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“Methanococcus jannaschii sp. nov., an extremely thermophilic methanogen from a submarine hydrothermal vent”, Archives of Microbiology, vol. 136, pp. 254–261, 1983.
, “A method for quantitatively estimating diffuse and discrete hydrothermal discharge”, Earth and Planetary Science Letters, vol. 118, pp. 235–249, 1993.
, “Microbathymetric mapping from underwater vehicles in the deep ocean”, Computer Vision and Image Understanding, vol. 79, pp. 143–161, 2000.
, “Microbe-mineral biogeography from multi-year incubations in oceanic crust at North Pond, Mid-Atlantic Ridge”, Environmental Microbiology, 2020.
, “Microbial activities in the emitted hydrothermal waters of the Galapagos Rift vents”, Marine Biology, vol. 73, pp. 293–299, 1983.
, “Microbial Communities on Seafloor Basalts at Dorado Outcrop Reflect Level of Alteration and Highlight Global Lithic Clades”, FRONTIERS IN MICROBIOLOGY, vol. 6, 2015.
, “Microbial Communities Under Distinct Thermal and Geochemical Regimes in Axial and Off-Axis Sediments of Guaymas Basin”, Frontiers in Microbiology, vol. 12, p. 633649, 2021.
, “Microbial Communities Under Distinct Thermal and Geochemical Regimes in Axial and Off-Axis Sediments of Guaymas Basin”, Frontiers in Microbiology, vol. 12, p. 633649, 2021.
, “Microbial decomposition of marine dissolved organic matter in cool oceanic crust”, Nature Geoscience, vol. 11, no. 5, p. 334 - +, 2018.
, “Microbial degradation of a starch-based biopolymer in the marine environment”, in Fundamentals of Biodegradable Materials and Packaging, Lancaster, Penn.: Technomic Publishing, 1993, pp. 297–310.
, “Microbial degradation of organic matter in the deep sea”, Science, vol. 171, pp. 672–675, 1971.
, “Microbial habitat connec ivity across spatial scales and hydrothermal temperature gradients at Guaymas Basin”, FRONTIERS IN MICROBIOLOGY, vol. 4, 2013.
, “Microbial life in the deep sea”, Scientific American, vol. 236, pp. 42–52, 1977.
, “Microbial succession during the transition from active to inactive stages of deep-sea hydrothermal vent sulfide chimneys”, Research Square, 2020.
, “Microbial succession during the transition from active to inactive stages of deep-sea hydrothermal vent sulfide chimneys”, Research Square, 2020.
, “Microbial utilization of naturally-occurring hydrocarbons at the Guaymas Basin hydrothermal vent site”, Applied and Environmental Microbiology, vol. 55, pp. 2832–2836, 1989.
, “A microbiological study of Guaymas Basin high temperature hydrothermal vents”, Deep-Sea Research. Part A, Oceanographic Research Papers, vol. 35, pp. 777–791, 1988.
, “Microbiology of the deep sea”, in Deep-Sea Biology, New York, N.Y.: Wiley, 1983, pp. 231–259.
, “Microearthquake characteristics and crustal velocity structure at 29 degrees N on the Mid-Atlantic Ridge: The architecture of a slow spreading segment”, Journal of Geophysical Research, vol. 100, pp. 24,424–449,472, 1995.
, “Mid-water current aided localization for autonomous underwater vehicles”, Autonomous Robots, vol. 40, pp. 1207–1227, 2016.
, “Migration, isolation, and speciation of hydrothermal vent limpets (Gastropoda ; Lepetodrilidae) across the Blanco Transform Fault”, Biological Bulletin, vol. 210, pp. 140–157, 2006.
, “Mineralogical studies of sulfide samples and volatile concentrations of basalt glasses from the southern Juan de Fuca Ridge”, Journal of Geophysical Research, vol. 92, pp. 11,311–373,379, 1987.
, “Mitogenomics reveals low variation within a trigeneric complex of black corals from the North Pacific Ocean”, Organisms Diversity & Evolution, pp. 1-11, 2021.
, “Mitogenomics reveals low variation within a trigeneric complex of black corals from the North Pacific Ocean”, Organisms Diversity & Evolution, pp. 1-11, 2021.
, “Models of habitat suitability, size, and age-class structure for the deep-sea black coral Leiopathes glaberrima in the Gulf of Mexico”, Deep Sea Research Part II: Topical Studies in Oceanography, vol. 150, pp. 218-228, 2018.
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