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Observations on the life-cycle of Toxocara mackerrasae

Published online by Cambridge University Press:  06 April 2009

E. G. Warren
E. G. Warren
Affiliation:
Department of Parasitology, University of Queensland, St Lucia, Brisbane, Queensland 4067, Australia
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Summary

An analysis of natural infections of Toxocara mackerrasae in Rattus fuscipes trapped in rain forests in south-eastern Queensland is given and Hydromys chrysogaster is listed as a new host.

T. mackerrasae larvae in egg-infected mice are incapable of somatic migration but some complete development to the young adult stage can occur entirely within the alimentary tract. T. mackerrasae is capable, in low numbers, of developing to maturity in experimentally infected Rattus spp.

The work was financed by grants from the University of Queensland and the National Health and Medical Research Council of Australia. I wish to thank Professor J. F. A. Sprent for his criticisms and suggestions during the preparation of this text.

Type
Research Article
Information
Parasitology , Volume 60 , Issue 2 , April 1970 , pp. 239 - 253
Copyright
Copyright © Cambridge University Press 1970

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References

Gordon, H. M. & Whitlock, H. V. (1939). A new technique for counting nematode eggs in sheep faeces. Journal of the Council for Scientific and Industrial Research, Australia 12, 50–2.Google Scholar
Harrison, J. L. (1962 a). Mammals of Innisfail. I. Species and distribution. Australian Journal of Zoology, 15, 4883.Google Scholar
Harrison, J. L. (1962 b). The food of some Innisfail mammals. Proceedings of the Royal Society of Queensland 73, 3743.Google Scholar
Horner, B. E. & Taylor, J. M. (1965). Systematic relationships among Rattus in South Australia: Evidence from cross-breeding experiments. C.S.I.R.O. Wildlife Research 10, 101–9.CrossRefGoogle Scholar
Larsh, J. E. Jr (1950). Relationship in mice of intestinal emptying time and natural resistance to pig ascaris infection. Science 111, 62–3.Google Scholar
Parker, J. C. (1961). Effect of cortisone on the resistance of the guinea-pig to infection with the rat nematode Nippostrongylus brasiliensis. Experimental Parasitology 11, 380–90.Google Scholar
Sprent, J. F. A. (1952). On the migratory behaviour of the larvae of various Ascaris species in white mice. Journal of Infectious Diseases 90, 165–76.Google Scholar
Sprent, J. F. A. (1957). A new species of Neoascaris from Rattus assimilis with a redefinition of the genus. Parasitology 47, 350–60.Google Scholar
Warren, E. G. (1969). Studies on the morphology and taxonomy of the genera Toxocara Stiles, 1905 and Neoascaris Travassos, 1927. Zoologischer Anzeiger (in the Press).Google Scholar
Wood, D. H. (1967). An ecological study of small mammals in south-east Queensland rain forest. Ph.D. thesis, University of Queensland.Google Scholar