Hostname: page-component-8448b6f56d-cfpbc Total loading time: 0 Render date: 2024-04-19T23:18:26.163Z Has data issue: false hasContentIssue false
  • English
  • Français

Physiological Indices of Stress in Mytilus Edulis

Published online by Cambridge University Press:  11 May 2009

J. Widdows
J. Widdows
Affiliation:
Institute for Marine Environmental Research, Prospect Place, The Hoe, Plymouth PLl 3DH
Get access Rights & Permissions [Opens in a new window]

Extract

In nature, organisms are subjected to a variety of environmental factors acting together and they respond to the total resulting stimulus rather than to single environmental variables. In addition, the animal's response is not in terms of individual physiological rates but rather as a whole organism. Therefore an experimental approach to an animal's response to a complex environment could usefully include (a) multivariate experiments and (b) integration of individual physiological processes to provide a greater under-standing of the ‘whole organism’ response. In this paper, non-linear multiple regression equations and response surfaces are used to describe and illustrate the combined effects on the common mussel, Mytilus edulis L., of body size, ration and season on physio-logical integrations such as the scope for growth, growth efficiency and the oxygen: nitrogen ratio (reviewed by Bayne, 1975; Bayne, Widdows & Thompson, 1976). The data used to compute these physiological integrations are derived from a series of multivariate experiments described in a preceding paper (Widdows, 1978).

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 58 , Issue 1 , February 1978 , pp. 125 - 142
Copyright
Copyright © Marine Biological Association of the United Kingdom 1978

