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The structure and mode of action of the posterior adhesive organ of Pseudobenedenia nototheniae Johnston, 1931 (Monogenea: Capsaloidea)

Published online by Cambridge University Press:  06 April 2009

I. C. Williams
Affiliation:
Department of Zoology, The University, Hull
C. Ellis
Affiliation:
Department of Zoology, The University, Hull
V. W. Spaull
Affiliation:
British Antarctic Survey, Monks Wood Experimental Station, Huntingdon

Extract

An account is given of the structure and mode of action of the opisthaptor of the monogenean Pseudobenedenia nototheniae Johnston, 1931, from the skin of the fish Notothenia neglecta, caught in December 1969 at a depth of 40 m offSigny Island (60° 43′ S., 45° 36′ W.), South Orkney Islands. The opisthaptor has a roughly hexagonal central loculus surrounded by a septum which is continuous with six radiating septa. It is armed with 14 marginal hooklets and three pairs of sclerites which function as anchors. The opisthaptor obtains adhesion through gripping the host's skin with the muscular rim, and through close contact by the marginal membrane. These form a water-tight seal, the surface area of which is about one-quarter of that of the ventral surface of the opisthaptor. The seal enables the opisthaptor to function as an underwater sucker. Contraction of muscles associated with the opisthaptor, in particular the extrinsic muscles, can generate a pressure difference across the wall of the opisthaptor some 50 times greater than that required to support the weight of the parasite, thus suggesting that reserves are available to resist dislodging forces such as increased water flow. The instability and tendency to slide of the sucker is counteracted by anchorage from the hooklets and sclerites. The structure and mode of action of the opisthaptor of P. nototheniae are discussed in relation to studies made by other authors on similar adhesive organs.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1973

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References

REFERENCES

Dollfus, R. P., & Euzet, L., (1965). Complément a la description de Pseudobenedenia nototheniae T. H. Johnston, 1931 (Trematoda: Monogenea) parasite d'un téléostéen du genre Notothenia Richardson des Kerguelen. Bulletin du Muséum d'histoire naturelle, Paris 36, 849–57.Google Scholar
Hargis, W. J., & Dillon, W. A., (1968). Helminth parasites of Antarctic vertebrates. Part IV. Monogenetic trematodes from Antarctic fishes: the superfamily Capsaloidea Price, 1936. Proceedings of the Biological Society of Washington 81, 403–12.Google Scholar
Johnston, T. H., (1931). New trematodes from the Subantarctic and Antarctica. Australian Journal of Experimental Biology and Medical Science. Adelaide 8, 91–8.CrossRefGoogle Scholar
Johnston, T. H., (1937). Report on the Trematoda. Australasian Antarctic Expedition 1911–1914. Scientific Reports. Series C.—Zoology and Botany 10 (1), 129.Google Scholar
Kearn, G. C., (1964). The attachment of the monogenean Entobdella soleae to the skin of the common sole. Parasitology 54, 327–35.CrossRefGoogle Scholar
Kearn, G. C., (1971). The physiology and behaviour of the monogenean skin parasite Entobdella soleae in relation to its host (Solea solea). In Ecology and Physiology of Parasites (ed. Fallis, A. M.), pp. 161–87. London: Hilger.CrossRefGoogle Scholar
Llewellyn, J., (1956). The adhesive mechanisms of monogenetic trematodes: the attachment of Plectanocotyle gurnardi (v. Ben. & Hesse) to the gills of Trigla. Journal of the Marine Biological Association of the United Kingdom, Plymouth 35, 507–14.CrossRefGoogle Scholar
Llewellyn, J., (1963). Larvae and larval development of monogeneans. Advances in Parasitology 1, 287326.CrossRefGoogle ScholarPubMed
Waite, E. R., (1916). Fishes. Australasian Antarctic Expedition 1911–1914. Scientific Reports. Series C.—Zoology and Botany 3 (1), 192.Google Scholar
Yamaguti, S., (1968). Monogenetic Trematodes of Hawaiian Fishes, 287 pp. Honolulu: University Hawaii Press.CrossRefGoogle Scholar