Hostname: page-component-7479d7b7d-767nl Total loading time: 0 Render date: 2024-07-08T12:19:59.259Z Has data issue: false hasContentIssue false
  • English
  • Français

The Abundance and Distribution of Eggs and Larvae of Teleost Fishes off Plymouth in 1969 and 1970: Part 3. Eggs of Pilchard (Sardina Pilchardus Walbaum) and Sprat (Sprattus Sprattus (L.))

Published online by Cambridge University Press:  11 May 2009

Neclâ Demir  and
A. J. Southward
Neclâ Demir
Affiliation:
Department of Zoology (II), University of Istanbul, and The Laboratory, Marine Biological Association, Citadel Hill, Plymouth
A. J. Southward
Affiliation:
Department of Zoology (II), University of Istanbul, and The Laboratory, Marine Biological Association, Citadel Hill, Plymouth
Get access Rights & Permissions [Opens in a new window]

Extract

Pilchard eggs were collected over a grid of 30 stations visited on 14 cruises from August 1969 to November 1970. The samples were taken with oblique tows of a 1 m terylene net at 4 knots, the average volume of water filtered being 750 m3. The formalin preserved eggs were graded into the series of stages described by Gamulin & Hure. No very early eggs were found, but from the occurrence of stage 2 eggs it is deduced that most spawning takes place in the early hours of darkness, between 20.00 and 24.00 h B.S.T.: some spawning must also occur all round the clock.

There were two main peaks of spawning, June-July and October-November, when large numbers of eggs were found inshore; the average numbers reached 196 per m2 water column in July and 30 per m2 water column in October. Smaller numbers of eggs were taken in the other months of the year, mostly offshore, and with a minimum in December–February. In the spring (March-May) the area sampled was well clear of the main area of spawning of pilchard in the approaches to the Channel, north or northwest of Ushant.

During the peak months no particular part of the sampling area appeared to be especially favoured for spawning.

The significance of the two main peaks of spawning is discussed in relation to the problem of recruitment of fish to the population. As an alternative to the accepted hypothesis that young pilchard move back to the Bay of Biscay for maturation it is suggested that some of them, at least, may survive and mature in the Channel.

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 54 , Issue 2 , May 1974 , pp. 333 - 353
Copyright
Copyright © Marine Biological Association of the United Kingdom 1974

