Category Archives: Asia

Livestock in Asia: The challenges and opportunities

Posted on by
Reply

300 million poor people in Asia depend on livestock. ILRI's regional representative in Asia outlines the challenges and opportunities and provides an overview of some of ILRI's current activities

Iain Wright took over the post of ILRI’s regional representative in Asia in October 2006, based in ILRI’s office in New Delhi, India. ‘The geographical scope of ILRI’s operations has expanded, especially in Asia and particularly South Asia. There are several reasons behind ILRI’s increasing presence in Asia, and its focus on South Asia, explains Wright. ‘Notably, Asia is home to almost half of the world’s poor livestock keepers, with about two-thirds of those in South Asia.’
 

Iain Wright, ILRI’s regional representative in Asia
 

Asia: Historic progress, but progress uneven
Asia is undergoing a phenomenal transformation with some countries progressing at an unprecedented rate – yet many countries and provinces are being left behind.
According to the Millennium Development Goals (MDG) latest indicators, South Asia is home to 47% of the world's poor living on less than $1 a day. India has reduced its poverty rate by 5-10% since 1990; most other countries registered reductions in poverty over the period, except for Pakistan, where poverty has stagnated at around 33% (using national poverty lines). Source: www.developmentgoals.org

 

What is the real extent of poverty in Asia?

A special chapter, which focused on poverty estimates and measures, contained in an Asian Development Bank (ADB) report, considered the real extent of poverty in Asia.

‘Despite experiencing impressive reductions in poverty, Asia region remains host to unacceptably high levels of poverty.  There is considerable diversity across Asia and the Pacific in both poverty incidence and poverty reduction trends. For example, while in 2002 around 233 million fewer people lived in poverty than in 1990, a large majority of this reduction is explained by dramatic poverty reductions in the People’s Republic of China, with Southeast Asia also contributing significantly. In comparison, progress was much slower in South Asia, where around 434 million people were still poor in 2002—a figure only some 14 million lower than in 1990.’

The rural poor and South Asia most vulnerable
The chapter highlights three main findings:
1. Rural poverty often accounts for two thirds or more of total poverty.
2. There is a great deal of diversity in the incidence of poverty with South Asia being extremely poor:
A high incidence of US$1 a day poverty and a large population mean that South Asia was home to almost two thirds of Asia’s extremely poor in 2002.
3. Poverty remains a problem even where the incidence of extreme poverty is low.
The authors suggest that if a move were made to a slightly higher poverty line such as $2 a day (a poverty line close to that found in low middle-income countries) a majority of most ADB developing member countries populations are poor.
The incidence rate of $2 a day poverty in Indonesia, for example, is almost seven times that of $1 a day poverty and reveals, among other things, the vulnerability of those who have escaped $1 a day poverty.

Source: Key Indicators 2004: Poverty in Asia: Measurement, Estimates, and Prospects http://www.adb.org/Documents/Books/Key_Indicators/2004/pdf/Special-Chapter-2004.pdf

Millions of rural poor in Asia dependent on livestock
‘Despite high levels of economic growth and rising demand for livestock products there are still large numbers of rural poor in Asia who depend to a greater or less extent on livestock for their livelihoods.  The challenge is to ensure that they have the means to access markets and the ability to produce products in the quantity and of the quality required.’ says Wright.

Population growth, urbanisation, increasing incomes, and changes in diet preferences are creating a massive growth in demand for animal products, with rapid growth in total milk and meat production, especially pork and poultry. However, these trends have resulted in the following:
• Greater pressure on the natural resource base
• Intensification of animal systems
• Need for improved efficiency in use of feed resources
• Higher concentration of animals in urban and peri-urban areas
• Increased disease risk, pollution and human health issues

Against this backdrop, poor farmers face a diverse set of animal production problems caused by disease, inadequate nutrition, resource degradation and a changing trade and policy environment.

Highlights of ILRI research in Asia
ILRI is currently active in Bangladesh, Cambodia, China, India, Indonesia, Laos, Malaysia, Pakistan, the Philippines, Sri Lanka, Thailand and Vietnam.

Indonesia is one of the world’s poorest countries and has the world’s biggest avian influenza problem. ILRI and partners are pioneering a new community approach, known as ‘participatory epidemiology’, and enlisting villagers help in controlling bird flu in Indonesia through local knowledge.

India has made remarkable progress in poverty reduction. Here, livestock production is growing faster than arable agriculture. It is predicted that livestock will contribute more than half of the total agricultural output in the next 25–30 years. One of the biggest impediments to growth of the livestock sector in India is the large-scale prevalence of Foot and Mouth Disease (FMD). ILRI and partners have recently formulated a global ‘roadmap’ for controlling FMD focusing on the special research needs of the poor in endemic FMD settings.

ILRI is also working in North East India with the Directorate of Dairy Development (DDD) of the Government of Assam, undertaking a comprehensive study to identify opportunities to boost the milk sector and improve the livelihoods of smallholder producers. A new strategy for pro-poor dairy development in Assam has been prepared and the Action Plan will be released shortly.

China has recorded extraordinary poverty reductions over the last two decades, with over 400 million fewer people living in extreme poverty. This emerging giant has demonstrated the importance of agricultural and rural development in poverty reduction. It has also been praised for its potential to become the world’s next science superpower. ILRI has established a molecular genetics laboratory with the Chinese Academy of Sciences (CAAS) in Beijing. The joint CAAS/ILRI molecular genetics laboratory focuses on characterization of the huge wealth of livestock and forage genetic resources in the country as well as providing a focal point for training scientists from throughout Asia in modern genetic techniques.

CAAS ILRI Beijing Lab brief

Important lessons to be learned from Asia
Wright believes that there are many important lessons to be learned from Asian countries’ experiences: ‘By studying the rapidly changing economies of South East Asia and the way in which livestock both contribute to, and livestock keepers benefit from the economic growth, lessons can be learned for the livestock sectors in South Asia and Africa.’

‘There are both positive and negative lessons. On the one hand, some countries, such as China, have made massive strides in poverty reduction, including among rural livestock keepers, but on the other hand, intensification of parts of the livestock sector has resulted in massive environmental problems. Livestock research and development in other parts of the world can learn a lot from analyzing these changes.

ILRI is facilitating an e-consultation for the development of an Action Plan for Pro-Poor Livestock Research for Sustainable Development in South Asia and South East Asia.

‘There is concern that much past livestock research has not contributed to poverty reduction in many parts of Asia. We are encouraging stakeholders from all areas of livestock research and development to get involved in the forthcoming e-consultation.

‘Now is the time to take a fresh look at how livestock research can contribute to poverty reduction in Asia’ concludes Wright.

Further information:
ILRI Research in South East Asia: ILRI’s collaborative projects in South East Asia are summarized in a brief.

ILRI and Livestock Research in South East Asia brief.

ILRI’s representative in Asia: Iain Wright, whose background is in livestock systems, joined ILRI from the Macaulay Institute, Aberdeen, UK, where he worked for 25 years, managing a number of research programmes, and more recently was Head of Business Development and Chief Executive of the Macaulay Institute’s commercial research and consultancy company.  Although based in the UK, he worked extensively on livestock research and development projects in Asia.

Livestock in India: New publications

Posted on by
Reply

ILRI has produced two new publications on livestock in India focusing on their role in poverty alleviation and opportunities and challenges for smallholder livestock producers


In India, underprivileged families account for about one fourth of the population and contribute a major part of livestock production. Livestock are central to their livelihoods and culture. ‘Livestock in the livelihoods of the underpriviledged communities in India: A review’, is an extensive review of formal and grey literature addressing the premise that a good understanding by the research and development community of the role of livestock in the livelihoods of the underprivileged and their production and marketing systems is needed to guide effective research and development aiming at alleviating poverty.

The review covers cattle, buffalo, goat, sheep, pigs and poultry and their output, input, risk asset and social functions when kept by India’s underprivileged families. It examines the factors affecting where and how the livestock are managed and concludes that to improve the livelihoods of underprivileged families through livestock, inter-disciplinary action-oriented research should target communities in contrasting agro-ecozones in central, eastern and north-eastern India with priority given to small stock, specifically goats, pigs and backyard poultry. It is recommended that the research should start by ensuring a shared understanding between research-for-development teams and the underprivileged communities of the preferences of the communities for specific types of livestock, their perceptions (particularly of the women) about the roles and functions of the livestock in livelihood strategies, and what, from their perspective, constitutes improvement. Subsequently, action-oriented participatory research would identify and address constraints to, and opportunities for, improving livestock-based productivity and profitability and the non-market functions of livestock.

The recommended approach will require a paradigm shift from conventional animal-level research to people-centred, participatory and holistic methods in iterative research-for-development programmes that are interdisciplinary, multi-institutional and, ideally, multi-locational to facilitate cross-site lesson learning.

Download this publication

Livestock in the livelihoods of the underpriviledged communities in India: A review


Correct citation: Rangnekar D.V. 2006. Livestock in the livelihoods of the underprivileged communities
in India: A review. ILRI (International Livestock Research Institute), Nairobi, Kenya. 72 pp.

