infectious diseases have their origins in animals. The rate at which these zoonotic diseases have appeared in people has increased over the past 40 years, with at least 43 newly identified outbreaks since 2004. In 2012, outbreaks included Ebola in Uganda . . . , yellow fever in the Democratic Republic of Congo and Rift Valley fever (RVF) in Mauritania.

‘Zoonotic diseases have a huge impact – and a disproportionate one on the poorest people in the poorest countries. In low-income countries, 20% of human sickness and death is due to zoonoses. Poor people suffer further when development implications are not factored into disease planning and response strategies.

‘A new, integrated “One Health” approach to zoonoses that moves away from top-down disease-focused intervention is urgently needed. With this, we can put people first by factoring development implications into disease preparation and response strategies – and so move from panic to planning.

Read the Rapid Response Briefing: Zoonoses: From panic to planning, published Jan 2013 by the Dynamic Drivers of Disease in Africa Consortium and funded by the UK Department for International Development (DFID).

About the Dynamic Drivers of Disease in Africa
The Dynamic Drivers of Disease in Africa is a consortium of 30 researchers from 19 institutions in Africa, Europe and America. It conducts a major program to advance understanding of the connections between disease and environment in Africa. Its focus is animal-to-human disease transmission and its objective is to help move people out of poverty and promote social justice.

Over the past few decades, more than 60 per cent of emerging infectious diseases affecting humans have had their origin in wildlife or livestock. As well as presenting a threat of global disease outbreak, these zoonotic diseases are quietly devastating lives and livelihoods. At present, zoonoses are poorly understood and under-measured — and therefore under-prioritized in national and international health systems. There is great need for evidence and knowledge to inform effective, integrated One Health approaches to disease control. This Consortium is working to provide this evidence and knowledge.

Natural and social scientists in the Consortium are working to provide this evidence and knowledge for four zoonotic diseases, each affected in different ways by ecosystem changes and having different impacts on people’s health, wellbeing and livelihoods:

  • Henipavirus infection in Ghana
  • Rift Valley fever in Kenya
  • Lassa fever in Sierra Leone
  • Trypanosomiasis in Zambia and Zimbabwe

Of the 30 scientists working in the consortium, 4 are from ILRI: In addition to Delia Grace, these include Bernard Bett, a Kenyan veterinary epidemiologist with research interests in the transmission patterns of infectious diseases as well as the technical effectiveness of disease control measures; Steve Kemp, a British molecular geneticist particularly interested in the mechanisms of innate resistance to disease in livestock and mouse models, and Tom Randolph, an American agricultural economist whose research interests have included animal and human health issues and assessments of the impacts of disease control programs.

Delia Grace leads a program on Prevention and Control of Agriculture-associated Diseases, which is one of four components of a CGIAR Research Program on Agriculture for Nutrition and Health. Tom Randolph directs the CGIAR Research Program on Livestock and Fish. Steve Kemp is acting director of ILRI’s Biotechnology Theme.

 

 

A few of our favourite (missed) livestock presentations in 2012

Here, for your New Year’s reading/viewing pleasure, are 20 slide presentations on 12 topics made by staff of the International Livestock Research Institute (ILRI) in 2012 that we missed reporting on here (at the ILRI News Blog) during the year.

Happy reading and Happy New Year!

1 LIVESTOCK RESEARCH FOR FOR DEVELOPMENT

>>> Sustainable and Productive Farming Systems: The Livestock Sector
Jimmy Smith
International Conference on Food Security in Africa: Bridging Research and Practice, Sydney, Australia
29-30 Nov 2012; posted on ILRI Slideshare 27 Nov 2012; 426 views.

Excerpts:
A balanced diet for 9 billion: Importance of livestock
•  Enough food: much of the world’s meat, milk and cereals comes from developing-country livestock based systems
•  Wholesome food: Small amounts of livestock products – huge impact on cognitive development, immunity and well being
•  Livelihoods: 80% of the poor in Africa keep livestock, which contribute at least one-third of the annual income.
The role of women in raising animals, processing and 3 selling their products is essential.

Key messages: opportunities
•  Livestock for nutrition and food security:
– Direct – 17% global kilocalories; 33% protein; contribute food for 830 million food insecure.
Demand for all livestock products will rise by more than 100% in the next 30 years, poultry especially so (170% in Africa)
– Indirect – livelihoods for almost 1 billion, two thirds women
•  Small-scale crop livestock systems (less than 2ha; 2 TLU) provide 50–75% total livestock and staple food production in Africa and Asia
and provide the greatest opportunity for research to impact on a trajectory of growth that is inclusive –
equitable, economically and environmentally sustainable.

>>> The Global Livestock Agenda: Opportunities and Challenges
Jimmy Smith
15th AAAP [Asian-Australasian Association of Animal Production] Animal Science Congress, Bangkok,Thailand
26–30 Nov 2012; posted on ILRI Slideshare 27 Nov 2012; 1,650 views

Excerpt:
Livestock and global development challenges
•  Feeding the world
– Livestock provide 58 million tonnes of protein annually and 17% of the global kilocalories.
•  Removing poverty
– Almost 1 billion people rely on livestock for livelihoods
•  Managing the environment
– Livestock contribute 14–18% anthropogenic greenhouse gas emissions, use 30% of the freshwater used for agriculture and 30% of the ice free land
– Transition of livestock systems
– Huge opportunity to impact on future environment
•  Improving human health
– Zoonoses and contaminated animal-source foods
– Malnutrition and obesity

>>> Meat and Veg: Livestock and Vegetable Researchers Are Natural,
High-value, Partners in Work for the Well-being of the World’s Poor

Jimmy Smith
World Vegetable Center, Taiwan
18 Nov 2012; posted on ILRI Slideshare 27 Nov 2012; 294 views.

Excerpts:
Livestock and vegetables suit an urbanizing, warming world
Smallholder livestock and vegetable production offers similar opportunities:
•  Nutritious foods for the malnourished.
•  Market opportunities to meet high urban demand.
•  Income opportunities for women and youth.
•  Expands household incomes.
•  Generates jobs.
•  Makes use of organic urban waste and wastewater.
•  Can be considered ‘organic’ and supplied to niche markets.

