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Assessing the risks of intervention: immobilization, radio-collaring and vaccination of African wild dogs

Published online by Cambridge University Press:  24 April 2009

Rosie Woodroffe
Rosie Woodroffe
Affiliation:
IUCN/SSC Canid Specialist Group, Department of Biological Sciences, University of Warwick, Coventry, CV4 7AL, UK. E-mail: [email protected].
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Abstract

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Controversy has surrounded the role of intervention in studies of African wild dogs Lycaon pictus. Following the death or disappearance of all wild dogs under study in the Serengeti ecosystem, it was suggested that immobilization, radio-collaring or administration of rabies vaccines might have caused high mortality by compromising wild dogs′ immune response to rabies virus. Planning future management and research on wild dogs and other species demands an assessment of the risks associated with such intervention. This paper critically reviews the available evidence and concludes that it is extremely unlikely that intervention contributed to the extinction of wild dogs in the Serengeti ecosystem. A more likely scenario is that vaccination failed to protect wild dogs exposed to rabies virus. Radio-collaring is an important component of wild dog research; hence, the benefits of immobilization appear to outweigh the risks, as long as (i) research is orientated towards wild dog conservation, (ii) radiocollaring is followed up by efficient monitoring, (iii) the number of animals immobilized is kept to the minimum necessary to maintain scientific rigour, and (iv) full data on disease and genetics are collected from all immobilized animals. By contrast, rabies vaccination currently seems to confer few benefits, at least when a single dose of vaccine is given. Further research, on captive animals, is in progress to establish more effective protocols, and to assess the role that vaccination might play in future management of wild dog populations.

Keywords

conservationLycaon pictusrabiesstresswildlife disease.
Type
Research Article
Information
Oryx , Volume 35 , Issue 3 , July 2001 , pp. 234 - 244
Copyright
Copyright © Fauna and Flora International 2001

