Hostname: page-component-78c5997874-lj6df Total loading time: 0 Render date: 2024-11-20T06:09:40.110Z Has data issue: false hasContentIssue false
  • English
  • Français

The Harpacticoid Copepod Fauna of the River Ythan and Its Estuary, Aberdeenshire, Scotland

Published online by Cambridge University Press:  11 May 2009

David C. Hockin
David C. Hockin
Affiliation:
Culterty Field Station, Department of Zoology, University of Aberdeen, Newburgh, Ellon, Scotland, AB4 0AA
Get access Rights & Permissions [Opens in a new window]

Extract

Harpacticoid copepods (Crustacea) comprise an important taxon of the sedimentdwelling meiofauna, generally being numerically inferior to only the Nematoda (Hulings & Gray, 1971). This paper reports those species comprising the fauna of the sediments of the River Ythan estuary, particularly the intertidal sediments, and describes some of the properties of the meiobenthic copepod community structure.

Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 62 , Issue 3 , August 1982 , pp. 729 - 736
Copyright
Copyright © Marine Biological Association of the United Kingdom 1982

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

Aitchison, J. & Brown, J. A. C., 1966. The Lognormal Distribution. 176 pp. Cambridge University Press.Google Scholar
Ankar, S. & Elmgren, R., 1976. The benthic macro- and meiofauna of the Askö-Landsort area (Northern Baltic proper) - a stratified random sampling survey. Contributions from the Askö Laboratory, University of Stockholm, no. 11, 115 pp.Google Scholar
Anscombe, F. J., 1950. Sampling theory of the negative binomial and logarithmic series distributions. Biometrica, 37, 358382.Google Scholar
Boswell, M. T. & Patil, G. P., 1971. Chance mechanisms generating the logarithmic series distribution used in the analysis of species and individuals. In Statistical Ecology, vol. 1 (ed. Patil, G. P., Pielou, E. C. and Waters, W. E.), pp. 121130. Pennsylvania State University Press.Google Scholar
Castel, J., 1980. Description des peuplements de copepodes melobenthiques dans une système lagunaire du Bassin d'Arcachon. Utilisation de modeles de distributions d'abondance. Cahiers de biologie marine, 21, 7389.Google Scholar
Clarke, M. E., 1968. The Ecology of Supra-Littoral Rockpools with Special Reference to the Copepod Fauna. Ph.D. Thesis, University of Aberdeen.Google Scholar
Clarke, M. E., 1971. The factors affecting the distribution of the copopod fauna of supra-littoral rock pools. Vie et milieu, 22 (supplement), 347355.Google Scholar
Edden, A. C., 1971. A measure of species diversity related to the lognormal distribution of individuals among species. Journal of Experimental Marine Biology and Ecology, 6, 199209.Google Scholar
Eddison, J. C. & Ollason, J. G., 1978. Diversity in constant and fluctuating environments. Nature, London, 275, 309310.Google Scholar
Ewens, W. J., 1972. The sampling theory of selectively neutral alleles. Theoretical Population Biology, 3, 87112; erratum 376.CrossRefGoogle ScholarPubMed
Fisher, R. A., Corbett, A. S. & Williams, C. B., 1943. The relation between the number of species and the number of individuals in a random sample of an animal population. Journal of Animal Ecology, 12, 4258.Google Scholar
Fraser, M. E., 1967. The Effect of Impoundment on the Physical, Chemical and Biological Properties of a Body of Estuarine Water. Hons. Thesis, University of Aberdeen.Google Scholar
Fraser, S. M., 1967. A Study of the Fauna of Salt Marsh Pools on the Ythan Estuary. Hons. Thesis, University of Aberdeen.Google Scholar
Gage, J. & Tett, P. B., 1973. The use of log-normal statistics to describe the benthos of Loch Etive and Creran. Journal of Animal Ecology, 42, 373382.CrossRefGoogle Scholar
Goodman, K., 1980. The Ecology of Meiofauna Populations in the Ythan Estuary. Ph.D. Thesis, University of Aberdeen.Google Scholar
Gray, J. S., 1978. The structure of meiofauna communities. Sarsia, 64, 265272.Google Scholar
Gray, J. S. & Mirza, F. B., 1979. A possible method for the detection of pollution-induced disturbance in marine benthic communities. Marine Pollution Bulletin, 10, 142146.CrossRefGoogle Scholar
Healey, M. C., 1969. The Distribution and Abundance of Sand Gobies, Gobius minutus, in the Ythan Estuary. Ph.D. Thesis, University of Aberdeen.Google Scholar
Healey, M. C., 1971. The distribution and abundance of sand gobies, Gobius minutus, in the Ythan estuary. Journal of Zoology, 163, 177229.Google Scholar
Healey, M. C., 1972. On the population ecology of the common goby in the Ythan estuary. Journal of Natural History, 6, 133145.Google Scholar
Hicks, G. R. F., 1980. Structure of phytal harpacticoid copepod assemblages and the influence of habitat complexity and turbidity. Journal of Experimental Marine Biology and Ecology, 44, 157192.Google Scholar
