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Author Title [ Type] Year Filters: First Letter Of Last Name is L [Clear All Filters]
“Differences in recovery between deep-sea hydrothermal vent and vent-proximate communities after a volcanic eruption”, DEEP-SEA RESEARCH PART I-OCEANOGRAPHIC RESEARCH PAPERS, vol. 106, pp. 167–182, 2015.
, “Development of assemblages associated with alvinellid colonies on the walls of high-temperature vents at the East Pacific Rise”, Deep-Sea Research. Part II: Topical Studies in Oceanography, vol. 56, pp. 1622–1631, 2009.
, “Development and evolution of detachment faulting along 50 km of the Mid-Atlantic Ridge near 16.5°N”, Geochemistry, Geophysics, Geosystems, vol. 15, pp. 4692–4711, 2014.
, “Design and Testing of a Spherical Autonomous Underwater Vehicle for Shipwreck Interior Exploration”, Journal of Marine Science and Engineering, vol. 9, p. 320, 2021.
, “Delta 13C signature of hydrothermal mussels is related with the end-member fluid concentrations of H2S and CH4 at the Mid-Atlantic Ridge hydrothermal vent fields”, Cahiers de Biologie Marine, vol. 43, pp. 259–262, 2002.
, “Deep-water hydrocarbon seeps in Guaymas Basin, Gulf of California”, Applied Geochemistry, vol. 5, pp. 41–49, 1990.
, “Deep-sea vents: Science at the extreme”, National Geographic Magazine, vol. 198, pp. 116–127, 2000.
, “Deep-sea hydrothermal vent Epsilonproteobacteria encode a conserved and widespread nitrate reduction pathway (Nap)”, ISME JOURNAL, vol. 8, pp. 1510–1521, 2014.
, “A deep-sea hydrothermal vent community dominated by Stauromedusae”, Deep-Sea Research. Part II: Topical Studies in Oceanography, vol. 45, pp. 329–334, 1998.
, “Deep-sea hydrothermal vent communities of the Logatchev area (14 degrees 45'N, Mid-Atlantic Ridge): Diverse biotypes and high biomass”, Journal of the Marine Biological Association of the United Kingdom, vol. 80, pp. 383–393, 2000.
, “Deep-sea epibenthic echinoderms and a temporally varying food supply: results from a one year time series in the N.E. Pacific”, Deep-Sea Research. Part II: Topical Studies in Oceanography, vol. 45, pp. 817–842, 1998.
, “Deeply-sourced formate fuels sulfate reducers but not methanogens at Lost City hydrothermal field”, Scientific Reports, vol. 8, p. 755, 2018.
, “Dawn in the deep”, National Geographic Magazine, vol. 203, pp. 92–103, 2003.
, “Current-influenced depositional provinces, continental margin off Cape Hatteras, identified by petrologic method”, Marine Geology, vol. 40, pp. 215–235, 1981.
, “Current-induced sediment movement in the deep Florida Straits; Critical parameters”, Journal of Geophysical Research, vol. 84, pp. 2495–2502, 1979.
, “Crustal processes of the Mid-Ocean Ridge”, Science, vol. 213, pp. 31–40, 1981.
, “The crest of the East Pacific Rise”, Scientific American, vol. 244, pp. 100–108,110,112–114,116, 1981.
, “Craters, calderas, and hyaloclastites on young Pacific seamounts”, Journal of Geophysical Research, vol. 89, pp. 8371–8390, 1984.
, “Coupling of bacterial endosymbiont and host mitochondrial genomes in the hydrothermal vent clam Calyptogena magnifica”, Applied and Environmental Microbiology, vol. 69, pp. 2058–2064, 2003.
, “Correlated helium, neon, and melt production on the super-fast spreading East Pacific Rise near 17 degrees S”, Earth and Planetary Science Letters, vol. 232, pp. 125–142, 2005.
, “Coral communities of the deep Gulf of Mexico”, Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 55, pp. 777–787, 2008.
, “Copepod assemblages along a hydrothermal stress gradient at diffuse flow habitats within the ABE vent site (Eastern Lau Spreading Center, Southwest Pacific)”, Deep Sea Research Part I Oceanographic Research Papers, p. 103532, 2021.
, “Copepod assemblages along a hydrothermal stress gradient at diffuse flow habitats within the ABE vent site (Eastern Lau Spreading Center, Southwest Pacific)”, Deep Sea Research Part I Oceanographic Research Papers, p. 103532, 2021.
, “Control of deep-sea benthic community structure by oxygen and organic-matter gradients in the easter Pacific Ocean”, Journal of Marine Research, vol. 49, pp. 763–800, 1991.
, “Contribution of aerobic photoheterotrophic bacteria to the carbon cycle in the ocean”, Science, vol. 292, pp. 2492–2495, 2001.
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