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“Geological and geophysical investigation of the Mid-Cayman Rise spreading center: Geochemical variation and petrogenesis of basalt glasses”, Journal of Geology, vol. 88, pp. 41–55, 1980.
, “A geological and geophysical investigation of Baby Bare, locus of a ridge-flank hydrothermal system in the Cascadia Basin”, Journal of Geophysical Research, vol. 105, pp. 23,523–557,568, 2000.
, “Geological and biological heterogeneity of the Aleutian Margin (1965–4822 m)”, Progress In Oceanography, vol. 80, pp. 22–50, 2009.
, “Geological and biological heterogeneity of the Aleutian Margin (1965–4822 m)”, Progress In Oceanography, vol. 80, pp. 22–50, 2009.
, “Geological and biological heterogeneity of the Aleutian Margin (1965–4822 m)”, Progress In Oceanography, vol. 80, pp. 22–50, 2009.
, “Geologic form and setting of a hydrothermal vent field at lat 10 degrees 56'N, East Pacific Rise; a detailed study using Angus and Alvin”, Geology, vol. 14, pp. 295–298, 1986.
, “Geologic form and setting of a hydrothermal vent field at lat 10 degrees 56'N, East Pacific Rise; a detailed study using Angus and Alvin”, Geology, vol. 14, pp. 295–298, 1986.
, “Geochemistry of fluids from Earth's deepest ridge-crest hot-springs: Piccard hydrothermal field, Mid-Cayman Rise”, Geochimica et Cosmochimica Acta, vol. 228, no. Journal Article, pp. 95 - 118, 2018.
, “Geochemistry and iron isotope systematics of hydrothermal plume fall-out at East Pacific Rise 9°50′N”, Chemical Geology, vol. 441, pp. 212–234, 2016.
, “A geochemical study of metalliferous sediment from the TAG bydrothermal mound, 26 degrees 09'N, Mid-Atlantic Ridge”, Journal of Geophysical Research, vol. 98, pp. 9683–9692, 1993.
, “Geochemical studies of abyssal lavas recovered by DSRV Alvin from eastern Galapagos Rift, Inca Transform, and Ecuador Rift: 1, Major element variations in natural glasses and spacial distribution of lavas”, Journal of Geophysical Research, vol. 88, pp. 10,510–519,529, 1983.
, “Geochemical studies of abyssal lavas recovered by DSRV Alvin from eastern Galapagos Rift, Inca Transform, and Ecuador Rift: 3, Trace element abundances and petrogenesis”, Journal of Geophysical Research, vol. 88, pp. 10,510–551,572, 1983.
, “Genomic Variation Influences Methanothermococcus Fitness in Marine Hydrothermal Systems”, Frontiers in Microbiology, vol. 12, p. 714920, 2021.
, “Genetic heterogeneity among New Zealand species of hydrothermal vent mussels (Mytilidae: Bathymodiolus)”, Marine Biology, vol. 144, pp. 537–545, 2004.
, “Genesis of massive sulfide deposits on a sediment-covered spreading center, Escanaba Trough 41N, Gorda Ridge”, Economic Geology, vol. 88, pp. 2069–2098, 1993.
, “Generation of short chain acid anions in hydrothermally altered sediments of the Guaymas Basin, Gulf of California”, Applied Geochemistry, vol. 5, pp. 71–76, 1990.
, “Generation and Utilization of Volatile Fatty Acids and Alcohols in Hydrothermally Altered Sediments in the Guaymas Basin, Gulf of California”, Geophysical Research Letters, vol. 46, pp. 2637-2646, 2019.
, “Gene expression profiling of microbial activities and interactions in sediments under haloclines of E. Mediterranean deep hypersaline anoxic basins”, ISME Journal, vol. 10, pp. 2643–2657, 2016.
, “Galapagos '79: Initial findings of a deep-sea biological quest”, Oceanus, vol. 22, pp. 2–10, 1979.
, “Functional traits provide new insight into recovery and succession at deep-sea hydrothermal vents”, Ecology, 2021.
, “Functional traits provide new insight into recovery and succession at deep‐sea hydrothermal vents”, Ecology, p. e03418, 2021.
, “Functional traits provide new insight into recovery and succession at deep-sea hydrothermal vents”, Ecology, 2021.
, “Functional traits provide new insight into recovery and succession at deep‐sea hydrothermal vents”, Ecology, p. e03418, 2021.
, “Four new pseudococculinid limpets collected by the deep-submersible Alvin in the eastern Pacific”, Veliger, vol. 34, pp. 38–47, 1991.
, “Formation of Zn- and Fe-sulfides near hydrothermal vents at the Eastern Lau Spreading Center: implications for sulfide bioavailability to chemoautotrophs”, Geochemical Transactions, vol. 9, p. 6, 2008.
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