Opportunities for livestock & vegetable research
Research is needed on:
•  Ways to manage the perishable nature of these products.
•  Innovative technological and institutional solutions for food safety and public health problems that suit developing countries.
•  Processes, regulations and institutional arrangements regarding use of banned or inappropriate pesticides,
polluted water or wastewater for irrigation, and untreated sewage sludge for fertilizer.
•  Innovative mechanisms that will ensure access by the poor to these growing markets.
•  Ways to include small-scale producers in markets demanding
increasingly stringent food quality, safety and uniformity standards.

>>> The African Livestock Sector:
A Research View of Priorities and Strategies

Jimmy Smith
6th Meeting of the CGIAR Independent Science and Partnership Council, Addis Ababa, Ethiopia
26−29 Sep 2012; posted on ILRI Slideshare 25 Sep 2012;  4,227 views.

Excerpts:
Livestock for nutrition
• In developing countries, livestock contribute 6−36% of protein and 2−12% of calories.
• Livestock provide food for at least 830 million food-insecure people.
• Small amounts of animal-source foods have large benefits on child growth and cognition and on pregnancy outcomes.
• A small number of countries bear most of the burden of malnutrition (India, Ethiopia, Nigeria−36% burden).

Smallholder competitiveness
Ruminant production
• Underused local feed resources and family labour give small-scale ruminant producers a comparative advantage over larger producers, who buy these.
Dairy production
• Above-normal profits of 19−28% of revenue are found in three levels of intensification of dairy production systems.
• Non-market benefits – finance, insurance, manure, traction – add 16−21% on top of cash revenue.
• Dairy production across sites in Asia, Africa, South America showed few economies of scale until opportunity costs of labour rose.
• Nos. of African smallholders still growing strongly.
Small ruminant production
• Production still dominated by poor rural livestock keepers, incl. women.
• Peri-urban fattening adds value.

>>> The CGIAR Research Program on Livestock and Fish and its Synergies
with the CGIAR Research Program on Agriculture for Nutrition and Health

Delia Grace and Tom Randolph
Third annual conference on Agricultural Research for Development: Innovations and Incentives, Uppsala, Sweden
26–27 Sep 2012; posted on ILRI Slideshare 13 Oct 2012;  468 views.

Excerpts:
Lessons around innovations and incentives
• FAILURE IS GETTING EASIER TO PREDICT – but not necessarily success
• INNOVATIONS ARE THE LEVER – but often succeed in the project context but not in the real world
• PICKING WINNERS IS WISE BUT PORTFOLIO SHOULD BE WIDER– strong markets and growing sectors drive uptake
• INCENTIVES ARE CENTRAL: value chain actors need to capture visible benefits
• POLICY: not creating enabling policy so much as stopping the dead hand of disabling policy and predatory policy implementers
‘Think like a systemicist, act like a reductionist.’

>>> The Production and Consumption of Livestock Products
in Developing Countries: Issues Facing the World’s Poor

Nancy Johnson, Jimmy Smith, Mario Herrero, Shirley Tarawali, Susan MacMillan, and Delia Grace
Farm Animal Integrated Research 2012 Conference, Washington DC, USA
4–6 Mar 2012; posted on ILRI Slideshare 7 Mar 2012; 1,108 views.

Excerpts:
The rising demand for livestock foods in poor countries presents
– Opportunities
• Pathway out of poverty and malnutrition
• Less vulnerability in drylands
• Sustainable mixed systems
– Threats
• Environmental degradation at local and global scales
• Greater risk of disease and poor health
• Greater risk of conflict and inequity

• Key issues for decision makers
– appreciation of the vast divide in livestock production between rich and poor countries
– intimate understanding of the specific local context for specific livestock value chains
– reliable evidence-based assessments of the hard trade-offs involved in adopting any given approach to livestock development

• Institutional innovations as important as technological/biological innovations in charting the best ways forward
– Organization within the sector
– Managing trade offs at multiple scales

2 LIVESTOCK FEEDS

>>> Livestock feeds in the CGIAR Research Programs
Alan Duncan
Food and Agricultural Organization of the United Nations (FAO) West Africa Regional Workshop on Crop Residues, Dakar, Senegal
10–13 Dec 2012; posted on ILRI Slideshare on 18 Dec 2012; 3,437 views.

>>> Biomass Pressures in Mixed Farms: Implications for Livelihoods
and Ecosystems Services in South Asia & Sub-Saharan Africa

Diego Valbuena, Olaf Erenstein, Sabine Homann-Kee Tui, Tahirou Abdoulaye, Alan Duncan, Bruno Gérard, and Nils Teufel
Planet Under Pressure Conference, London, UK
26-29 Mar 2012; posted on ILRI Slideshare 27 Mar 2012;  1,999 views.

3 LIVESTOCK IN INDIA

>>> Assessing the Potential to Change Partners’ Knowledge,
Attitude and Practices on Sustainable Livestock Husbandry in India

Sapna Jarial, Harrison Rware, Pamela Pali, Jane Poole and V Padmakumar
International Symposium on Agricultural Communication and
Sustainable Rural Development, Pantnagar, Uttarkhand, India
22–24 Nov 2012; posted on ILRI Slideshare 30 Nov 2012; 516 views.

Excerpt:
Introduction to ELKS
• ‘Enhancing Livelihoods Through Livestock Knowledge Systems’ (ELKS) is an initiative
to put the accumulated knowledge of advanced livestock research directly to use
by disadvantaged livestock rearing communities in rural India.
• ELKS provides research support to Sir Ratan Tata Trust and its development partners
to address technological, institutional and policy gaps.

4 AGRICULTURAL R4D IN THE HORN OF AFRICA

>>> Introducing the Technical Consortium
for Building Resilience to Drought in the Horn of Africa

Polly Ericksen, Mohamed Manssouri and Katie Downie
Global Alliance on Drought Resilience and Growth, Addis Ababa, Ethiopia
5 Nov 2012; posted on ILRI Slideshare 21 Dec 2012; 8,003 views.

Excerpts:
What is the Technical Consortium?
• A joint CGIAR-FAO [Food and Agriculture Organization of the United Nations] initiative,
with ILRI representing the CGIAR Centres and the FAO Investment Centre representing FAO.
• ILRI hosts the Coordinator on behalf of the CGIAR.
• Funded initially by USAID [United State Agency for International Development] for 18 months –
this is envisioned as a longer term initiative, complementing the implementation of investment plans
in the region and harnessing, developing and applying innovation and research to enhance resilience.
• An innovative partnersh–ip linking demand-driven research sustainable action for development.