‘Smallholder livestock production in India: Opportunities and challenges’, is the proceedings of a two-day international workshop jointly organized by the National Centre for Agricultural Economics and Policy Research (NCAP) of the India Council of Agricultural Research and the International Livestock Research Institute (ILRI).

The first section provides a comprehensive overview of the livestock sector in India and brings out explicitly the importance of livestock in improving the wellbeing of the rural poor. Livestock production in India has been growing faster than crop production, and thus contributed towards sustaining agricultural growth. The growth in livestock production has been driven firstly by increased animal numbers and secondly by higher productivity.

Agricultural growth, in general, is poverty-reducing, but growth in livestock production is more pro-poor than a similar growth in crop production as livestock wealth is more equitably distributed than land. However, small-scale livestock producers are constrained by lack of access to markets, credit, inputs, technology and services which may deter them from taking advantage of the opportunities resulting from the expanding demand for animal food products in the domestic and global markets.  Low levels of public investment in the livestock sector is detrimental to the interests of millions of poor livestock producers. Value addition to livestock production is not encouraging and may constrain the growth of livestock production, especially amongst small-scale producers. The publication argues for a conducive policy environment to enable poor households to secure livestock assets, inputs and technology and to improve their access to output markets.

The second section provides a synoptic view of the changing global environment and draws lessons for India and other developing countries to transform livestock production to the benefit of the poor. The main messages from the global review are:
•   It is critical for livestock researchers to understand how livestock systems are changing, whether in the  systems in more marginal areas where change is slow or in the rapidly changing   systems which are responding to market demand for livestock and livestock products;
•   To achieve sustainable and equitable livestock sector growth in the different systems, it is important that  technology, policy and institutional innovations are combined; and
•   Beyond broader livestock sector growth, specific attention ;  ; will need to be paid to how the poor can benefit from the emerging opportunities, which will require targeted and intelligent public-sector research and development interventions.

Read an excerpt from ‘Smallholder livelihood production in India: Opportunities and challenges’

The Livestock Revolution is expected to make a significant contribution towards improving nutritional security and to reducing rural poverty. The rural poor have little access to land and thus there are limited opportunities for them in crop production. On the other hand, livestock wealth is more equitably distributed compared to land, and the expanding demand for animal food products generates significant opportunities for the poor to escape poverty through diversifying and intensifying livestock production.

Livestock contribute over 25% to the agricultural sector output, up from 16% in 1970/71. In absolute terms, their contribution increased from 256 billion Indian Rupees (INR) in 1970/71 to INR 934 billion in 2002/03 (at 1993–94 prices) at an annual rate of 4.3%, higher than the growth in the agricultural sector as a whole (2.8%). Notable growth occurred in dairy and poultry production. Milk production, that had been hovering around 20 million tonnes in 1950s and 1960s, increased to 88 million tonnes in 2003/04. Between 1980/81 and 2003/04 production of eggs increased from 10 billion to 40.4 billion, and of poultry meat from 0.1 million tonnes to over one million tonnes. Besides food production, livestock make important contributions to crop production by supplying draught power and dung manure.
Rapid growth in livestock production is desirable not only to sustain agricultural growth, but also to reduce rural poverty especially when a majority of the land holdings are small.

58% of rural households have land holding of less than 2 ha and another 32% have no access to land. Numbers of households with little or no access to land is likely to increase due to further subdivision of land holdings. Livestock are thus an important source of income for smallholders and the landless. Products like milk and eggs are steady source of cash income, and live animals are important natural assets for the poor, which can be easily liquidated for cash during emergency.

Smallholders and landless together control 75% of the country’s livestock resources, and are capable of producing at a lower cost because of availability of sufficient labour with them. Evidence shows that smallholders obtain nearly half of their income from livestock (Shukla and Brahmankar 1999; Birthal et al. 2003). Growth in livestock sector is thus more pro-poor than growth in other subsectors of agricultural economy.

Nevertheless, there is an apprehension whether smallholder livestock producers can take advantage of the emerging opportunities. Productivity of livestock is low, and smallholders are constrained by a lack of access to markets, capital, inputs, technology and services.
Failure to address these constraints may depress domestic production and lead to an
import upsurge. There is also a possibility of emergence of large landholder commercial production systems especially around urban areas to cater to the increasing demand for animal food products there. Smallholders though are efficient even under low-input conditions; economies of scale in production and marketing in commercial production may erode their competitive advantage.

 

Download this publication

Smallholder livestock production in India: Opportunities and challenges
(Large 3.25MB PDF file)
 

Correct citation: Birthal PS, Taneja VK and Thorpe W. (eds). 2006. Smallholder livestock
production in India: Opportunities and challenges. Proceedings of an ICAR–ILRI international
workshop held at National Agricultural Science Complex, DPS Marg, Pusa, New Delhi 110
012, India, 31 January–1 February 2006. NCAP (National Centre for Agricultural Economics
and Policy Research)—ICAR (Indian Council of Agricultural Research), New Delhi, India,
and ILRI (International Livestock Research Institute), Nairobi, Kenya. 126 pp.

To market, to market, to sell a fat pig

Posted on by
Reply

Asia is home to more than half a billion pigs that provide food security and livelihoods to the majority of its rural population. Demand for pig products is soaring, but markets are consolidating. Will smallholder pig producers be able to participate or are they likely to get squeezed out?

The ubiquitous pig is a familiar sight in Asian villages in non-Islamic countries where it mingles with other small stock such as poultry and goats and with large stock, like buffalo and cattle, raised by households in mixed crop-livestock systems where livestock are an important source of cash to meet household consumption needs due to the seasonal nature of crop production.

The demands for and domestic supply of pig meat have been increasing steadily as a result of rising incomes, increasing human population, domestic market liberalization, increasing demand for livestock food products and urbanization.

Pig meat and byproducts

Pig meat provides an important source of protein and other nutrients; it is especially rich in thiamin (vitamin B1) which helps the body metabolize carbohydrates and fat to produce energy, and is also essential for the functioning of the heart, muscles, and nervous system. Thiamin deficiency is common in low-income populations with diets high in carbohydrates and low in thiamin (eg milled or polished rice). Beriberi, the disease resulting from severe thiamin deficiency, was described in Chinese literature as early as 2600 B.C. Breast-fed infants whose mothers are thiamin deficient are vulnerable to developing infantile beriberi.

Byproducts of pig production also provide important inputs in crop production in the form of fertilizer, thus also providing an efficient way of nutrient cycling to reduce environmental pollution.

 

Demand for pig meat continues to increase
Given the rising income and rapid urbanization that the region has been experiencing during the past decade, consumption patterns have also shifted towards more protein-based diets, specifically animal-source diets. Pig meat has traditionally been the most preferred meat in diets in South East Asia, and recent major outbreaks of Avian Influenza have induced a move from poultry meat to pig meat.  This, plus the relatively high population growth rates in the region, as compared with the rest of the world, will engender higher demand for pig meat in the coming years, with subsequent implications on the region’s ability to meet this surge in demand and to meet it in the most efficient and equitable manner.  Even in countries not normally associated with pig production, such as India, pig meat consumption is increasing and has traditionally provided a source of meat and livelihoods to many millions of people in tribal communities. Recent trends in demand for quality and food safety are also shaping the way the food supply chain is reorganizing to accommodate these market requirements.

Two key development policy questions thus emerge, namely:
(1) who will supply the demand requirements for pig meat in the region? and
(2) will smallholder producers be able to remain competitive in the changing market for pigs and pig meat?

ILRI’s pig research agenda has been shaped by these development policy issues and is aimed at providing evidence-based policy options to inform the policy debate on pro-poor livestock development in the region.  Specifically, ongoing work with national partners in the region are largely focused in improving competitiveness of smallholder pig producers in the context of changing demand for pig meat, and include among others an investigation of viable institutional arrangements that will enable smallholders to become active participants in the emerging supply chain for pigs and pig meat that are increasingly driven by consumer preferences for quality (lean meat) and safety (hygienic, chemical free), as well as niche markets for traditional quality attributes that are priced at a premium by high-income, urban consumers including special export markets, e.g., organically raised, local breed pigs.

Smallholder pig producers are constrained to effectively respond to changing market demand due to a number of factors, foremost of which is the lack of adequate resources (physical, human, financial, and social), and more importantly the prevailing bias in the policy environment that is stacked against smallholders. There is no denying that in order to meet the increasing demand for pig meat that production has to increase and in an efficient manner. This can only be feasibly done by modernizing the livestock sector through use of modern technology in all aspects of the production systems, e.g., breed, feed, animal disease control.  It is also unavoidable that policymakers usually equate modernization with large-scale industrial systems, following the models from the West. However, history shows that the Western models have also created second-generation problems that are related to important issues such as climate change and environmental degradation.  Thus, Asia could benefit from these economic development miscalculations by following a more sustainable and equitable path by ensuring that policies that will be put in place should be aimed at generating public good outcomes.