Hockin, D. C., 1981 a. The Dynamics of Invasion and Uses of Niches by Meiobenthic Harpacticoid Copepods (Crustacea). Ph.D. Thesis, University of Aberdeen.Google Scholar
Hockin, D. C., 1981 b. Maintenance of a diverse harpacticoid copepod community in microcosm culture. Marine Biology, 65, 209214.Google Scholar
Hockin, D. C., 1982 a. Further records of meiofauna predation and implications for the community stability. Crustaceana, 42, 106108.Google Scholar
Hockin, D. C., 1982 b. The effects of sediment particle diameter upon the harpacticoid copepod community: a field and laboratory experiment. Journal of Animal Ecology. (In the Press.)Google Scholar
Hockin, D. C. & Ollason, J. G., 1981. The colonization of artificially isolated volumes of intertidal estuarine sand by harpacticoid copepods. Journal of Experimental Marine Biology and Ecology, 53, 929.Google Scholar
Holgate, P., 1969. Species frequency distributions. Biometrica, 56, 651660.CrossRefGoogle Scholar
Hulings, N. C. & Gray, J. S., 1971. A manual for the study of the meiofauna. Smithsonian Contributions to Zoology, no. 78, 84 pp.Google Scholar
Karlin, S. & McGregor, J., 1972. Addendum to a paper by W. Ewens. Theoretical Population Biology, 3, 113116.Google Scholar
Kempton, R. A., 1975. A generalised form of Fisher's logarithmic series. Biometrica, 62, 2938.CrossRefGoogle Scholar
Kendal, D. G., 1935. On some modes of population growth leading to R. A. Fisher's logarithmic series distribution. Biometrica, 35, 615.CrossRefGoogle Scholar
Kimura, M. & Crow, J. F., 1964. The number of alleles that can be maintained in a finite population. Genetics, 49, 725733.CrossRefGoogle Scholar
Lang, K., 1948. Monographie der Harpacticiden. 2 vols., 1683 pp. Stockholm.Google Scholar
Lang, K., 1965. Copepoda Harpacticoidea from the Californian Pacific coast. Kungliga Svenska vetenskapakademiens handlingar, 10, 566 pp.Google Scholar
Lie, U., 1969. The logarithmic series and log-normal distributions applied to benthic infauna of Puget Sound, U.S.A. Fiskeridirektoratets skrifter (ser. Havundersokelser), 15, 234245.Google Scholar
Macarthur, R. H., 1957. On the relative abundance of bird species. Proceedings of the National Academy of Sciences of the United States of America, 43, 293295.Google Scholar
Milne, H. & Dunnet, G. M., 1972. Standing crop, productivity and trophic relationships of the fauna of the Ythan estuary. In The Estuarine Environment (ed. Barnes, R. S. K. and Green, J.), pp. 86106. Applied Science Publishers.Google Scholar
Pielou, E. C., 1975. Ecological Diversity. 165 pp. John Wiley and Sons.Google Scholar
Pielou, E. C., 1977. Mathematical Eocology, 2nd ed. x, 385 pp. John Wiley and Sons.Google Scholar
Scott, A., 1958. Studies on the Ecology of Sandy Beaches. Ph.D. Thesis, University of Aberdeen.Google Scholar
Scott, T., 1902. Notes on fresh and brackish-water Entomostraca found in Aberdeenshire. Annals of Scottish Natural History, 11, 2129.Google Scholar
Seaton, P. J. G., 1975. A Preliminary Study of the Meiofauna of Collieston Beach. Hons. Thesis, University of Aberdeen.Google Scholar
Skellam, J. G., 1951. Phylogeny as a stochastic process. Biometrics, 7, 121 (abstract no. 144).Google Scholar
Stenseth, N. C., 1979. Where have all the species gone ? On the nature of extinction and the red queen hypothesis. Oikos, 33, 196227.Google Scholar
Sugihara, G., 1980. Minimal community structure: an explanation of species abundance patterns. American Naturalist, 116, 770787.Google Scholar
Summers, R. W., 1974. The Feeding Ecology of the Flounder, Platichthys flesus (L.), in the Ythan Estuary, Aberdeenshire. Ph.D. Thesis, University of Aberdeen.Google Scholar
Summers, R. W., 1979. The diet and feeding behaviour of the flounder, Platichthys flesus (L.) in the Ythan estuary, Aberdeenshire, Scotland. Estuarine and Coastal Marine Science, 11, 217232.CrossRefGoogle Scholar
Warwick, R. M. & Buchanan, J. B., 1970. The meiofauna off the coast of Northumberland. I. The structure of the nematode population. Journal of the Marine Biological Association of the United Kingdom, 50, 129146.Google Scholar
Watterson, G. A., 1974. Models for the logarithmic series species abundance distribution. Theoretical Population Biology, 6, 217250.Google Scholar
Wells, J. B. J., 1963. Copepoda from the littoral region of the estuary of the river Exe (Devon, England). Crustaceana, 5, 1026.CrossRefGoogle Scholar
Wells, J. B. J., 1976. Keys to Aid in the Identification of Marine Harpacticoid Copepods. 215 pp. Aberdeen University Press.Google Scholar
Wells, J. B. J., 1978. Keys to aid in the identification of marine harpacticoid copepods. Zoology Publications from Victoria University of Wellington, no. 70, 11 pp. (Amendment Bulletin no. 1.)Google Scholar
Wells, J. B. J., 1979. Keys to aid in the identification of marine harpacticoid copepods. Zoology Publications from Victoria University of Wellington, no. 73, 8 pp. (Amendment Bulletin no. 2.)Google Scholar