What is the purpose of the Technical Consortium?
• To provide technical and analytical support to IGAD [Inter-governmental Authority on Development]
and its member countries to design and implement the CPPs [Country Programming Papers]
and the RPF [Regional Programming Framework], within the scope of
the IGAD Drought Disaster Resilience and Sustainability Initiative (IDDRSI).
• To provide support to IGAD and its member countries to develop regional and national
resilience-enhancing investment programmes for the long term development of ASALs [arid and semi-arid lands].
• To harness CGIAR research, FAO and others’ knowledge on drought resilience and bring it to bear on investments and policies.

5 LIVESTOCK AND FOOD/NUTRITIONAL SECURITY

>>> Mobilizing AR4D Partnerships to Improve
Access to Critical Animal-source Foods

Tom Randolph
Pre-conference meeting of the second Global Conference for Agricultural Research for Development (GCARD2), Punta de Este, Uruguay
27 Oct 2012; posted on ILRI Slideshare 29 Oct 2012; 385 views.

Excerpts:
The challenge
• Can research accelerate livestock and aquaculture development to benefit the poor?
– Mixed record to date
– Systematic under-investment
– Also related to our research-for-development model?
• Focus of new CGIAR Research Program
– Increase productivity of small-scale systems
> ‘by the poor’ for poverty reduction
> ‘for the poor’ for food security

Correcting perceptions
1. Animal-source foods are a luxury and bad for health, so should not promote
2. Small-scale production and marketing systems are disappearing; sector is quickly industrializing
3. Livestock and aquaculture development will have negative environmental impacts

Our underlying hypothesis
• Livestock and Blue Revolutions: accelerating demand in developing countries as urbanization and incomes rise
• Industrial systems will provide a large part of the needed increase in supply to cities and the better-off in some places
• But the poor will often continue to rely on small-scale production and marketing systems
• If able to respond, they could contribute, both increasing supplies and reducing poverty
. . . and better manage the transition for many smallholder households.

6 LIVESTOCK INSURANCE

>>> Index-Based Livestock Insurance:
Protecting Pastoralists against Drought-related Livestock Mortality

Andrew Mude
World Food Prize ‘Feed the Future’ event, Des Moines, USA
18 Oct 2012; posted on ILRI Slideshare 22 Oct 2012; 576 views.

Excerpts:
Index-Based Livestock Insurance
• An innovative insurance scheme designed to protect pastoralists against the risk of drought-related livestock deaths
• Based on satellite data on forage availability (NDVI), this insurance pays out when forage scarcity is predicted to cause livestock deaths in an area.
• IBLI pilot first launched in northern Kenya in Jan 2010. Sold commercially by local insurance company UAP with reinsurance from Swiss Re
• Ethiopia pilot launched in Aug 2012.

Why IBLI? Social and Economic Welfare Potential
An effective IBLI program can:
• Prevent downward slide of vulnerable populations
• Stabilize expectations & crowd-in investment by the poor
• Induce financial deepening by crowding-in credit S & D
• Reinforce existing social insurance mechanisms

Determinants of IBLI Success
DEMONSTRATE WELFARE IMPACTS
• 33% drop in households employing hunger strategies
• 50% drop in distress sales of assets
• 33% drop in food aid reliance (aid traps)

7 LIVESTOCK-HUMAN (ZOONOTIC) DISEASES

>>> Lessons Learned from the Application of Outcome Mapping to
an IDRC EcoHealth Project: A Double-acting Participatory Process
K Tohtubtiang, R Asse, W Wisartsakul and J Gilbert
1st Pan Asia-Africa Monitoring and Evaluation Forum, Bangkok, Thailand
26–28 Nov 2012; posted on ILRI Slideshare 5 Dec 2012; 1,395 views.

Excerpt:
EcoZD Project Overview
Ecosystem Approaches to the Better Management of Zoonotic Emerging
Infectious Diseases in the Southeast Asia Region (EcoZD)
•  Funded by International Development Research Centre, Canada (IDRC)
•  5-year project implemented by International Livestock Research Institute (ILRI)
•  Goals: capacity building & evidence-based knowledge•  8 Research & outreach teams in 6 countries.

>>> Mapping the interface of poverty, emerging markets and zoonoses
Delia Grace
Ecohealth 2012 conference, Kunming, China
15–18 Oct 2012; posted on ILRI Slideshare 23 Nov 2012; 255 views.

Excerpt:
Impacts of zoonoses currently or in the last year
• 12% of animals have brucellosis, reducing production by 8%
• 10% of livestock in Africa have HAT, reducing their production by 15%
• 7% of livestock have TB, reducing their production by 6% and from 3–10% of human TB cases may be caused by zoonotic TB
• 17% of smallholder pigs have cysticercosis, reducing their value and creating the enormous burden of human cysticercosis
• 27% of livestock have bacterial food-borne disease, a major source of food contamination and illness in people
• 26% of livestock have leptospirosis, reducing production and acting as a reservoir for infection
• 25% of livestock have Q fever, and are a major source of infection of farmers and consumers.

>>> International Agricultural Research and Agricultural Associated Diseases
Delia Grace (ILRI) and John McDermott (IFPRI)
Workshop on Global Risk Forum at the One Health Summit 2012—
One Health–One Planet–One Future: Risks and Opportunities, Davos, Switzerland
19–22 Feb 2012; posted on ILRI Slideshare 5 Mar 2012; 529 views.

8 LIVESTOCK MEAT MARKETS IN AFRICA

>>> African Beef and Sheep Markets: Situation and Drivers
Derek Baker
South African National Beef and Sheep Conference, Pretoria, South Africa
21 Jun 2012; posted on ILRI Slideshare 24 Nov 2012; 189 views.

Excerpt:
African demand and consumption: looking to the future
• By 2050 Africa is estimated to become the largest world’s market in terms of pop: 27% of world’s population.
• Africa’s consumption of meat, milk and eggs will increase to 12, 15 and 11% resp. of global total (FAO, 2009)

9 KNOWLEDGE SHARING FOR LIVESTOCK DEVELOPMENT

>>> Open Knowledge Sharing to Support Learning in
Agricultural and Livestock Research for Development Projects

Peter Ballantyne
United States Agency for International Development-Technical and Operational Performance Support (USAID-TOPS) Program: Food Security and Nutrition Network East Africa Regional Knowledge Sharing Meeting, Addis Ababa, Ethiopia
11–13 Jun 2012; posted on ILRI Slideshare 11 Jun 2012; 2,220 views

10 LIVESTOCK AND GENDER ISSUES

>>> Strategy and Plan of Action for Mainstreaming Gender in ILRI
Jemimah Njuki
International Women’s Day, ILRI, Nairobi, Kenya
8 Mar 2012; posted on ILRI Slideshare 8 Mar 2012; 876 views.