Overview of ILRI’s pig research in Asia
Improving the Competitiveness of Pig Producers in an Adjusting Vietnam Market
Many of Asia’s poor and marginalized populations keep backyard pigs in remote regions from Northeast India, Cambodia and Vietnam. ILRI is furthering its work with partners to improve the competitiveness of these smallholder pig producers in the face of rapidly increasingly demand for pig meat so that they can participate in the emerging supply chains for pigs and pig meat that are increasingly being driven by consumer demands. There are also opportunities to exploit niche markets for organically raised local breeds for poverty reduction. This project is funded by the Australian Center for International Agricultural Research (ACIAR).

Improving the pig and pig market chain to enable small producers to serve consumers needs in Vietnam and Cambodia
This project is looking at the existing and potential market opportunities that can be feasibly accessed by smallholder pig farmers. Large farm/processors tend to capture high-end markets that pay premium price for quality products, while smallholders have limited access to such markets. This trend limits the livelihood opportunities of many smallholders, especially women. This project is EU-DURAS Project grant funded.

Northeast India pig systems appraisal
The expected outcome of this project is to find viable options for improving productivity of traditional pig systems to respond to increasing demand for pig meat in Northeast India. This project is funded by ILRI and the Government of Assam.

Contract farming for equitable market-oriented smallholder swine production in Northern Vietnam
This project seeks to characterize and quantify the true costs and benefits of contract farming of pigs in Northern Vietnam to identify a set of policy and intervention options that will facilitate and promote profitable market-oriented livestock farming partnerships and to understand the barriers that prevent the poor from participating in contract farming and other similar marketing arrangements. The project is being carried out in three provinces in Northern Vietnam that supply Hanoi market with slaughter pigs. This project is funded by Food and Agriculture Organization of the United Nations (FAO) Pro-Poor Livestock Policy Initiative (PPLPI).

Sweet potato pig systems

While demand for livestock products is increasing in China and other Asia countries, livestock research can help mitigate the impacts that increasing demand will have on small scale producers. With rapid change, knowledge about how to adapt farming systems is essential. Pig production accounts for four fifths of total meat production, however there are many challenges ahead including how to feed the increased number of livestock and the impact on natural resources. Mixed farming systems that integrate crop and animal production form the backbone of small-scale Asian agriculture. From 1999 to 2004, the Africa-based International Livestock Research Institute (ILRI) collaborated with the Sichuan Animal Science Academy, the Yunnan Beef Cattle and Pasture Research Center, and national agricultural research systems in four Southeast Asian countries in a Crop-Animal System Research Network (CASREN), funded by the Asian Development Bank (ADB). ILRI worked with the International Potato Centre (CIP) and Chinese partners to employ a livelihoods approach to enhancing smallholder pig production in Sichuan through improved pig feeding with ensiled sweet potato vines and roots. The extra biomass that farmers have been able to conserve has radically changed the pig production system. After harvesting, the vines are wilted to reduce moisture content. The roots and vines are then chopped, mixed with supplements and stored in airtight plastic bags, providing a nutritious feed that can support pig herds for up to nine months of the year. Improved feed has also allowed farmers to keep high-yielding cross-bred pigs, replacing much smaller and slower growing scavenging pigs that spread zoonotic, diseases such as cystercercosis. Other improvements have also been observed, including better husbandry practices, animal housing, and use of feed supplements and drugs, and these have increased the weight of pigs and greatly raised farm income. The success of CASREN’s work in Sichuan, where many farm households more than doubled their incomes by adopting CASREN potato silage technologies, has led the CGIAR System-wide Livestock Program (SLP) to fund related research within China and Southeast Asia.

Endgame

Posted on by
Reply

When is it the ‘end of the game’ for livestock keepers wresting a living from diminishing natural resources? A new study suggests when adaptations to increasing external stresses are no longer viable for livestock peoples and their lands.

Sub-Saharan Africa has been called the food crisis epicentre of the world. Global change is likely to add to the burdens of many millions of poor and vulnerable people on the continent. Equipping policymakers and donor agents with tools and information with which to identify the ‘bounds of the possible’ in natural resource use is likely to become crucial in the fight to help hundreds of millions of Africans dependent on diminishing natural resources escape poverty, hunger and environmental degradation.

The business of scientists conducting livestock research for development is to help farmers and herders protect and grow their ‘living assets’ so that small-scale livestock enterprises become sustainable pathways out of poverty. That is what a group of scientists set out to do in an ‘integrated assessment’ of coping strategies in livestock dependent households in East and Southern Africa. Integrated assessment combines models to test the likely impacts of different future scenarios on ecological functioning as well as household well-being.

The authors of this new study entitled ‘Coping strategies in livestock-dependent households in East and Southern Africa’, recently published in the scientific journal Human Ecology, synthesized results of work undertaken in four livestock systems in eastern and southern Africa: pastoralist communities in northern Tanzania, agro-pastoralists in southern Kenya, communal and commercial ranchers in South Africa, and mixed crop-and-livestock farmers in western Kenya.

The authors of the synthesis are scientists at the Africa-based International Livestock Research Institute (ILRI), Colorado State University’s Natural Resource Ecology Laboratory and Department of Anthropology, and the Eastern and Central Africa Programme for Agricultural Policy Analysis. The results of their study confirm that household capacity to adapt to increasing external stresses is governed by the flexibility the householders are able to exercise in livelihood options. Such options include intensifying one’s crop and animal production, diversifying the kinds of plant and animal products one produces on the farm, and working for wages in a job found off the farm. The researchers quantified the likely impacts on households and ecosystems of people taking up such options. The results are being used to better target interventions designed to help poor people manage increasing change and risk.

The four case studies employed in this synthesis, all conducted since the late 1990s, looked at increasing risks and external stresses in the pastoral, agro-pastoral and mixed crop-livestock agricultural systems of eastern and southern Africa. All four studies focussed on households made particularly vulnerable not only because they rely on diminishing ecosystems goods and services (e.g., land, water, forages) for a large part of their livelihoods but also because they face volatile changes driven or characterized by increasing (1) population growth; (2) in-migrations and fragmentations of pastoral lands; (3) climate change and variability; and (4) increasing/changing consumption of meat, milk and other livestock foods and (5) decreasing land size.

In each case study, the researchers worked directly with farmers and pastoralists in collecting data with which to build and calibrate appropriate household models, in setting up and testing a wide variety of scenarios, and in visualizing and assessing the likely impacts of interventions on the various system components. Discussions by stakeholders and researchers of results of running the models helped disclose other scenarios to investigate and identify options that were subsequently tested by the farmers.

This paper synthesizes lessons learnt from these case studies and outlines future research needs.

Conclusions

The mixture of fieldwork and integrated assessment modelling employed in this synthesis indicate that having different options available with which to manage natural resources can help households at least partially overcome the effects of increasing stresses to the system caused by population growth, changes in climate and weather variability and land fragmentation. But there are also costs to implementing these options: costs to natural resources, to other stakeholder groups and to household incomes. Furthermore, households can offset increased stresses through natural resource management only up to a point. With the tools employed in these assessments, scenarios can be set up and run that go well beyond these thresholds, to points where offsetting is no longer possible through internal manipulation of the system.

The good news
The four case studies used in this synthesis indicate that households can partially offset the impacts of external stresses by increasing the size of cultivated plots (as pastoral communities are doing in northern Tanzania and agro-pastoral communities in southern Kenya), by diversifying their activities into other agricultural and nonagricultural activities (agro-pastoral communities in southern Kenya), by using climate forecasts to make stocking decisions (communal and commercial ranchers in drought-prone regions of South Africa), and by intensifying and/or diversifying agricultural production (mixed crop-livestock farmers in western Kenya).

The bad news
Although households are able to offset impacts of increasing stress to some degree through diversification and intensification, implementing these options generates other potential, and actual costs. ‘What this simply means’, says ILRI’s Philip Thornton, lead author of the synthesis, ‘is that there are thresholds in these systems beyond which it is unlikely that management options alone can offset increasing system stresses.’

Thornton says the integrated assessment framework is useful in identifying not only what is desirable, in terms of possible impacts on different groups of stakeholders, but also what is feasible. ‘Given increasing system stresses,’ he says, ‘the point may well be reached at which natural-resource-based livelihood options are simply no longer feasible.’

Indeed, a key use of integrated assessment is identifying situations where households are unlikely to be able to sustain current livelihood options based on exploitation of natural resources. In such cases, appropriate livelihood options will likely involve making radical rather than incremental shifts in agricultural and/or livestock productivity, finding off-farm employment, and exiting farming enterprises altogether.

