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

Cow suffering from trypanosomosis

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

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

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

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

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

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

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

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

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

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

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

Biosciences for development

Today the spotlight is on European partners in livestock biosciences for development.
European donors and research institutions working in partnership with ILRI and other CGIAR Centres to speed up agricultural development in poor countries will be highlighted at a breakfast meeting at the 2005 World Bank Sustainable Development European Forum entitled ‘Managing Ecosystems and Social Vulnerabilities in the 21st Century: Towards a More Secure World’, to be held in Paris on 14-15 June 2005. The Forum provides an opportunity to update European bilateral donors on the strategy and work program for the World Bank’s Environmentally & Socially Sustainable Vice Presidency. A significant portion of the agenda is reserved for in-depth, issues-based break-out sessions.

Examples of ILRI projects with European partners are summarized below.

Saving Africa’s unique indigenous cattle breeds critical to its poorest people
In 1998, with funding from Ireland Aid and other European donors, the Africa-based International Livestock Research Institute (ILRI) teamed up with Trinity College, Dublin, to analyse the genetic diversity of indigenous African cattle populations. This project completed molecular diversity datasets from the two centres, unravelled the genetic make-up of African cattle and identified priority cattle breeds for conservation or utilization for the benefit of the farmer communities. The project also helped nations develop strategies for conserving these animals and broadening their use. The project supported evidence that the African continent was a likely center of origin of cattle pastoralism. The latter award-winning research, published in the leading research journal Science, raised awareness of the genetic wealth of Africa’s indigenous cattle populations. African countries are now taking steps to conserve, characterize and make better use of them.

A public-private partnership for technological innovation against a lethal African cattle disease
The East Coast fever vaccine project is an initiative funded by the UK’s Department for International Development (DFID) to design and disseminate a bio-engineered vaccine against a parasite that kills cattle across eastern, central, and southern Africa. A complex set of partnerships between public and private sectors across several continents, including the International Livestock Research Institute (ILRI), in Kenya, the Ludwig Institute for Cancer Research, in Belgium, and the University of Oxford, UK, has played an important role in moving the science forward. The multinational veterinary pharmaceutical company Merial, headquartered in France, is helping to produce the vaccine for trial and will be responsible for the delivery of the vaccine among poor countries. A high degree of complementarity exists between the major partners. ILRI has reached an advanced state of research on the protozoan parasite that causes East Coast fever, bovine immunology and the economic impacts of the disease. Merial produces the vaccine candidates and has been working with Oxford on novel delivery system with potential spin-offs for other human and veterinary vaccines. The project is an example of conceiving and funding a ‘system of innovation’ within the CGIAR, one which cuts across research institutions in new ways, building capacity across the widest possible spread of partners, including NARS.

Conserving a unique genetic resource and way of life among Ankole pastoralists in East Africa
In late 2003, with funding from Austria, scientists from the Africa-based International Livestock Research Institute (ILRI) and the BOKU University of Natural Resources and Applied Life Sciences, in Austria, launched a project to identify indigenous selection criteria and genetic diversity in African longhorn Ankole cattle. The results of this project will improve and sustain the livelihoods of poor Ankole cattle keepers in the four East African countries where these unique cattle are found: Uganda, Burundi, Rwanda and Tanzania. Specifically, the project is facilitating community-based delivery of technical interventions that are genetically improving this breed to meet the needs of their pastoral owners. In the process, the project will help the pastoral communities sustain their environment and culture as well as the genetic diversity of their breed. Indigenous knowledge of animal husbandry and breeding are being captured, as well as selection criteria used by the pastoralists to assess intangible values of their unique Ankole genetic resources.

Development of a second-generation anti-tick vaccine
In late 2004, the Swiss Centre for International Agriculture (ZIL) began funding a project conducted jointly by the Swiss Tropical Institute (Basel), Pevion Biotech (Bern), and the International Livestock Research Institute (ILRI, Nairobi), to develop an anti-tick vaccine to control ticks and tick-borne diseases of tropical cattle. Current tick-control methods rely on regular treatments of animals with acaracides, which kill the ticks. Development of an anti-tick vaccine is one of the most promising alternatives to chemical control, being much safer for the environment and human health. The only commercial vaccine against ticks currently on the market, based on a hidden tick-gut antigenic molecule, requires a series of inoculations to boost the vaccine’s effectiveness. This project is developing a novel antigen-delivery system for use in cattle using virosomes. The aim is to improve the efficiency, handling, user friendliness and cost of the existing vaccine for smallholder farmers. The technology platform developed for the new vaccine may be applied in future against a range of livestock diseases.

New ILRI board chair

Former European Commissioner Uwe Werblow joins ILRI’s board of Trustees.

Dr. Uwe Werblow, a German agricultural scientist who for ten years headed the European Commission’s ‘Rural Development, Environment and Food Security’ department within its Directorate General for Development, became Chair of the Board of Trustees of the International Livestock Research Institute (ILRI). Dr. Werblow has spent most of his career working in and for Africa on issues related to tropical agriculture and development policy. On the ILRI board, he replaces Dr. John Vercoe, an Australian who stepped down as Board Chair after 6 years of outstanding service to ILRI.