References

Alexander, K. & Appel, M. (1994) African wild dogs (Lycaon pictus) endangered by a canine distemper epizootic among domestic dogs near the Masai Mara National Reserve. Kenya, journal of Wildlife Diseases, 30, 481485.Google Scholar
Alexander, K.A., Conrad, P.A., Gardner, I.A., Parish, C, Appel, M., Levy, M.G., Lerche, N. & Kat, P. (1993a) Serologic survey for selected microbial pathogens in African wild dogs (Lycaon pictus) and sympatric domestic dogs (Canis familiaris) in Masai Mara, Kenya. Journal of Zoo & Wildlife Medicine, 24, 140144.Google Scholar
Alexander, K.A., Kat, P.W., Munson, L.A., Kalake, A. & Appel, M.J.G. (1996) Canine distemper-related mortality among wild dogs (Lycaon pictus) in Chobe National Park, Botswana. Journal of Zoo & Wildlife Medicine, 27, 426427.Google Scholar
Alexander, K.A., Smith, J.S., Macharia, M.J. & King, A.A. (1993b) Rabies in the Masai Mara, Kenya: a preliminary report. Onderstepoort Journal of Veterinary Research, 60, 411414.Google Scholar
Bell, J.F., Gonzalez, M.A., Diaz, A.M. & Moore, G.J. (1971) Nonfatal rabies in dogs – experimental studies and results of a survey. American Journal of Veterinary Research, 32, 20492058.Google ScholarPubMed
Botros, B.A.M., Lewis, J.C. & Kerkor, M. (1979) A study to evaluate non-fatal rabies in animals. Journal of Tropical Medicine & Hygiene, 82, 137141.Google Scholar
Bourhy, H., Lafon, M., Berthonneau, M.C., Renner, Y., Rollin, P.E. & Sureau, P. (1988) Rabies in vaccinated dogs in Gabon. Veterinary Record, 122, 361362.Google Scholar
Burrows, R. (1992) Rabies in wild dogs. Nature, 359, 277.Google Scholar
Burrows, R. (1993) Observations on the behaviour, ecology and conservation status of African wild dogs in SNP. In Serengeti Wildlife Research Centre Scientific Report 1990–92 (eds Huish, S. and Campbell, K. L. I.), pp. 5359. Serengeti Wildlife Research Centre, Arusha, Tanzania.Google Scholar
Burrows, R. (1995) Demographic changes and social consequences in wild dogs 1964–92. In Serengeti II: Research, Management, and Conservation of an Ecosystem (eds Sinclair, A.R.E. and Arcese, P.), pp. 400420. Chicago University Press, Chicago.Google Scholar
Burrows, R. (1998) What was the scientific basis of IUCN Canid Specialist Group's claim that handling of African wild dogs (Lycaon pictus) has no effect on their mortality, survival or longevity? IUCN/SSC Veterinary Specialist Group Newsletter, 15, 68.Google Scholar
Burrows, R., Hofer, H. & East, M.L. (1994) Demography, extinction and intervention in a small population: the case of the Serengeti wild dogs. Proceedings of the Royal Society of London B, 256, 281292.Google Scholar
Burrows, R., Hofer, H. & East, M.L. (1995) Population dynamics, intervention and survival in African wild dogs (Lycaon pictus). Proceedings of the Royal Society of London B, 262, 235245.Google Scholar
Clark, K.A., Kelly, V.P., Newman, E.C., Bilderback, W.R., Nettles, W.D. & Rhodes, T.S. (1981) Rabies vaccination – field observations during epizootics in dogs. Modern Veterinary Practice, 62, 907911.Google Scholar
Creel, S. & Creel, N.M. (1998) Six ecological factors that may limit African wild dogs, Lycaon pictus. Animal Conservation, 1, 19.Google Scholar
Creel, S., Creel, N.M. & Monfort, S.L. (1996a) Social stress and dominance. Nature, 379, 212.CrossRefGoogle Scholar
Creel, S., Creel, N.M. & Monfort, S.L. (1996b) Radiocollaring and stress hormones in African wild dogs. Conservation Biology, 10, 16.Google Scholar
Creel, S., Creel, N.M., Munson, L., Sanderlin, D. & Appel, M.J.G. (1997) Serosurvey for selected viral diseases and demography of African wild dogs in Tanzania. Journal of Wildlife Diseases, 33, 823832.Google Scholar
Durchfeld, B., Baumgartner, W., Herbst, W. & Brahm, R. (1990) Vaccine-associated canine distemper infection in a litter of African hunting dogs (Lycaon pictus). Zentralblatt fur Veterinrmedizin B, 37, 203212.Google Scholar
Dye, C. (1996) Serengeti wild dogs: what really happened? Trends in Ecology and Evolution, 11, 188189.Google Scholar
East, M.L. (1996) Survivorship in African wild dogs. Conservation Biology, 10, 313.Google Scholar
Eng, T.R., Fishbein, D.B., Talamante, H.E., Fekadu, M., Chavez, G.F., Muro, F.J. & Baer, G.M. (1994) Immunogenicity of rabies vaccines used during an urban epizootic of rabies in Mexico. Vaccine, 12, 12591264.CrossRefGoogle ScholarPubMed
