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Author Title [ Type] Year Filters: First Letter Of Last Name is R [Clear All Filters]
“Candidatus Desulfofervidus auxilii, a hydrogenotrophic sulfate-reducing bacterium involved in the thermophilic anaerobic oxidation of methane”, Environmental Microbiology, vol. 18, pp. 3073–3091, 2016.
, “Bottom currents in the Hudson Canyon”, Science, vol. 180, pp. 181–183, 1973.
, “Block-tilting, transfer faults, and structural control of magmatic and hydrothermal processes in the TAG area, Mid-Atlantic Ridge 26 degrees N”, Geological Society of America Bulletin, vol. 102, pp. 1635–1645, 1990.
, “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.
, “Biremis blandi (Polychaeta: Terebellidae), a new genus, new species, caught by D.S.R.V. 'Alvin' in the Tongue of the Ocean, New Providence, Bahamas”, Marine Biology, vol. 20, pp. 170–175, 1973.
, “Biological-research needs for submersible access to the greatest ocean depths”, Marine Technology Society Journal, vol. 24, pp. 34–37, 1990.
, “Biogeography and ecological setting of Indian Ocean hydrothermal vents”, Science, vol. 294, pp. 818–823, 2001.
, “Biogeochemical heterogeneity and suboxic diagenesis in hemipelagic sediments of the Panama basin”, Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 45, pp. 133–165, 1998.
, “Benthic protists and fungi of Mediterranean deep hypsersaline anoxic basin redoxcline sediments”, Frontiers in Microbiology, vol. 5, p. 605, 2014.
, “Bedrock geology in New England submarine canyons”, Oceanologica Acta, vol. 1, pp. 233–254, 1978.
, “Bacterial symbionts and low 13C/12C ratios in tissues of Pogonophora indicate unusual nutrition and metabolism”, Nature, vol. 293, pp. 616–620, 1981.
, “Bacterial sulfur cycling shapes microbial communities in surface sediments of an ultramafic hydrothermal vent field”, ENVIRONMENTAL MICROBIOLOGY, vol. 13, pp. 2633–2648, 2011.
, “Autonomous underwater vehicles as tools for deep-submergence archaeology”, Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment, vol. 224, pp. 327–340, 2010.
, “ATP sulfurylase from trophosome tissue of Riftia pachyptila (hydrothermal vent tube worm)”, Archives of Biochemistry and Biophysics, vol. 290, pp. 66–78, 1991.
, “Asphalt volcanoes as a potential source of methane to late Pleistocene coastal waters”, Nature Geoscience, vol. 3, pp. 345–348, 2010.
, “Asphalt volcanoes as a potential source of methane to late Pleistocene coastal waters”, Nature Geoscience, vol. 3, pp. 345–348, 2010.
, “Archaeal lipid diversity, alteration, preservation at Cathedral Hill, Guaymas Basin, Gulf of California, and its link to the deep time preservation paradox”, Organic Geochemistry, p. 104302, 2021.
, “Archaeal lipid diversity, alteration, and preservation at the Cathedral Hill deep sea hydrothermal vent, Guaymas Basin, Gulf of California, and its implications regarding the deep time preservation paradox”, Organic Geochemistry, vol. 163, 2022.
, “Application of B, Mg, Li, and Sr Isotopes in Acid-Sulfate Vent Fluids and Volcanic Rocks as Tracers for Fluid-Rock Interaction in Back-Arc Hydrothermal Systems”, Geochemistry Geophysics Geosystems, 2019.
, “Ancient DNA techniques : applications for deep-water corals”, Bulletin of Marine Science, vol. 81, pp. 351–359, 2007.
, “Anaerobic oxidation of hydrocarbons from crude oil by new types of sulfate-reducing bacteria”, Nature, vol. 372, pp. 455–459, 1994.
, “Anaerobic oxidation of hydrocarbons from crude oil by new types of sulfate-reducing bacteria”, Nature, vol. 372, pp. 455–459, 1994.
, “Anaerobic oxidation of hydrocarbons from crude oil by new types of sulfate-reducing bacteria”, Nature, vol. 372, pp. 455–459, 1994.
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