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E
N. Estabrook, Wheeler, H., Uhler, D., and Hackman, D., Development of deep-ocean work system, Mechanism and Machine Theory, vol. 12, pp. 569–576, 1977.
S. F. Eltgroth, Adkins, J. F., Robinson, L. F., Southon, J., and Kashgarian, M., A deep-sea coral record of North Atlantic radiocarbon through the Younger Dryas: Evidence for Intermediate/Deep Water Reorganization, Paleoceanography, vol. 21, p. PA4207, 2006.
R. Eldred, Lussier, J., and Pollman, A., Design and Testing of a Spherical Autonomous Underwater Vehicle for Shipwreck Interior Exploration, Journal of Marine Science and Engineering, vol. 9, p. 320, 2021.
D. B. Edwards and Nelson, D. C., DNA-DNA solution hybridization studies of the bacterial symbionts of hydrothermal vent tube worms (Riftia pachyptila and Tevnia jerichonana), Applied and Environmental Microbiology, vol. 57, pp. 1082–1088, 1991.
J. M. Edmond, Deep-sea science needs in marine geochemistry, Marine Technology Society Journal, vol. 24, pp. 32–33, 1990.
D
K. Duplessis and Reiswig, H. M., Description of a new deep-water calcareous sponge (Porifera: Calcarea) from Northern California, Pacific Science, vol. 54, pp. 10–14, 2000.
S. Duperron, Sibuet, M., MacGregor, B. J., Kuypers, M. M. M., Fisher, C. R., and Dubilier, N., Diversity, relative abundance and metabolic potential of bacterial endosymbionts in three Bathymodiolus mussel species from cold seeps in the Gulf of Mexico, Environmental microbiology, vol. 9, pp. 1423–1438, 2007.
J. C. Dreyer, Knick, K. E., Flickinger, W. B., and Van Dover, C. L., Development of macrofaunal community structure in mussel beds on the northern East Pacific Rise, Marine Ecology Progress Series, vol. 302, pp. 121–134, 2005.
D. L. Distel, Baco, A. R., Chuang, E., Morrill, W., Cavanaugh, C., and Smith, C. R., Do mussels take wooden steps to deep-sea vents?, Nature, vol. 403, pp. 725–726, 2000.
E. E. Davis, Wang, K., Becker, K., Thomson, R. E., and Yashayaev, I., Deep-ocean temperature variations and implications for errors in seafloor heat flow determinations, Journal of Geophysical Research, vol. 108, p. Article no. 2034, 2003.
S. C. Daubin, Deep submergence vehicles for ocean research, vol. 69-86. Woods Hole, Mass.: Woods Hole Oceanographic Institution, 1969, p. 33.
C
K. J. Coyne, Countway, P. D., Pilditch, C. A., Lee, C. K., Caron, D. A., and Cary, S. C., Diversity and Distributional Patterns of Ciliates in Guaymas Basin Hydrothermal Vent Sediments, JOURNAL OF EUKARYOTIC MICROBIOLOGY, vol. 60, pp. 433–447, 2013.
D. A. Cowart, Halanych, K. M., Schaeffer, S. W., and Fisher, C. R., Depth-dependent gene flow in Gulf of Mexico cold seep Lamellibrachia tubeworms (Annelida, Siboglinidae), HYDROBIOLOGIA, vol. 736, pp. 139–154, 2014.
J. T. P. Copley, Flint, H. C., Ferrero, T. J., and Van Dover, C. L., Diversity of melofauna and free-living nematodes in hydrothermal vent mussel beds on the northern and southern East Pacific Rise, Journal of the Marine Biological Association of the United Kingdom, vol. 87, pp. 1141–1152, 2007.
N. J. Copley and Wiebe, P. H., Drawings and Descriptions of Some Deep-Sea Copepods Living Above the Guaymas Basin Hydrothermal Vent Field, vol. 90-15. Woods Hole, Mass.: Woods Hole Oceanographic Institution, 1990, p. 63.
D. F. Coleman, Newman, J. B., and Ballard, R. D., Design and implementation of advanced underwater imaging systems for deep sea marine archaeological surveys, in Oceans 2000 MTS/IEEE: where marine science and technology meet, vol. 1, Piscataway, N.J.: IEEE, 2000, pp. 661–665.
A. Colaco, Dehairs, F., Desbruyeres, D., Le Bris, N., and Sarradin, P. - M., 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.
J. Cleland, Kazanidis, G., J. Roberts, M., and Ross, S. W., Distribution of Megabenthic Communities Under Contrasting Settings in Deep-Sea Cold Seeps Near Northwest Atlantic Canyons, Frontiers in Marine Science, vol. 8, p. 692851, 2021.
R. S. Chandler, DSV Alvin dive log 1964-90. Woods Hole, Mass.: Woods Hole Oceanographic Institution, 1990, p. var.
R. S. Chandler, DSV Alvin dive log 1964-88. Woods Hole, Mass.: Woods Hole Oceanographic Institution, 1988, p. var.
R. S. Chandler, DSV Alvin dive log 1964-92. Woods Hole, Mass.: Woods Hole Oceanographic Institution, 1992, p. var.
W. W. Chadwick and Stapp, M., A deep-sea observatory experiment using acoustic extensometers:precise horizontal distance measurements across a mid-ocean ridge, IEEE Journal of Oceanic Engineering, vol. 27, pp. 193–201, 2002.
W. W. Chadwick, Cashman, K. V., Embley, R. W., Matsumoto, H., Dziak, R. P., de Ronde, C. E. J., Lau, T. K., Deardorff, N. D., and Merle, S. G., Direct video and hydrophone observations of submarine explosive eruptions at NW Rota-1 volcano, Mariana arc, Journal of Geophysical Research, vol. 113, p. B08S10, 2008.
S. P. Castro, Borton, M. A., Regan, K., de Angelis, I. H., Wrighton, K. C., Teske, A. P., Strous, M., and Ruff, S. E., Degradation of biological macromolecules supports uncultured microbial populations in Guaymas Basin hydrothermal sediments, Isme Journal, 2021.
B. J. Campbell, Polson, S. W., Allen, L. Zeigler, Williamson, S. J., Lee, C. K., K Wommack, E., and S Cary, C., Diffuse flow environments within basalt- and sediment-based hydrothermal vent ecosystems harbor specialized microbial communities, FRONTIERS IN MICROBIOLOGY, vol. 4, 2013.

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