New leadership in ILRI’s livestock research-for-development work in Asia

Steve Staal, Theme Director

ILRI’s new regional representative for East and Southeast Asia Steve Staal (picture credit: ILRI).

Steve Staal has been appointed the new regional representative of the International Livestock Research Institute (ILRI) for East and Southeast Asia. An American citizen who has lived and worked in developing countries throughout his life, Staal will be based at the headquarters of the International Rice Research Institute (IRRI), in Los Baños, The Philippines.

Staal, an agricultural economist by training, has been based at ILRI’s headquarters in Nairobi, Kenya, for many years, where he recently led ILRI’s Markets, Gender and Livelihoods Research Theme and in the past year served as ILRI’s interim deputy director general for research, during the institute’s transition to a new management team. Among other assignments, he has worked in South and Southeast Asia to enhance smallholder dairy and pig systems in particular. He has a long-standing track record in making a difference in policy analysis and advocacy for inclusive and pro-poor smallholder livestock-based development.

This ILRI position for coordinating and shaping ILRI’s collaborative livestock research in East and Southeast Asia is new. Staal’s appointment to it is a reflection of ILRI’s intent to strengthen its presence in Asia and its productive partnerships there so as to provide better support for livestock research for development in the region. Purvi Mehta-Bhatt (India), who has been heading ILRI’s research in all of Asia, will continue to represent ILRI in South Asia.

ILRI's Purvi Mehta-Bhatt #2 in India

ILRI’s head of Asia Purvi Mehta-Bhatt, taken during a field day In Haryana, India, in 4 Nov 2012 (picture credit: ILRI).

This new assignment for Staal and new focus for Mehta-Bhatt is made to increase ILRI’s engagement with partners throughout Asia.

ILRI stakeholders are encouraged to communicate with Steve Staal, at s.staal [at] cgiar.org, on areas of potential mutual interest, including opportunities for new collaborations and interactions, in East and Southeast Asia.

New ILRI study maps hotspots of human-animal infectious diseases and emerging disease outbreaks

Greatest Burden of Zoonoses Falls on One Billion Poor Livestock Keepers

Map by ILRI, published in an ILRI report to DFID: Mapping of Poverty and Likely Zoonoses Hotspots, 2012.

A new study maps hotspots of human-animal infectious diseases and emerging disease outbreaks. The maps reveal animal-borne disease as a heavy burden for one billion of world’s poor and new evidence on zoonotic emerging disease hotspots in the United States and western Europe.

The new global study mapping human-animal diseases like tuberculosis (TB) and Rift Valley fever finds that an ‘unlucky’ 13 zoonoses are responsible for 2.4 billion cases of human illness and 2.2 million deaths per year. The vast majority occur in low- and middle-income countries.

The study, which was conducted by the International Livestock Research Institute (ILRI), the Institute of Zoology (UK) and the Hanoi School of Public Health in Vietnam, maps poverty, livestock-keeping and the diseases humans get from animals, and presents a ‘top 20’ list of geographical hotspots.

From cyst-causing tapeworms to avian flu, zoonoses present a major threat to human and animal health,’ said Delia Grace, a veterinary epidemiologist and food safety expert with ILRI in Kenya and lead author of the study. ‘Targeting the diseases in the hardest hit countries is crucial to protecting global health as well as to reducing severe levels of poverty and illness among the world’s one billion poor livestock keepers.’

‘Exploding global demand for livestock products is likely to fuel the spread of a wide range of human-animal infectious diseases,’ Grace added.

According to the study, Ethiopia, Nigeria, and Tanzania in Africa, as well as India in Asia, have the highest zoonotic disease burdens, with widespread illness and death. Meanwhile, the northeastern United States, Western Europe (especially the United Kingdom), Brazil and parts of Southeast Asia may be hotspots of ’emerging zoonoses’—those that are newly infecting humans, are newly virulent, or have newly become drug resistant.

The study examined the likely impacts of livestock intensification and climate change on the 13 zoonotic diseases currently causing the greatest harm to the world’s poor.

The report, Mapping of Poverty and Likely Zoonoses Hotspots, was developed with support from the United Kingdom’s Department for International Development (DFID). The goal of the research was to identify areas where better control of zoonotic diseases would most benefit poor people. It also updates a map of emerging disease events published in the science journal Nature in 2008 by Jones et al.[i]

Remarkably, some 60 per cent of all human diseases and 75 per cent of all emerging infectious diseases are zoonotic.

