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Cattle schistosomiasis in Zambia

Published online by Cambridge University Press:  05 June 2009

J. De Bont
Affiliation:
Department of Clinical Studies, Samora Machel School of Veterinary Medicine, University of Zambia, Box 323 79, Lusaka, Zambia
J. Vercruysse*
Affiliation:
Department of Parasitology, Faculty of Veterinary Medicine, State University of Gent, Casinoplein 24, 9000 Gent, Belgium
V.R. Southgate
Affiliation:
Department of Zoology, The Natural History Museum, Cromwell Road, South Kensington, London SW7 5BD, UK
D. Rollinson
Affiliation:
Department of Zoology, The Natural History Museum, Cromwell Road, South Kensington, London SW7 5BD, UK
A. Kaukas
Affiliation:
Department of Zoology, The Natural History Museum, Cromwell Road, South Kensington, London SW7 5BD, UK
*
* Author for correspondence.

Abstract

A total of 358 cattle was examined for schistosome infection in Zambian slaughterhouses. A total of 542 worms collected from 104 infected individuals was examined for glucose-6-phosphate dehydrogenase and phosphoglucomutase using isoelectric focusing. The overall prevalence of infection was 51%. Ninety three percent of the infected animals had less than 100 worm pairs in the mesenteric veins. Schistosoma mattheei was the predominant species (75%); S. leiperi (12%) and S. margrebowiei (2%) were also identified. The remaining 11% of the worms showed one of two distinct heterozygote patterns. Pattern A is identical to that of a laboratory-produced Fl S. mattheei × S. haematobium hybrid, but could also represent a S. mattheei × S. leiperi hybrid. Further studies are required to elucidate the origins of pattern B.

