Hostname: page-component-586b7cd67f-gb8f7 Total loading time: 0 Render date: 2024-11-25T23:07:29.536Z Has data issue: false hasContentIssue false
  • English
  • Français

Observations on byssus systems in the spat of Cerastoderma glaucum and C. edule

Published online by Cambridge University Press:  11 May 2009

Kobina Yankson
Kobina Yankson
Affiliation:
Department of Zoology, University College of Swansea, Singleton Park, Swansea SA2 8PP
Get access Rights & Permissions [Opens in a new window]

Introduction

Yonge (1962) suggests a possible universal occurrence of byssal apparatus in the post-larval spat of bivalves. Subsequent studies have revealed that the byssus thread secreted by the post-larval byssal apparatus of many bivalves is involved in settlement as well as migration by means of bysso-pelagic drifting (Sigurdsson, Titman & Davis, 1976; Blok & Tan-Maas, 1977; Board, 1983). Recent studies on the byssus and other foot glands in the early stages of bivalves have included Ostrea edulis (Cranfield, 1973 a, b, c); Pecten maximus (Gruffydd, Lane & Beaumont, 1975); Mytilus edulis (Lane & Nott, 1975; Lane, Nott & Crisp, 1982); and Chlamys varia L. (Gruffydd, Budiman & Nott, 1979)

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 66 , Issue 2 , May 1986 , pp. 277 - 292
Copyright
Copyright © Marine Biological Association of the United Kingdom 1986