11 AGRICULTURAL BIOSCIENCES HUB IN AFRICA

>>> Biosciences eastern and central Africa –
International Livestock Research Institute (BecA-ILRI) Hub:
Its Role in Enhancing Science and Technology Capacity in Africa

Appolinaire Djikeng
Annual Meeting of the American Association for the Advancement of Science (AAAS), Vancouver, Canada
16–20 Feb 2012; posted on ILRI Slideshare 20 Feb 2012; 2,405 views.

12 PASTORAL PAYMENTS FOR ENVIRONMENTAL SERVICES

>>> Review of Community Conservancies in Kenya
Mohammed Said, Philip Osano, Jan de Leeuw, Shem Kifugo, Dickson Kaelo, Claire Bedelian and Caroline Bosire
Workshop on Enabling Livestock-Based Economies in Kenya to Adapt to Climate Change:
A Review of PES from Wildlife Tourism as a Climate Change Adaptation Option, at ILRI, Nairobi, Kenya
15 Feb 2012; posted on ILRI Slideshare 27 Feb 2012; 762 views.

Livestock in the city: New study of ‘farm animals’ raised in African cities yields surprising results

Urban zoonoses and food safety: Nairobi

Leonard Gitau, a small-scale livestock farmer in Dagoretti, Nairobi, speaks to journalists during a media tour by ILRI of urban farmers in Nairobi on 21 Sep 2012 (photo credit: ILRI/Paul Karaimu).

For the first time in history, more people are living in cities than rural areas. Many of them still keep livestock. At least 800 million people in cities in developing countries practice urban agriculture, from growing vegetables to keeping camels—often in close confinement in densely populated areas.

The benefits of urban livestock keeping are many: from improved food security, nutrition and health from livestock products, creation of jobs and protection from food price volatility. But the risks in urban livestock are also large: unsanitary conditions and weak infrastructure mean that livestock can be a source of pollution and disease.

‘Zoonoses’, diseases transmitted between animals and people, are a global health problem that particularly affects the poor in developing countries. A new study by the International Livestock Research Institute (ILRI) and partners finds that zoonoses and diseases recently emerged from animals make up 26% of the infectious disease burden in low-income countries, but just 0.7% of the infectious disease burden in high-income countries.

The study, published in the journal Tropical Animal Health and Production, which was led by University of Nairobi and ILRI, is part of a series of papers that examine the facts and fiction of urban livestock keeping. The researchers note the need for evidence in the planning and practice of urban food systems and the danger of relying on perceptions or models taken from different contexts.

Here are some of the results of the study.

LOTS OF URBAN LIVESTOCK
Much more livestock is being raised in the urban areas of developing countries than most people (and policymakers) think.

THE DISEASE RISK
Domestic as well as wild animals can spread many, and some very serious, diseases to people and it is a reasonable assumption that as the population of urban areas of these and other developing countries continues to increase, the risk of zoonoses also increases.

THE GOOD NEWS
This recent in-depth study of urban zoonoses in urban environments in Nigeria and Kenya suggests that the human disease risk posed by raising, processing, marketing and/or consuming livestock in cities, city suburbs and big towns in developing countries is less than we might think.

SUPPORT INFORMAL MARKETS
Rather than bar poor people from livestock enterprises in urban areas in an attempt to protect public health, which could do the poor more harm than good, this study suggests that a more practical and equitable course is to work to enhance practices in small-scale urban livestock raising and informal livestock marketing by encouraging poor livestock producers, processors and sellers to upgrade some of their practices.

PROVIDE INCENTIVES FOR GOOD BEHAVIOUR
This study included participatory work with the local communities, and an important outcome has been the success achieved by creating incentives for the poor to improve their livestock practices rather than trying to strictly regulate these informal livestock markets, or harass the people involved, or bar them from operating altogether.

DISEASE RISKS ARE NOT WHAT WE THINK
Another important finding is that people are not the good judges of risks that they think they are; most people, including food safety officials, think that livestock foods, being so perishable, carry the greatest risk of disease in informal urban markets, but studies have shown that, for example, city vegetables are often a greater cause of disease concern than milk and meat.

TRACKING PATHOGENS AND RELATED ILRI RESEARCH
This research project was conducted jointly with the University of Nairobi, whose Professor Erastus Kang’ethe led the data collection and participatory work within Kenya, with the support of the Kenyan government and health officials. This project also expands ILRI’s long-standing research on informal dairy markets in East Africa and South Asia, led by ILRI scientist Amos Omore and others, which helped to refine dairy policies to support rather than harass sellers of ‘raw’ (unpasteurized) milk. And a new ILRI research project led by ILRI scientist Eric Fevre will investigate zoonoses further by tracking disease pathogens as they move among farms, processors and markets in Nairobi.

Urban zoonoses and food safety: Nairobi

ILRI scientist Delia Grace is interviewed by BBC and AllAfrica.com before the start of a journalist tour of urban livestock farmers in Nairobi that ILRI organized on 21 Sep 2012 (photo credit: ILRI/Paul Karaimu).

Delia Grace, an ILRI veterinary epidemiologist and leader of a component of the CGIAR Research Program on Agriculture for Nutrition and Health, was the principal investigator in the Ibadan-Nairobi zoonoses study and editor of this special edition of Tropical Animal Health and Production. Grace says that regulations that work for rich countries do not always work for poor countries, and that policies should follow a risk-based approach where decision-makers’ focus is not the bugs present in food but the likely effects on human health. ‘The risks of food-borne diseases’, she says, ‘need also be weighed against the economic benefits and nutrition abundantly supplied by animal products.’

In the absence of evidence, policies are based on the prejudice that urban livestock keeping is unsafe and unmodern, and it is often banned outright. Of course it continues behind hedges and in back alleys, but the imposed illegality drives a rush to the bottom in hygienic practices and investments. When farmers are harassed by authorities and operate in a legal grey area, they have little access to the support they need and little incentive to invest in business improvements.

Thanks in part to previous research on the benefits of urban agriculture, the Government of Kenya has been proactive in posting veterinary, animal production, and crop personnel in major urban centers to lead from the front in championing the development of urban agriculture. The government has also led in the development of the urban agriculture and livestock policy. Involving these civil servants has been key in enabling our research in urban agriculture. This is a good example of government changing its policy to better meet the needs of citizens.

