SEARCH

SEARCH BY CITATION

References

  • Aladro-Lubel M.A., Martínez-Murillo M.E. (1999) Epibiotic protozoa (Ciliophora) on a community of Thalassia testudinum Banks ex König in a coral reef in Veracuz, Mexico. Aquatic botany, 65, 239254.
  • Anderson R.O. (1988) Comparative Protozoology. Ecology, Physiology, Life History. Springer Verlag, New York.
  • Andrews E.A. (1914) The bottle animalcule, Folliculina; Œcological notes. Biological Bulletin, 26, 262285.
  • Andrews E.A. (1923) Folliculina: case making, anatomy and transformation. Journal of Morphology, 38, 207278.
  • Andrews E.A. (1946) Ingestion organs in folliculinids and in stentors. Journal of Morphology, 79, 419444.
  • Antonius A.A., Lipscomb D. (2000) First protozoan coral-killer identified in the Indo-Pacific. Atoll Research Bulletin, 481, 121.
  • Atkins M.S., Anderson R.O., Wirsen C.O. (1998) Effect of hydrostatic pressure on the growth rates and encystment of flagellated protozoa isolated from a deep-sea hydrothermal vent and a deep shelf region. Marine Ecology Progress Series, 171, 8595.
  • Atkins M.S., Teske A.P., Anderson R.O. (2000) A survey of flagellate diversity at four deep-sea hydrothermal vents in the eastern Pacific Ocean using structural and molecular approaches. Journal of Eukaryotic Microbiology, 47, 400411.
  • Atkins M.S., Hanna M.A., Kupetsky E.A., Saito M.A., Taylor C.D., Wirsen C.O. (2002) Tolerance of flagellated protists to high sulfide and metal concentrations potentially encountered at deep-sea hydrothermal vents. Marine Ecology Progress Series, 226, 6375.
  • Bauer-Nebelsick M., Bardele C.F., Ott J.A. (1996) Electron microscopic studies on Zoothamnium niveum (Hemprich & Ehrenberg, 1831) Ehrenberg 1838 (Oligohymenophora, Peritrichida), a ciliate with ectosymbiotic, chemoautotrophic bacteria. European Journal of Protistology, 32, 202215.
  • Childress J.J., Felbeck H, Somero G.N. (1987) Symbiosis in the deep sea. Scientific American, 255, 115120.
  • Costello M.J., Emblow C., White R. (2001) European Register of Marine Species: A Check-list of the Marine Species in Europe and a Bibliography of Guides to their Identification. Collection Patrimoines Naturels. Muséum national d'Histoire Naturelle, Paris, France.
  • Costello M.J., Bouchet P., Boxshall G., Emblow C., Vanden Berghe E. (2004) European Register of Marine Species. MarBEF, Available online at http://www.marbef.org/data/erms.php. Consulted on 2006-04-10.
  • Desbruyères D., Chevaldonne P., Alayse A.M., Jollivet D., Lallier F.H., Jouin-Toulmond C., Zal F., Sarradin P.M., Cosson R., Caprais J.C., Arndt C., O'Brien J., Guezennec J., Hourdez S., Riso R., Gaill F., Laubier L., Toulmond A. (1998) Biology and ecology of the ‘‘Pompeii worm’’ (Alvinella pompejana Desbruyères and Laubier), a normal dweller of an extreme deep-sea environment: a synthesis of current knowledge and recent developments. Deep-Sea Research II, 45, 383422.
  • Distel D., Lee H.K.W., Cavanaugh C.M. (1995) Intracellular coexistence of methano- and thioautotrophic bacteria in a hydrothermal vent mussel. Proceedings of the National Academy of Sciences of the United States of America, 92, 95989602.