Fanshawe, J.H., Ginsberg, J.R., Sillero-Zubiri, C. & Woodroffe, R. (1997) The status and distribution of remaining wild dog populations. In The African Wild Dog: Status Survey and Conservation Action Plan (eds Woodroffe, R., Ginsberg, J.R. and Macdonald, D.W.), pp. 1157. IUCN, Gland.Google Scholar
Fekadu, M. (1972) Atypical rabies in dogs in Ethiopia. Ethiopian Medical Journal, 10, 7986.Google ScholarPubMed
Fekadu, M. (1991a) Canine rabies. In The Natural History of Rabies (ed. Baer, G.M.), pp. 367378. CRC Press, Boca Raton.Google Scholar
Fekadu, M. (1991b) Latency and aborted rabies. In The Natural History of Rabies (ed. Baer, G.M.), pp. 191378. CRC Press, Boca Raton.Google Scholar
Fekadu, M., Chandler, F.W. & Harrison, A.K. (1982) Pathogenesis of rabies in dogs inoculated with an Ethiopian rabies virus strain. Immunofluorescence, histologic and ultrastructural studies of the central nervous system. Archives of Virology, 71, 109126.CrossRefGoogle ScholarPubMed
Fekadu, M., Shaddock, J.H. & Baer, G.M. (1981) Intermittent excretion of rabies virus in the saliva of a dog two and six months after it had recovered from experimental rabies. American Journal of Tropical Medicine and Hygiene, 30, 11131115.CrossRefGoogle ScholarPubMed
Felsburg, P.J., Krawiec, D.R. & Rubin, S.I. (1986) The effect of general anaesthesia on canine lymphocyte function. Veterinary Immunology & Immunopathology, 13, 6370.Google Scholar
Fescharek, R., Frank, V. & Samuel, M.R. (1994) Do anaesthetic and surgical stress increase the risk of post-exposure rabies treatment failure? Vaccine, 12, 1213.Google Scholar
Fishbein, D.B. & Robinson, L.E. (1993) Rabies. New England Journal of Medicine, 329, 16321638.CrossRefGoogle ScholarPubMed
Fuller, T.K. & Kat, P.W. (1990) Movements, activity, and prey relationship of African wild dogs (Lycaon pictus) near Aitong, south-western Kenya. African Journal of Ecology, 28, 330350.Google Scholar
Fuller, T.K. & Kat, P.W. (1993) Hunting success of African wild dogs in South-Western Kenya. Journal of Mammalogy, 74, 464467.Google Scholar
Fuller, T.K., Kat, P.W., Bulger, J.B., Maddock, A.H., Ginsberg, J.R., Burrows, R., McNutt, J.W. & Mills, M.G.L. (1992a) Population dynamics of African wild dogs. In Wildlife 2001: Populations (eds McCullough, D.R. and Barrett, H.). Elsevier Science Publishers, London.Google Scholar
Fuller, T.K., Mills, M.G.L., Borner, M., Laurenson, K. & Kat, P.W. (1992b) Long distance dispersal by African wild dogs in East and South Africa. Journal of African Zoology, 106, 535537.Google Scholar
Gascoyne, S.C., King, A.A., Laurenson, M.K., Borner, M., Schildger, B. & Barrat, J. (1993a) Aspects of rabies infection and control in the conservation of the African wild dog (Lycaon pictus) in the Serengeti region, Tanzania. Onderstepoort Journal of Veterinary Research, 60, 415420.Google Scholar
Gascoyne, S.C., Laurenson, M.K., Lelo, S. & Borner, M. (1993b) Rabies in African wild dogs (Lycaon pictus) in the Serengeti region, Tanzania. Journal of Wildlife Diseases, 29, 396402.Google Scholar
Ginsberg, J. (1996) Survivorship in African wild dogs. Conservation Biology, 10, 313315.Google Scholar
Ginsberg, J.R., Alexander, K.A., Creel, S., Kat, P.W., McNutt, J.W. & Mills, M.G.L. (1995) Handling and survivorship of African wild dog (Lycaon pictus) in five ecosystems. Conservation Biology, 9, 665674.Google Scholar
Ginsberg, J.R. & Woodroffe, R. (1997) Research and monitoring: Information for wild dog conservation. In The. African Wild Dog: Status Survey and Conservation Action Plan (eds roffe, R. Wood, Ginsberg, J.R. and Macdonald, D.W.), pp. 112117. IUCN, Gland.Google Scholar
Girman, D.J. & Wayne, R.K. (1997) Genetic perspectives on wild dog conservation. In The African Wild Dog: Status Survey and Conservation Action Plan (eds Woodroffe, R., Ginsberg, J.R. and Macdonald, D.W.), pp. 710. IUCN, Gland.Google Scholar
van Heerden, J., Bainbridge, N., Burroughs, R.E.J. & Kriek, N.P.J. (1989) Distemper-like disease and encephalitozoonosis in wild dogs (Lycaon pictus Temminck, 1820). Onderstepoort Journal of Veterinary Research, 48, 1921.Google Scholar
van Heerden, J., Mills, M.G.L., Van Vuuren, M.J., Kelly, P.J. & Dreyer, M.J. (1995) An investigation into the health status and diseases of wild dogs (Lycaon pictus) in the Kruger National Park. Journal of the South African Veterinary Medical Association, 66, 1827.Google Scholar