Rapid urbanization, and along with it the urbanization of poverty and food insecurity, raises urgent challenges for the global research and development community. Among them is the need to manage the growing risks of zoonosis associated with urban farming and to improve food safety for the one billion of the world’s poor living in cities, most of whom depend on informal markets instead of more formal government-organized markets or grocery stores.

Informal, or wet markets, exist in many different forms across Africa and Asia but have common characteristics: food escapes effective health and safety regulation; many retailers do not pay tax and some are not licensed; traditional processing, products and retail practices predominate; infrastructure such as water, electricity, sanitation, and refrigeration is lacking; and little support is provided from the public or non-governmental sector. Unsurprisingly, women and the poor are involved most in informal markets.

Applying an innovative research approach known as ‘ecohealth’, the findings of this research contradict some basic assumptions about zoonoses and urban farming and show how livestock keepers in one of Africa’s biggest cities, Nairobi, Kenya, are transforming their livestock and public health practices to combat disease and help feed a city where 60% of the population lives in slums.

But what does it mean in practice? A special edition of 11 papers sets out how ecohealth approaches can make a difference to city health. The researchers base their findings from two case studies. One is in Dagoretti, a Nairobi district of some 240,000 residents, and analyzes the emerging zoonoses cryptosporidiosis, a diarrhoeal disease that is passed from cattle to humans.

For further information

See a Factsheet on Urban Agriculture and Zoonoses in Nairobi, which provides key facts about urbanization, urban livestock keeping and the study in Dagoretti, where most residents are poor and many raise livestock inside city limits.

Read the special supplement of the August 2012 issue of the journal Tropical Animal Health and Production on assessing and managing urban zoonoses and food-borne disease in Nairobi and Ibadan.

Featured in the special supplement are the following 10 research articles by scientists from the International Livestock Research Institute (ILRI) and partners from the Kenya Agricultural Research Institute (KARI), the Kenya Ministry of Agriculture, the Federal University of Agriculture, Abeokuta, the University of Ibadan and the University of Nairobi.

Click on the links below to read the abstracts of the articles (ILRI authors in burgundy; journal subscription required for access to full text).

Frontline livestock disease research in, and for, Africa highlighted in White House conversation today

Scientists at the International Livestock Research Institute (ILRI) are working with many partners to improve control of major diseases of cattle in Africa.

East Coast fever in African cattle, one of the target diseases of the International Livestock Research Institute (ILRI), is included in a message today at the White House delivered by Raj Shah, administrator of the United States Agency for International Development. Shah will remind his audience that East Coast fever kills one cow every 30 seconds in Africa. Watch the live stream and join the conversation at 11am ET at the White House today, when Shah and others will answer questions about Innovations for Global Development.

Two other target diseases of ILRI’s are contagious bovine pleuropneumonia and trypanosomosis. All three diseases affect millions of the world’s poorest farmers. And all remain underfunded because they occur mostly in developing regions of the world.

ILRI recently produced three short films on research battles against these diseases.

CBPP: A new vaccine project starts
Contagious bovine pleuropneumonia (known by its acronym, CBPP) is found throughout most of sub-Saharan Africa, where it causes most harm in pastoralist areas. The disease kills up to 15% of infected animals, reduces the meat and milk yields of infected cows (milk yields drop by up to 90%), and reduces the ability of infected oxen to pull ploughs and do other kinds of farm work. An existing ‘live’ vaccine against this disease produces severe side effects and gives only limited protection.

Watch this short (runtime: 2:35) ILRI film, ‘Developing a Vaccine for a Highly Contagious Cattle Disease’, on the research recently begun at ILRI and its partner institutes, including the Kenya Agricultural Research Institute, to develop a more effective vaccine against this form of acute cattle pneumonia. This research is funded by the German Federal Ministry for Economic Cooperation and Development (BMZ).

Trypanosomosis: A genetic approach to its control
Trypanosomosis, called sleeping sickness in humans, is a wasting disease that maims and eventually kills millions of cattle in Africa and costs farmers billions of dollars annually.

In 2011, using the latest gene mapping and genomic technologies, researchers at ILRI’s Nairobi, Kenya, animal health laboratories and at institutes in the UK and Ireland identified two genes that enable Africa’s ancient N’Dama cattle breed to resist development of the disease when infected with the causative, trypanosome, parasite.

This breakthrough should eventually make it easier for Africa’s livestock breeders to breed animals that will remain healthy and productive in areas infested by the parasite-carrying tsetse fly. The international team that came together in this project is an example of the disciplinary breadth and agility needed to do frontline biology today, and the complex research approaches and technologies now needed to unravel fundamental biological issues so as to benefit world’s poor.

ILRI’s collaborating institutes in this work include Liverpool University; the Roslin Institute and Royal (Dick) School of Veterinary Studies, University of Edinburgh; Trinity College, Dublin; and the University of Manchester. The Wellcome Trust funded the bulk of the work in this project.

Watch this short (runtime: 5:28) ILRI film, ‘Battling a Killer Cattle Disease’, on the international partnership that made this breakthrough in trypanosomosis research.

 

Trypanosomosis: A community-based approach to its control
Another ILRI research team has been working with partners and livestock keepers in West Africa to develop safer ways to treat their cattle with drugs to protect them from trypanosomosis. Parasite resistance to the trypanocidal drugs used to treat and prevent this disease has emerged in many areas and is a growing problem for farmers and governments alike. This collaborative research team recently developed good practices in the use of trypanocides to slow the emergence of drug resistance in the parasites that cause the disease. This film describes the disease and these practices, known as ‘rational drug use’, clearly and in detail to help veterinary workers and farmers treat animals safely.

ILRI’s partners in this project include the Centre International de Recherche-Développement sur l’Elevage en Zone Subhumid, Freie Universität Berlin, Laboratoire Vétérinaire Centrale du Mali, Centre Régional de la Recherche Agricole Sikasso, Project de Lutte contra la Mouche Tsétsé et la Trypanosomose (Mali), Pan-African Tsetse and Trypanosomiasis Eradication Campaign (Mali), University of Hannover, Direction Nationale de l’Elevage et l’Institut de Recherche Agronomique de Guinée, Tsetse and Trypanosomosis Control Unit (Ghana), Institut National de la Recherche Agronomique du Bénin and the Nigerian Institute of Trypanosomiasis Research. The project was funded by the German Federal Ministry for Economic Cooperation and Development (BMZ).

