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“Microbial Communities in Methane- and Short Chain Alkane-Rich Hydrothermal Sediments of Guaymas Basin”, FRONTIERS IN MICROBIOLOGY, vol. 7, 2016.
, “Microbial communities at the borehole observatory on the Costa Rica Rift flank (Ocean Drilling Program Hole 896A)”, FRONTIERS IN MICROBIOLOGY, vol. 3, 2012.
, “Microbial ammonia oxidation and enhanced nitrogen cycling in the Endeavour hydrothermal plume”, Geochimica et Cosmochimica Acta, vol. 72, pp. 2268–2286, 2008.
, “A methanotrophic marine molluscan (Bivalvia, Mytilidae) symbiosis: mussels fueled by gas”, Science, vol. 233, pp. 1306–1308, 1986.
, “Methane-derived authigenic carbonates from modern and paleoseeps on the Cascadia margin: Mechanisms of formation and diagenetic signals”, Tracing Phanerozoic hydrocarbon seepage from local basins to the global Earth system, vol. 390, pp. 52–67, 2013.
, “The methane mussel: roles of symbiont and host in the metabolic utilization of methane”, Marine Biology, vol. 112, pp. 389–401, 1992.
, “Methane, hydrogen and helium in hydrothermal fluids at 21 degrees N on the East Pacific Rise”, in Hydrothermal processes at seafloor spreading centers, New York, N.Y.: Plenum Press, 1983, pp. 391–409.
, “Metal sources of black smoker chimneys, Endeavour Segment, Juan de Fuca Ridge: Pb isotope constraints”, Applied Geochemistry, vol. 24, pp. 1971–1977, 2009.
, “Metal sources of black smoker chimneys, Endeavour Segment, Juan de Fuca Ridge: Pb isotope constraints”, Applied Geochemistry, vol. 24, pp. 1971–1977, 2009.
, “Metagenomic investigation of vestimentiferan tubeworm endosymbionts from Mid-Cayman Rise reveals new insights into metabolism and diversity”, Microbiome, vol. 6, no. Journal Article, pp. 19 - 19, 2018.
, “Metabolite uptake, stoichiometry and chemoautotrophic function of the hydrothermal vent tubeworm Riftia pachyptila: responses to environmental variations in substrate concentrations and temperature”, Journal of Experimental Biology, vol. 209, pp. 3516–3528, 2006.
, “The metabolic rates of deep-sea benthic decapod crustaceans decline with increasing depth primarily due to the decline in temperature”, Deep-Sea Research. Part A, Oceanographic Research Papers, vol. 37, pp. 929–949, 1990.
, “The metabolic rates of deep-sea benthic decapod crustaceans decline with increasing depth primarily due to the decline in temperature”, Deep-Sea Research. Part A, Oceanographic Research Papers, vol. 37, pp. 929–949, 1990.
, “Metabolic rates of animals from the hydrothermal vents and other deep-sea habitats.”, in Hydrothermal vents of the Eastern Pacific: An overview, Vienna, Va.: INFAX, 1985, pp. 249–260.
, “Metabolic rates and thermal tolerances of chemoautotrophic symbioses from Lau Basin hydrothermal vents and their implications for species distributions”, Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 55, pp. 679–695, 2008.
, “Metabolic potentials of deep-sea fishes: a comparative approach”, in Environmental and Ecological Biochemistry, New York: Elsevier, 1995, pp. 175–196.
, “Metabolic and blood gas transport characteristics of the hydrothermal vent bivalve Calyptogena magnifica”, Physiological Zoology, vol. 57, pp. 648–662, 1984.
, “Metabolic and blood characteristics of the hydrothermal vent tube worm Riftia pachypitila”, Marine Biology, vol. 83, pp. 109–124, 1984.
, “Mercury adaptation among bacteria from a deep-sea hydrothermal vent”, Applied and Environmental Microbiology, vol. 71, pp. 220–226, 2005.
, “Mercury adaptation among bacteria from a deep-sea hydrothermal vent”, Applied and Environmental Microbiology, vol. 71, pp. 220–226, 2005.
, “Mechatronic integration and implementation of in situ multipoint temperature measurement for seafloor hydrothermal vent”, Science in China Series E-Technological Sciences, vol. 50, pp. 144–153, 2007.
, “Mechanical design and deployment of the Hawaii-2 Observatory”, in Proceedings of International Workshop on Scientific Use of Submarine Cables: Marine geophysical research using undersea cables, Japan Print Center, 1997, pp. 172–174.
, “Massive deep-sea sulphide ore deposits discovered on the East Pacific Rise”, Nature, vol. 277, pp. 523–528, 1979.
, “Massive deep-sea sulphide ore deposits discovered on the East Pacific Rise”, Nature, vol. 277, pp. 523–528, 1979.
, “Massive deep-sea sulphide ore deposits discovered on the East Pacific Rise”, Nature, vol. 277, pp. 523–528, 1979.
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