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Observations on the ciliary currents of the jelly-fish Aurelia aurita L.

Published online by Cambridge University Press:  11 May 2009

A. J. Southward
A. J. Southward
Affiliation:
From the Plymouth Laboratory
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Summary

The jelly-fish Aurelia aurita possesses external and internal ciliary currents that play a large part in food collection and in the transport of food, reproductive products and excretory matter.

Adults feed on relatively small organisms, which are collected in mucus on all external surfaces and eventually passed to the inner surfaces of the oral arms.

The inner surfaces of the oral arms bear two ciliated tracts which operate simultaneously in opposite directions. The lateral tract carries food materials proximally towards the gastric pouches, but is capable of rejecting inedible matter. The basal tract carries excretory matter distally, away from the gastric pouches and canals to the exterior.

Rejection reactions are also found in the gastric pouches and radial canals, parts of which have currents moving in opposite directions on the roof and on the floor. These opposing currents appear to be derived from the system in the ephyra stage, where the circulation in the wide gastric cavity and blind-ending canals is maintained partly by centripetal currents on the floor and centrifugal currents on the roof.

The directions of the main currents remain constant throughout the larval stages to the adult, although slight variations are introduced by morphological changes. The currents also remain the same during spawning, when the eggs and sperm leave the gastric pouches by the normal excretory path.

Many of the ciliary currents found in Aurelia are present in other semaeostome and rhizostome medusae, but only in Aurelia do the umbrella surfaces and currents play a large part in food collection.

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 34 , Issue 2 , June 1955 , pp. 201 - 216
Copyright
Copyright © Marine Biological Association of the United Kingdom 1955

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References

Agassiz, L., 1860. Contributions to the Natural History of the United States of America. Vol. 4, pt. 3, pp. 1086. Boston.Google Scholar
Baker, J. R., 1944. The structure and chemical composition of the golgi element. Quart. J. micr. Sci., Vol. 85, pp. 1215.Google Scholar
Browne, E. T., 1901. Variation in Aurelia aurita. Biometrika, Vol. 1, pp. 90108.Google Scholar
Elmhirst, R.J 1925. The feeding habits of the sea-anemone Actinoloba. Scot. Nat., pp. 150–2.Google Scholar
Gemmill, J. F.J 1921. Notes on food capture and ciliation in the ephyrae of Aurelia. Proc. R. phys. Soc. Edinb., Vol. 20, pp. 222–5.Google Scholar
J, Goodeyj T. 1908. On the presence of gonadial grooves in a medusa, Aurelia aurita. Proc. zool. Soc. Lond., pp. 55–9.Google Scholar
J, Goodeyj T. 1909. A further note on the gonadial grooves of a medusa, Aurelia aurita. Proc. zool. Soc. Lond., pp. 7881.Google Scholar
Hargitt, C. W. & Hargitt, G. T. 1910. Studies in the development of Scyphomedusae. J. Morph., Vol. 21, pp. 217–62.Google Scholar
Henschel, J., 1935. Untersuchungen iiber den chemischen Sinn von Scyphomedusen und Hydromedusen. Wiss. Meeresuntersuch., Abt. Kiel, Bd. 22, pp. 2142.Google Scholar
Hyman, L. H., 1940. The Invertebrates. Protozoa through Ctenophora. 550 pp. New York.Google Scholar
Krasinska, S., 1914. Beitrage zur Histologie der Medusen. Z. wiss. Zool., Bd. 109, pp. 256348.Google Scholar
Miles, A. E. W. & Linder, J. E., 1952. Polyethylene glycols as histological embedding media. J. R. micr. Soc, Vol. 72, pp. 199213.CrossRefGoogle ScholarPubMed
Orton, J. H., 1922. The mode of feeding of the jelly-fish, Aurelia aurita, on the smaller organisms in the plankton. Nature, Lond., Vol. 110, p. 178.Google Scholar
Parker, G. H. & Marks, A. P., 1928. Ciliary reversal in the sea-anemone Metridium. J. exp. Zool., Vol. 52, pp. 16.CrossRefGoogle Scholar
Smith, H. G., 1936. Contribution to the anatomy and physiology of Cassiopeia frondosa. Pap. Tortugas Lab., Vol. 31, pp. 1952.Google Scholar
Southward, A. J., 1949. Ciliary mechanisms in Aurelia aurita. Nature, Lond., Vol. 163, p. 536.Google Scholar
Southward, A. J. 1954. Some notes on Manx medusae. Rep. Mar. biol. Sta. Port Erin, No. 66 (1953) PP 1722.Google Scholar
Widmark, E. M. P., 1911. Uber die Gastrovascularstromungen bei Aurelia aurita L., und Cyanea capillata Eschz. Zool. Anz., Bd. 38, pp. 378–82.Google Scholar
Widmark, E. M. P. 1913. Uber die Wasserstromungen in dem Gastrovascularapparat von Aurelia aurita L. Z. allg. Physiol., Bd. 15, pp. 3348.Google Scholar