Watch this ILRI film, ‘Community-Based Integrated Control of Trypanosomosis in Cattle’ (runtime: 12.48), for clear instructions on how to deploy drugs to better control trypanosomosis over the long term.

Market incentives–not top-down regulation–needed to help poor farmers take advantage of East Africa’s burgeoning pig industry

Uganda railways assessment 2010

A family of pigs are at home on a section of overgrown railway track near Kumi, Uganda, September 2010 (photo on Flickr by John Hanson/US Army).

Editor’s Correction of 18 Jan 2012
Today we have corrected parts of this story to reflect the following comment from CRP 3.7 director Tom Randolph:

Lessons learned in other smallholder livestock systems—especially smallholder dairying in East Africa and India—is that a typical policy reaction to animal and public health challenges is to seek more regulation. The problem is that such regulation often proves to be toothless (i.e. cannot be effectively enforced by veterinary services) and ultimately anti-poor. We are pursuing alternative approaches that encourage farmers and other value chain actors to improve animal and public health-related practices by creating or exploiting market incentives rather than relying on top-down regulation. This will certainly be our approach as we engage in the Uganda smallholder pig value chain.’ — Tom Randolph, director of CGIAR Research Program on Livestock and Fish (CRP 3.7)

East Africa’s growing human population and rapid urbanization are creating new opportunities for small-scale farmers to make money from pig farming. According to Tom Randolph, an agricultural economist with the International Livestock Research Institute (ILRI), ‘pig production [in East Africa] is taking off and growing rapidly and there is a rising demand for pork and related products, particularly in Uganda.’ Uganda has more than 3 million pigs and over 1.1 million people across the country (17 per cent of households) are involved in pig rearing and trade in pork products.

Randolph was speaking at the ILRI Nairobi campus during a recent workshop to find ways of diagnosing and controlling the spread of cysticercosis, a disease caused by tapeworms that can cause seizures and epilepsy in people when they consume undercooked pork infected with the tapeworms. Inadequate disease control is one of the biggest challenges facing the informal pig industry in East Africa.

Most of the pork sold in this region is produced by small-scale farmers who keep 1 to 3 animals in ‘backyard systems’, and the rapid growth of urban areas is opening up new opportunities for small-scale producers to intensify their pork production to meet growing demand.

For farmers in the region, pigs are ‘a cash crop of livestock’ because they do not carry cultural and social values like cows and chickens. This means that pig farming, because of its nature as a commercial activity and the shorter production cycles of pigs, can offer significant economic benefits to smallholders. ‘By supporting pig farming, we will be helping women, who are the ones who typically tend to the pigs on these small farms, and families to improve their income and their nutrition,’ said Randolph.

Despite the great potential offered by poor farmers from pig farming, Randolph said ‘the sector remains largely “invisible” and poorly regulated because the region’s governments have not focused on developing it.’

Improvements needed in the sector include providing better breeds and improving marketing systems to capture the ‘value that is currently being leaked out of the system’. Dealing with diseases such as African swine fever and cysticercosis is also critical. ‘Early diagnosis of diseases,’ said Randolph, ‘will give confidence to consumers that the pork they buy is safe.’

See workshop presentation:

American agricultural economist Tom Randolph to lead new CGIAR Research Program on Livestock and Fish

ILRI's Tom Randolph

Tom Randolph, an agricultural economist at ILRI, speaks with former ILRI project manager Oumar Diall while attending a 2006 workshop in Bamako, Mali, on controlling trypanosomosis drug resistance, a project he and Diall led for several years in West Africa (photo credit: ILRI/Stevie Mann).

Tom Randolph has been named director of a newly established CGIAR Research Program on Livestock and Fish. Jimmy Smith, new director general of the International Livestock Research Institute (ILRI), a position he took up on 1 October 2011, announced Randolph’s appointment on 13 October 2011.

ILRI leads this CGIAR research program, which is one of several new multi-institutional research programs initiated by the Consultative Group on International Agricultural Research (CGIAR). In this program, which aims to provide more meat, milk and fish by and for the poor, ILRI will be collaborating with other scientists and staff from three of its sister CGIAR centres—the International Center for Tropical Agriculture (CIAT), based in Cali, Colombia; the International Center for Agricultural Research in the Dry Areas (ICARDA), based in Aleppo, Syria; and the WorldFish Center, based in Penang, Malaysia. Many other strategic partners will play key roles in implementing the program in several ‘livestock value chains’ and countries targeted by the new project.

Randolph helped lead the collaborative processes employed over the last two years to develop the concept and subsequent full proposal for this research program.

Before this appointment, Randolph headed a team conducting research on smallholder competitiveness in changing markets under ILRI’s Market Opportunities Theme. His research interests and contributions at ILRI have been varied, including studies at the interface of animal and human health and assessments of the impacts of agricultural problems and the research conducted to address them, including evaluations of the impacts of tick and tick-borne diseases, animal health delivery systems, ILRI’s East Coast fever vaccine development research, the contributions economics and epidemiology can make to animal disease control and the control of bird flu in sub-Saharan Africa.

One of the projects Randolph led has helped to reduce parasite resistance to drugs used to control trypanosomosis (animal sleeping sickness) in the cotton belt of West Africa. This project established a clear picture of the distribution of potential resistance across a zone from eastern Guinea to western Burkina Faso, highlighting the importance of tsetse ecology, farming systems, accessibility to veterinary services and pharmaceutical products, and cattle breed in influencing drug use and misuse. Under Randolph’s leadership, this project evolved from a primary focus on the biological issue to a holistic understanding of the complex epidemiological and socioeconomic factors at farm, local, national and regional levels that influence the problem and determine the ability to address it.

Among his more recent projects is a groundbreaking assessment of the relations between dairy intensification, gender and child nutrition among smallholder farmers in the Rift Valley Province of Kenya; this project is investigating the pathways between dairy intensification and child nutrition.

An American from upstate New York, Randolph received an undergraduate degree in Chinese studies in 1976, after which he spent six years teaching English in Zaire with the Peace Corps. On his return to the United States, Randolph pursued an MSc and PhD in agricultural economics from Cornell University. His doctoral dissertation was based on field work he conducted in Malawi with the Harvard Institute for International Development, looking at the impact of agricultural commercialization on child nutrition in smallholder households. His thesis earned the American Agricultural Economics Association’s Outstanding PhD Dissertation Award. He subsequently joined the West African Rice Development Association (WARDA, now Africa Rice Centre), in Senegal, as a Rockefeller-funded post-doctoral fellow, later becoming policy economist and policy support program leader at WARDA’s Côte d’Ivoire headquarters.