The news for policymakers
All four case studies analyzed in this synthesis have substantial implications for policymaking. Among these are the following:

  1. The new options that poor households need to consider when adapting to change do not impinge merely on one or two economic sectors but rather strike at the heart of national policies for food security, self-sufficiency and the role of agriculture in economic growth and development in general (see Ellis 2004). Such policy debates can be enhanced by research.
  2. Policymakers can profit from demanding, supporting and utilizing broad integrated assessments that apply new approaches to development. Such approaches include those based on the principles of ‘integrated natural resources management’ (see Sayer and Campbell 2001) and ‘adaptive resource management’ and ‘adaptive governance of resilience’ (see Folke et al. 2002 and Walker et al. 2004).
  3. Poorer people often have the most to gain from implementing options that increase household ability to cope with change. Investments in developing and disseminating coping strategies and risk management options thus can help alleviate poverty in substantial ways.
  4. Householders’ objectives and their attitudes about, and access to, natural resources vary greatly. The type of household model best suited to each case will thus often differ, requiring that integrated assessments be done on a case-by-case basis. As Thornton says, ‘So-called “recommendation domains” for targeting technology and policy interventions are probably smaller than we thought.’ Acknowledging that, contrary to conventional wisdom, research impacts cannot easily be generalized across large areas has considerable implications for the way in which research for development can most effectively be carried out.
  5. We need to employ a dynamic framework to assess the ecological impacts of changes, together with their major feedbacks to livelihood systems, over the medium term at the least. There are lags and dampers in the system that need to be elucidated in any even partially integrated assessment.
  6. The assessment framework has to allow the quantification of major trade-offs so that decision-makers and stakeholders can visualize impacts of different actions on different parties.
  7. Although the integrated assessments employed in these case studies have limitations that should be addressed in further work, such assessments have a key role to play not only in quantifying trade-offs but also in identifying what is both desirable and feasible in highly complex systems. Integrated assessments, in other words, can help establish the outer limits within which agricultural research can reasonably be expected to contribute to improving and sustaining livelihoods in given situations.

Citation:
Thornton, P.K., R.B. Boone, K.A. Galvin, S.B. BurnSilver, M.M. Waithaka, J. Kuyiah, S. Karanja, E. Gonzalez-Estrada, and M. Herrero. Coping strategies in livestock-dependent households in East and Southern Africa: A synthesis of four case studies. Human Ecology. Vol. Online first (2007)

Download the paper: http://www.springerlink.com/content/75368853th35r755/

References:
Ellis, F. (2004). Occupational diversification in developing countries and the implications for agricultural policy. Programme of Advisory and Support Services to DFID (PASS) Project No. WB0207. Online at:
http://www.oecd.org/dataoecd/25/9/36562879.pdf

Folke, C., Carpenter, S., Elmqvist, T., Gunderson, L., Holling, C.S., Walker, B., Bengtsson, J., Berkes, F., Colding, J., Danell, K., Falkenmark, M., Gordon, L., Kasperson, R., Kautsky, N., Kinzig, A., Levin, S., Mäler, K.-G., Moberg, F., Ohlsson, L., Olsson, P., Ostrom, E., Reid, W., Rockström, J., Savenije, H., and Svedin, U. (2002). Resilience and sustainable development: building adaptive capacity in a world of transformation. Scientific background paper on resilience for the process of The World Summit on Sustainable Development on behalf of The Environmental Advisory Council to the Swedish Government. Ministry of the Environment, Stockholm, Sweden. Online at:
http://www.sou.gov.se/mvb/pdf/resiliens.pdf

Sayer, J. A., and Campbell, B. (2001). Research to integrate productivity enhancement, environmental protection, and human development. Conservation Ecology 5(2): 32. Online at:
http://www.ecologyandsociety.org/vol5/iss2/art32/

Walker, B., Holling, C. S., Carpenter, S. R., and Kinzig, A. (2004). Resilience, Adaptability and Transformability in Social-ecological Systems. Ecology and Science 9 (2): 5. Online at:
http://www.ecologyandsociety.org/vol9/iss2/art5/

New strategy for pro-poor dairy development in Assam

Posted on by
Reply

ILRI and partners recently unveiled a new action plan to help the poor in Assam improve their livelihoods through the dairy sector.

Assam is located in the far North-East corner of India and shares its borders with six Indian States and two countries. The majority of milk is produced by rural smallholders using indigenous cattle and buffalo, but productivity is low in comparison with other States in India. Further, most milk is marketed through traditional and informal channels, estimated at 97% of locally marketed milk, compared to some 80% nationally.  In spite of these constraints, Assam displays strong production potential and inadequate milk supply, so there are many opportunities to grow the dairy sector and help the poor improve their livelihoods.

In 2005, the International Livestock Research Institute (ILRI), was invited by the Directorate of Dairy Development (DDD) of the Government of Assam, to collaborate in a comprehensive study on the dairy sector in Assam to identify opportunities to boost the milk sector and improve the livelihoods of smallholder producers.

About Assam

Assam is situated in the far, North-East corner of India. The total geographical area of the State is 78,438 sq kms which accounts for about 2.4% of the country’s total geographical area. In 2001, the population of Assam stood at 26.64 million – representing 2.59% of the total population of India.

The percentage of poor in Assam is the highest among the seven sister States of the North East. Around 36.09% of the State’s population continues to live below the poverty line, a figure considerably above the national average of 26.1% (1999-2000). There is a rural-urban divide: four out of ten people in rural Assam are likely to be below the poverty line, while in urban Assam, the incidence is less than one in ten.

Cattle constitute the largest livestock group followed by goats, pigs and buffaloes. Livestock in Assam are mainly indigenous breeds but the average productivity is poor in comparison with other States of India. The production of milk in Assam in 2002-2003 was estimated at 773 million litres as against 750 million litres in 2001-2002 indicating a nominal increase of 3.06 per cent over.

Action plan presented to stakeholders
On Wednesday 30th May, ILRI and the DDD presented their findings and a draft action at a final stakeholders’ meeting in the Assam capital Guwahati convened by the Assam Minister for Animal Husbandry and Veterinary, the Hon. Khori Singh Enghti. The action plan is based on surveys of 1500 consumers, 600 traditional and formal market agents and 3000 dairy producers in eight districts of Assam. It also includes an analysis of the successes and failures in the formal sector in Assam and an analysis of the quality and safety of milk and dairy products in both the traditional and formal sectors. The data were gathered and analyzed in collaboration with local partners in Assam.

New Strategy for Pro-Poor Dairy Development

Assam Action Plan Highlights

Demand outstrips supply
The report found dairy production to be a feasible option for raising incomes and improving livelihood opportunities, particularly for the rural poor. According to Steve Staal, ILRI’s markets theme director, ‘Our study shows that there is a huge gap between demand and supply. To meet the demand, which is mostly for good quality raw milk, dairy interventions that address productivity, access to livestock services and markets, and improved milk quality in the traditional sector, would result in more income and more employment for rural smallholders.’

Improved productivity and increased production essential
Besides large market potential in rural Assam, the survey also found many farmers expressed a desire to become involved in increased marketed milk production, but low milk yields and lack of a basic marketing infrastructure were identified as major obstacles. The action plan highlights opportunities to increase farm-level production and productivity through improved animals such as cross-breeds, improved fodder and feed technology, and by providing access to livestock services. The action plan also incorporates actions to provide smallholder access to reliable markets to absorb more milk at remunerative prices. The government of Assam have already made efforts to bring smallholders into collective market mechanisms, but marketing of milk through the processed milk channel remains relatively insignificant and smallholders receive little remuneration.

Pro-poor interventions critical
The plan highlights that dairy systems in Assam may be too diverse to have a singular policy thrust. It states: ‘We need to recognize such diversities of the system and place them within pro-poor dairy intervention designs and enable poor households to take part in the process.’

According to the report, no dairy development is possible in Assam unless it addresses the problems faced by the traditional sector. Most of the milk consumed in Assam is ‘raw’ unpasteurized milk supplied by smallholders. The survey found that demand for pasteurised milk was low and its consumption was limited almost entirely to urban areas. Staal emphasised the need for an inclusive plan ‘Any development plan that focused mostly on pasteurised milk is unlikely to yield the desired results. The idea is not to have a parallel competitive system to beat the traditional sector but to strengthen the existing system and help build a blend of modern infrastructure and professionalism.’

Quality standards to be raised
The report also highlights the need to raise quality and hygiene standards. According to Delia Grace, an epidemiologist and food safety specialist at ILRI, ‘Most of the samples analysed did not meet general bacteriological quality standards causing a potential risk to human health. There is an urgent need to create awareness among farmers and distributors to address the problem.’ The report suggests taking immediate steps to provide training packages to milk farmers and distributors and to raise awareness among consumers that all ‘raw’ milk should be boiled before consumption – a practice that is generally followed in Assam.

Assam action plan soon ready for implementation
According to Iain Wright, ILRI’s representative for Asia ‘the report was well received by stakeholders and we are currently incorporating their comments. The final action plan will be released within a month.’

ILRI Assam Dairy Project Staff

Liza and Patro

Pioneering bird flu research program launched today

Posted on by
Reply

A GBP3.9 million (USD7.8 million) study, launched today by the UK's Department for International Development (DFID) to develop better ways of controlling bird flu aims to help the world's poorest farmers tackle avian flu and safeguard their livelihoods.
 
The DFID-funded research programme will examine the best ways to control avian flu and also how to reduce the impact of the disease on poor peoples’ livelihoods. The programme focuses on Africa and Southeast Asia, with initial research to be conducted in Thailand, Vietnam, Indonesia, Cambodia, Kenya, Ethiopia, Mali and Nigeria.  The International Livestock Research Institute (ILRI) and International Food Policy Research Institute (IFPRI) will manage the research in Africa, while in Southeast Asia the research will be managed by the United Nation’s Food and Agriculture Organisation (FAO), the Royal Veterinary College and the University of California at Berkeley.

