The One Health Approach: Identifying Solutions to Complex Problems at the Livestock-Wildlife Interface. Presented by Health for Animals and Livelihood Improvement Principal Investigators Jon Erickson (University of Vermont) and Rudovick Kazwala (Sokoine University of Agriculture) at the GL-CRSP End of Program Conference, June 17, 2009, Naivasha, Kenya.
One Health Approach to Solve Complex Problems and Improve Livelihoods at theHuman-Livestock-Wildlife Interface
1. One Health Approach to Solve Complex Problems and Improve Livelihoods at theHuman-Livestock-Wildlife Interface Health for Animals & Livelihood Improvement (HALI) Project http://haliproject.wordpress.com
2. One Health Approach Human-Livestock-Wildlife Interface in the Ruaha Landscape of Tanzania Stakeholder-Research Partnership HALI Project – Socioeconomic research – Disease & water sampling – Education & outreach One Health Approach to Livelihood Improvement
9. … from Irrigation and Grazing Pressures 9/26/2001 Presumed extent of irrigation vs. observed flooded areas Cattle density (#/km2) at boundary of RNP, WMA, & village lands
10. Decline of the IhefuWetland and … 22 Aug 1991 322 km2 21 July 2000 153 km2 2-9 Feb 2006 84 km2 IP Ihefu Wetland
15. HALI Project – Goals Determine the prevalence and transmission ecology of zoonotic diseases among wildlife, livestock, and pastoral communities. Assess the effects of water management and quality on the presence, abundance, and severity of disease. Assess how water management and disease affect the health and economic livelihoods of pastoral communities. Identify and recommend measures to mitigate the effects of zoonotic diseases and water limitations. Strengthen local capacity to diagnose zoonotic diseases and design prevention programs.
16. HALI Project – Approach Disease Data Livestock sampling Health and economic impact of disease Recommendations for disease prevention Recommendations for water management Wildlife sampling Water sampling Socioeconomic Data Pastoralist household surveys, workshops, & focus groups TRAINING & CAPACITY BUILDING
19. HALI Project – Household Survey Sample Percent of head of households born in the village: Maasai (n=63) = 19% Sukuma (n=53) = 0% Barabaig (n=43) = 0% Number of years head of household has lived in the village:
20. HALI Project – Disease Perception Where does illness come from in your livestock?
21. HALI Project – Household health Do you or anyone in your household drink blood from your livestock (%)?
22. Photo: J. Brownlee HALI Project – Water and Sanitation Do livestock enter the sources of any of your drinking or bathing water? Yes = 67% No = 30% Don’t know = 3% Do wildlife enter the sources of any of your drinking or bathing water? Yes = 65% No = 23% Don’t know = 12% Do you believe sharing water sources with livestock to be a health risk? Yes = 18% No = 61% Don’t know = 22%
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24. Located further away from surface water sourcesNext steps are to merge SE analysis with wildlife, livestock, and water data
30. HALI Project – Wildlife Disease BTB Samples collected in 2006/2007 through mid-2008 4/43 (9%) positive for BTB via culture 2 impala, 1 buffalo, 1 lesser kudu Brucella 1/27 (4%) tested to date seropositive Only seropositive animal was the BTB infected buffalo
47. HALI Project – Education & Outreach Training 2 MPVM @ SUA, 1 MS @ UC Davis, 1 PhD @ UVM, 3 externs (2 TZ, 1 UC Davis), 2 honors BVM @ SUA, & outreach to over 600 people Outreach Direct assistance to pastoralists + various community events 4 radio shows on health and education Community scout and hunter education Publications & Conference Presentations 6 GL CSRP research briefs published Invited article under review at PLOS Medicine (others drafted) 17 professional meetings & seminar presentations
48. HALI Project – Education & Outreach Partnerships and Networking Tanzania: Sokoine University of Agriculture, Tanzania National Parks Authority, Veterinary Investigation Centers, Tanzania Wildlife Research Institute, District Livestock Offices, National Institute for Medical Research, National Tuberculosis and Leprosy Program, Southern Highland Livestock Development Association United States: University of California at Davis, University of Vermont, USAID, Envirovet, Einstein Medical College International: Wildlife Conservation Society, International Livestock Research Institute, various professional societies
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50. These findings call for the One Health approach in intervening the challenges presented in ecosystems with interfaces between livestock, wildlife and humans.
51. Trade-offs are needed to balance the needs of people and their domestic animals with wildlife.
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Editor's Notes
Zoonotic pathogens, such as influenza and SARS, account for the majority of emerging infectious diseases in people [Taylor et al., Phil Trans Royal Society, 2001].More than three quarters of emerging zoonoses are the result of wildlife-origin pathogens [Jones et al., Nature, 2008].4. Wittermyer et al. [Science, 2008] found that average annual population growth rates were higher in buffers to protected areas than in rural areas of the same country in Africa and Latin America. Protected areas provide some of the last supplies of ecosystem goods and services for expanding human populations, including firewood, bush meat, clean water, medicinal plants, and areas of safety during civil strife.
The consequences of change are far reaching. Increased livestock-horticulture conflict, as scarce water resources affect land management decisionsIncreased grazing pressure as more cattle are packed into smaller areas with remaining water, also overgrazing has led to increased incursions into the wildlife protected areas by cattle to gain access to better grazing and waterIncreased wildlife conflicts, especially with elephants coming through farms seeking access to waterConcentration of wildlife at few waterholes has led some to poison those water holes for bushmeatLost potential tourism revenues as habitat degraded and wildlife become scarce; areas of water scarcity are the same areas where wildlife viewing is popular. Decreased water causes water stress and forces all to share low quality sourcesIn 2006 power shortages resulted after both reserviors fed by the GRR were too low to generate hydropower, turning an ecosystem level crisis into a national economic issue. Water stress, poor forage can all result in increased vulnerability of livestock and wildlife to disease
SE Goals:What are the impacts of water limitation and disease on Maasai, Barabaig and Sukuma household economies? How are these impacts distributed across different socioeconomic groups? What are the economic impacts of disease and water scarcity on other economic sectors in the region? What are the attitudes, perceptions, and practices of pastoralists and agropastoralists in regards to disease, disease management and livestock/wildlife extension?
One pathogen of particular interest is bovine TB (comment on Claire’s talk). In the Southern Highlands region 13% of cattle tested between 1994-1997 reacted to M.bovis using the single comparative intradermal tuberculin test, with 51% of herds containing at least one reactor. (Kazwala 2001). The highest reactor prevalence in cattle was reported in the hot, dry, lowland areas closer to Ruaha NP. Reactor prevalence of 80% has been reported in a sample of cattle from Usangu. Therefore, recent movement of Usangu cattle out of one area may disperse these highly infected herds. TB reduces market value for any livestock sold. Additionally, BTB is zoonotic and traditional practices of pastoralists such as drinking fresh milk and milk products, eating undercooked meat and living in close proximity with cattle may increase their risk of exposure. On the wildlife side, buffalo populations have declined sharply in RNP. Although water limits may be playing a major role, other causes have not been investigated. In fact it is not known whether wildlife in RNP have ever been exposed to BTB, and given its high ungulate diversity and the existence of both large kudu and buffalo populations, known reserviors in S. Africa, the question is urgent.
Kaz – these are the spoligotype patterns for 3 of 4 HALI samples (there is no pattern for the 2nd impala?). Also patterns from HarrisonsCows. If you want can use this to show point: BTB bacteria isolated from infected wildlife and livestock share a similar molecular pattern, supporting the hypothesis that disease transmission between livestock and wildlife has occurred.