Among the high-priority zoonoses studied here are ‘endemic zoonoses’, such as brucellosis, which cause the vast majority of illness and death in poor countries; ‘epidemic zoonoses’, which typically occur as outbreaks, such as anthrax and Rift Valley fever; and the relatively rare ’emerging zoonoses’, such as bird flu, a few of which, like HIV/AIDS, spread to cause global cataclysms. While zoonoses can be transmitted to people by either wild or domesticated animals, most human infections are acquired from the world’s 24 billion livestock, including pigs, poultry, cattle, goats, sheep and camels.

Poverty, zoonoses and markets
Today, 2.5 billion people live on less than USD2 per day. Nearly three-quarters of the rural poor and some one-third of the urban poor depend on livestock for their food, income, traction, manure or other services. Livestock provide poor households with up to half their income and between 6 and 35 per cent of their protein consumption. The loss of a single milking animal can be devastating to such households. Worse, of course, is the loss of a family member to zoonotic disease.

Despite the danger of zoonoses, the growing global demand for meat and milk products is a big opportunity for poor livestock keepers.

Increased demand will continue over the coming decades, driven by rising populations and incomes, urbanization and changing diets in emerging economies,’ noted Steve Staal, deputy director general-research at ILRI. ‘Greater access to global and regional meat markets could move  millions of poor livestock keepers out of poverty if they can effectively participate in meeting that  rising demand.’

But zoonoses present a major obstacle to their efforts. The study estimates, for example, that about one in eight livestock in poor countries are affected by brucellosis; this reduces milk and meat production in cattle by around 8 per cent.

Thus, while the developing world’s booming livestock markets represent a pathway out of poverty for many, the presence of zoonotic diseases can perpetuate rather than reduce poverty and hunger in livestock-keeping communities. The study found a 99 per cent correlation between country levels of protein-energy malnutrition and the burden of zoonoses.

Many poor livestock keepers are not even meeting their own protein and energy needs’, said Staal. ‘Too often, animal diseases, including zoonotic diseases, confound their greatest efforts to escape poverty and hunger.’

Assessing the burden of zoonoses
The researchers initially reviewed 56 zoonoses that together are responsible for around 2.5 billion cases of human illness and 2.7 million human deaths per year. A more detailed study was made of the 13 zoonoses identified as most important, based on analysis of 1,000 surveys covering more than 10 million people, 6 million animals and 6,000 food or environment samples.

The analysis found high levels of infection with these zoonoses among livestock in poor countries. For example, 27 per cent of livestock in developing countries showed signs of current or past infection with bacterial food-borne disease—a source of food contamination and widespread illness. The researchers attribute at least one-third of global diarrheal disease to zoonotic causes, and find this disease to be the biggest zoonotic threat to public health.

In the booming livestock sector of developing countries, by far the fastest growing sectors are poultry and pigs.

As production, processing and retail food chains intensify, there are greater risks of food-borne illnesses, especially in poorly managed systems’, said John McDermott, director of the  CGIAR Research Program on Agriculture for  Nutrition and Health, led by the International Food Policy Research Institute (IFPRI). ‘Historically, high-density pig and poultry populations have been important in maintaining and mixing influenza populations. A major concern is that as new livestock systems intensify, particularly small- and medium-sized pig production, the more intensive systems will allow the maintenance and transmission of pathogens. A number of new zoonoses, such as Nipah virus infections, have emerged in that way.’

 

Emerging Zoonotic Diseases Events 1940-2012

Map by Institute of Zoology (IOZ), published in an ILRI report to DFID: Mapping of Poverty and Likely Zoonoses Hotspots, 2012.


Intensification and disease spread
The most rapid changes in pig and poultry farming are expected in Burkina Faso and Ghana in Africa and India, Myanmar and Pakistan in Asia. Pig and poultry farming is also intensifying more rapidly than other farm commodity sectors, with more animals being raised in more concentrated spaces, which raises the risk of disease spread.

Assessing the likely impacts of livestock intensification on the high-priority zoonoses, the study found that livestock density is associated more with disease ‘event emergence’ than with overall disease burdens. Both the northeastern United States and Western Europe have high densities of livestock and high levels of disease emergence (e.g., BSE, or ‘mad cow’ disease, and Lyme disease), but low numbers of people falling sick and dying from zoonotic diseases. The latter is almost certainly due to the relatively good disease reporting and health care available in these rich countries.

Bovine tuberculosis is a good example of a zoonotic disease that is now rare in both livestock and human populations in rich countries but continues to plague poor countries, where it infects about 7 per cent of cattle, reducing their production by 6 per cent. Most infected cattle have the bovine form of TB, but both the human and bovine forms of TB can infect cows and people. Results of this study suggest that the burden of zoonotic forms of TB may be underestimated, with bovine TB causing up to 10 per cent of human TB cases. Human TB remains one of the most important and common human diseases in poor countries; in 2010, 12 million people suffered from active disease, with 80 per cent of all new cases occurring in 22 developing countries.  

