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Author Title [ Type] Year Filters: First Letter Of Last Name is W [Clear All Filters]
“Habitat reversal in vent and seep mussels: seep species, Bathymodiolus heckerae, derived from vent ancestors”, Cahiers de Biologie Marine, vol. 43, pp. 387–390, 2002.
, “Greenhouse gases generated from the anaerobic biodegradation of natural offshore asphalt seepages in southern California”, GEO-MARINE LETTERS, vol. 34, pp. 281–295, 2014.
, “Grand Challenge: Timescales and Processes of Methane Hydrate Formation and Breakdown, with Application to Geologic Systems”, Journal of Geophysical Research: Solid Earth, 2020.
, “Going 4 miles underwater: A next-generation 'Alvin' submersible will take ocean exploration to new depths”, Popular Mechanics, vol. 181, p. 30,32, 2004.
, “Geothermal heating and episodic cold-seawater intrusions into an isolated ridge-flank basin near the Mid-Atlantic Ridge”, Communications Earth & Environment, vol. 2, p. 226, 2021.
, “Geology of the Atlantis Massif (Mid Atlantic Ridge, 30 degrees N): Implications for the evolution of an ultramafic oceanic core complex”, Marine Geophysical Researches, vol. 23, pp. 443–469, 2002.
, “Geology of Great Abaco submarine canyon (Blake Plateau): observations from the research submersible Alvin”, Marine Geology, vol. 48, pp. 239–257, 1982.
, “Geology and Fluid Discharge at Dorado Outcrop, a Low Temperature Ridge-Flank Hydrothermal System”, Geochemistry Geophysics Geosystems, vol. 20, pp. 487-504, 2019.
, “Geological setting and characteristics of the Lucky Strike vent field at 37 degrees 17'N on the Mid-Atlantic Ridge”, EOS, Transactions, American Geophysical Union, vol. 74, p. 99, 1993.
, “Geological setting and characteristics of the Lucky Strike vent field at 37 degrees 17'N on the Mid-Atlantic Ridge”, EOS, Transactions, American Geophysical Union, vol. 74, p. 99, 1993.
, “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.
, “Geodetic Monitoring at Axial Seamount Since its 2015 Eruption Reveals a Waning Magma Supply and Tightly Linked Rates of Deformation and Seismicity”, Geochemistry Geophysics Geosystems, 2021.
, “Geochemistry of hydrothermal fluids from the PACMANUS, Northeast Pual and Vienna Woods hydrothermal fields, Manus Basin, Papua New Guinea”, Geochimica et Cosmochimica Acta, vol. 75, pp. 1088–1123, 2011.
, “Geochemistry of hot-springs at the SuSu Knolls hydrothermal field, Eastern Manus Basin: Advanced argillic alteration and vent fluid acidity”, Geochimica Et Cosmochimica Acta, vol. 255, pp. 25-48, 2019.
, “Genomic insights into the uncultivated marine Zetaproteobacteria at Loihi Seamount”, ISME JOURNAL, vol. 9, pp. 857–870, 2015.
, “Genetic variation among endosymbionts of widely distributed vestimentiferan tubeworms”, Applied and Environmental Microbiology, vol. 66, pp. 651–658, 2000.
, “Genetic heterogeneity among New Zealand species of hydrothermal vent mussels (Mytilidae: Bathymodiolus)”, Marine Biology, vol. 144, pp. 537–545, 2004.
, “Galapagos '79: Initial findings of a deep-sea biological quest”, Oceanus, vol. 22, pp. 2–10, 1979.
, “Galapagos '79: Initial findings of a deep-sea biological quest”, Oceanus, vol. 22, pp. 2–10, 1979.
, “A fungal epizootic in mussels at a deep-sea hydrothermal vent”, Marine Ecology, vol. 28, pp. 54–62, 2007.
, “A fungal epizootic in mussels at a deep-sea hydrothermal vent”, Marine Ecology, vol. 28, pp. 54–62, 2007.
, “Functional morphology and feeding strategy of the hydrothermal-vent polychaete Archinome rosacea (Amphinomidae)”, Canadian Journal of Zoology, vol. 81, pp. 582–590, 2003.
, “Formation-scale hydraulic and mechanical properties of oceanic crust inferred from pore pressure response to periodic seafloor loading”, Journal of Geophysical Research, vol. 105, pp. 13,413–423,435, 2000.
, “Forever competent: deep-sea bivalves are colonized by their chemosynthetic symbionts throughout their lifetime”, ENVIRONMENTAL MICROBIOLOGY, vol. 16, pp. 3699–3713, 2014.
, “Forever competent: deep-sea bivalves are colonized by their chemosynthetic symbionts throughout their lifetime”, ENVIRONMENTAL MICROBIOLOGY, vol. 16, pp. 3699–3713, 2014.
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