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Infections of the three-spined stickleback, Gasterosteus aculeatus L., with the plerocercoid larvae of Schistocephalus solidus (Müller, 1776), with special reference to pathological effects

Published online by Cambridge University Press:  06 April 2009

C. Arme
Affiliation:
Department of Zoology, The University of Leeds
R. Wynne Owen
Affiliation:
Department of Zoology, The University of Leeds

Extract

Infections are described of Gasterosteus aculeatus in a pond at Leeds with the plerocercoid larvae of Schistocephalus solidus.

Very heavy infections were found in the summer of 1962 and early 1963; many fish harboured over 50 worms and the maximum was 130.

For each individual host the relative percentage parasite-weight to host-weight has been determined (parasitization index). In more than 50% of the fish the P.I. exceeded 25; the maximum value was 68·5. The relationship between P.I., numbers of worms and weight of worms is described.

Some effects of parasitization on the host are described; they include gross distension of the body, reduction of liver weight, reduction of packed cell volume of erythrocytes and delay in oocyte maturation. In some heavily parasitized individuals spawning is apparently inhibited.

Concurrent infections with the microsporidian Glugea anomala are described.

Our thanks are due to Mr A. Rennie, B.Sc., of the Yorkshire Ouse and Hull River Authority for drawing our attention to the source of infected sticklebacks, to Mr A. O. Holliday for the preparation of photographs and to Mr G. R. Standley for assistance in the preparation of the slide shown in PI. 1, fig. 3. We also wish to thank Dr J. N. Ball, Department of Zoology, University of Sheffield, for his helpful comments on the gonads of infected fish, and Professor J. M. Dodd, Department of Zoology, University of Leeds, for providing facilities and much helpful discussion. One of us (C. A.) gratefully acknowledges the receipt of a Science Research Council Research Studentship and Fellowship.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1967

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References

REFERENCES

Bauer, O. N. (1948). Parasites of fishes of the River Lena. Bull. Inst. Freshw. Fish., Leningr. 27. (Quoted from Dogiel, V. A. et al. 1961, Parasitology of Fishes, Oliver and Boyd: Edinburgh and London.)Google Scholar
Clarke, A. S. (1954). Studies on the life cycle of the pseudophyllidean cestode, Schistocephalus solidus. Proc. zool. Soc. Lond. 124, 257302.CrossRefGoogle Scholar
Dubinina, M. N. (1959). Natural taxonomic system of the genus Schistocephalus Creplin. (Cestoda, Ligulidae). Zool. Zh. 38, 1498–517. (In Russian.)Google Scholar
Haitlinger, R. & WolaŃska, L. (1965). Some data on Schistocephalus solidus (O. F. Müller 1776)—plerocercoid. Acta parasit. pol. 13, 103–8.Google Scholar
Hendricks, L. J. (1952). Erythrocyte counts and haemoglobin determinations for two species of suckers, genus Catostomus from Colorado. Copeia, 1952, 265–6.CrossRefGoogle Scholar
Hopkins, C. A. & Smyth, J. D. (1951). Notes on the morphology and life history of Schisto-cephalus solidus (Cestoda: Diphyllobothriidae). Parasitology 41, 283–91.CrossRefGoogle ScholarPubMed
Kerr, T. (1948). The pituitary in normal and parasitized roach (Leuciscus rutilus Flem.). Q. Jl microsc. Sci. 89, 129–37.Google ScholarPubMed
Kerr, T. (1965). Histology of the distal lobe of the pituitary of Xenopus laevis Daudin. Gen. & compar. Endocr. 5, 232–40.CrossRefGoogle ScholarPubMed
Kosheva, A. F. (1956). Influence of the parasites Ligula intestinalis and Digramma interrupta on their fish hosts. Zool. Zh. 35, 1629–32.Google Scholar
Pallas, P. C. (1781). Bemerkungen über die Bandwürmer in Menschen und Thieren. Neu nord. Beitr. phys. geog. Erd. Völkerb. 1, 39112.Google Scholar
Radman, S. (1960). Helminth parasites of unbred fishes in pond husbandry. Acta parasit. pol. 8 (8/20), 289–97.Google Scholar
Sadkovskaya, O. D. (1953). Changes in the leucocyte blood formula of the common gudgeon during Ligula infection. In K. I. Skryabin's 75th Birthday Presentation Papers, pp. 617–19. Moscow: Izdatelstvo Akad. Nauk. SSSR.Google Scholar
Shaw, A. F. B. (1930). A direct method for counting the leucocytes, thrombocytes and erythrocytes of birds’ blood. J. Path. Bact. 33, 833–5.CrossRefGoogle Scholar
Shpolyanskaya, A. U. (1953). Changes in the leucocyte formula of fish blood under the influence of Ligula. Dokl. Akad. Nauk. SSSR 90, 319–20.Google Scholar
Vik, R. (1954). Investigations on the pseudophyllidean cestodes of fish, birds and mammals in the Ånøya Water System in Trøndelag. 1. Cyathocephalus truncatus and Schistocephalus solidus. Nytt Mag. Zool. 2, 551.Google Scholar
Weissenberg, R. (1921). Zur Wirtzgewebsableitung des Plasmakörpers des Glugea anomala-cysten. Arch. Protistenk. 42, 400–21.Google Scholar