John McDermott, ILRI’s Deputy Director General for Research, says ‘In global avian influenza discussions there are many different perspectives. This project seeks to provide evidence on the impacts and control of avian influenza from the perspectives of developing country farmers, technical staff and policy makers,  to allow them to effectively make decisions of importance to them.’

New Approach
The DFID-funded research programme marks a new approach as previous work has largely focused on eradicating Highly Pathogenic Avian Influenza (HPAI) from poultry populations and preparing for a potential human pandemic.

Launching the programme today, the UK’s International Development Secretary, Hilary Benn, said: ‘As well as claiming lives, avian flu – and the measures taken to control it – is damaging the livelihoods of farmers in the developing world. It is important to investigate how best to protect them when avian flu strikes.

‘This pioneering research will help find ways of helping the poor while also ensuring appropriate control measures are followed so that farmers do not hide, slaughter or eat infected birds. The first results of the study are expected within a year and will be discussed with policy makers in Africa and Asia.’

The potential impact on agriculture of the continuing spread of HPAI and the fear of this developing into a human pandemic are very great. The World Bank recently estimated that a pandemic could reduce the world’s GDP by five per cent, with a higher proportional loss in developing countries. To date, HPAI infections have claimed more than 170 lives in 12 countries since 2003 and, in South East Asia, led to the culling of more than 140 million birds with a total estimated economic loss to the region of more than $10 billion.

Jeff Mariner, senior epidemiologist at ILRI, says, ‘Although the potential of HPAI to adapt to man and cause a global pandemic is the primary concern motivating much of the donor response to this disease in the world, human disease is as yet a rare event. Very few farming communities have actually experienced human cases. The primary concern of farmers today is the negative impact that repeated waves of poultry mortality due to HPAI have on their livelihoods. Understanding the impact of HPAI in poultry on peoples’ livelihoods will provide entry points to motivate and drive effective control programmes. Enhanced control of HPAI to reduce the risk of a human pandemic is only possible through win-win scenarios that address the present effects of HPAI.’

Further information:
Click here for the DFID press release

Click here for the IFPRI press release

Developing-country farmers to benefit from new foot-and-mouth disease ‘road map’

Posted on by
Reply
A major new report launched today charts a pathway towards the effective control of foot-and-mouth disease (FMD) in developing countries where the disease is a serious and growing threat.
The report, ‘Global Road Map for Improving the Tools to Control Foot-and-Mouth Disease in Endemic Settings’, launched today (17 April 2007) at the headquarters of the United Nations Food and Agriculture Organization (FAO), in Rome, envisions ‘a world in which livestock-based livelihoods, enterprises and trade can flourish unimpeded by FMD’. The road map focuses on the outputs of a workshop held in Agra, India, in December 2006.

Efficacious vaccines, strategically deployed, have revolutionized control of many infectious human and animal diseases. For FMD, which severely constrains the welfare of millions of small-scale livestock farmers in the developing world, currently available vaccines do not meet many of the basic requirements necessary for sustainable control. FMD continues to be a persistent constraint to livestock production throughout the developing world. It can significantly reduce production of milk and meat and limits the ability of draft animals to work.

Foot-and-Mouth Disease (FMD): Quick Facts

Foot-and-mouth disease (FMD) affects cloven-hoofed animals and is one of the most contagious diseases of mammals, with great potential for causing severe economic loss. FMD is endemic in parts of Asia, Africa, the Middle East and South America.
Hosts: Principally cattle, domestic buffaloes, yaks, sheep, goats, domestic and wild pigs and wild ruminants.
Transmission: Direct or indirect contact; animate vectors (humans, etc.); inanimate vectors (vehicles, implements); airborne, especially in temperate zones (up to 60 km overland and 300 km by sea).
Sources: Incubating and clinically affected animals; breath, saliva, faeces, and urine; milk and semen; meat and by-products and carriers, particularly cattle and water buffalo; convalescent animals and exposed vaccinates (virus can persist for up to 30 months in cattle or longer in buffalo, 9 months in sheep).

Source: Excerpted from World Organisation for Animal Health (OIE) Animal Diseases Data www.oie.int

According to John McDermott, deputy director general for research at the International Livestock Research Institute (ILRI), ‘FMD is a major obstacle to productivity and market access in many of ILRI’s target regions, particularly South Asia, the Horn of Africa and southern Africa. It severely limits market opportunities for poor farmers and nations wishing to access more lucrative markets, both regionally and internationally.

‘FMD also can increase the vulnerability of small-scale farmers in mixed cropping systems where animal traction is important. For example, in Southeast Asia where rice is a staple, people are heavily reliant on water buffalo for ploughing. A FMD outbreak leaves the buffalo open to secondary infections, putting these highly valued animals out of action for a very long time.’

Brian Perry, who recently retired as senior scientist at ILRI and is now collaborating with ILRI on this and other projects, says, ‘There is an urgent and long overdue need to address the special research needs of poor people in endemic FMD settings. Current research on vaccines and associated tools for the control of FMD is driven more by the needs of relatively rich FMD-free countries which are dealing with and eliminating incursions of the disease, rather than by the needs of relatively poor FMD-endemic countries which are interested in longer-term management and control of the disease.’

In early 2006, Perry, ‘navigator’ of the FMD ‘Roadmap’ process, approached the Wellcome Trust (UK) to seek support for an initiative to tackle this need. Following submission of a joint proposal from ILRI and the UK’s Institute for Animal Health (IAH), the Wellcome Trust (UK) agreed to provide partial funding and, with the support of additional donors—notably the European Union—planning was begun to organize the meeting that became the launch pad of the ‘Global Road Map for Improving the Tools to Control Foot and Mouth Disease in Endemic Settings’.

‘We decided at an early stage that the road map workshop should be held in an FMD-endemic country’, says Keith Sones, workshop facilitator and co-editor of the report. ‘India, with its impressive and ambitious ongoing program to control FMD, was an obvious choice. The Indian Council of Agricultural Research (ICAR) was very supportive and agreed to host the workshop in Agra.’

According to VK Taneja, deputy director general of animal scrence at ICAR, ‘Livestock production in India is growing faster than arable agriculture. The value of output from the livestock sector has risen over the years and is now 26% of the total value of output from agriculture. It is predicted that livestock will contribute more than half of the total agricultural output in the next 25–30 years.’

‘One of the biggest impediments to growth of the livestock sector is the large-scale prevalence of FMD’, says Taneja. ‘In most Asian countries, FMD is endemic and severely limits the region’s ability to participate in international trade. Developmental strategies for control and eradication of FMD—including improving existing conventional vaccines and diagnostics for their quality and efficacy—will pave the way for the improved growth and productivity of livestock, especially in small-farm production systems, and for ensuring their participation and access to global markets.’

While the economic losses associated with major outbreaks of FMD in industrial countries, notably in Europe in 2001, grabbed world headlines, the disease continues to cause enormous, recurrent losses across large swathes of Asia, Africa, the Middle East and South America.

‘The direct losses alone due to FMD in India are estimated to be more than USD4.5 billion per year; indirect production losses could be much more’, says Dr R Venkataramanan, principal scientist at the Indian Veterinary Research Institute, in Bangalore.

‘The Roadmap report recognizes that vaccines currently available for the control of FMD are not ideal for use in many developing countries’, says Perry. ‘To remain effective they must be kept under constant refrigeration, so the protection they offer is better suited to the needs of FMD-free countries rather than countries where the disease is a constant and daily threat. We realize that it will take considerable time to develop and make available new improved vaccines suitable for developing- country conditions. But in the meantime much can be done with current vaccines and diagnostics, especially if their use is complemented with sound epidemiological and economic decision-support tools to guide and facilitate their effective use.’

Alexander Müller, FAO Assistant Director-General, declares that ‘FAO is ready to support this important initiative, which is expected to provide some of the breakthroughs needed for use in the most affected areas, and which will support the efforts of FAO with the World Organisation for Animal Health (OIE) to reduce FMD risk by promoting progressive control of FMD at all levels. The initiative from the research community is strongly needed and we are happy to play our role in launching this initiative and facilitating transfer of effective new approaches.’

Work undertaken after the Agra workshop ensured that research proposals were developed for funding high-priority areas identified during the workshop. Lead writers facilitated development of concept notes to be submitted to donor agencies in the fields of immunology, vaccine design and epidemiological and economic tools. In addition, some regional concept notes were developed focussing on southern Africa, South and Southeast Asia and South America. These draft concept notes are included in the road map report and provide guidance on further development of the tools for FMD control. Using the products of the road map process, ILRI and partners are now developing a project proposal that, once funded, will move the world closer to the vision of ‘a world in which livestock-based livelihoods, enterprises and trade can flourish unimpeded by FMD’

India

Participants of the Global Road Map for Improving the Tools to Control Foot-and-Mouth Disease in
Endemic Settings workshop held at Agra, India, 29 November – 1 December 2006

Download the FMD Road Map report

Citation: Perry BD and Sones KR (eds). 2007. Global road map for improving the tools to control foot-and-mouth disease in endemic settings. Report of a workshop held at Agra, India, 29 November–1 December 2006, and subsequent road map outputs. ILRI (International Livestock Research Institute), Nairobi, Kenya. pp. 88

Integrating livestock and water management

Posted on by
Reply

Women washing and cow drinking at a river in Rajasthan, India

Livestock are often neglected in water management policies, yet demand for livestock products is predicted to soar, placing even greater pressure on scarce water supplies. A new brief outlines strategies and opportunities to double livestock water productivity.

