Biodiversity & Conservation

Habitat bibliography

Baardseth, E., (1970). Synopsis of the biological data on knotted wrack Ascophyllum nodosum (L.) Le Jolis. FAO Fisheries Synopsis, no. 38, Rev. 1.

Barthel, D. & Wolfrath, B., (1989). Tissue sloughing in the sponge Halichondria panicea: a fouling organism prevents being fouled. Oecologia, 78, 357-360.

Barthel, D., (1988). On the ecophysiology of the sponge Halichondria panicea in Kiel Bight. II. Biomass, production, energy budget and integration in environmental processes. Marine Ecology Progress Series, 43, 87-93.

Boaden, P.J.S. & Dring, M.T., (1980). A quantitative evaluation of the effects of Ascophyllum harvesting on the littoral ecosystem. Helgolander Meerestuntersuchungen, 33, 700-710.

Bokn, T., (1987). Effects of diesel oil and subsequent recovery of commercial benthic algae. Hydrobiologia, 151/152, 277-284.

Bryan, G.W. & Gibbs, P.E., (1983). Heavy metals from the Fal estuary, Cornwall: a study of long-term contamination by mining waste and its effects on estuarine organisms. Plymouth: Marine Biological Association of the United Kingdom. [Occasional Publication, no. 2.]

David, H.M., (1943). Studies in the autecology of Ascophyllum nodosum. Journal of Ecology, 31, 178-198.

Fletcher, R.L., (1996). The occurrence of 'green tides' - a review. In Marine Benthic Vegetation. Recent changes and the Effects of Eutrophication (ed. W. Schramm & P.H. Nienhuis). Berlin Heidelberg: Springer-Verlag. [Ecological Studies, vol. 123].

Hoare, R. & Hiscock, K., (1974). An ecological survey of the rocky coast adjacent to the effluent of a bromine extraction plant. Estuarine and Coastal Marine Science, 2, 329-348.

Holt, T.J., Hartnoll, R.G. & Hawkins, S.J., (1997). The sensitivity and vulnerability to man-induced change of selected communities: intertidal brown algal shrubs, Zostera beds and Sabellaria spinulosa reefs. English Nature, Peterborough, English Nature Research Report No. 234.

Holt, T.J., Jones, D.R., Hawkins, S.J. & Hartnoll, R.G., (1995). The sensitivity of marine communities to man induced change - a scoping report. Countryside Council for Wales, Bangor, Contract Science Report, no. 65.

Kautsky, H., (1992). The impact of pulp-mill effluents on phytobenthic communities in the Baltic Sea. Ambio, 21, 308-313.

Kinne, O. (ed.), (1972). Marine Ecology: A Comprehensive, Integrated Treatise on Life in Oceans and Coastal Waters,Vol.1, Environmental Factors, part 3. New York: John Wiley & Sons.

Knight, M. & Parke, M., (1950). A biological study of Fucus vesiculosus L. and Fucus serratus L. Journal of the Marine Biological Association of the United Kingdom, 29, 439-514.

Little, C. & Kitching, J.A., (1996). The Biology of Rocky Shores. Oxford: Oxford University Press.

O'Brien, P.J. & Dixon, P.S., (1976). Effects of oils and oil components on algae: a review. British Phycological Journal, 11, 115-142.

Printz, H.S., (1959). Investigations of the failure of recuperation and re-populating in cropped Ascophyllum areas. Avhandlinger utgitt av Det Norske Videnskap-Akademi i Oslo No. 3.

Raffaelli, D. & Hawkins, S., (1999). Intertidal Ecology 2nd edn.. London: Kluwer Academic Publishers.

Scanlan, C.M. & Wilkinson, M., (1987). The use of seaweeds in biocide toxicity testing. Part 1. The sensitivity of different stages in the life-history of Fucus and of other algae, to certain biocides. Marine Environmental Research, 21, 11-29.

Smith, J.E. (ed.), (1968). 'Torrey Canyon'. Pollution and marine life. Cambridge: Cambridge University Press.

Stengel, D.B. & Dring, M.J., (1997). Morphology and in situ growth rates of plants of Ascophyllum nodosum (Phaeophyta) from different shore levels and responses of plants to vertical transplantation. European Journal of Phycology, 32, 193-202.

Stengel, D.B. & Dring, M.J., (2000). Copper and iron concentrations in Ascophyllum nodosum (Fucales, Phaeophyta) from different sites in Ireland and after culture experiments in relation to thallus age and epiphytism. Journal of Experimental Marine Biology and Ecology, 246, 145-161.

Strömgren, T., (1979a). The effect of copper on the increase in length of Ascophyllum nodosum. Journal of Experimental Marine Biology and Ecology, 37, 153-159.

Vadas, R.L., Wright, W.A. & Miller, St. L., (1990). Recruitment in Ascophyllum nodosum: wave action as a source of mortality. Marine Ecology Progress Series, 61, 263-272.