  • Duperron, S., Bergin, C., Zielinski, F., Pernthaler, A., Dando, P., McKiness, Z.P., DeChaine, E., Cavanaugh, C.M., Dubilier, N. (2006) A dual symbiosis shared by two mussel species, Bathymodiolus azoricus and B. puteoserpentis (Bivalvia: Mytilidae), from hydrothermal vents along the northern Mid-Atlantic Ridge. Environmental Microbiology, 8, 14411447.
  • Endow K., Ohta S. (1989) The symbiotic relationship between bacteria and a mesogastropod snail, Alvinoconcha hessleri, collected from hydrothermal vents of the Mariana Back-Arc Basin. Bulletin of the Japanese Society of Microbial Ecology, 3, 7382.
  • Fauré-Fremiet E. (1936) The Folliculinidae (Infusoria Heterotricha) of the Breton Coast. The Biological Bulletin, LXX, 353360.
  • Fenchel T. (1987) Ecology of Protozoa. Science Tech Publishers, Madison.
  • Fernandez-Leborans G. (2003) Ciliate-decapod epibiosis in two areas of the north-west Mediterranean coast. Journal of Natural History, 37, 16551678.
  • Fisher G. (1996) Ciliates. Cells and Organisms. Gustav Fisher Verlag, Stuttgart.
  • Fisher G., Brooks J.S., Vodenichar J.S., Zande J.M., Childress J.J., Burke R.A. (1993) The co-occurrence of methanotrophic and chemoautotrophic sulfur-oxidizing bacterial symbionts in a deep-sea mussel. P.S.Z.N. Marine Ecology, 14, 277289.
  • Fokin S. (2004) Bacterial endocytobionts of ciliophora and their interactions with the host cell. International Review of Cytology, 236, 181249.
  • Fokin S., Schweikert M., Gortz H., Fujishima M. (2003) Bacterial endocytobionts of Ciliophora. Diversity and some interactions with the host. European Journal of Protistology, 39, 475480.
  • Fujiwara Y., Takai K., Uematsu K., Tsuchida S., Hunt J.C., Hashimoto J. (2000) Phylogenetic characterization of endosymbionts in three hydrothermal vent mussels: influence on host distributions. Marine Ecology Progress Series, 208, 147155.
  • Gaill F., Hunt S. (1991) The biology of annelid worms from high temperature hydrothermal vent regions. Reviews in Aquatic Sciences, 4, 107137.
  • Gebruk A.V., Pimenov N.V., Savvichev A.S. (1993) Feeding specialization of bresiliid shrimps in the TAG site hydrothermal community. Marine Ecology Progress Series, 98, 247253.
  • Görtz H.D. (2002) Symbiotic Associations Between Ciliates and Prokaryotes. The Prokaryotes: An Evolving Electronic Resource for the Microbiological Community. Springer-Verlag, New York. 3rd edition, release 3.11, November 22, 2002, http://link.springer-ny.com/link/service/books/10125/. Consulted on 2006-04-10.
  • Jonasson K.E., Schröder-Adams C.J. (1996) Encrusting agglutinated foraminifera on indurated sediment at a hydrothermal venting area on the Juan de Fuca Ridge, northeast Pacific Ocean. Journal of Foraminiferal Research, 26, 137149.
  • Jonasson K.E., Schröder-Adams C.J., Patterson R.T. (1995) Benthic foraminiferal distribution at Middle-Valley, Juan de Fuca Ridge, a northeast Pacific hydrothermal venting site. Marine Micropaleontology, 25, 151167.
  • Kicklighter C.E., Fisher C.R., Hay M.E. (2004) Chemical defense of hydrothermal vent and hydrocarbon seep organisms: a preliminary assessment using shallow-water consumers. Marine Ecology Progress Series, 275, 1119.
  • Lopez-Garcia P., Philippe H., Gaill F., Moreira D. (2003) Autochthonous eukaryotic diversity in hydrothermal sediment and experimental microcolonizers at the Mid-Atlantic Ridge. Proceedings of the National Academy of Sciences of the United States of America, 100, 697702.