Water management policies tend to focus on water productivity in crop production and industrial and domestic use. Livestock are given little attention. A new brief entitled ‘Integrating livestock and water management to maximize benefits’, highlights the important contributions livestock make to livelihoods, particularly in developing countries, and the need for livestock to be fully considered in water management policies in order to maximize benefits.

Demand for livestock products are predicted to double over the next twenty years and this will place greater pressure on already scarce water supplies. Livestock contribute to the livelihoods of at least 70% of the world’s rural poor, providing many benefits including food, fuel, fertilizer and transportation. According to ILRI scientist Don Peden, ‘integrating livestock and water could bring big benefits, but it is receiving little attention in the livestock and water sectors.’

Livestock water productivity
Livestock water productivity is the amount of water depleted or diverted to produce livestock and livestock products and services. Livestock require a great deal of water – not for drinking – but for their feed. Livestock water productivity can be increased by identifying areas where water efficiency gains can be made to free up scarce water for other uses.

Many people in industrial countries eat more food than is necessary and healthy.
‘Health experts and environmentalists in industrial countries are calling for people to reduce their consumption of meat and dairy products. In the developing world, nutritionally deprived people could benefit from consumption of more animal products’ says Peden.

‘The challenge is to enable poor livestock keepers to get more from their animals, while using less water and reducing degradation of land and water resources.’ The convergence of high livestock densities and poverty occurs mostly in South Asia and sub-Saharan Africa. To help the greatest number of livestock-dependent rural poor, these two regions would therefore be priority regions for integrating livestock and water development.

Distribution of poor livestock keepers (no.km3)

https://www.ilri.org/Link/Publications/Publications/Theme%201/Kruska%20et%20al%20Livestock%20systems%20Ag%20systems.pdf

Strategies for improving livestock water productivity

The brief outlines four strategies for improving livestock water productivity, to reduce the amount of water used in livestock production and to increase the benefits from livestock per unit of water used. The authors argue that by taking a balanced site-specific approach, that combines all four strategies, it should be possible to at least double livestock water productivity.

  • Strategic sourcing of animal feeds – Reducing the amount of water depleted to produce animal feed may be one of the most effective ways to improve water productivity globally. Three basic ways of accomplishing this are (i) promoting non-grain food sources with high water productivity, (ii) use of crop residues and by-products as feed, and (iii) practices that encourage more efficient grazing.
  • Enhancing animal productivity and reducing herd sizes – In much of the developing world livestock productivity is less than 50% of genetic potential. Milk production is low – often less than two litres per cow per day – as opposed to 15 litres or more. Promoting better health, genetics, nutrition and animal husbandry practices would enable livestock keepers to get more from fewer animals.
  • Reducing negative environmental impacts – Loss of vegetation due to overgrazing results in increased soil erosion, downslope sedimentation and reduced water infiltration. Research indicates that low to moderate grazing pressure has little negative impact on hydrology. Managing animals in ways that reduce land and water degradation, for example, by restricting animal access to certain areas and more integrated management of grazing land will help to reduce negative environmental effects.
  • Strategic provision of drinking water – The amount, quality and location of livestock drinking water can have a big impact on livestock water productivity. Water deprivation reduces feed intake and can greatly lower milk production. Providing adequate quality drinking water – strategically placed – enables animals to reach otherwise inaccessible grazing areas, keeps them from contaminating domestic water sources, and enhances production of meat and milk. Given the high value of animals, particularly to poor households, and the relatively small amount of water animals drink, strategic provision of drinking water is a good investment.

The authors argue that the livestock water productivity opportunities identified in the brief can only be realized if livestock and water are fully integrated and location-specific adjustments are made, for example, at the community level and integration of pasture management and water users associations.

Vaccine agency to reduce loss of human and animal life in developing countries is launched

Posted on by
Reply

The Global Alliance for Livestock Veterinary Medicine (GALVmed) recently unveiled animal health projects it will tackle over the next ten years.

GALVmed announced progress on vaccine and treatments for Newcastle disease in poultry and East Coast fever and Rift Valley fever in cattle at its international launch at the Kenya Agricultural Research Institute (KARI), in Nairobi, on Friday 9 March 2007. This marked the beginning of a 10-year program aimed at creating sustainable solutions to the loss of human and animal life caused by livestock diseases, which threaten 600 million of the poorest people in developing countries in Africa, Asia and Latin America.

GALVmed, a non-profit organization funded by the UK Department for International Development (DFID), is partnering with private and public-sector organizations around the world. It has identified 13 livestock diseases as key targets for development of livestock vaccines and animal health diagnostics and medicines. Founder members of the agency include the International Livestock Research Institute (ILRI), FARM-Africa, Pfizer, Intervet and Merial. GALVmed exists to broker partnerships among pharmaceutical companies and other public and private-sector organizations to develop accessible and affordable animal vaccines for the whole world’s poorest farmers.

Zoonotic diseases, which are transmitted between animals and humans, mainly afflict the poorest households, as evidenced by the recent outbreak of Rift Valley fever in livestock in Kenya, which killed 150 people. Brian Perry, a senior scientist at ILRI, warns that ‘Today, combating livestock diseases is everybody’s business – tropical animal diseases are no longer “just a local problem”. For example, there is a threat that diseases like Rift Valley fever will follow bluetongue into Europe.’

GALVmed’s chief executive Steve Sloan explains that ‘Every year, poor farmers worldwide lose an average of a quarter and in some cases half, of their herds and flocks to preventable disease. This devastates developing economies. Many of these are zoonotic and so also cause human deaths.

Livestock play a critical role in helping people escape poverty. Livestock disease is one of the greatest barriers to development for poor livestock keepers. Flocks and herds die every year from diseases for which vaccine simply do not exist or are beyond the reach of the poor. John McDermott, ILRI’s deputy director general for research says, ‘ILRI scientists and partners have done ground breaking science to develop an experimental vaccines to protect cattle against East Coast fever. The next steps are to conduct trials to facilitate the delivery of this vaccine to the farmers. To do that, we need specialist partners who will test, manufacture and market the vaccine and make it accessible and affordable to the thousands of livestock keepers afflicted by this cattle killing disease.

Click here for the GALVmed News release.

To find out more about GALVmed visit the website
www.galvmed.org

Battling bird flu: Taking developing countries and their contexts into account is an imperative for success

Posted on by
Reply

Fighting deadly bird flu in the developing world is more complex and difficult than in the industrialized west. To be effective, global control strategies must take developing-country contexts and perspectives into account.

A recent consultation on highly pathogenic avian influenza (HPAI) highlighted the complexities of fighting bird flu in the South. The consultation, held in Nairobi 14–16 June 2006, was organized by the International Livestock Research Institute (ILRI) and the International Food Policy Research Institute (IFPRI). Participants worked towards identifying how the research community can best assist developing countries and frontline personnel in the fight against bird flu both now and in the medium to longer terms.

 

The consultation report, How Research Can Support Efforts to Control Avian Influenza in Developing Countries: First Steps Toward a Research Action Plan, is now available. The report contains a comprehensive list of service and research needs identified by participants. The next step will involve validating and prioritizing these lists in a broader email-based consultation.

Battling Bird Flu: Developing Country Context & Perspectives
Developing countries have large numbers of widely dispersed small-scale and backyard poultry keepers. This makes detecting and controlling the disease difficult. In addition, these countries generally have insufficient numbers of professional in disease control and communication work and insufficient institutional support for controlling disease. All of this makes it difficult to communicate the risks of the disease and to get people to comply with control efforts. ‘Stamping-out’ (mass culling of poultry infected or suspected to be infected) is routinely adopted in industrialized countries, but this approach is likely to be impractical in developing countries. If our strategies to fight bird flu don’t take developing-country contexts into account, we will fail to control bird flu globally.

As important, John McDermott, ILRI’s Deputy Director General for Research, warns, ‘In the battle against bird flu, the world’s poorest people could become the main victims of the disease. They have little voice in how we control the disease and the burden of controlling it falls disproportionately on the rural poor, who both consume their own poultry and rely on it for their livelihoods.’

McDermott and his colleagues at ILRI and partner institutions in Africa and Asia are saying, in effect, that ‘one size does not fit all’. What works in the North will not necessarily work in the South. To fight bird flu successfully, we must attend to social as well as to economic and technical issues, we must learn from frontline experience, and we must understand the developing-country context for disease control. If we do these things, we will help develop control strategies that countries can tailor to their conditions and circumstances.

