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2727_C04.fm Page 114 Wednesday, June 30, 2004 12:00 PM 114 J. Ott, M. Bright & S. Bulgheresi Desbruyàres, D., Gaill, F., Laubier, L., Prieur, D. & Rau, G.H. 1983. Unusual nutrition of the ‘Pompeii worm’ Alvinella pompejana (polychaetous annelid) from a hydrothermal vent environment: SEM, TEM, 13 C and 15 N evidence. Marine Biology 75, 201–205. Dixon, D.R., Dixon, L.R. & Pond, D.W. 1998. Recent advances in our understanding of the life history of bresiliid vent shrimps on the MAR. Cahiers de Biologie Marine 39, 383–386. Epstein, S.S., Bazylinski, D.A. & Fowle, W.H. 1998. Epibiotic bacteria on several ciliates from marine sediments. The Journal of Eukariotic Microbiology 45, 64–70. Farmer, J.D. 1998. Thermophiles, early biosphere evolution and the origin of life on Earth: implications for the exobiological exploration of Mars. Journal of Geophysical Research 103, 28, 457, 461. Fenchel, T. 1970. Studies on the decomposition of organic detritus derived from the turtle grass Thalassia testudinum. Limnology and Oceanography 15, 14–20. Fenchel, T. & Finlay, B.J. 1989. Kentrophoros: a mouthless ciliate with a symbiotic kitchen garden. Ophelia 30, 75–93. Fenchel, T., Perry, T. & Thane, A. 1977. Anaerobiosis and symbiosis with bacteria in free-living ciliates. Journal of Protozoology 24, 154–163. Fenchel, T. & Riedl, R. 1970. The sulfide system: a new biotic community underneath the oxidized layer of marine sand bottoms. Marine Biology 7, 255–268. Fisher, C.R. 1990. Chemoautotrophic and methanotrophic symbioses in marine invertebrates. Reviews in Aquatic Sciences 2, 399–436. Fisher, C.R. 1996. Ecophysiology of primary production at deep-sea vents and seeps. In Deep-Sea and Extreme Shallow-Water Habitats: Affinities and Adaptations, F. Uiblein et al. (eds). Vienna: Austrian Academy of Sciences Press, Biosystematics and Ecology Series 11, 313–336. Foissner, W. 1995. Kentrophoros (Ciliophora, Karyorelictea) has oral vestiges: a reinvestigation of K. fistulosus (Faure-Fremiet, 1950) using protargol impregnation. Archiv für Protistenkunde 146, 165–179. Fortey, R. 2000. Olenid trilobites: the oldest known chemoautotrophic symbionts? Proceedings of the National Academy of Sciences of the United States of America 97, 6574–6578. Gallardo, V.A. 1977. Large benthic microbial communities in sulphide biota under Peru–Chile subsurface countercurrent. Nature 268, 331–332. Gebruk, A.V., Pimenov, N.V. & Savvichez, A.S. 1993. Feeding specialization of bresiliid shrimps in the TAG site hydrothermal community. Marine Ecology Progress Series 98, 247–253. Gebruk, A.V., Southward, E.C., Kennedy, H. & Southward, A.J. 2000. Food sources, behaviour, and distribution of hydrothermal vent shrimps at the Mid-Atlantic Ridge. Journal of the Marine Biological Association of the United Kingdom 80, 485–499. Geistdoerfer, P. 1994. Pachycara thermophilum, a new zoarcid fish species from hydrothermal ecosystems of the Mid-Atlantic Ridge. Cybium 18, 109–115. Gerlach, S.A. 1950. Über einige Nematoden aus der Familie der Desmodoriden. Neue Ergebnisse und Probleme der Zoologie (Klatt-Festschrift), Leipzig 1950, pp. 178–198. Giere, O. 1992. Benthic life in sulfidic zones of the sea: ecological and structural adaptations to a toxic environment. Verhandlungen der deutschen Zoologischen Gesellschaft 85, 77–93. Giere, O. 1996. Bacterial endosymbionts in marine littoral worms. In Deep-Sea and Extreme Shallow-Water Habitats: Affinities and Adaptations, F. Uiblein et al. (eds). Vienna: Austrian Academy of Sciences Press, Biosystematics and Ecology Series 11, 369–382. Goldfarb, M.S., Converse, D.R., Holland, H.D. & Edmond, J.M. 1983. The genesis of the hot spring deposits on the East Pacific Rise, 21˚N. In The Kuroko and Related Volcanic Massive Sulfide Deposits, H. Ohmoto & B.J. Skinner (eds). Economical Geology Monograph 5, 184–197. Greeff, R. 1869. Untersuchungen über einige merkwürdige Formen des Arthropoden- und Wurmtypus. Archiv für Naturgeschichte 35, 71–121. Haddad, A., Camacho, F., Durand, P. & Cary, S.C. 1995. Phylogenetic characterization of the epibiotic bacteria associated with the hydrothermal vent polychaete Alvinella pompejana. Applied and Environmental Microbiology 61, 1679–1687. Hemprich, F.W. & Ehrenberg, C.G. 1831. Symbolae Physicae. Evertebrata. I. Phytozoa. Abhandlungen der Akademie der Wissenschaften zu Berlin. Hentschel, U., Berger, E.C., Bright, M., Felbeck, H. & Ott, J.A. 1999. Metabolism of nitrogen and sulfur in ectosymbiotic bacteria of marine nematodes (Nematoda, Stilbonematinae). Marine Ecology Progress Series 183, 149–158.
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