Randolph joined ILRI in 1998 and will remain based at ILRI’s Nairobi, Kenya, headquarters as he directs this new multi-country and multi-institutional CGIAR Research Program on Livestock and Fish.

Kenya study finds prototype tsetse-repellent technology does not sufficiently protect cattle under normal field conditions

Testing a tsetse-repellent technology

Cattle fitted with tsetse-repellent dispensers suspended from neck collars were used to test the effectiveness of a prototype tsetse repellent in preventing tsetse fly bites (Photo credit: ILRI/Bett).

Recently published findings from a study done among Maasai livestock in Kenya to test whether repellents can successfully reduce tsetse fly bites in cattle show that tsetse-repellent technologies may have some success in typical field conditions but do not yet offer a viable alternative for controlling trypanosomosis in field-based livestock.

The study, ‘Field trial of a synthetic tsetse-repellent technology developed for the control of bovine trypanosomosis in Kenya,’ was the first to evaluate the use of a mobile tsetse repellent in the field. It was conducted between April 2005 and August 2006 in Nkuruman, in Kajiado District, and Nkineji, in Narok District.

Trypanosomosis is the most pervasive and serious cattle disease in sub-Saharan Africa. It kills between three and seven million cattle each year and costs farmers millions of dollars in lost production and treatment costs. The disease is transmitted mainly by blood-feeding tsetse flies that infect susceptible animals with the causative trypanosome parasite during their feeding. Other trypanosome parasites can infect humans, causing sleeping sickness, a disease that attacks the central nervous system.

Animal trypanosomosis is difficult to control because its spread is influenced by many factors, including the age, sex and colour of the cattle at risk as well as the herd size, its geographical area and climate. Adult and male cattle, for example, are more likely to contract the disease than calves and females. And tsetse flies prefer to take their feeds from animals with dark coats.

International Livestock Research Institute (ILRI) researchers Bernard Bett, Tom Randolph and John McDermott participated in the evaluation, which was designed with the help of veteran African tsetse researchers Glyn Vale and John Hargrove, and Steve Torr of Greenwich University (UK). The evaluation involved 2000 cattle: 1000 formed the control group, while the other 1000 animals were fitted with tsetse-repellent dispensers suspended from neck collars. The effectiveness of the repellent was then monitored for 16 months.

The study stipulated at the outset that the repellent would be considered effective if it reduced the incidence of trypanosomosis by 50 percent or more in the repellent-treated animals versus the control animals. Failure to achieve this level of reduction would mean that the repellent technology was clearly not ‘a viable alternative to existing control techniques’.

Results from the trial showed that the technology reduces trypanosomosis infection rates only modestly. ‘The synthetic repellent reduced the incidence of the disease only by 18 percent,’ said Bett, the ILRI scientist who implemented the trial.

Bett went on to explain that the technology had been proposed for evaluation based on initial experiments using stationary cattle that suggested that the repellents could reduce infection rates by more than 80 percent. ‘Under typical field conditions, however,’ said Bett, ‘the repellent did not provide adequate levels of protection, so we are recommending that it not be considered for further commercial development at this point.’

That the effectiveness of the repellent in the field was lower than expected could be attributed to both the fragile nature of the repellent dispensers, which, sensitive to abrasions, often leaked, as well as the repellent itself. Tsetse flies, especially hungry ones, will alight even on animals that smell bad to them. This is why people, for example, whose odour should put off tsetse flies, still get bitten by them.

‘The earlier experiments might have also overestimated the benefit of the technology,’ said Bett. ‘Those initial experiments evaluated the reduction in numbers of flies feeding on tethered cattle; other flies, however, could bite quickly without feeding and still transmit the disease before the repellent drives them away. In addition, while flies mainly use odour to find a stationary cow, they use vision more than odour to guide them to moving animals, such as those in the pastoralist herds used in the field trial.’

The study found that many variables determine the effectiveness of the repellent technology. Among these are changes in grazing (during the dry season, herders tend to move their stock to pastures with higher densities of tsetse) and herd sizes (the larger the herd, the lesser are the chances that an individual animal within the herd will be bitten). Trypanosomosis incidence also differed in the two test districts. While cattle were the preferred hosts for the flies in Narok, the cattle in Kajiado came fifth in fly preference—after warthog, elephant, zebra and buffalo—which reduced the effectiveness of the repellent worn by the cattle.

Bett says that ‘the results of this study show that the tsetse-repellent technologies currently proposed are unlikely to be useful replacements of existing methods of controlling trypanosomosis.’ These include keeping indigenous ‘trypanotolerant’ cattle breeds, which can tolerate trypanosome infections without getting sick; treating sick animals with trypanocidal drugs to cure them of the disease; introducing sterile tsetse flies into an area to reduce its tsetse population; and controlling tsetse populations using pyrethrum-based insecticides.’

The findings of this study should help scientists improve their research on methods for controlling tsetse fly populations and the trypanosomosis they spread. ‘In the short term, however,’ says Bett, ‘we need to continue sensitizing livestock keepers on how to best use the existing control methods.’

‘We also urgently need to develop integrated strategies for controlling the fly and disease,’ concludes Bett, ‘so that we stop over-relying on popular interventions, such as regularly treating cattle with trypanocides, which will inevitably lead to drug resistance in the trypanosome parasites.’

Read the complete findings of the evaluation on this link http://dx.doi.org/10.1016/j.prevetmed.2010.09.001

This blog entry by Tezira Lore, a communication specialist with ILRI’s Market Opportunities Theme, compares findings of this field trial with findings of other ILRI studies in typanosomosis.

Nine myths about livestock: One conclusion

The Journal of Animal Science this month features an invited review by ILRI and partners highlighting how livestock benefit the health and nutrition of poor people and dispelling some common, and dangerous, livestock myths.
 

Myths about livestock in developing countries abound. The authors of this invited review, ‘Role of livestock in human nutrition and health for poverty reduction in developing countries’, published in the Journal of Animal Science (JAS) (November 2007), and also featured in the JAS editorial, outline the links between livestock-keeping and the physical well-being of the poor and de-bunk a few commonly held misconceptions. The authors argue that these limit livestock development and the potential of livestock to reduce poverty. They conclude that the benefits of livestock on health and nutrition of poor people have largely been ignored even though they offer big opportunities for improving welfare and wellbeing.