The Consultation: Experiences from the Front Line
The Nairobi Consultation opened with interviews of scientists with direct field experience in Asia and Africa. These experts with first-hand knowledge of fighting the disease identified illegal cross-border trade and live bird markets as key vehicles for the spread of bird flu within and between countries. Constraining early notification of disease outbreaks and subsequent control of the disease, they reported, were insufficient or total lack of compensation for lost birds, lack of trust in governments, and the common  farmer experience of losing lots of birds to Newcastle Disease and other, endemic, diseases.

Key Issues Highlighted
Compensation

  • Well-publicized and carefully thought out compensation plans are critical to achieving early notification of outbreaks and effective control of bird flu. Lessons from the front-line tell us that compensation plans should consider more than just direct compensation for birds lost to the disease or culling operations. While some countries have provided poultry owners with compensation, others have not done so or do not intend to offer any form of compensation. A key message from the experts at this consultation was that compensation matters, and it matters a great deal to millions of poor small-scale farmers.
  • In India, for example, although farmers received compensation within a few hours of their birds being culled, they were compensated for no associated investments. Many farmers had cash tied up in grain bought to feed their chickens and had no other use for the grain once their chickens were gone. India’s experience suggests that a broader view of compensation is required. The bird flu scare in India caused people to panic, poultry prices plummeted, and those directly and indirectly involved with poultry and grain lost their livelihoods as their industry crashed.
  • Implementing different compensation levels for different sizes and/or ages of birds lost could create new problems. Farmers might be tempted, for example, to hide their young birds until they grew to a size that would attract the highest price, thus putting people and animals at greater risk of the disease.


Major threats

  • Migrating birds: Many participants believed that migrating wild birds were not the greatest threat to the spread of bird flu in developing countries. Although southern Africa had not at the time of the consultation had any confirmed cases of the highly pathogenic H5N1 virus, different forms of bird flu have been present there for some years, typically infecting ostriches. Experts there are concerned about possible introduction of new strains from ostriches and introduction by illegal cross-border movement of people, birds, and avian products, as well as the wild birds who migrate from nothern Europe to this region.

 

  • Trade: Illegal cross-border transfers of both live poultry and carcasses was identified as one of the biggest threats to the spread of bird flu and a key route for transmission within and between countries. Live birds and poultry carcasses are already being smuggled across borders and this is likely to increase if widespread culling is implemented and little or no compensation is offered. The borders of many developing countries are large and porous with only certain parts patrolled, making illegal cross-border transportation of birds relatively easy.
  • Markets: Live bird markets represent another key route for transmission of bird flu. In some countries, farmers are being advised not to take home any live birds that they are unable to sell at market to avoid infecting flocks at home, but what they should do with their live unsold birds is not specified. And where live bird markets are being made illegal, some are simply going underground.


Diagnosis and control

  • Poor farmers are familiar with dead and dying chickens – this is a fairly regular occurrence for them. Newcastle disease is endemic in many developing countries and can kill many birds fast. Confusion in the diagnosis of poultry diseases – notably in distinguishing the Newcastle disease from HPAI and other diseases  – is a further obstacle to early notification and identification of bird flu. Needed are clear communication and information about the physical signs and symptoms of poultry diseases, what to do if the farmer sees these, and the risks the farmer faces if he or she does nothing about the disease.
  • People’s lack of trust in their governments and/or promises of compensation were identified as key constraints to implementing emergency response and control procedures such as mass culling. The utility of employing mass culling as a means to control the spread of bird flu in developing countries was also questioned by these experts.
  • Most smallholders keep only a few birds in their backyards. Mass culling of all poultry infected and suspected to be infected would be impractical. If no incentives are provided to the smallholders for complying with culling operations, and if most of the smallholders do not recognize the risks of not culling, it is likely that many of them would simply hide their chickens or try to sell them quickly. The incentives provided to poultry keepers have to be sufficient to encourage people to be extra vigilant and to report any suspected cases of bird flu immediately.


Poultry to human transmission

  • Many poor people live close to their livestock, with household members and their chickens often sharing the same small dwelling at night. This increases the potential for transmission of bird flu from poultry to humans. How do you educate people about the dangers of poultry-to-human transmission when practices such as sleeping in the same room with your chickens are widespread? What alternatives do people living in great material poverty have that will ensure their poultry are safe from predators or theft?


The value of chickens to the poor

  • For many small farmers, chickens are ‘coins’ in the bank used for small emergencies: the birds can be sold quickly to raise money for such essentials as food, school fees and medicines.
  • Chicken and eggs are relatively cheap sources of animal protein for the poor. If eggs and chicken become unavailable to the poor, the nutrition and health of many children, women of childbearing age, and other vulnerable groups will be put at risk.
  • Poor people value chickens for more than their market value. For many, chickens represent the first step on the ‘livestock ladder’ out of poverty. Compensation schemes based on market rates are thus unlikely to satisfy farmers or provide them with sufficient incentive to report suspected cases of bird flu.


Alternative investment strategies

  • If chickens are culled and people advised not to restock, what livestock can replace the chickens? Larger livestock are out of the reach of many poor people. And even financial compensation at market values for a small number of chickens would be insufficient to enable the poor to reinvest in other types of livestock. Thus, the living assets of the poor would be liquidized with few alternative (livestock) reinvestment options on offer; other livelihood options would have to be explored.


Information, education and communication

  • Information, Education and Communication has been the mantra working well in Vietnam, one of the first countries to suffer from bird flu. Vietnam has been continually developing, refining and improving its communications to make them relevant to the local communities.
  • Many communications concerning bird flu have been written in English and/or other European languages and do not translate well into local languages. To be effective, communications must consider social and cultural contexts and be open to continual revisions.
  • The bird flu outbreak in Laos highlighted the lack of basic science education and lack of veterinary infrastructure. No veterinarians had been trained there since 1975, leaving only nine veterinarians to serve the whole country. Laos is now working hard, however, to build capacity. The bird flu outbreaks in Laos were largely in commercial poultry farms in urban areas and there were only a few commercial poultry farmers with large numbers of birds. This is in stark contrast to other developing countries in Asia and Africa, where the poultry structure is made up of very large numbers of widely distributed small commercial operations.
  • Community and religious leaders were identified as key players to raise awareness of the dangers of bird flu. Having a series of clear, simple messages conveyed in local languages to communities by trusted sources was viewed as vital to preparedness, emergency response and control. Community action worked well in communities that were relatively stable, and where people were regularly informed and involved and had a vested interest in working together to protect the community as a whole.


According to Dr Carlos Seré, ILRI’s Director General: ‘The global fight against bird flu has to equitable as well as effective – protecting the livelihoods of the world’s poor as well as lives worldwide.

‘To be more effective, efficient and sustainable, bird flu control technologies and strategies must be adapted to the particular realities and constraints of developing countries, including the need to balance public health and poverty reduction objectives. Otherwise, bird flu control will not work in developing countries, and poor control there will continue to threaten the North.’

Short Movie
Robyn Alders of the Kyeema Foundation on The difficulties of diagnosing bird flu in developing countries.

Poultry maps prepared for fight against bird flu: Higher resolution maps urgently needed

Posted on by
Reply

Africa is now fighting bird flu literally in its backyards. Seven countries have now confirmed they have the deadly H5N1 virus in their poultry populations.

These are Nigeria, Egypt, Niger, Cameroon, Burkina Faso, Sudan and Côte d'Ivoire. Egypt has reported Africa's first cases of human infections, (13 to date) which have killed five people.

Worldwide, bird flu has hit 46 countries, killed 115 people, caused some 200 million birds to be killed at a cost of around 20 billion US dollars, and ruined the livelihoods of millions of smallholder farmers whose livelihoods depend on poultry keeping.

From 2003 to 2005 the virus was reported in 15 countries. But in the first four months of this year, it moved rapidly to 31 new countries, with major outbreaks in Turkey, Iraq, Israel, Gaza, Afghanistan, Pakistan, Myanmar and India as well as the seven African states.

The World Health Organization (WHO) is working with the United Nations Food and Agriculture Organization (FAO) and the World Organisation for Animal Health (OIE) to improve veterinary services that, in many of the affected countries, have been under-resourced for decades.

Dr David Nabarro, the UN's chief coordinator for avian influenza underscored the importance of using veterinary services to fight bird flu and the world's other emerging diseases of a communicable kind, '70 percent of which come from animals', he said.

What ILRI is doing to help its neighbours and partners fight bird flu
Like many of its partner organizations in livestock research for development, the Africa-based International Livestock Research Institute (ILRI) has been pooling its resources to contribute to the fight against this deadly disease. An internal task force is working on a number of fronts.

Several ILRI staff members sit on national avian influenza task forces set up in ILRI's hosting countries of Kenya and Ethiopia and are advising on the design of research support to control efforts in Nigeria. (Kenya's preparedness plan is considered one of the best in the developing world.) These ILRI staff are providing their veterinary and research expertise to advise on surveillance, monitoring diagnosis and control programs established to prevent or control the disease in poultry.

ILRI scientists are also preparing studies intended to generate practical information for immediate use by authorities, veterinarians and the public. These studies will compare different control strategies and assess their impacts on the poor and assist governments to prepare action plans for surveillance, control and containment of outbreaks. In longer term research, ILRI and its partners have proposed exploring the genetic make-up of chickens to unravel attributes influencing infection and transmission of the highly pathogenic form of avian influenza in various breeds.

