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, “Temporal and spatial variability of hydrothermal manganese and iron at Cleft segment, Juan de Fuca Ridge”, Journal of Geophysical Research, vol. 99, pp. 4905–4923, 1994.
, “Temporal and spatial patterns of biological community development at nascent deep-sea hydrothermal vents (9 degrees 50'N, East Pacific Rise)”, Deep-Sea Research. Part II: Topical Studies in Oceanography, vol. 45, pp. 465–515, 1998.
, “Temperature variations at diffuse and focused flow hydrothermal vent sites along the northern East Pacific Rise”, Geochemistry, Geophysics, Geosystems, vol. 7, p. Q03002, 2006.
, “Temperature and sulphide tolerance of hydrothermal vent fauna”, Cahiers de Biologie Marine, vol. 39, pp. 283–286, 1998.
, “Tectonics of an incipient oceanic rift”, Marine Geophysical Researches, vol. 9, pp. 147–163, 1988.
, “Tectonics at the intersection of the East Pacific Rise with Tamayo Transform fault”, Marine Geophysical Researches, vol. 6, pp. 159–185, 1984.
, “Symbiosis in the deep sea”, Scientific American, vol. 255, pp. 114–120, 1987.
, “Symbiont-driven sulfur crystal formation in a thiotrophic symbiosis from deep-sea hydrocarbon seeps”, ENVIRONMENTAL MICROBIOLOGY REPORTS, vol. 6, pp. 364–372, 2014.
, “A suspended-particle rosette multi-sampler for discrete biogeochemical sampling in low-particle-density waters”, Deep-Sea Research. Part II: Topical Studies in Oceanography, vol. 56, pp. 1579–1589, 2009.
, “Sulfur-oxidizing bacterial symbionts: analysis of phylogeny, specificity, and origins by 16S ribosomal RNA sequences”, Journal of Bacteriology, vol. 170, pp. 2506–2510, 1988.
, “Sulfur in peridotites and gabbros at Lost City (30 degrees N, MAR): Implications for hydrothermal alteration and microbial activity during serpentinization”, Geochimica et Cosmochimica Acta, vol. 72, pp. 5090–5110, 2008.
, “Sulfide-driven autotrophic balance in the bacterial symbiont-containing hydrothermal vent tubeworm Riftia pachyptila Jones”, Biological Bulletin, vol. 180, pp. 135–153, 1991.
, “Sulfide-driven autotrophic balance in the bacterial symbiont-containing hydrothermal vent tubeworm Riftia pachyptila Jones”, Biological Bulletin, vol. 180, pp. 135–153, 1991.
, “Sulfide precipitates at 21 degrees N on the East Pacific Rise: 226Ra, 210Pb and 210Po”, Geophysical Research Letters, vol. 7, pp. 685–688, 1980.
, “Sulfide binding is mediated by zinc ions discovered in the crystal structure of a hydrothermal vent tubeworm hemoglobin”, Proceedings of the National Academy of Sciences of the United States of America, vol. 102, pp. 2713–2718, 2005.
, “Sulfide binding is mediated by zinc ions discovered in the crystal structure of a hydrothermal vent tubeworm hemoglobin”, Proceedings of the National Academy of Sciences of the United States of America, vol. 102, pp. 2713–2718, 2005.
, “Sulfide binding is mediated by zinc ions discovered in the crystal structure of a hydrothermal vent tubeworm hemoglobin”, Proceedings of the National Academy of Sciences of the United States of America, vol. 102, pp. 2713–2718, 2005.
, “Sulfide binding in the body fluids of hydrothermal vent alvinellid polychaetes”, Physiological Zoology, vol. 70, pp. 578–588, 1997.
, “Sulfide and carbon dioxide uptake by the hydrothermal vent clam, Calyptogena magnifica and its chemoautotrophic symbionts”, Physiological Zoology, vol. 64, pp. 1444–1470, 1991.
, “Sulfide and carbon dioxide uptake by the hydrothermal vent clam, Calyptogena magnifica and its chemoautotrophic symbionts”, Physiological Zoology, vol. 64, pp. 1444–1470, 1991.
, “Substrate oxidation by trophosome tissue from Riftia pachyptila Jones (Phylum pogonophora)”, Marine Biology Letters, vol. 5, pp. 171–183, 1984.
, “Subseafloor seawater-basalt-microbe reactions: Continuous sampling of borehole fluids in a ridge flank environment”, GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS, vol. 11, 2010.
, “Submeter bathymetric mapping of volcanic and hydrothermal features on the East Pacific Rise crest at 9 degrees 50 ' N”, Geochemistry, Geophysics, Geosystems, vol. 8, p. Q01006, 2007.
, “Submeter bathymetric mapping of volcanic and hydrothermal features on the East Pacific Rise crest at 9 degrees 50 ' N”, Geochemistry, Geophysics, Geosystems, vol. 8, p. Q01006, 2007.
, “Submersible transects across the East Pacific Rise crest and upper-flanks at 9 degrees 21'-32' N: 1. Observations of seafloor morphology and evidence for young volcanism off-axis”, EOS, Transactions, American Geophysical Union, vol. 73, p. 525, 1992.