Hostname: page-component-68945f75b7-qf55q Total loading time: 0 Render date: 2024-08-05T15:55:17.716Z Has data issue: false hasContentIssue false
  • English
  • Français

Observations on Cochlodesma Praetenue (Pulteney) [Eulamellibranchia]

Published online by Cambridge University Press:  11 May 2009

J. A. Allen
J. A. Allen
Affiliation:
Dove Marine Laboratory, Cullercoats
Get access Rights & Permissions [Opens in a new window]

Extract

Cochlodesma praetenue is well adapted for a sedentary life in sheltered conditions in soft substrata at low-water mark to a depth of 60 fathoms.

The habits, morphology and ciliary feeding and cleansing mechanisms are described and compared with those of members of the related families Thraciidae, Pandoridae and Lyonsiidae.

The complex ligament is described. The mantle edges are extensively fused. The detailed structure of the siphons is described and related to their function of laying down mucus-lined inhalant and exhalant tubes.

The morphology and ciliary currents of the stomach show modifications similar to those previously described for Pandora. These modifications involve the extent of the major typhlosole and the replacement of an intestinal groove by lateral rejection grooves.

Analysis of three large samples shows that Cochlodesma from the Northumberland coast live for a maximum of 5 years. These animals become mature in their third year, spawning in early November.

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 37 , Issue 1 , February 1958 , pp. 97 - 112
Copyright
Copyright © Marine Biological Association of the United Kingdom 1958

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Allen, J. A., 1953. Function of the foot in the Lucinacea (Eulamellibranchia). Nature, Lond., Vol. 171, p. 1117.CrossRefGoogle ScholarPubMed
Allen, J. A., 1954. On the structure and adaptations of Pandora inaequivalvis and P. pinna. Quart. J. micr. Set., Vol. 95, pp. 473–82.Google Scholar
Allen, M. F. & Allen, J. A., 1955. On the habits of Pandora inaequivalvis (Linnèe). Proc. malac. Soc. Lond., Vol. 31, pp. 175–85.Google Scholar
Atkins, D., 1937 a. On the ciliary mechanisms and interrelationships of lamellibranchs. Part II. Quart. J. micr. Sci., Vol. 79, pp. 339–73.Google Scholar
Atkins, D., 1937 b. On the ciliary mechanisms and interrelationships of lamellibranchs. Part III. Quart. J. micr. Set., Vol. 79, pp. 375421.Google Scholar
Chapman, G. & Newell, G. E., 1956. The rôle of the body fluid in the movement of soft-bodied invertebrates. II. The extension of the siphons of Mya arenaria L. and Scrobicularia plana (da Costa). Proc. roy. Soc. B, Vol. 145, pp. 564–80.Google Scholar
Forbes, E. & Hanley, S., 1853. A History of the British Marine Mollusca, and their Shells. London.Google Scholar
Morton, J. E., 1956. The tidal rhythm and action of the digestive system of the lamellibranch Lasaea rubra. J. mar. biol. Ass. U.K., Vol. 35, pp. 563–86.CrossRefGoogle Scholar
Oldfield, E., 1955. Observations on the anatomy and mode of life of Lasaea rubra (Montagu) and Turtonia minuta (Fabricius). Proc. malac. Soc. Lond., Vol. 31, pp. 226–47.Google Scholar
Owen, G., 1953. On the biology of Glossus humanus (L.) (Isocardia cor Lam.). J. mar. biol. Ass. U.K., Vol. 32, pp. 85106.CrossRefGoogle Scholar
Owen, G., 1955. Observations on the stomach and digestive diverticula of the Lamellibranchia. I. The Anisomyaria and Eulamellibranchia. Quart. J. micr. Sci., Vol. 96, pp. 517–37.Google Scholar
Owen, G.Trueman, E. R. & Yonge, C. M., 1953. The ligament in the Lamellibranchia. Nature, Lond., Vol. 171, p. 73.CrossRefGoogle ScholarPubMed
Ridewood, W. G., 1903. On the structure of the gills of the Lamellibranchia. Phil. Trans. B, Vol. 195, pp. 147248.Google Scholar
Thiele, J., 1935. Classis Bivalvia. Handbuch der Systematischen Weichtierkunde, Tl. 3. Jena.Google Scholar
Yonge, C. M., 1926. The digestive diverticula in lamellibranchs. Trans, roy. Soc. Edinb., Vol. 54, pp. 703–18.CrossRefGoogle Scholar
Yonge, C. M., 1937. The formation of siphonal openings by Thracia pubescens. Proc. malac. Soc. Lond., Vol. 22, pp. 337–8.Google Scholar
Yonge, C. M., 1949. On the structure and adaptations of the Tellinacea, deposit-feeding Eulamellibranchia. Phil. Trans. B, Vol. 234, pp. 2976.Google Scholar
Yonge, C. M., 1952. Studies on Pacific coast mollusks. IV-VI. Structure and adaptation in Entodesma saxicola (Baird) and Mytilimeria nuttallii Conrad, with a discussion on the evolution of the family Lyonsiidae (Eulamellibranchia). Univ. Calif. Publ. Zool, Vol. 55, pp. 439–50.Google Scholar
Yonge, C. M., 1957. Mantle fusion in the Lamellibranchia. Pubbl. Staz. zool. Napoli, Vol. 29, pp. 151–71.Google Scholar