Livestock contributions being hampered by myths
ILRI agricultural economist and lead author of the paper, Tom Randolph, says: ‘Livestock are well positioned to contribute to economic progress and social transformation as a strategic asset of the poor, but several misconceptions about livestock are misguiding policy and hampering development interventions. Too many opportunities are being lost due to misinformation and myths.

‘We have to take developing-country contexts into account and recognize the complex role livestock play in the livelihoods of the poor.
‘We argue that for poor people in low-income countries the nutritionally related health risks of animal-source foods are relatively small, as are the negative environmental impacts of livestock production, when compared to the much larger benefits of livestock-keeping to livelihoods and human well-being for poverty reduction.’

 Editorial: The role of livestock in developing countries
‘The purpose [of this invited review] was to highlight the importance of livestock in the global effort to alleviate poverty and promote human health, for those involved in livestock research, for policymakers, and those who are the beneficiaries of these efforts. We also wanted to provide a scholarly analysis of the facts as well as some of the misconceptions concerning the contribution of livestock to the health and economic progress of developing countries.

‘In fact, as Dr Randolph and colleagues observe in their review, “Animal-source foods are particularly appropriate for combating malnutrition and a range of nutritional deficiencies,” and, “livestock clearly offer the most efficient utilization of resources that would otherwise go unexploited. . .,” and thereby contribute to economic development as well. Thus, “livestock keeping” has been, and will continue to be, integral to improving the well-being of people in developing countries, both from a health and nutrition perspective and from a socioeconomic one. However, as pointed out by Randolph and co-authors, there is a critical need for objective, scientifically sound studies on the role of, and methods to promote, improved livestock production in developing countries.’

— MA Mirando, Symposia Editor and LP Reynolds, Editor-in-Chief. Editorial: The role of livestock in developing countries. Journal of Animal Science. American Society of Animal Science. Vol 85. No 11. November 2007.

Livestock keeping is critical and highly complex
This review summarizes how livestock help reduce poverty through better human nutrition and health; it also captures the complexity of the livelihood strategies used by the poor, the role of livestock and their links to human nutrition and health. The authors, from the International Livestock Research Institute (ILRI), Swiss Tropical Institute, Cornell University, National Institute of Public Health (Cuernavaca), University of Toronto, the International Potato Centre (CIP), University of California, and the International Food Policy Research Institute (IFPRI), incorporate perspectives from multiple disciplines including animal science, economics, epidemiology and public health, to provide a comprehensive review.

 The role of livestock in livelihood strategies of the poor
Livestock keeping is critical for many of the poor in the developing world, serving many livelihood objectives and providing several pathways out of poverty. Livestock keeping also affects an indispensable asset of the poor –their own nutrition and health.

The many reasons poor people keep livestock — for food, income, manure, traction, status, and as bank accounts — mean that the role that animals play in household well-being is highly complex.

Myths about livestock in developing countries
A key objective of the invited review was to explore misconceptions hampering efforts to capitalize on the nutritional and health benefits that livestock can provide poor people who live largely on starchy diets.

Co-author, food safety specialist and veterinary scientist on joint appointment with ILRI and Cornell University Delia Grace says: ‘As we were undertaking this review, we realized that there were a number of common and dangerous myths about the role of livestock in developing countries that we needed to explore. 

‘From a public health perspective, we address both health determinants, for example poverty and inequality, and specific health risks, including animal-to-human transmitted diseases and food-borne diseases.

‘We have emphasized a “harm reduction” approach, which is more appropriate, as opposed to the unrealistic and unachievable goal of and “zero risk”.

Nine Myths About Livestock in Developing Countries
Myth 1: More livestock and eating more animal products are bad for poor countries.
Reality:  Animal products are uniquely suited to combat malnutrition and micronutrient deficiency in poor countries.

Myth 2: Livestock keepers are livestock eaters.
Reality: Most production is sold off-farm and the added income does not necessarily translate into significant improvements (or equitable improvements) in household nutrition.

Myth 3: Livestock keeping is an inefficient strategy for feeding the poor.
Reality: There is negligible competition between livestock and people for food resources given use by poor farmers of marginal lands and crops for livestock feed.

Myth 4: The state alone is the best manager of zoonoses and food-borne diseases.
Reality: Alternative systems involving the private sector and communities can deliver sustainable and affordable disease control measures.

Myth 5: Medical and veterinary disciplines operate best independently in controlling zoonotic diseases.
Reality: The divided responsibility for zoonoses control leads to under-estimating its importance and the benefits from its control.

Myth 6: We know which zoonoses matter to the poor.
Reality: With a dearth of information on the priority of different diseases, resources are being allocated irrationally.

Myth 7: Quantity, not quality, of food is what matters to poor countries.
Reality: Biological contamination causes 2 billion illnesses annually and food safety scares hit consumers and producers hard even in the poorest countries.

Myth 8: Food safety standards are blocking poor farmers from the big market opportunities.
Reality: The poorest don’t sell or buy in supermarkets and have little prospect of entering international trade.

Myth 9: Food safety systems should aim for zero risk to the public.
Reality: Zero risk is both impossible and unaffordable and the appropriate level of risk in poor countries is not necessarily the same as that for rich countries.

Download Brief: Nine Myths About Livestock in Developing Countries

Co-author and epidemiologist with ILRI and the Swiss Tropical Institute Esther Schelling concludes:
‘Dismantling the myths raises awareness that conventional services and traditional approaches usually only reach some parts of the population. They tend to miss remote communities or vulnerable groups such as women and children.

‘More equitable solutions can be devised by thinking outside the box. There are already some examples of promising new approaches. We now need to examine them for their potential to be scaled up in sustainable ways.

For more information contact:

Tom RandolphTom Randolph
Agricultural Economist, International Livestock Research Institute (ILRI)
Nairobi, Kenya
Email: t.randolph@cgiar.org
Telephone: +254 (20) 422 3067

OR

Delia Grace
Veterinary Epidemiologist, International Livestock Research Institute (ILRI)
Nairobi, Kenya

Email: d.grace@cgiar.org
Telephone: +254 (20) 422 3070

OR

Esther Schelling
Veterinary Epidemiologist, International Livestock Research Institute (ILRI)
Nairobi, Kenya
Email: e.schelling@cgiar.org

Telephone: +254 (20) 422 3069