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On the Structure and Life Histories of British Fresh-water Furcocercariae

Published online by Cambridge University Press:  06 April 2009

W. F. Harper
Affiliation:
From the Department of Anatomy, University College (University of St Andrews), Dundee.

Extract

Three species of furcocercariae are described. By means of direct animal experiment with secondary, intermediate and final hosts I have shown that one species develops into Tetracotyle typica Dies., the larva of Strigea tarda Steenstrup, and a connected detailed account of this life cycle is here given. Of the two other species, both of which are new, I have been able to trace the development of one into Tetracotyle n.sp. in Planorbis crista L., and P. albus Müll. Feeding experiments with this new Tetracotyle using ducklings as final hosts failed, however, to produce the corresponding adult.

Effect of the parasite on the host. The usual results of helminth infection of this nature are observable, namely, marked disruption of liver tissue and in many cases complete parasitic castration of the molluscs infected.

Double infection. In the course of my investigations on larval Trematodes I have met with one example of double infection with sporocysts, viz. Cercaria F.1 and F.2, within one and the same individual of Planorbis albus Müll. This condition was found only on one occasion, Cercaria F.1 being in predominance. Instances of double infection have been recorded by Faust (1971) and Sewell (1922), and from this country by Hesse (1923) and Brown (1926). The condition, however does not appear to be a common one.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1931

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References

Brandes, G. (1888). Ueber das Genus Holostomum. Zool. Anz. 11, 424426.Google Scholar
Brandes, G. (1891). Die Familie der Holostomiden. Zool. Jahrb. Syst. 5, 549600.Google Scholar
Braun, M. (1894 a). Zur Entwicklungsgeschichte der Holostomiden. Nach den Untersuchungen der Herren Alfred und Oskar Ehrhardt mitgeteilt. Zool. Anz. 17, 165167.Google Scholar
Braun, M. (1894 b). Centralb. f. Bakt. u. Parasit. 15, 967968.Google Scholar
Brown, F. (1926). Some British fresh-water larval Trematodes with contributions to their life histories. Parasitology, 18, 2134.Google Scholar
Ercolani, G. (1881). Dell' adattamento della specie all' ambiente. Nuove ricerche sulla storia genetica dei trematodi. Mem. Acc. Sc. d. 1st. di Bologna, 3.Google Scholar
Faust, E. C. (1917). Life history studies on Montana Trematodes. III. Illinois Biol. Monogr. 4, 1120.Google Scholar
Faust, E. C. (1918). The anatomy of Tetracotyle iturbei Faust, with a synopsis of described tetracotyliform larvae. J. of Parasitol. Urbana, 5, 6979.Google Scholar
Fuhrmann, O. (1916). Sur une nouvelle espéce de cercarie à queue fourchue (Cercaria letifera) aux Lymnaea auricularia. Rev. Suisse Zool. 24.Google Scholar
Harper, W. F. (1929). On the structure and life histories of British fresh-water larval Trematodes. Parasitology, 21, 189219.CrossRefGoogle Scholar
Hesse, A. J. (1923). A description of two cercariae found in Limnaea peregra in Scotland. J. of Helminthol. 1, 227236.Google Scholar
Linstow, O. von (1877). Zool. Jahrb. Syst. 3, 104105.Google Scholar
Linstow, O. von (1893). Helminthologische Studien. Jen. Zeitschr. Naturwiss. 28, 328352.Google Scholar
Lühe, M. (1909). Trematodes in Die Süsswasserfauna Deutschlands, herausg. von Brauer. Heft 17.Google Scholar
Lutz, A. (1921). Zur Kenntnis des Entwicklungscyklus der Holostomiden. Centralb. f. Bakt. u. Parasit. 86, 124129.Google Scholar
Mathias, P. (1924). Cycle évolutif d'un Trematode Holostomide (Strigea tarda Steenstr.). C.R. Acad. Sci. Paris, 175, 599602.Google Scholar
Muhling, A. (1896). Beiträge zur Kenntnis der Trematoden. Arch.f. Naturgesch. 62.Google Scholar
Odhner, T. (1913). Zum natürlichen System Der digenen Trematoden. VI. Zool. Anz. 42, 289318.Google Scholar
Ruszkowski, J. (1922). Die postembryonale Entwicklung von Hemistomum alatum Dies. auf Grund experimenteller Untersuchungen. Bull. Intern. de l'Acad. des Sciences et des Lettres. Cracovie.Google Scholar
Sewell, R. B. S. (1922). Cercariae Indicae. Indian J. of Med. Research, 10 (Suppl.), 1360.Google Scholar
Szidat, L. (1924 a). Beiträge zur Entwicklungsgeschichte der Holostomiden. I. Zool. Anz. 58, 299314.Google Scholar
Szidat, L. (1924 b). Beiträge zur Entwicklungsgeschichte der Holostomiden. II. Zool. Anz. 61, 249266.Google Scholar
Szidat, L. (1929). Beiträge zur Entwicklungsgeschichte der Holostomiden. III. Zool. Anz. 86, 133149.Google Scholar
Vevers, G. M. (1923). Observations on the life-histories of Hypodaerium conoideum (Bloch.) and Echinostomum revolutum (Froel.), Trematode parasites of the domestic duck. Ann. Appl. Biol. Cambridge, 10, 134136.Google Scholar