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

Aboussouan, A., 1964. Contribution a l'étude des oeufs et larves pelagiques despoissons téléostéens dans le Golfe de Marseilles. Recueil des Travaux de la Station Marine d'Endoume, 32(48), 87173.Google Scholar
Ahlstrom, E. H., 1950. Influence of temperature on the rate of development of pilchard eggs in nature. Special Scientific Report. United States Department of the Interior. Fish and Wildlife Service, 15, 132–67 (reissue of report no. 32 originally mimeographed in 1943).Google Scholar
Ahlstrom, E. H., 1959. Vertical distribution of pelagic fish eggs and larvae off California and Baja California. Fishery Bulletin of the Fish and Wildlife Service, United States, 60, 107–46.Google Scholar
Arbault, S. & Boutin, N., 1968. Oeufs et larves de poissons téléostéens dans le Golfe de Gascogne en 1964. Revue des travaux. Institut des pêches maritimes, 32, 413–76.Google Scholar
Arbault, S. & Lacroix, Boutin N., 1969. Epoques et aires de ponte des possions teleosteens du golfe de Gascogne en 1965–1966 (oeufs et larves). Revue des travaux. Institut des pêches maritimes, 33, 181202.Google Scholar
Arbault, S. & Lacroix, N., 1971. Aires de ponte de la sardine, du sprat et de l'anchois dans le golfe de Gascogne et sur la plateau celtique. Resultats de 6 années d'étude. Revue des travaux. Institut des pêches maritimes, 35, 3556.Google Scholar
Cushing, D. H., 1957. The number of pilchards in the Channel. Fishery Investigations, Ministry of Agriculture, Fisheries and Food, Ser. 2, 21 (5), 127.Google Scholar
Furnestin, J., 1944. Contribution a l'étude biologique de la Sardine Atlantique (Sardina pilchardus (Walbaum). Revue des travaux d'office des pêches maritimes, 13, 221386.Google Scholar
Gamulin, T., 1960. Les problems de la ponte de la Sardine (Sardina pilchardus Walbuam). Proceedings of the World Scientific meeting on the biology of the Sardine and related species, Rome, 1959, 3, 1003–14.Google Scholar
Gamulin, T. & Hure, J., 1955. Contribution a la connaissance de l'ecologie de la ponte de la sardine (Sardina pilchardus Walb.) dans L'Adriatique. Acta adriatica, 7 (8), 23 pp.Google Scholar
L'herrou, R., 1971. Etude biologique de la sardine du Golfe de Gascogne et du plateau celtique. Revue des travaux. Institut des pêches maritimes, 35, 455–73.Google Scholar
Hickling, C. F., 1945. The seasonal cycle in the Cornish Pilchard, Sardina pilchardus Walbaum. Journal of the Marine Biological Association of the United Kingdom, 26, 115–38.CrossRefGoogle Scholar
Lebour, M. V., 1921. The larval and postlarval stages of the pilchard sprat and herring from Plymouth District. Journal of the Marine Biological Association of the United Kingdom, 12, 427–57.CrossRefGoogle Scholar
Massuti, O. M., 1955. La ponte de la sardine (Sardina pilchardus Walb.) dans le detroit de Gibraltar, la mer d'Alboran, les eaux du levant Espagnol et des Iles Baleares. Proceedings and Technical Papers of the General Fisheries Council for the Mediterranean, 3, 103–29.Google Scholar
Miller, D. J., 1952. Development through the prolarval stage of artificially fertilized eggs of the Pacific Sardine (Sardinops coerulea). California Fish and Game, 38, 587–91.Google Scholar
Saville, A., 1959. Mesh selection in plankton nets. Journal du Conseil, 23, 192201.CrossRefGoogle Scholar
Simpson, A. C., 1971. Diel spawning behaviour in populations of plaice dab, sprat and pilchard. Journal du Conseil, 34, 5864.CrossRefGoogle Scholar
Simpson, J. G. & Gonzalez, G. G., 1967. Some aspects of the early life-history and environment of the sardine, Sardinella anchovia in eastern Venezuela. Serie Recursosy Explotacion Pesqueros, 1(2), 93 pp.Google Scholar
Southward, A. J., 1962. The distribution of some plankton animals in the English Channel and approaches. II. Surveys with the Gulf III high-speed sampler, 1958–60. Journal of the Marine Biological Association of the United Kingdom, 42, 275375.CrossRefGoogle Scholar
Southward, A. J., 1963. The distribution of some plankton animals in the English Channel and approaches. III. Theories about long-term biological changes, including fish. Journal of the Marine Biological Association of the United Kingdom, 43, 129.CrossRefGoogle Scholar
Southward, A. J. & Demir, N., 1972. The abundance and distribution of eggs and larvae of some teleost fishes off Plymouth in 1969 and 1970. I. Methods and hydrography. Journal of the Marine Biological Association of the United Kingdom, 52, 987–96.CrossRefGoogle Scholar
Southward, A. J. & Demir, N., 1974. Seasonal changes in dimensions and viability of the developing eggs of the Cornish Pilchard (Sardina pilchardus Walbaum) off Plymouth. Proceedings of a Symposium on the Early Life History of Fish, Oban, May 1973. Heidelberg: Springer Verlag. (In Press.)Google Scholar
Vincent, A. & Kurc, G., 1969. Les variations de la situation thermique dans le golfe de Gascogne et leur incidence sur l'ecologie et la pêche de la sardine en 1969. Revue des travaux. Institut des peches maritimes, 33, 203–12.Google Scholar