Heinsohn, R. (1992) When conservation goes to the dogs. Trends in Ecology & Evolution, 7, 214215.CrossRefGoogle ScholarPubMed
Hofmeyr, M., Bingham, J., Lane, E.P., Ide, A. & Nel, L. (2000) Rabies in African wild dogs (Lycaon pictus) in the Madikwe Game Reserve, South Africa. Veterinary Record, 146, 5052.CrossRefGoogle ScholarPubMed
Kat, P.W., Alexander, K.A., Smith, J.S. & Munson, L. (1995) Rabies and African wild dogs in Kenya. Proceedings of the Royal Society of London B, 262, 229233.Google ScholarPubMed
Kohn, M.H. & Wayne, R.K. (1997) Facts from faeces revisited. Trends in Ecology & Evolution, 12, 223227.Google Scholar
Laurenson, K., Esterhuysen, J., Stander, P. & van Heerden, J. (1997) Aspects of rabies epidemiology in Tsumkwe District, Namibia. Onderstepoort Journal of Veterinary Research, 64, 3945.Google Scholar
Lelo, S. (1990) Conservation status of the wild dog (Lycaon pictus) in the Serengeti ecosystem. In Serengeti Wildlife Research Centre Biennial Report 1988–89 (eds Huish, S.A. and Campbell, K.L.I.), pp. 2730. Serengeti Wildlife Research Centre, Arusha, Tanzania.Google Scholar
Macdonald, D.W., Artois, M., Aubert, M., Bishop, D.L., Ginsberg, J.R., King, A., Kock, N. & Perry, B.D. (1992) Cause of wild dog deaths. Nature, 360, 633634.Google Scholar
McCormick, A.E. (1983) Canine distemper in African hunting dogs (Lycaon pictus) – possibly vaccine induced. Journal of Zoo Animal Medicine, 14, 6671.CrossRefGoogle Scholar
McLean, R.G. (1975) Raccoon rabies. In The Natural History of Rabies (ed. Baer, G.M.), Vol. 2. Academic Press, New York.Google Scholar
Morell, V. (1995) Dogfight erupts over animal studies in the Serengeti. Science, 270, 13021303.Google Scholar
Ratanarapee, S., Wasi, C, Chavanich, L., Puthavathana, P., Chattuchai, K. & Thongcharoen, P. (1982) Nonfatal rabies in dogs and other mammals. Is it usual? Journal of the Medical Association of Thailand, 65, 3337.Google Scholar
Said, M.Y., Chunge, R.N., Craig, G.C., Thouless, C.R., Barnes, R.F.W. & Dublin, H.T. (1995) African Elephant Database. IUCN/SSC, Gland.Google Scholar
Scheepers, J.L. & Venzke, K.A.E. (1995) Attempts to reintroduce African wild dogs Lycaon pictus into Etosha National Park, Namibia. South African Journal of Wildlife Research, 25, 138140.Google Scholar
Scott, J. (1991) Painted Wolves: Wild Dogs of the Serengeti-Mara. Hamish Hamilton, London.Google Scholar
Smith, J.S., Fishbein, D.B., Rupprecht, C.E. & Clark, K. (1991) Unexplained rabies in three immigrants in the United States – A virological investigation. New England Journal of Medicine, 324, 205211.Google Scholar
Soave, O.A. (1964) Reactivation of rabies virus in a guinea pig due to the stress of crowding. American Journal of Veterinary Research, 25, 268269.Google Scholar
Soave, O.A., Johnson, H.N. & Nakamura, K. (1961) Reactivation of rabies virus infection with adrenocorticotropic hormones. Science, 133, 13601361.Google Scholar
de Villiers, M.S., Meltzer, D.G.A., van Heerden, J., Mills, M.G.L., Richardson, P.R.K. & van Jaarsveld, A.S. (1995) Handling-induced stress and mortalities in African wild dogs (Lycaon pictus). Proceedings of the Royal Society of London, B 262, 215220.Google Scholar
Visee, A.M. (1996) African Wild Dogs, Mkomazi Game Reserve, Tanzania – Veterinary Report. Unpublished report, George Adamson Wildlife Preservation Trust.Google Scholar
Woodroffe, R. (1997) The conservation implications of immobilizing, radio-collaring and vaccinating free-ranging wild dogs. In The African Wild Dog: Status Survey and Conservation Action Plan (eds Woodroffe, R., Ginsberg, J.R. and Macdonald, D.W.), pp. 124138. IUCN, Gland.Google Scholar
Woodroffe, R. (1999) Managing disease risks to wild mammals. Animal Conservation, 2, 185193.Google Scholar
Woodroffe, R. & Ginsberg, J.R. (1999a) Conserving the African wild dog, Lycaon pictus. I. Diagnosing and treating causes of decline. Oryx, 33, 132142.Google Scholar
Woodroffe, R. & Ginsberg, J.R. (1999b) Conserving the African wild dog, Lycaon pictus. II. Is there a role for reintroduction? Oryx, 32, 143151.Google Scholar
Woodroffe, R., Ginsberg, J.R. & Macdonald, D.W. (1997) The African Wild Dog. Status Survey and Conservation Action Plan. IUCN, Gland.Google Scholar