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Seasonal and age distributions of Babesia, Hepatozoon, Trypanosoma and Grahamella species in Clethrionomys glareolus and Apodemus sylvaticus populations

Published online by Cambridge University Press:  06 April 2009

C. M. R. Turner
C. M. R. Turner
Affiliation:
Department of Zoology, King's College London, Strand, London WC2R 2LS
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Summary

Four common blood parasites belonging to the genera Babesia, Hepatozoon, Trypanosoma and Grahamella were detected in sympatric populations of Clethrionomys glareolus and Apodemus sylvaticus. Seasonal changes in the abundance of hosts and parasites were monitored in a longitudinal field survey for 18 months. All parasites in both hosts showed similar seasonal patterns with most transmission occurring in summer and autumn and ceasing in winter. Amongst aged subsets of each host population, Hepatozoon and Grahamella spp. were primarily parasites of young animals whereas Babesia and Trypanosoma spp. generally infected older hosts. Data from the aged subsets were also used to estimate values for the basic reproductive rate, R0, for each parasite. In C. glareolus, R0 = 2·0 for B. microti, 2·6 for H. erhardovae, 1·7 for T. evotomys and 2·8 for Grahamella sp. In A. sylvaticusR0 = 2·2 for Grahamella sp. These estimates are probably representative only for summer and autumn of each year.

Type
Research Article
Information
Parasitology , Volume 93 , Issue 2 , October 1986 , pp. 279 - 289
Copyright
Copyright © Cambridge University Press 1986

