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Limnology and macrophytic vegetation of Loch Obisary, a deep brackish lake in the Outer Hebrides*

Published online by Cambridge University Press:  05 December 2011

D. H. N. Spence ,
A. M. Barclay  and
P. C. Bodkin
D. H. N. Spence
Affiliation:
Department of Botany, University of St Andrews
A. M. Barclay
Affiliation:
Department of Botany, University of St Andrews
P. C. Bodkin
Affiliation:
Department of Botany, University of St Andrews
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Synopsis

Loch Obisary has a narrow sea inlet to a north basin which is 45 m deep, stratified in summer and winter and joined by shallow channels to an unstratifled south basin.

Mean conductivity (25°C) and sodium measurements indicate that in summer and winter the north basin epilimnion and the south basin comprises about 50%, and the north basin hypolimnion about 80%, sea water. It is calculated that 56% of high tides enter the loch.

Vertical diffuse attenuation coefficients for blue, green and red light are the same in epilimnion and south basin, the blue coefficient being slightly higher than the red in July and much higher in January. In July the blue coefficient in the hypolimnion is lower that the red, as in clear coastal water.

Six out of 24 macrophytes, and eight epiphytes, are confined within 200 m of the sea inlet. Distribution and depth limits of those and other species are discussed in relation to substrate, water chemistry and light. The presence of a halocline in the north basin and its absence from the south basin allow a comparison to be drawn between depth limits set by water chemistry (north basin), and those predicted on the basis of light (south basin) for Potamogeton pectinatus and Nitella opaca.

Type
Research Article
Information
Proceedings of the Royal Society of Edinburgh, Section B: Biological Sciences , Volume 78 , Issue 1-2 , 1979 , pp. 123 - 138
Copyright
Copyright © Royal Society of Edinburgh 1979

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Footnotes

*

This paper was assisted in publication by a grant from the Carnegie Trust for the Universities of Scotland.

References

Allen, G. O., 1950. British Stoneworts (Charophyta). Arbroath.Google Scholar
Bisson, M. A., and Kirst, G. O., (1979). The brackish-water charophyte, Lamprothamnium: membrane potentials and osmotic responses. In Proceedings of the Plant Membrane transport Workshop Toronto, July 1979 (eds. Spanswick, R. M., Lucas, W. J. and Dainty, J.). Amsterdam: Elsevier/North-Holland.Google Scholar
Clapham, A. R., Tutin, T. G., and Warburg, E. F., 1962. The Flora of the British Isles. Cambridge.Google Scholar
Den Hartog, G. C., 1977. Structure, function and classification in Seagrass communities. In Seagrass Ecosystems (eds. McRoy, C. P. and Helfferich, C.), pp. 89122. New York.Google Scholar
Golterman, H., 1970. Methods for chemical analysis of fresh waters. International Biological Handbook 8, Oxford.Google Scholar
Groves, J., and Bullock-Webster, G. R., 1924. The British Charophyta. London.Google Scholar
Haslam, S. M., Sinker, P., and Wolseley, P., 1975. British Water Plants. Field Studies, 4, 243351.Google Scholar
Hoek, C., Den, Van, 1963. Revision of the European species of Cladophora. Leiden.Google Scholar
Hutchinson, G. E., 1957. A Treatise on Limnology, Vol. 1: Physics and Chemistry. New York.Google Scholar
Murray, J., and Pullar, L., (eds.), 1910. The Bathymetric Survey of the Scottish Freshwater Lochs Vol. II and IV. Edinburgh.Google Scholar
Mitchell, R., Dipper, F. A., and Earll, R., 1980. A preliminary study of Loch Obisary: a brackish Hebridean loch. Ann. Rep. Underwater Ass. (in press).Google Scholar
Nicol, E. A. T., 1936. The brackish water lochs of North Uist. Proc. Roy. Soc Edinb. 56, 169195.Google Scholar
Nicol, J. A. C., 1967. The Biology of Marine Animals, 2nd edn, pp. 812. London.Google Scholar
Parke, M., and Dixon, P. S., 1976. Check list of British Marine Algae. Third Revision. J. Mar. Biol. Ass. U.K., 56, 527594.Google Scholar
Peach, B. N., and Horne, J., 1910. The Scottish Lakes in relation to the geological features of the country. In The Bathymetric Survey of the Scottish Freshwater Lochs (eds, Murray, J. and Pullar, L.), Vol. I, pp. 439513.Google Scholar
Spence, D. H. N., 1976. Light and plant response in fresh water. In Light as an Ecological Factor, II (eds Evans, G. C., Bainbridge, R. and Rackham, O.), pp. 93133. 16th Symposium of the British Ecological Society, Oxford.Google Scholar
Spence, D. H. N., Allen, E. D., and Fraser, J., 1979. The macrophytic vegetation of fresh and brackish waters in and around Loch Druidibeg National Nature Reserve, South Uist, Proc. Roy. Soc. Edinb., 77B, 267280.Google Scholar
Tett, P., and Wallis, A., 1978. The general annual cycle of chlorophyll standing crop in Loch Creran, J. Ecol., 66, 227239.CrossRefGoogle Scholar
Tetter, J. W., 1965. Effects of man on the sago pondweed, J. Wildl. Mgmt, 29, 838845.CrossRefGoogle Scholar
Walker, G., 1978. 1978 Tide Tables for Mallaig, Barra and Loch Maddy. Mallaig.Google Scholar
Weast, R. C., (ed.), 1974. Handbook of Chemistry and Physics, D221. Cleveland, Ohio.Google Scholar
Wood, R. D., and Imahori, K., 1965. A Revision of the Characaee. Weinheim.Google Scholar
Wood, B. J. B., Tett, P. B., and Edwards, A., 1973. An introduction to the phytoplankton, primary production and relevant hydrography of Loch Etive, J. Ecol., 61, 569585.CrossRefGoogle Scholar