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“Cetia pacifica gen. nov., sp nov., a chemolithoautotrophic, thermophilic, nitrate-ammonifying bacterium from a deep-sea hydrothermal vent”, INTERNATIONAL JOURNAL OF SYSTEMATIC AND EVOLUTIONARY MICROBIOLOGY, vol. 65, pp. 1144–1150, 2015.
, “THE CASCADIA INITIATIVE A Sea Change In Seismological Studies of Subduction Zones”, OCEANOGRAPHY, vol. 27, pp. 138–150, 2014.
, “Careproctus hyaleius, a new cyclopterid fish (Liparinae) from the hydrothermal ecosystem of the East Pacific Ridge (13 degrees N)”, Cybium, vol. 18, pp. 325–333, 1994.
, “Carbonate-hosted microbial communities are prolific and pervasive methane oxidizers at geologically diverse marine methane seep sites”, Proceedings of the National Academy of Sciences of the United States of America, vol. 118, 2021.
, “Carbonate-hosted microbial communities are prolific and pervasive methane oxidizers at geologically diverse marine methane seep sites”, Proceedings of the National Academy of Sciences of the United States of America, vol. 118, 2021.
, “Carbon fixation by basalt-hosted microbial communities”, FRONTIERS IN MICROBIOLOGY, vol. 6, 2015.
, “Carbon and oxygen isotope geochemistry of live (stained) benthic foraminifera from the Aleutian Margin and the Southern Australian Margin”, Marine Micropaleontology, vol. 70, pp. 89–101, 2009.
, “Candidatus Desulfofervidus auxilii, a hydrogenotrophic sulfate-reducing bacterium involved in the thermophilic anaerobic oxidation of methane”, Environmental Microbiology, vol. 18, pp. 3073–3091, 2016.
, “Candidatus Desulfofervidus auxilii, a hydrogenotrophic sulfate-reducing bacterium involved in the thermophilic anaerobic oxidation of methane”, Environmental Microbiology, vol. 18, pp. 3073–3091, 2016.
, “Calculations of dynamic motions and tensions of towed underwater vehicles”, IEEE Journal of Oceanic Engineering, vol. 19, pp. 449–457, 1994.
, “Bringing microbial diversity into focus: high-resolution analysis of iron mats from the Lō'ihi Seamount”, ENVIRONMENTAL MICROBIOLOGY, vol. 19, pp. 301–316, 2017.
, “Bottom fauna of the Mohns Ridge: submersible investigations”, in Bentos morei Rossii i Severnoi Atlantiki: sbornik nauchnykh trudov (Benthos of the Russian Sea and the Northern Atlantic), Moscow, Russia: Nauka, 2000, pp. 81–85.
, “Blake Ridge methane seeps: Characterization of a soft-sediment, chemosynthetically based ecosystem”, Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 50, pp. 281–300, 2003.
, “Blake Ridge methane seeps: Characterization of a soft-sediment, chemosynthetically based ecosystem”, Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 50, pp. 281–300, 2003.
, “Blake Ridge methane seeps: Characterization of a soft-sediment, chemosynthetically based ecosystem”, Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 50, pp. 281–300, 2003.
, “Biomass, chemical composition and oxygen consumption of the near-bottom pelagic communities in two deep-sea basins off southern California”, University of California, Santa Barbara, Santa Barbara, Calif., 1984.
, “Biomarker evidence for widespread anaerobic methane oxidation in Mediterranean sediments by a consortium of methanogenic archaea and bacteria”, Applied and Environmental Microbiology, vol. 66, pp. 1126–1132, 2000.
, “Biology of geothermal environments”, in Current Perspectives in Environmental Biogeochemistry, Rome: CNR-IPRA, 1987, pp. 597–601.
, “Biogeography, Ecology and Vulnerability of Chemosynthetic Ecosystems in the Deep Sea”, in Life in the World's Oceans: Diversity, Distribution, and Abundance, Wiley-Blackwell, 2010, pp. 161–182.
, “Biogeography and ecological setting of Indian Ocean hydrothermal vents”, Science, vol. 294, pp. 818–823, 2001.
, “Biogeography and ecological setting of Indian Ocean hydrothermal vents”, Science, vol. 294, pp. 818–823, 2001.
, “Biogeography and ecological setting of Indian Ocean hydrothermal vents”, Science, vol. 294, pp. 818–823, 2001.
, “Biogeography and ecological setting of Indian Ocean hydrothermal vents”, Science, vol. 294, pp. 818–823, 2001.
, “Beta diversity differs among hydrothermal vent systems: Implications for conservation”, PLOS ONE, vol. 16, p. e0256637, 2021.
, “Benthopelagic biomass distribution and oxygen consumption in a deep-sea benthic boundary layer dominated by gelatinous organisms”, Limnology and Oceanography, vol. 34, pp. 913–930, 1989.
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