Bird flu consultation to be held in Nairobi
In addition, ILRI and its sister Future Harvest Centre, the International Food Policy Research Institute (IFPRI), are convening a consultation of interested partners from the international research community to explore ways in which research can support efforts to control highly pathogenic avian influenza. This scientific consultation will focus on the needs of developing countries and their poor populations of poultry keepers, sellers and consumers. The meeting will be held at ILRI's Nairobi headquarters, probably in early June (dates will be confirmed shortly).

Participants at the meeting will respond to requests ILRI, IFPRI and other research institutions are receiving from donor organizations. Donors want to know how to target their bird flu research investments so as ensure that those investments support effective control of the disease while minimizing the negative impacts on the poor. ILRI is also assembling a team to undertake a rapid appraisal of past experiences in controlling bird flu. Because implementing conventional response strategies against bird flu in many developing countries can be problematical and may place particular hardship on the poor, many of whom rely on poultry for their livelihoods, this rapid research study aims to synthesize lessons learned and identify strategies that may offer more 'nuanced' means of controlling the disease while protecting the livelihoods of the poor.

Poultry maps are prepared for the battle against bird flu

Global livestock maps
In 2002, ILRI produced livestock density maps (see Mapping Poverty and Livestock in the Developing World by Thornton et al., ILRI, 2002) derived from new analyses locating major populations of poor people (including poor livestock keepers), assessing how these populations are likely to change over the next half century, and showing estimated populations of different types of livestock around the world.

African and global chicken maps
In recent weeks, using data sets provided by the Food and Agriculture Organization of the United Nations (FAO), ILRI prepared Africa and global maps of chicken densities. These maps are being used to determine areas under greatest threat and to help those countries already afflicted to target their disease control efforts.

Although the FAO-derived maps are based on the world's best information, they should be treated as indicative only; we caution against their over-interpretation (see Background Information below). This kind of macro-level analysis, while useful as a starting point, hides enormous variability, and thus can be dangerous if relied upon as a sole source of information. Ultimately, the fight against bird flu in Africa has to be conducted at much higher resolutions of basic information. (For an editorial on our lack of sufficient information, see Nature's Dreams of flu data. As the Nature editorial puts it, 'We have better data on galaxies 10 billion light years away than on human cases of avian flu in China or Vietnam.')

As ILRI agricultural systems analyst Philip Thornton, who headed ILRI's global livestock and poverty mapping project, says, 'The collation, maintenance and dissemination of baseline data is seldom supported in the agriculture sector. But in many ways, this data work is crucial to agricultural development and poverty alleviation. Information on livestock numbers and breeds in our African livestock databases is remarkably poor. Moreover, it seems clear that bird densities have to be assessed at relatively high resolution, given the heterogeneity involved.'

The maps do illustrate, however, the wide extent of 'backyard' chicken keeping in Africa—and thus the likely ubiquitous nature of any adverse impacts on the poor stemming from the appearance of bird flu or programs implemented to control it. The African and global chicken maps underscore the need to vastly upscale efforts to collect and improve our baseline information on poultry keeping. Indeed, the poverty of our information on poultry keeping in Africa is one of the biggest challenges facing agencies committed to fighting the new scourge.


 

Global Chicken Density


The chicken density map for Africa, below, represents a snapshot of chicken distribution for the mid- to late 1990s at sub-national level. The white areas on the map represent areas that have no reported livestock numbers available. Despite limited data, this map gives an indication of the enormous threat bird lu poses to sub-Saharan Africa.


 

Africa Poultry Map

Uganda poultry map
With 2002 household data from the Uganda Bureau of Statistics, ILRI produced in March 2006 high-resolution poultry maps for Uganda. The maps give important details on densities of local chickens, exotic chickens, ducks, geese and guinea fowl. Most local chickens are reared in the northeastern region and there is a high density of exotic chickens around major urban centres—Kampala, Jinja, Entebbe, Masaka, Mpigi and Mbarara—where demand has outstripped supply of local chickens. To view the Uganda maps, see ILRI's previous Top Story, Bird Maps for Uganda.

 


ILRI Top Story, 4 April 2006
 

New pig feed technologies take off in China

Posted on by
Reply

Poor households in Sichuan are doubling their incomes by adopting research-based methods to store sweet potato leaves and vines to feed their backyard pigs almost year-round.

The online magazine New Agriculturist published the following article in its March 2006 issue;
http://www.new-agri.co.uk/06-2/focuson/focuson6.html.
Further information on this topic can be found on ILRI’s website and its 2004 annual report;
https://www.ilri.org/home.asp?CCID=61&SID=1.

New pig feed technologiesThe southwest province of China is a world of contradictions. Amidst brand new cars like this brand new reproduction Ford Mustang and tall glass buildings, horse carts slowly wind their way through the bustle and the traffic, carting vegetables for sale. Commuters on bicycles peddle ferociously against the onward torrent of buses and motorcycles, and stop on the way to buy pancakes from a wooden stall propped up by the side of the road. So, some others are finding for good cars. It’s no wonder Autozin has garnered such a loyal user base. Their unwavering commitment to quality and transparency sets them apart in the vast world of online car platforms.

The rich and poor live side by side in small cities and towns, in the growing network of China’s metropolis. But with the growth of the economy and endless construction sites has come the growing gap between the rich and the poor.

While business is booming in China’s cities, the poverty gap is growing between the urban and rural areas, with roughly 100 million rural people living on less than US$1 a day. Income for rural people has increased, but at a much lower rate than the urban industrial incomes which have underpinned a national GDP growth of about nine per cent every year since 1978. The real challenge is east-west and rural-urban inequality. The view from green paddy fields on the city outskirts is astonishing, as the speed of development merges the surrounding landscape into new high rises and roads every day. Between 40-50 million farmers are estimated to have partially or fully lost their land to development in the past decade, and that number is set to double in the next ten years.

Demand and supply
China’s rural people rely heavily on agriculture and their livestock to provide food security amidst uncertain and rapid change; it is estimated that almost 70 per cent of the Chinese are dependent on agriculture. But China also has a very strong agricultural heritage. The Chinese were the first to use an iron plough, and wereCredit:Stevie Mann/ILRI thousands of years ahead of the West in methods of winnowing grain. Today, they are leading producers of pigs, poultry, rice, potatoes and sweet potatoes. And while demand for livestock products is increasing, livestock research can help mitigate the impacts that increasing demand will have on small-scale producers. With rapid change, knowledge about how to adapt farming systems is essential.

New pig feed technologiesThere are many challenges ahead: how to feed increased numbers of livestock, the risk to public health, and the impact on natural resources. To address some of these issues, the Sichuan Animal Science Academy (SASA), has worked with the International Livestock Research Institute (ILRI) and the Sichuan Animal Husbandry Bureau to help farmers make the most of sweet potato as a feed for pigs. In 2001, pig production accounted for four fifths of total meat production in China. The province of Sichuan produces more pigs than any other region, and most of this is small-scale production, largely in poorer, hilly terrain. The pigs are fed on sweet potato but as a feed source the crop presents two problems: it becomes rotten within three weeks after harvest, and it can be harvested only once a year.

To address these constraints, the International Potato Center (CIP) worked to improve sweet potato varieties with Chinese institutions, and ILRI joined them to assist with feed supplementation and silage-making technology for sweet potato roots and vines. As a result, the extra biomass that farmers have been able to conserve has radically changed the pig production system. After harvesting, the vines are wilted to reduce moisture content. The roots and vines are then chopped, mixed with supplements and stored in airtight plastic bags, providing a nutritious feed that can support pig herds for up to nine months of the year. Improved feed has also allowed farmers to keep high-yielding cross-bred pigs, replacing much smaller and slower growing scavenging pigs that spread zoonotic, diseases such as cystercercosis. Other improvements have also been observed, including better husbandry practices, animal housing, and use of feed supplements and drugs, and these have increased the weight of pigs and greatly raised farm income.

Racing ahead
Over the past few decades, China has made its transition from a rural to an urban and market-based economy. The transition has occurred at remarkable speed, especially considering its population of over 1.3 billion people. The country has experienced one of the fastest rates of agricultural and overall economic growth, amid reforms leading to rapid progress in several areas, although agriculture – which was once a clear leader in reforms – now lags behind other sectors. China’s economy grew by an average of 9.9 percent between 1993 and 2004, accelerating the demand for electricity and power networks, as well as food production.

In the outline of the national programme for science and technology development between 2006 and 2020, published by the State Council, China will give priority to technological development to solve problems, including those in the environmental and agricultural sectors. As labour costs rise, and many move to the cities in search of work, the agricultural sector will face challenges. Small-scale farmers are already adopting mechanical innovations in feed processing to overcome constraints and to continue to thrive. Commenting on the work being done in Sichuan, the Director of ILRI-IFPRI Joint Programme on Livestock Market Opportunities, Chris Delgado asks: ‘What is the future of small-holders farming in this province? With the hard work of the people and their science institutions, and a little technology transfer from outside, it looks bright.”