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Journal Article
T. J. Schroeder and John, B. E., Strain localization on an oceanic detachment fault system, Atlantis Massif, 30 degrees N, Mid-Atlantic Ridge, Geochemistry, Geophysics, Geosystems, vol. 5, p. Article no. Q11007, 2004.
S. J. Mitchell, Houghton, B. F., Carey, R. J., Manga, M., Fauria, K. E., Jones, M. R., Soule, S. A., Conway, C. E., Wei, Z. H., and Giachetti, T., Submarine giant pumice: a window into the shallow conduit dynamics of a recent silicic eruption, Bulletin of Volcanology, vol. 81, 2019.
K. S. Johnson, Beehler, C. L., and Sakamoto-Arnold, C. M., A submersible flow analysis system, Analytica Chimica Acta, vol. 179, pp. 245–257, 1986.
R. W. Embley, Jonasson, I. R., Pefit, M. R., Franklin, J. M., Tivey, M. A., Malahoff, A., Smith, M. F., and Francis, T. J. G., Submersible investigation of an extinct hydrothermal system on the Galapagos Ridge: Sulfide mounds, stockwork zone and differentiated lavas, Canadian Mineralogist, vol. 26, pp. 517–539, 1988.
R. W. Embley, Hammond, S., Murphy, K. M., Fox, C. G., Appelgate, B., Massoth, G. J., Feely, R. A., Baker, E. T., Gendron, J., Lebon, G., Butterfield, D. A., Coughlin, B., Lupton, J. E., Jonnason, I., Perfit, M. R., Cowen, J. P., Tunnicliffe, V., and Trivett, D. A., Submersible observation of the 'megaplume' areas: Southern Juan de Fuca Ridge, EOS, Transactions, American Geophysical Union, vol. 69, p. 1483, 1988.
R. Hekinian, Juteau, T., Gracia, E., Sichler, B., Sichel, S., Udintsev, G., Apprioual, R., and Ligi, M., Submersible observations of equatorial atlantic mantle: The St. Paul Fracture Zone region, Marine Geophysical Researches, vol. 21, pp. 529–560, 2000.
A. Bourbonnais, Lehmann, M. F., Butterfield, D. A., and S Juniper, K., Subseafloor nitrogen transformations in diffuse hydrothermal vent fluids of the Juan de Fuca Ridge evidenced by the isotopic composition of nitrate and ammonium, GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS, vol. 13, 2012.
G. C Wheat, Jannasch, H. W., Fisher, A. T., Becker, K., Sharkey, J., and Hulme, S., Subseafloor seawater-basalt-microbe reactions: Continuous sampling of borehole fluids in a ridge flank environment, GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS, vol. 11, 2010.
P. Martineu, Juniper, S. K., Fisher, C. R., and Massoth, G. J., Sulfide binding in the body fluids of hydrothermal vent alvinellid polychaetes, Physiological Zoology, vol. 70, pp. 578–588, 1997.
J. W. Jamieson, Hannington, M. D., Clague, D. A., Kelley, D. S., Delaney, J. R., Holden, J. F., Tivey, M. K., and Kimpe, L. E., Sulfide geochronology along the Endeavour Segment of the Juan de Fuca Ridge, Geochemistry, Geophysics, Geosystems, vol. 14, pp. 2084–2099, 2013.
A. Gartman, Yucel, M., Madison, A. S., Chu, D. W., Ma, S., Janzen, C. P., Becker, E. L., Beinart, R. A., Girguis, P. R., and Luther, G. W., Sulfide Oxidation across Diffuse Flow Zones of Hydrothermal Vents, Aquatic Geochemistry, vol. 17, pp. 583–601, 2011.
C. K. Hearn, Homola, K. L., and H Johnson, P., Surficial permeability of the axial valley seafloor: Endeavour Segment, Juan de Fuca Ridge, GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS, vol. 14, pp. 3409–3424, 2013.
S. Belkin, Nelson, D. C., and Jannasch, H. W., Symbiotic assimilation of CO2 in two hydrothermal vent animals, the mussel Bathymodiolus thermophilus and the tube worm Riftia pachyptila, Biological Bulletin, vol. 170, pp. 110–121, 1986.
D. R. Yoerger, Jakuba, M. V., Bradley, A. M., and Bingham, B., Techniques for deep sea near bottom survey using an autonomous underwater vehicle, International Journal of Robotics Research, vol. 26, pp. 41–54, 2007.
J. Marlow, Borrelli, C., Jungbluth, S. P., Hoffman, C., Marlow, J., Girguis, P. R., and Team, A. T. -36, Telepresence is a potentially transformative tool for field science, PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, vol. 114, pp. 4841–4844, 2017.
R. W. Lee, Robert, K., Matabos, M., Bates, A. E., and Juniper, S. K., Temporal and spatial variation in temperature experienced by macrofauna at Main Endeavour hydrothermal vent field, Deep-Sea Research Part I: Oceanographic Research Papers, vol. 106, pp. 154–166, 2015.
H. L. Hunt, Metaxas, A., Jennings, R. L., Halanych, K. M., and Mullineaux, L. S., Testing biological control of colonization by vestimentiferan tubeworms at deep-sea hydrothermal vents (East Pacific Rise, 9 degrees 50'N), Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 51, pp. 225–234, 2004.
D. M. Karl, Burns, D., Orrett, K., and Jannasch, H. W., Themophilic microbial activity in samples from deep sea hydrothermal vents, Marine Biology Letters, vol. 5, pp. 227–231, 1984.
A. Neuner, Jannasch, H. W., Belkin, S., and Stetter, K. O., Thermococcus litoralis sp. nov.: a novel species of extremely thermophilic marine archaebacteria, Archives of Microbiology, vol. 153, pp. 205–207, 1990.
B. B. Jorgensen, Zawacki, L. X., and Jannasch, H. W., Thermophilic bacterial sulfate reduction in deep-sea sediments at the Guaymas Basin hydrothermal vent site (Gulf of California), Deep-Sea Research. Part A, Oceanographic Research Papers, vol. 37, pp. 695–710, 1990.
B. B. Jorgensen, Zawacki, L. X., and Jannasch, H. W., Thermophilic bacterial sulfate reduction in deep-sea sediments at the Guaymas Basin hydrothermal vent site (Gulf of California), Deep-Sea Research. Part A, Oceanographic Research Papers, vol. 37, pp. 695–710, 1990.
P. Chevaldonne, Fisher, C. R., Childress, J. J., Desbruyeres, D., Jollivet, D., Zal, F., and Toulmond, A., Thermotolerance and the ‘Pompeii worms', Marine Ecology Progress Series, vol. 208, pp. 293–295, 2000.
M. A. Tivey, Johnson, P. H., Bradley, A., and Yoerger, D. R., Thickness of a submarine lava flow determined from near-bottom magnetic field mapping by autonomous underwater vehicle, Geophysical Research Letters, vol. 25, pp. 805–808, 1998.
H. W. Jannasch, Wirsen, C. O., Nelson, D. C., and Robertson, L. A., Thiomicrospira crunogena sp. nov., a colorless sulfur-oxidizing bacterium from a deep-sea hydrothermal vent, International Journal of Systematic Bacteriology, vol. 35, pp. 422–424, 1985.
S. M. Maher, Gee, J. S., Cheadle, M. J., and John, B. E., Three-dimensional magnetic stripes require slow cooling in fast-spread lower ocean crust, Nature, vol. 597, pp. 511-515, 2021.

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