References II

  • Gori, A., Linares, C., Rossi, S., Coma, R., Gili, J.M. (2007) Spatial variability in reproductive cycle of the gorgonians Paramuricea clavata and Eunicella singularis (Anthozoa, Octocorallia) in the Western Mediterranean Sea. Marine Biology, 151, 4, 1571-1584.
  • Guinan,J., Brown, C., Dolan, M.F.J. and Grehan, A.J. (2009) Ecological niche modelling of the distribution of cold-water coral habitat using underwater remote sensing data. Ecological Informatics, 4, 2, 83-92.
  • Guinotte, J.M., Orr, J., Cairns, S., Freiwald, A., Morgan, L. and George, R. (2006) Will human-induced changes in seawater chemistry alter the distribution of deep-sea scleractinian corals? Frontiers in Ecology and the Environment, 4, 141–146.
  • Hall-Spencer, J., Allain, V. and Fosså, J.H. (2002) Trawling damage to Northeast Atlantic ancient coral reefs. Proceedings of the Royal Society of London B, 269, 1490, 507-511.
  • Henry, L. A. and Roberts, J.M. (2007) Biodiversity and ecological composition of macrobenthos on cold-water coral mounds and adjacent off-mound habitat in the bathyal Porcupine Seabight, NE Atlantic. Deep-Sea Research Part I, 54, 654-672.
  • Hovland, M. (1990) Do carbonate reefs form due to fluid seepage? Terra Nova, 2, 1, 8-18.
  • Jensen, A. and Frederiksen, R. (1992) The fauna associated with the bank-forming deepwater coral Lophelia pertusa (Scleractinaria) on the Faroe shelf. Sarsia, 77, 1, 53-69.
  • Kourti, N., Shepherd, I., Greidanus, H., Alvarez, M., Aresu, E., Bauna,T., Chesworth, J., Lemoine, G. and Schwartz, G. (2005) Integrating remote sensing in fisheries control. Fisheries Management and Ecology, 12, 295–307. In: Davies, A.J., Roberts, J.M., Hall-Spencer, J. (2007) Preserving deep-sea natural heritage: Emerging issues in offshore conservation and management. Biological Conservation, 138, 3-4, 299-312.
  • Krieger, K. J. and Wing, B.L. (2002) Megafauna associations with deepwater corals (Primnoa spp.) in the Gulf of Alaska. Hydrobiologia, 471, 1-3, 83-90.
  • Krone, M.A. and Biggs, D.C. (1980) Sublethal metabolic responses of the hermatypic coral Madracis decactis exposed to drilling mud enriched with ferrochrome lignosulfonate. In: Research on environmental fate and effects of drilling fluids and cuttings, Proceedings Vol II, pp 1079.
  • Le Guilloux, E.,Olu ,K., Bourillet, J.F., Savoye, B., Iglésias, S.P. and Sibuet, M. (2009) First observations of deep-sea coral reefs along the Angola margin. Deep Sea Research Part II: Topical Studies in Oceanography, 56, 23, 2394-2403.
  • Lepland, A. and Buhl Mortensen, P. (2008) Barite and barium in sediments and coral skeletons around the hydrocarbon exploration drilling site in the Træna Deep, Norwegian Sea. Environmental Geology, 56, 1, 119-129.
  • Mienis, F., de Stigter,H.C., White, M., Duineveld,G., de Haas,H. and van Weering,T.C.E. (2007) Hydrodynamic controls on cold-water coral growth and carbonate-mound development at the SW and SE Rockall Trough Margin, NE Atlantic Ocean. Deep Sea Research Part I: Oceanographic Research Papers, 54, 9, 1655-1674.
  • Morgan, L.E., Tsao, C.F. and Guinotte, J.M .(2007) Ecosystem-based management as a tool for protecting deep-sea corals in the USA. In:  George, R. Y. and Cairns, S.D (eds) Conservation and adaptive management of seamount and deep-sea coral ecosystems. Rosenstiel School of Marine and Atmospheric Science, University of Miami. Available http://www.mcbi.org/publications/pub_pdfs/morgan_etal_2007.pdf. Accessed 14/12/10.
  • Mortensen P.B. (2001) Aquarium observations on the deepwater coral Lophelia pertusa (L., 1758) (Scleractinia) and selected associated invertebrates. Ophelia, 54, 83–104.
  • Mortensen, P.B. and Buhl-Mortensen, L. (2005) Deep-water corals and their habitats in The Gully, a submarine canyon off Atlantic Canada. In: Freidwald, A and Roberts, J.M. (Eds), Cold-water Corals and Ecosystems. Springer-Verlag, Berlin Heidelberg, pp 247-277.
  • Mortensen, P.B., Hovland, T.,  Fosså, J.H. and Furevik, D.M. (2001) Distribution, abundance and size of Lophelia pertusa coral reefs in mid-Norway in relation to seabed characteristics. Journal of the Marine Biological Association of the UK, 81, 581-597.
  • Probert, P.K. (1999) Seamounts, sanctuaries and sustainability: moving towards deep-sea conservation. Aquatic Conservation: Marine and Freshwater Ecosystems, 9, 601–605.
  • Raes, M. and Vanreusel, A. (2006) Microhabitat type determines the composition of nematode communities associated with sediment-clogged cold-water coral framework in the Porcupine Seabight (NE Atlantic). Deep-Sea Research I, 53, 1880-1894.
  • Reed J.K. (2002) Deep-water Oculina coral reefs of Florida: biology, impacts, and management. Hydrobiologia, 471, 1-3, 43-55.
  • Reed, J. K. and Gilmore, R.G. (1981) Inshore occurrence and nuptial behavior of the roughtail stingray, Dasyatis centroura (Dasyatidae), on the continental shelf, east central Florida. Northeast Gulf Science, 5, 59–62.
  • Reed, J.K., Gore, R.H., Scotto, L.E. and Wilson, K.A. (1982) Community composition, structure, aerial and trophic relationships of decapods associated with shallow and deep-water Oculina varicosa coral reefs. Bulletin of Marine Science, 32, 761-786.
  • Reed, J.K. and Hoskin, C.M. (1987) Biological and geological processes at the shelf edge investigated with submersibles. In: Scientific Applications of Current Diving Technology on the U.S. Continental Shelf, NOAA Symposium Series for Undersea Research, Vol. 2, pp. 191-199.
  • Richer de Forges, B., Koslow J.A., Poore, G.C. (2000) Diversity and endemism of the benthic seamount fauna in the southwest Pacific. Nature, 405, 944–947

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