  • Medvedev V.V. (1991a) Preliminary results of a study of ciliates of the shallow water hydrothermal ecosystem in Kraternaya Caldera Kurile Islands. Zoologicheskii Zhurnal, 70, 127130.
  • Medvedev V.V. (1991b) Ciliates of all algobacterial mats in shallow-water marine hydrothermal zones. Doklady-Akademii-Nauk-SSSR, 318, 12721274.
  • Mulisch M. (2001) Ciliates - folliculinids. In: CostelloM., EmblowC., WhiteR. (Eds), European Register of Marine Species: A Check-list of the Marine Species in Europe and a Bibliography of Guides to their Identification. Patrimoines Naturels, Paris, vol. 50: 4142.
  • Mulisch M., Smock U., Uhlig G. (1993) Life-cycle and ultrastructure of Lagotia-Minor Dons, 1948 (Ciliophora, Heterotrichia) revealing new characteristics for folliculinid classification. European Journal of Protistology, 29, 144154.
  • Ott J., Bauer-Nebelsick M., Novotny V. (1995) The genus Laxus Cobb, 1894 (Stilbonematinae: Nematoda): description of the two species with ectosymbiotic chemoautotrophic bacteria. Proceedings of the Biological Society of Washington, 108, 508527.
  • Ott J., Bright M., Schiemer F. (1998) The ecology of a novel symbiosis between a marine peritrich ciliate and chemoautotrophic bacteria. P. S. Z. N. Marine Ecology, 19, 229243.
  • Ott J., Bright M., Bulgheresi S. (2005) Marine microbial thiotrophic ectosymbioses. Oceanography And Marine Biology: An Annual Review, 42, 95118.
  • Prime-Habdija B., Matoničkin R. (2005) A new freshwater folliculinid (Ciliophora) from the karstic region of Croatia. European Journal of Protistology, 41, 3743.
  • Rosati G. (2002) Ectosymbiosis in ciliated protozoa. In: SeckbachJ. (ed.), Symbiosis: Mechanisms and Model Systems. Kluwer Academic Publishers, Dordrecht: 475488.
  • Segonzac M., De Saint Laurent M., Casanova B. (1993) L’énigme du comportement trophique des crevettes Alvinocarididae des sites hydrothermaux de la dorsale médio-atlantique. Cahiers de Biologie Marine, 34, 535571.
  • Small E.B., Gross M.E. (1985) Preliminary observations of protistan organisms, especially ciliates from the 21°N hydrothermal vent site. Biological Society of Washington Bulletin, 6, 401410.
  • Small E.B., Lynn D.H. (1985) Phylum Ciliophora Dolfein, 1901. In: LeeJ.J., HutnerS., BoveeE.C. (Eds), An Illustrated Guide to the Protozoa. Society of Protozoologists, Lawrence, Kansas: 393575.
  • Tunnicliffe V., Juniper K.S., De Burgh M.E. (1985) The hydrothermal vent community in Axial Seamount, Juan de Fuca Ridge. Biological Society of Washington Bulletin, 6, 434464.
  • Van Dover C.L., Berg C.J., Turner R.D. (1988) Recruitment of marine invertebrates to hard substrates at deep-sea hydrothermal vents on the East Pacific Rise and Galapagos spreading center. Deep-Sea Research, 35, 18331849.
  • Vannini C., Petroni G., Schena A., Verni F., Rosati G. (2003) Well-established mutualistic associations between ciliates and prokaryotes might be more widespread and diversified than so far supposed. European Journal of Protistology, 39, 481485.
  • Winkler R., Antonius A., Renegar A.D. (2004) The skeleton eroding band disease on coral reefs of Aqaba, Red Sea. P.S.Z.N. Marine Ecology, 25, 129144.
  • Wirsen C.O., Jannasch H.W., Molyneaux S.J. (1993) Chemosynthetic microbial activity at Mid-Atlantic Ridge hydrothermal vent sites. Journal of Geophysical Research, 98, 96939703.