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“Alvin zone of the TAG hydrothermal field, Mid-Atlantic Ridge 26 N, 45 W”, EOS, Transactions, American Geophysical Union, vol. 75, p. 706, 1994.
, “Alvin's pilots a tight-knit group with the 'right stuff' to guide a submersible on the seafloor”, Oceanus, vol. 44, pp. 26–31, 2005.
, “Alvin-Seabeam studies of the Sumisu Rift, Izu-Bonin Arc”, Earth and Planetary Science Letters, vol. 100, pp. 127–147, 1990.
, “Alvin-Seabeam studies of the Sumisu Rift, Izu-Bonin Arc”, Earth and Planetary Science Letters, vol. 100, pp. 127–147, 1990.
, “Ammonium and free amino acids as nitrogen sourcess for the chemoautotrophic clam symbiosis Solemya reidi Bernard (Bivalvia : Protobranchiata)”, Journal of Experimental Marine Biology and Ecology, vol. 158, pp. 75–91, 1992.
, “Amphi-Atlantic cold-seep Bathymodiolus species complexes across the equatorial belt”, Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 54, pp. 1890–1911, 2007.
, “Amphipoda (Crustacea; Peracarida) from the hydrothermal vent system of the Juan De Fuca Ridge, Escabana trough and Gorda ridge, Northeast Pacific. Part I. Lysianassidae and sebidae”, Zootaxa, vol. 1445, pp. 1–26, 2007.
, “Anaerobic oxidation of methane at different temperature regimes in Guaymas Basin hydrothermal sediments”, ISME JOURNAL, vol. 6, pp. 1018–1031, 2012.
, “The Anatomy of a Buried Submarine Hydrothermal System, Clark Volcano, Kermadec Arc, New Zealand”, ECONOMIC GEOLOGY, vol. 109, pp. 2261–2292, 2014.
, “The application of electrochemical tools for in situ measurements in aquatic systems”, Electroanalysis, vol. 12, pp. 401–412, 2000.
, “Archaea”, in Encyclopedia of microbiology, vol. 1, San Diego, Calif.: Academic Press, 2000, pp. 319–331.
, “Archaea and bacteria with surprising microdiversity show shifts in dominance over 1,000-year time scales in hydrothermal chimneys”, Proceedings of the National Academy of Sciences of the United States of America, vol. 107, pp. 1612–1617, 2010.
, “Archaea in metazoan diets: implications for food webs and biogeochemical cycling”, ISME Journal, vol. 6, pp. 1602–1612, 2012.
, “Archaea, Origin of”, in Encyclopedia of biodiversity, vol. 1, San Diego, Calif.: Academic Press, 2001, pp. 219–230.
, “Archaeal and bacterial glycerol dialkyl glycerol tetraether lipids in chimneys of the Lost City Hydrothermal Field”, ORGANIC GEOCHEMISTRY, vol. 60, pp. 45–53, 2013.
, “Archaeal diversity in ODP legacy borehole 892b and associated seawater and sediments of the Cascadia Margin”, FEMS Microbiology Ecology, vol. 54, pp. 167–177, 2005.
, “Archaeal diversity in ODP legacy borehole 892b and associated seawater and sediments of the Cascadia Margin”, FEMS Microbiology Ecology, vol. 54, pp. 167–177, 2005.
, “Are hydrothermal vent animals living fossils?”, Trends in Ecology and Evolution, vol. 18, pp. 582–588, 2003.
, “Arsenic concentrations and species in three hydrothermal vent worms, Ridgeia piscesae, Paralvinella sulficola and Paralvinella palmiformis”, Deep Sea Research Part I: Oceanographic Research Papers, vol. 116, pp. 41–48, 2016.
, “Assimilation of inorganic nitrogen by marine invertebrates and their chemoautotrophic and methanotrophic symbionts”, Applied and Environmental Microbiology, vol. 60, pp. 1852–1858, 1994.
, “Assimilation of inorganic nitrogen by seep mytilid 1a, an undescribed deep-sea mussel containing methanotrophic endosymbionts: fate of assimilated nitrogen and the relation between methane and nitrogen assimilation”, Marine Ecology Progress Series, vol. 123, pp. 137–148, 1995.
, “Bathymodiolus growth dynamics in relation to environmental fluctuations in vent habitats”, DEEP-SEA RESEARCH PART I-OCEANOGRAPHIC RESEARCH PAPERS, vol. 106, pp. 183–193, 2015.
, “Bathymodiolus growth dynamics in relation to environmental fluctuations in vent habitats”, DEEP-SEA RESEARCH PART I-OCEANOGRAPHIC RESEARCH PAPERS, vol. 106, pp. 183–193, 2015.
, “Benthic copepod communities associated with tubeworm and mussel aggregations on the East Pacific Rise”, Cahiers de Biologie Marine, vol. 47, pp. 397–402, 2006.
, “Biodiversity and trophic ecology of hydrothermal vent fauna associated with tubeworm assemblages on the Juan de Fuca Ridge”, Biogeosciences, vol. 15, no. 9, pp. 2629 - 2647, 2018.
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