Massive underreporting

We found massive underreporting of zoonoses and animal diseases in general in poor countries’, said Grace. ‘In sub-Saharan Africa, for example, 99.9 per cent of livestock losses do not appear in official disease reports. Surveillance is not fulfilling its purpose.’

The surveillance lacking today will be even more needed in the future, as the climate changes, she added. Previous research by ILRI and others indicates that areas with increased rainfall and flooding will have increased risk of zoonoses, particularly those diseases transmitted by insects or associated with stagnant water or flooding.

The main finding of the study is that most of the burden of zoonoses and most of the opportunities for alleviating zoonoses lie in just a few countries, notably Ethiopia, Nigeria, and India. These three countries have the highest number of poor livestock keepers, the highest number of malnourished people, and are in the top five countries for both absolute numbers affected with zoonoses and relative intensity of zoonoses infection.

‘These findings allow us to focus on the hotspots of zoonoses and poverty, within which we should be able to make a difference’, said Grace.

Read the whole report: Mapping of poverty and likely zoonoses hotspots, report to the UK Department for International Development by Delia Grace et al., ILRI, Institute of Zoology, Hanoi School of Public Health, 2012.

Read about the report in an article in NatureCost of human-animal disease greatest for world’s poor, 5 Jul 2012. Nature doi:10.1038/nature.2012.10953

 


[i] Nature, Vol 451, 990–993, 21 February 2008, Global trends in emerging infectious diseases, Kate E Jones, Nikkita G Patel, Marc Levy, Adam Storeygard, Deborah Balk, John L Gittleman and Peter Daszak.

New project to help Vietnamese and other farmers conserve their native livestock breeds

Hmong girl hold native black chicken of Viet Nam A native black pig of Viet Nam

Left: A Hmong girl, 13-year-old Hi Hoa Sinh, holds a native black chicken in the village of Lung Pu, northern Viet Nam; Right: One of Viet Nam’s native black pigs on the farm of Ma Thi Puong, near the northern town of Meo Vac (photo credit: ILRI/Mann).

A project funded by the Global Environment Facility has selected Vietnam, a country with a wealth of livestock diversity, as one of four countries in which to implement a project to conserve livestock genotypes.

The diversity is deteriorating due to the popularization of new breeds together with the commercialization of livestock production. To preserve indigenous livestock breeds, the Global Environment Facility and the International Livestock Research Institute (ILRI) have selected 4 countries—Vietnam, Bangladesh, Pakistan and Sri Lanka—to implement the project ‘Developing and applying supporting tools on the conservation and sustainable utilization of the genetic diversity of livestock and their wild relatives.’

Vietnam’s Ministry of Agriculture and Rural Development has made the National Institute of Animal Husbandry as the Vietnamese partner in the project.

The project aims to enhance livestock keepers’ awareness of the importance of the genetic conservation of indigenous livestock while helping them to raise their incomes through adoption of indigenous livestock breeds. The project is being implemented over 4 years (2010–2012) in Vietnam’s Son La and Bac Ninh provinces, with a focus on indigenous chicken and pig breeds. The project will train farmers on survey methods and data collection; on ways to maintain their use of indigenous animals; on livestock management; and on business skills in such areas as as tourism with traditional cuisine and cultural activities.

Basic information about valuable indigenous breeds and representative animals is needed, as is the capacity to prioritize, monitor and manage them at both scientific and farm operational levels. Stakeholder groups need to be empowered with knowledge and conducive operational environments in which they can make decisions that work best for them.

Agriculture in the partner countries in this project contributes 20 to 26% of gross domestic product, of which livestock contributes approximately 15 to 20% in terms of income, insurance, food (meat, milk, eggs), hides/skin, traction and manure. It is mostly smallholder farmers who are dependent on indigenous breeds. These animals have evolved in diverse tropical environments and possess valuable traits such as disease resistance, adaptation to harsh environments, including heat tolerance and ability to utilize poor quality feeds, attributes essential for achieving sustainable agriculture in low-input production systems. However, it is still largely unknown which breeds hold significant genetic diversity or specific genes that should be targeted for conservation and/or incorporation into breeding programs. In the meantime, crossbreeding with exotic breeds is increasing and indigenous breeds are being lost.

The development objectives of this project are to help conserve the indigenous livestock of the partner countries for future generations and to help increase the contribution these native breeds make to the livelihoods of poor people. The first goal of the project is to develop and to make available effective tools to support decision making for the conservation and sustainable use of indigenous farm animals and their wild relatives in developing countries.

For more information, see the project’s description on ILRI’s Biotechnology Theme webpage.