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

Ansell, A. D. & Sivadas, P., 1973. Some effects of temperature and starvation on the bivalve Donax vittatus (da Costa) in experimental laboratory populations. Journal of Experimental Marine Biology and Ecology, 13, 229262.CrossRefGoogle Scholar
Bayne, B. L., 1973 a. Physiological changes in Mytilus edulis L., induced by temperature and nutritive stress. Journal of the Marine Biological Association of the United Kingdom, 53, 3958.CrossRefGoogle Scholar
Bayne, B. L., 1973 b. Aspects of the metabolism of Mytilus edulis during starvation. Netherlands Journal of Sea Research, 7, 399410.Google Scholar
Bayne, B. L., 1975. Aspects of physiological condition in Mytilus edulis (L), with special reference to the effects of oxygen tension and salinity. In Proceedings of the gth European Marine Biology Symposium (ed. Barnes, H.), pp. 213238. Aberdeen: Aberdeen University Press.Google Scholar
Bayne, B. L., Thompson, R. J. & Widdows, J., 1973. Some effects of temperature and food on the rate of oxygen consumption by Mytilus edulis L. In Effects of Temperature on Ectothermic Organisms (ed. Wieser, W.), pp. 181193. Berlin: Springer-Verlag.CrossRefGoogle Scholar
Bayne, B. L., Widdows, J. & Thompson, R. J., 1976. Physiological integrations. In MarineMussels: Their Ecology and Physiology (ed. Bayne, B. L.), pp. 261291. Cambridge: Cam-bridge University Press.Google Scholar
Bayne, B. L., Widdows, J. & Worrall, C. M., 1977. Some temperature relationships in the physiology of two ecologically distinct bivalve populations. In Physiological Responses of Marine Biota to Pollutants (ed. Vernberg, F. J.et al.), pp. 379400. New York: Academic Press.CrossRefGoogle Scholar
Brett, J. R., Shelbourn, J. E. & Shoop, C. T., 1969. Growth rate and body composition of fingerling sockeye salmon, Oncorhynchus nerka, in relation to temperature and ration size. Journal of the Fisheries Research Board of Canada, 26, 23632393.Google Scholar
Corner, E. D. S. & Cowey, C. B., 1968. Biochemical studies on the production of marine zoo-plankton. Biological Reviews, 43, 393426.Google Scholar
Crisp, D. J., 1971. Energy flow measurements. In Methods for the Study of Marine Benthos (ed. Holme, N. A. and Mclntyre, A. D.), pp. 197279. (IBP Handbook No. 16). Oxford: Blackwell Scientific Publications.Google Scholar
Fry, F. E. J., 1947. Effects of the environment on animal activity. University of Toronto Studies: Biological Series, No. 55, 162. Publications of the Ontario Fisheries Research Laboratory. University of Toronto Press.Google Scholar
Gabbott, P. A. & Bayne, B. L., 1973. Biochemical effects of temperature and nutritive stress on Mytilus edulis L. Journal of the Marine Biological Association of the United Kingdom, 53, 269286.Google Scholar
Jorgensen, C. B., 1952. Efficiency of growth in Mytilus edulis and two gastropod veligers. Nature, London, 170, 714.Google Scholar
Kerr, S. R., 1971 a. Analysis of laboratory experiments on growth efficiency of fishes. Journal of the Fisheries Research Board of Canada, 28, 801808.Google Scholar
Kerr, S. R., 1971 b. Prediction of growth efficiency in nature. Journal of the Fisheries Research Board of Canada, 28, 809814.Google Scholar
Mayzaud, P., 1973. Respiration and nitrogen excretion of zooplankton. II. Studies of the metabolic characteristics of starved animals. Marine Biology, 21, 1928.Google Scholar
Paloheimo, J. E. & Dickie, L. M., 1965. Food and growth of fishes. I. A growth curve derived from experimental data. Journal of the Fisheries Research Board of Canada, 22, 521542.CrossRefGoogle Scholar
Paloheimo, J. E. & Dickie, L. M., 1966 a. Food and growth of fishes. II. Effects of food and temperature on the relation between metabolism and body weight. Journal of the Fisheries Research Board of Canada, 23, 869908.CrossRefGoogle Scholar
Paloheimo, J. E. & Dickie, L. M., 1966 b. Food and growth of fishes. III. Relations among food, body size and growth efficiency. Journal of the Fisheries Research Board of Canada, 23, 12091248.CrossRefGoogle Scholar
Pandian, T. J., 1967. Intake, digestion, absorption and conversion of food in the fishes Megalops cyprionides and Ophiocephalus striatus. Marine Biology, 1, 1632.Google Scholar
Read, K. R. H. & Cumming, K. B., 1967. Thermal tolerance of the bivalve molluscs, Modiolus modiolus L., Mytilus edulis L. and Brachidontes demissus Dillwyn. Comparative Biochemistry and Physiology, 22, 149155.CrossRefGoogle ScholarPubMed
Thompson, R. J. & Bayne, B. L., 1974. Some relationships between growth, metabolism and food in the mussel, Mytilus edulis. Marine Biology, 27, 317326.Google Scholar
Thompson, R. J., Ratcliffe, N. A. & Bayne, B. L., 1974. Effects of starvation on structure and function in the digestive gland of the mussel (Mytilus edulis L.). Journal of the Marine Bio-logical Association of the United Kingdom, 54, 699712.Google Scholar
Wallis, R. L., 1975. Thermal tolerance of Mytilus edulis of eastern Australia. Marine Biology, 30, 183191.Google Scholar
Warren, C. E. & Davis, G. E., 1967. Laboratory studies on the feeding, bioenergetics and growth of fish. In The Biological Basis of Freshwater Fish Production (ed. Gerking, S. D.), pp. 175214. Oxford: Blackwell Scientific Publications.Google Scholar
Wells, H. W. & Gray, I. E., 1960. The seasonal occurrence of Mytilus edulis on the Carolina coast as a result of transport around Cape Hatteras. Biological Bulletin. Marine Biological Laboratory, Woods Hole, Mass., 119, 550559.CrossRefGoogle Scholar
Widdows, J., 1973. Effect of temperature and food on the heart beat, ventilation rate and oxygen uptake of Mytilus edulis. Marine Biology, 20, 269276.Google Scholar
Widdows, J., 1976. Physiological adaptation of Mytilus edulis L. to cyclic temperatures. Journal of Comparative Physiology, 105, 115128.Google Scholar
Widdows, J., 1978. Combined effects of body size, food concentration and season on the physiology of Mytilus edulis L. Journal of the Marine Biological Association of the United Kingdom, 58, 109124.Google Scholar
Widdows, J. & Bayne, B. L., 1971. Temperature acclimation of Mytilus edulis with reference to its energy budget. Journal of the Marine Biological Association of the United Kingdom, 51, 827843.Google Scholar
Winberg, G. G., 1956. Rate of metabolism and food requirements of fishes. Trudy Belorusskogo gosudarstvernogo universiteta Minske, 253 pp. [Translated from Russian by Fisheries Research Board of Canada, Translation Series, 194, 1960.]Google Scholar
Winter, J. E., 1974. Growth in Mytilus edulis using different types of food. Berichte der Deutschen wissenschaftlichen Kommission fur Meeresforschung, 23, 360375.Google Scholar
Winter, J. E. & Langton, R. W., 1976. Feeding experiments with Mytilus edulis L. at small laboratory scale. I. The influence of the total amount of food ingested and food concentration on growth. In Proceedings of the 10th European Marine Biology Symposium (ed. Persoone, G. and Jaspers, E.), pp. 565581. Wetteren: Universa Press.Google Scholar