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J. C. MacIlvaine, Sedimentary processes on the continental slope off New England, Massachusetts Institute of Technology and the Woods Hole Oceanographic Institution, Cambridge, MA and Woods Hole, MA, 1973.
M. R. Raven, Sessions, A. L., Fischer, W. W., and Adkins, J. F., Sedimentary pyrite $δ$34S differs from porewater sulfide in Santa Barbara Basin: Proposed role of organic sulfur, Geochimica et Cosmochimica Acta, vol. 186, pp. 120–134, 2016.
N. S. Marks, Sedimentation of new ocean crust: The Mid-Atlantic Ridge, 37 degrees N, Stanford University, Stanford, Calif., 1979.
S. Wu, Sakamoto, I., Horiuchi, S., Misawa, Y., and Ohta, S., Sedimentation processes and deformation at south flank of Zenisu Ridge, Philippine Sea revealed by 'Shinkai 6500' Dive 523 and seismic data, JAMSTEC Journal of Deep Sea Research, pp. 53–64, 2000.
G. T. Rowe and Gardner, W. D., Sedimentation rates in the slope water of the northwest Atlantic Ocean measured directly with sediment traps, Journal of Marine Research, vol. 37, pp. 581–600, 1979.
R. Parnell-Turner, Cann, J. R., Smith, D. K., Schouten, H., Yoerger, D. R., Palmiotto, C., Zheleznov, A., and Bai, H., Sedimentation rates test models of oceanic detachment faulting, Geophysical Research Letters, vol. 41, pp. 7080–7088, 2014.
W. A. Wells, Seeking extremophiles Recombinant Biocatalysis, Inc., Chemistry {&} Biology, vol. 4, pp. 401–402, 1997.
F. Escarpment Participants, Paull, C. K., Hecker, B., Neumann, A. C., Sikes, E. L., Hook, J., Corso, W., Freeman-Lynde, R., Commeau, R., Golubic, S., and Curray, J., The seeps find at the Florida Escarpment, Oceanus, vol. 27, pp. 32–33, 1984.
J. A. Karson, Segment boundaries in oceanic and contintental rifts: geometry and kinematics of transfer zones, EOS, Transactions, American Geophysical Union, vol. 73, p. 286, 1992.
R. A. Sohn, Fornari, D. J., Von Damm, K. L., Hildebrand, J. A., and Webb, S. C., Seismic and hydrothermal evidence for a cracking event on the East Pacific Rise at 9 degrees 50'N, Nature, vol. 396, pp. 159–161, 1998.
H. T. Mullins and Neumann, A. C., Seismic facies and depositional processes of modern off-platform carbonate rocks in northern Bahamas, AAPG Bulletin, vol. 63, p. 500, 1979.
R. P. Dziak, Haxel, J. H., Bohnenstiehl, D. R., Chadwick, W. W., Nooner, S. L., Fowler, M. J., Matsumoto, H., and Butterfield, D. A., Seismic precursors and magma ascent before the April 2011 eruption at Axial Seamount, Nature Geoscience, vol. 5, pp. 478–482, 2012.
A. Moulana, Anderson, R. E., Fortunato, C. S., and Huber, J. A., Selection Is a Significant Driver of Gene Gain and Loss in the Pangenome of the Bacterial Genus Sulfurovum in Geographically Distinct Deep-Sea Hydrothermal Vents, Msystems, vol. 5, 2020.
G. Sancho, Fisher, C. R., Mills, S. W., Micheli, F., Johnson, G. A., Lenihan, H. S., Peterson, C. H., and Mullineaux, L. S., Selective predation by the zoarcid fish Thermarces cerberus at hydrothermal vents., Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 52, pp. 837–844, 2005.
C. N. Roman, Self consistent bathymetric mapping from robotic vehicles in the deep ocean, Massachusetts Institute of Technology and Woods Hole Oceanographic Institution, Cambridge, MA and Woods Hole, MA, 2005.
C. Roman and Singh, H., A self-consistent bathymetric mapping algorithm, Journal of Field Robotics, vol. 24, pp. 23–50, 2007.
D. S. Kelley, Karson, J. A., Fruh-Green, G. L., Yoerger, D. R., Shank, T. M., Butterfield, D. A., Hayes, J. M., Schrenk, M. O., Olson, E. J., Proskurowski, G., Jakuba, M. V., Bradley, A. M., Larson, B. I., Ludwig, K. A., Glickson, D. A., Buckman, K., Bradley, A. S., Brazelton, W. J., Roe, K., Elend, M. J., Delacour, A., Bernasconi, S. M., Lilley, M. D., Baross, J. A., Summons, R. T., and Sylva, S. P., A serpentinite-hosted ecosystem: The lost city hydrothermal field, Science, vol. 307, pp. 1428–1434, 2005.
C. R. Smith, Bernardino, A. F., Baco, A., Hannides, A., and Altamira, I., Seven-year enrichment: macrofaunal succession in deep-sea sediments around a 30 tonne whale fall in the Northeast Pacific, MARINE ECOLOGY PROGRESS SERIES, vol. 515, pp. 133–149, 2014.
J. C. Van Leer, Shear of small vertical scale observed in the permanent oceanic thermocline, Massachusetts Institute of Technology and the Woods Hole Oceanographic Institution, Cambridge, MA and Woods Hole, MA, 1971.
D. Maicher, White, J. D. L., and Batiza, R., Sheet hyaloclastite; density-current deposits of quench and bubble-burst fragments from thin, glassy sheet lava flows, Seamount Six, eastern Pacific Ocean, Marine Geology, vol. 171, pp. 75–94, 2000.
K. S. Johnson, Childress, J. J., and Beehler, C. L., Short term temperature variability in the Rose Garden hydrothermal vent field: an unstable deep-sea environment, Deep-Sea Research. Part A, Oceanographic Research Papers, vol. 35, pp. 1711–1722, 1988.
K. L. Von Damm, Short term variability, phase separation and water-rock reaction in hydrothermal fluids from 9-10N, East Pacific Rise, in Water-rock Interaction: Proceedings of the 7th International Symposium on Water-Rock Interaction: WRI-7, Park City, Utah, USA, 13-18 July 1992, Y. K. Kharaka, Ed. Rotterdam; Brookfield, Vt.: A.A. Balkema, 1992, pp. 1679–1680.
S. D. Hurst and Karson, J. A., Side-scan sonar along the north wall of the Hess Deep Rift: Processing, texture analysis, and geologic ground truth on an oceanic escarpment, Journal of Geophysical Research, vol. 109, p. B02107, 2004.
S. M. White, Mason, J. L., Macdonald, K. C., Perfit, M. R., Wanless, V. D., and Klein, E. M., Significance of widespread low effusion rate eruptions over the past two million years for delivery of magma to the overlapping spreading centers at 9 degrees N East Pacific Rise, Earth and Planetary Science Letters, vol. 280, pp. 175–184, 2009.
T. Koslow, The Silent Deep: The discovery, ecology, and conservation of the deep sea. Chicago, IL: University of Chicago Press, 2007, p. 312.

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