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

REFERENCES

Baggerman, B., 1953. Spatfall and transport of Cardium edule L. Archives néerlandaises de zoologie, 10, 315342.Google Scholar
Barnes, R. S. K., 1980. Coastal Lagoons. Cambridge University Press.Google Scholar
Bayne, B. L., 1971. Some morphological changes that occur at the metamorphosis of the larvae of Mytilus edulis In Proceedings of the Fourth European Marine Biology Symposium, Bangor, 1969 (ed. Crisp, D. J.), pp. 259290. Cambridge University Press.Google Scholar
Blok, J. W. De & Tan-Maas, M., 1977. Function of byssus threads in young post-larval Mytilus. Nature, London, 267, 558.CrossRefGoogle Scholar
Board, P., 1983. The settlement of post-larval Mytilus edulis (settlement of post-larval mussels). Journal of Molluscan Studies, 49, 5360.Google Scholar
Boyden, C. R., 1971. A comparative study of the reproductive cycles of the cockles Cerastoderma edule and C. glaucum. Journal of the Marine Biological Association of the United Kingdom, 51, 605622.Google Scholar
Boyden, C. R., 1973. Observations on the shell morphology of the two species of cockle Cerastoderma edule and C. glaucum. Zoological Journal of the Linnean Society, 52, 269292.Google Scholar
Boyden, C. R. & Russell, P. J. C., 1972. The distribution and habitat range of the brackish water cockle (Cardium (Cerastoderma) glaucum) in the British Isles. Journal of Animal Ecology, 41, 719734.Google Scholar
Brock, V., 1978. Morphological and biochemical criteria for the separation of Cardium glaucum(Bruguiére) from Cardium edule L.Ophelia, 17, 207214.CrossRefGoogle Scholar
Brock, V., 1979. Habitat selection of two congeneric bivalves, Cardium edule and C. glaucum in sympatric and allopatric populations. Marine Biology, 54, 149156.Google Scholar
Caddy, J. F., 1969. Development of mantle organs. Feeding and locomotion in post-larval Macoma baltica (L.) (Lamellibranchiata). Canadian Journal of Zoology, 47, 609617.CrossRefGoogle Scholar
Carriker, M. R., 1956. Biology and propagation of young hard clams, Mercenaria mercenaria. Journal of the Elisha Mitchell Scientific Society, 72, 5760.Google Scholar
Cranfield, H. J., 1973 a. A study of morphology, ultrastructure and histochemistry of the foot of the pediveliger of Ostrea edulis. Marine Biology, 22, 187202.CrossRefGoogle Scholar
Cranfield, H. J., 1973 b. Observations on the behaviour of the pediveliger of Ostrea edulis during attachment and cementing. Marine Biology, 22, 203—209.CrossRefGoogle Scholar
Cranfield, H. J., 1973 c. Observations on the functions of the glands of the foot of the pediveliger of Ostrea edulis during settlement. Marine Biology, 22, 211223.Google Scholar
Ewart, J. W. & Epifanio, C. E., 1981. A tropical flagellate food for larval and juvenile oysters, Crassostrea virginica Gmelin. Aquaculture, 22, 297300.CrossRefGoogle Scholar
Franklin, A., 1972. The cockle and its fisheries. Laboratory Leaflets. Fisheries Laboratory, Lowestoft, no. 26, 34 pp.Google Scholar
Gruffydd, Ll. D., Budiman, A. & Nott, J. A., 1979. The ultrastructure of the byssus and the byssus glands in Chlamys varia L. (Lamellibranchia). Journal of the Marine Biological Association of the United Kingdom, 59, 597603.Google Scholar
Gruffydd, Ll. D., Lane, D. J. W. & Beaumont, A. R., 1975. The glands of the larval foot in Pecten maximus L. and possible homologues in other bivalves. Journal of the Marine Biological Association of the United Kingdom, 55, 463—476.Google Scholar
Ivell, R., 1979. The biology and ecology of a brackish lagoon bivalve, Cerastoderma glaucum Bruguiére, in an English lagoon, the Widewater, Sussex. Journal of Molluscan Studies, 45, 383400.Google Scholar
Jelnes, J. E., Petersen, G. H. & Russell, P. J. C., 1971. Iso-enzyme taxonomy applied on four species of Cardium from Danish and British waters with a short description of the distribution of the species (Bivalvia). Ophelia, 9, 1519.Google Scholar
Kingston, P. F., 1972. Studies on the Reproductive Biology of Cardium glaucum (Bruguiére) and Cardium edule (Linné), with Particular Reference to Their Breeding and Development in the Laboratory Ph.D. Thesis, University of London.Google Scholar
Lane, D. J. W. & Nott, J. A., 1975. A study of the morphology, fine structure and histochemistry of the foot of the pediveliger of Mytilus edulis L. Journal of the Marine Biological Association of the United Kingdom, 55, 477–195.Google Scholar
Lane, D. J. W., Nott, J. A. & Crisp, D. J., 1982. Enlarged stem glands in the foot of the post-larval mussel, Mytilus edulis: adaptation for bysso-pelagic migration. Journal of the Marine Biological Association of the United Kingdom, 62, 809818.Google Scholar
Petersen, G. H., 1958. Notes on the growth and biology of the different Cardium species in Danish brackish water areas. Meddelelser fra Danmarks Fiskeri – og Havundersøgelser no. 22, 31 pp.Google Scholar
Petersen, G. H. & Russell, P. J. C., 1971 a. Cardium hauniense nov. sp. a new brackish water bivalve from the Baltic. Ophelia, 9, 1113.Google Scholar
Petersen, G. H. & Russell, P. J. C., 1971 b. Cardium hauniense compared with C. exiguum and C. glaucum. Proceedings of the Malacological Society of London, 39, 409—420.Google Scholar
Russell, P. J. C., 1972. Biological studies on Cardium glaucum, based on some Baltic and Mediterranean populations. Marine Biology, 16, 290296.CrossRefGoogle Scholar
Rygg, B., 1970. Studies on Cerastoderma edule (L.) and Cerastoderma glaucum (Poiret). Sarsia 43, 6580.CrossRefGoogle Scholar
Sigurdsson, J. B., Titman, C. W. & Davis, P. A., 1976. The dispersal of young post-larval bivalve molluscs by byssus threads. Nature, London, 262, 386387.Google Scholar
Verwey, J., 1981. The cockle Cerastoderma edule. In Invertebrates of the Wadden Sea Rept. 4 (ed. Dankers, N., Kühl, H. and Wolff, W. J.), pp. 115116. Rotterdam: Balkema.Google Scholar
Yankson, K. & Moyse, J., 1983. Artificial fertilization and rearing of Cerastoderma lamarcki (Reeve) in the laboratory. Journal of Molluscan Studies, supplement 12a, 209–213.Google Scholar
Yonge, C. M., 1962. On the primitive significance of the byssus in the Bivalvia and its effects in evolution. Journal of the Marine Biological Association of the United Kingdom 42, 113125.Google Scholar