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References

Al-Jumailly, M. (1976). Age determination of the bank vole, Clethrionomys glareolus (Schreber 1780). Ph.D. thesis, University of London.Google Scholar
Anderson, R. M. (1979). The influence of parasitic infection on the dynamics of host population growth. In Population Dynamics (ed. Taylor, L. R., Turner, B. D. and Anderson, R. M.), pp. 245–81. Oxford: Blackwell Scientific.Google Scholar
Anderson, R. M. (1982 a). Transmission dynamics and control of infectious disease agents. In Population Biology of Infectious Diseases (ed. Anderson, R. M. and May, R. M.), pp. 149–76. Berlin: Springer-Verlag.CrossRefGoogle Scholar
Anderson, R. M. (1982 b). Directly transmitted viral and bacterial infections of man. In The Population Biology of Infectious Diseases: Theory and Applications (ed. Anderson, R. M.), pp. 137. London: Chapman & Hall.Google Scholar
Andrzejewski, R. & Rajska, E. (1972). Trappability of bank voles in pitfalls and live traps. Acta Theriologica 17, 4156.CrossRefGoogle Scholar
Barnett, S. F. & Croft, R. A. (1968). The epidemiology of Babesia microti in the bank vole, Clethrionomys glareolus. In Tick-borne Diseases and their Vectors (ed. Wilde, J. K. H.), pp. 137–43. Edinburgh: Edinburgh University Press.Google Scholar
Begon, M. (1979). Investigating Animal Abundance: Capture-Recapture for Biologists. London: Edward Arnold.Google Scholar
Cox, F. E. G. (1970). Parasitic protozoa of British wild mammals. Mammal Review 1, 128.CrossRefGoogle Scholar
Dietz, K. (1975). Transmission and control of arbovirus diseases. In Epidemiology (ed. D., Ludwig and Cooke, K. L.), pp. 104–21. Philadelphia: Society for Industrial and Applied Mathematics.Google Scholar
Elton, C., Ford, E. B., Baker, J. R. & Gardner, A. D. (1931). The health and parasites of a wild mouse population. Proceedings of the Zoological Society of London, 657714.CrossRefGoogle Scholar
Fay, F. & Rausch, R. (1969). Parasite organisms in the blood of arvicoline rodents in Alaska. Journal of Parasitology 55, 1258–65.CrossRefGoogle Scholar
Flowerdew, J. R. (1972). The effect of supplementary food on a population of wood mice. Journal of Animal Ecology 41, 553–66.CrossRefGoogle Scholar
Frank, C. (1977). Additional observations on the biology of Hepatozoon erhardovae in bank voles from the south-western Styria and from areas around the Neusiedlersee (Burgenland). Zeitschrift für Parasitenkunde 53, 251–4.CrossRefGoogle ScholarPubMed
French, N. R., Stoddart, D. M. & Bobek, B. (1975). Patterns of demography in small mammal populations. In Small Mammals, Their Productivity and Population Dynamics (ed. Golley, F. B., K., Petrusewicz and L., Ryszkowski). Cambridge: Cambridge University Press.Google Scholar
Healing, T. D. (1981). Infections with blood parasites in the small British rodents Apodemus sylvaticus, Clethrionomys glareolus and Microtus agrestis. Parasitology 83, 179–89.CrossRefGoogle ScholarPubMed
Healing, T. D. & Nowell, F. (1985). Diseases and parasites of woodland rodent populations. In The Ecology of Bank Voles and Wood Mice (ed. Gipps, J. H. W., J., Flowerdew and J., Gurnell). Symposium of the Zoological Society of London. London: Academic Press.Google Scholar
Hussein, H. S. (1973). Studies on rodent babesiosis caused by Babesia hylomisci (Bafort, Timperman & Molyneux 1970) and Babesia microti (Franca 1910). Ph.D. thesis. University of Liverpool.Google Scholar
Hussein, H. S. (1980). Ixodes trianguliceps: seasonal abundance and role in the epidemiology of Babesia microti infection in North-west England. Annals of Tropical Medicine and Parasitology 74, 531–9.CrossRefGoogle Scholar
Kaplan, C., Healing, T. D., Evans, N., Healing, L. & Prior, A. (1980). Evidence of infection by viruses in small British field rodents. Journal of Hygiene 84, 285–94.CrossRefGoogle ScholarPubMed
Kramptiz, H. E. (1964). Über das Vorkommen und Verhalten von Haemococcidien der Gattung Hepatozoon Miller 1908 (Protozoa, Adeleidea) in mittel- und sudeuropäischen Saugern. Acta Tropica 21, 115–54.Google Scholar
Krampitz, H. E. (1981). Development of Hepatozoon erhardovae Krampitz 1964 (Protozoa: Haemogregarinidae) in experimental mammalian and arthropod hosts. II. Sexual development in fleas and sporozoite indices in xenodiagnosis. Transactions of the Royal Society of Tropical Medicine and Hygiene 75, 155–7.CrossRefGoogle ScholarPubMed
Krampitz, H. E. & Baumler, W. (1978). Occurrence, host range and seasonal prevalence of Babesia microti (Franca, 1912) in rodents of southern Germany. Zeitschrift für Parasitenkunde 58, 1533.CrossRefGoogle ScholarPubMed
Krampitz, H. E. & Kleinschmidt, A. (1960). Grahamella Brumpt 1911 biologische und morphologische Untersuchungen. Zeitschrift für Tropenmedizin und Parasitologie 11, 336–52.Google Scholar
Molyneux, D. H. (1969). The morphology and biology of Trypanosoma (Herpetosoma) evotomys of the bank vole, Clethrionomys glareolus. Parasitology 59, 843–57.CrossRefGoogle ScholarPubMed
Morris, P. (1972). A review of mammalian age determination methods. Mammal Review 2, 69104.CrossRefGoogle Scholar
O'Donnell, T. G. (1971). Ecology of the ectoparasites of three species of small rodents. Ph.D. thesis. University of Oxford.Google Scholar
Shortt, H. E. & Blackie, E. S. (1965). An account of the genus Babesia as found in certain small mammals in Britain. Journal of Tropical Medicine and Hygiene 68, 3742.Google ScholarPubMed
Smith, M. H., Gardner, R. H., Gentry, J. B., Kaufman, D. W. & O'Farrell, M. H. (1975). Density estimations of small mammal populations. In Small Mammals: Their Productivity and Population Dynamics (ed. Golley, F. B., K., Petrusewicz and L., Ryskowski), pp. 2554. Cambridge: Cambridge University Press.Google Scholar
Turner, C. M. R. (1983). Serodiagnosis and ecology of blood parasites in wild rodents with special reference to Babesia microti. Ph.D. thesis. University of London.Google Scholar
Voller, A. & O'Neill, P. (1971). Immunofluorescence method suitable for large scale application to Malaria. Bulletin of the World Health Organization 45, 524–9.Google ScholarPubMed
Walter, G. & Liebisch, A. (1980). Studies of the ecology of some blood protozoa of wild small mammals in north Germany. Acta Tropica 37, 3140.Google ScholarPubMed
Wiger, R. (1979). Seasonal and annual variations in the prevalence of blood parasites in cyclic species of small rodents in Norway with special reference to C. glareolus. Holarctic Ecology 2, 169–75.Google Scholar
Woo, P. T. K. (1969). The haematocrit centrifuge for the detection of trypanosomes in blood. Canadian Journal of Zoology 47, 921–3.CrossRefGoogle ScholarPubMed
Young, A. S. (1970). Investigations on the epidemiology of blood parasites of small mammals with special reference to piroplasms. Ph.D. thesis. University of London.Google Scholar