Type
Research Papers
Copyright
Copyright © Cambridge University Press 1994

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References

Anon. (1991) Annual report of the Department of Veterinary and Tsetse Control Services for the year 1990. Ministry of Agriculture. Republic of Zambia.Google Scholar
Chandiwana, S.K., Taylor, P. & Makura, O. (1987) Prevalence and distribution of Schistosoma mattheei in Zimbabwe. Annales de la Société Belge de Medecine Tropicale 67, 167172.Google ScholarPubMed
Condy, J.B. (1960) Bovine schistosomiasis in Southern Rhodesia. Central African Journal of Medicine 6, 381384.Google Scholar
Dargie, J.D. (1980) The pathogenesis of Schistosoma bovis infection in Sudanese cattle. Transactions of the Royal Society of Tropical Medicine and Hygiene 74, 560562.CrossRefGoogle ScholarPubMed
De Bont, J., Vercruysse, J., Van Aken, D., Southgate, V.R., Rollinson, D. & Moncrieff, C. (1991) The epidemiology of Schistosoma spindale Montgomery, 1906 in cattle in Sri Lanka. Parasitology 102, 237241.CrossRefGoogle ScholarPubMed
Dinnik, J.A. & Dinnik, N.N. (1965) The schistosomes of domestic ruminants in Eastern Africa. Bulletin of Epizootic Diseases of Africa 13, 341359.Google ScholarPubMed
Hira, P.R. (1975) Observations on Schistosoma mattheei Veglia and Le Roux 1929 infections in man in Zambia. Annales de la Société Belge de Medecine Tropicale 55, 633642.Google Scholar
Hira, P.R. & Patel, B.G. (1981) Transmission of schistosomiasis in a rural area in Zambia. Central African Journal of Medicine 27, 244249.Google Scholar
Kassuku, A.A., Christensen, N.O., Monrad, J., Nansen, P. & Knudsen, J. (1986) Epidemiological studies on Schistosoma bovis in Iringa Region, Tanzania. Acta Tropica 43, 153163.Google ScholarPubMed
Kruger, F.J. (1987) Enzyme electrophoresis of South African Schistosoma mattheei and S. haematobium. Onderstepoort journal of Veterinary Research 54, 9396.Google ScholarPubMed
Kruger, F.J. & Evans, A.C. (1990) Do all human urinary infections with Schistosoma mattheei represent hybridization between S. haematobium and S. mattheei?. Journal of Helminthology 64, 330332.CrossRefGoogle Scholar
Lawrence, J.A. (1976) Schistosoma mattheei in the ox. Ph.D. Thesis, University of Rhodesia, Zimbabwe, 308 pp.Google Scholar
Lawrence, J.A. (1978) Bovine schistosomiasis in Southern Africa. Helminthological Abstracts 47, 261270.Google Scholar
Le Roux, P.L. (1932a) Notes on the more important worms of cattle, sheep, and pigs in Northern Rhodesia. Annual Bulletin of the Department of Animal Health, Northern Rhodesia. 924.Google Scholar
Le Roux, P.L. (1932b) List of helminths collected from mammals and birds in the Mazabuka area, Northern Rhodesia. Annual report for 1931, Department of Animal Health, Northern Rhodesia. Appendix B. 3134.Google Scholar
Le Roux, P.L. (1934) Report of the Assistant Veterinary Research Officer. Annual report for 1933, Department of Animal Health, Northern Rhodesia. 2865.Google Scholar
Le Roux, P.L. (1937) Annual report of the Veterinary Research Officer. Annual Report for the year 1936, Veterinary Department, Northern Rhodesia, Appendix C, 4670.Google Scholar
Le Roux, P.L. (1957) Report to the Government of the Federation of Rhodesia and Nyasaland on the control of parasitic diseases in livestock. FAO, Report no. 696.Google Scholar
Mahon, R.J. & Shiff, C.J. (1978) Electrophoresis to distinguish Schistosoma haematobium and S. mattheei cercariae emerging from Bulinus snails. Journal of Parasitology 64, 372373.CrossRefGoogle ScholarPubMed
Makundi, M. (1993) Epidemiological studies on Schistosoma bovis infection in cattle in Iringa District, Tanzania. M.Sc. Thesis, Royal Veterinary and Agricultural University, Copenhagen, Denmark.Google Scholar
Massoud, J. & Nelson, G.S. (1972) Studies on heterologous immunity in schistosomiasis.6. Observations on cross-immunity to Ornithobilharzia turkestanicum, Schistosoma bovis, S. mansoni, and S. haematobium in mice, sheep, and cattle in Iran. Bulletin of the World Health Organization 47, 591600.Google Scholar
McCauley, E.H., Tayeb, A. & Majid, A.A. (1983) Owner survey of schistosomiasis mortality in Sudanese cattle. Tropical Animal Health and Production 15, 227233.CrossRefGoogle ScholarPubMed
McCauley, E.H., Majid, A.A. & Tayeb, A. (1984) Economic evaluation of the production impact of bovine schistosomiasis and vaccination in the Sudan. Preventive Veterinary Medicine 2, 735754.CrossRefGoogle Scholar
Michelson, E.H. (1989) Schistosomiasis in Zambia.An historical overview and review of the literature. African Journal of Medicine and Medical Science 18, 269281.Google Scholar
Pitchford, R.J. (1959) Cattle schistosomiasis in man in the eastern Transvaal. Transactions of the Royal Society of Tropical Medicine and Hygiene 53, 285290.CrossRefGoogle ScholarPubMed
Pitchford, R.J. (1961) Observations on a possible hybrid between the two schistosomes S. haematobium and S. mattheei. Transactions of the Royal Society of Tropical Medicine and Hygiene 55, 4451.CrossRefGoogle ScholarPubMed
Pitchford, R.J. (1974) Some preliminary observations on schistosomes occurring in antelope in central southern Africa. Rhodesian Veterinary Journal 4, 5761.Google Scholar
Pitchford, R.J. (1976) Preliminary observations on the distribution, definitive hosts and possible relation with other schistosomes, of Schistosoma margrebowiei, Le Roux, 1933 and Schistosoma leiperi, Le Roux, 1955. Journal of Helminthology 50, 111123.CrossRefGoogle Scholar
Pitchford, R.J. (1977) A check list of definitive hosts exhibiting evidence of the genus Schistosoma Weinland, 1858 acquired naturally in Africa and the Middle East. Journal of Helminthology 51, 229252.CrossRefGoogle ScholarPubMed
Pitchford, R.J. & Visser, P.S. (1982) Schistosoma mattheei Veglia & Le Roux, 1929, egg output from cattle in a highly endemic area in the Eastern Transvaal. Onderstepoort Journal of Veterinary Research 49, 233235.Google Scholar
Reinecke, R.K. (1970) The epizootiology of an outbreak of bilharziasis in Zululand. Central African Journal of Medicine 16, 1012.Google Scholar
Rollinson, D. & Southgate, V.R. (1987) The genus Schistosoma: A taxonomic appraisal. pp.149in Rollinson, D. & Simpson, A.J.G. (Eds), The biology of schistosomes: from genes to latrines. London, Academic Press.Google Scholar
Ross, G.C., Southgate, V.R. & Knowles, R.J. (1978) Observations on some isoenzymes of strains of Schistosoma bovis, S. mattheei, S. margrebowiei and S. leiperi. Zeitschrift für Parasitenkunde 57, 4956.CrossRefGoogle Scholar
Southgate, V.R., Ross, G.W. & Knowles, R.J. (1981) On Schistosoma leiperi Le Roux, 1955: Scanning electron microscopy of adult worms, compatibility with species of Bulinus, development in Mesocricetus auratus, and isoenzymes. Zeitschrift für Parasitenkunde 66, 6381.CrossRefGoogle Scholar
Southgate, V.R., Howard, G.W., Rollinson, D., Brown, D.S., Ross, G.C. & Knowles, R.J. (1985) Bulinus tropicus, a natural intermediate host for Schistosoma margrebowiei in Lochinvar National Park, Zambia. Journal of Helminthology 59, 153155.CrossRefGoogle ScholarPubMed
Strydom, H.F. (1963) Bilharziasis in sheep and cattle in the Piet Retief District. Journal of the South African Medical Association 34, 6972.Google Scholar
Van Wyk, J.A., Bartsch, R.C., Van Rensburg, L.J., Heitmann, L.P. & Goosen, P.J. (1974) Studies on schistosomiasis. VI. A field outbreak of bilharzia in cattle. Onderstepoort Journal of Veterinary Research 41, 3950.Google Scholar
Wright, C.A. & Ross, G.C. (1980) Hybrids between Schistosoma haematobium and S. mattheei and their identification by isoelectric focusing of enzymes. Transactions of the Royal Society of Tropical Medicine and Hygiene 74, 326332.CrossRefGoogle ScholarPubMed
Wright, C.A., Southgate, V.R. & Howard, G.W. (1979) Observations on the life cycle of Schistosoma margrebowiei and its possible interactions with S. leiperi in Zambia. Journal of Natural History 13, 499506.CrossRefGoogle Scholar