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C. A. Kellogg and Pratte, Z. A., Unexpected diversity of Endozoicomonas in deep-sea corals, Marine Ecology Progress Series, vol. 673, pp. 1-15, 2021.
P. Eleson, Underwater ordnance, Ordnance, vol. 49, pp. 234–236, 1964.
Underwater drill, Oceanology International, vol. 3, p. 13, 1968.
R. Gannon, Underwater canyons, Popular Science, vol. 231, p. 60(7), 1987.
M. Olsson, Hardy, K., and Sanderson, J., Underwater applications of high-power light-emitting diodes: solid-state lighting comes of age in the deep sea as high-power LEDs debut on submersible Alvin dives, Sea Technology, vol. 48, pp. 31–34, 2007.
P. A. Tyler, German, C. R., Ramirez-Llodra, E., and Van Dover, C. L., Understanding the biogeography of chemosynthetic ecosystems., Oceanologica Acta, vol. 25, pp. 227–241, 2003.
T. Baumberger, Lilley, M. D., Resing, J. A., Lupton, J. E., Baker, E. T., Butterfield, D. A., Olson, E. J., and Fruh-Green, G. L., Understanding a submarine eruption through time series hydrothermal plume sampling of dissolved and particulate constituents: West Mata, 2008-2012, Geochemistry, Geophysics, Geosystems, vol. 15, pp. 4631–4650, 2014.
L. J. Rosenblum, Stewart, W. K., and Kamgar-Parsi, B., Undersea visualization: a tool for scientific and engineering progress, in Animation and Scientific Visualization: Tools {&} Applications, R. A. Earnshaw, Ed. London: Academic Press, 1993, pp. 205–223.
F. Council fo Technology, Undersea vehicles for oceanography. Washington, D.C.: U.S. Government Printing Office, 1965, p. 81.
R. F. Busby and Merrifield, R., Undersea studies with the DSRV Alvin, Tongue of the Ocean, Bahamas, September 1966. Washington, D.C.: Naval Oceanographic Office, 1967, p. 62.
Undersea seeping found off the northern California coast, Bulletin of the American Meteorological Society, vol. 70, pp. 310–311, 1989.
A. E. Nevala, Undersea eruption traps devices on the bottom of the Pacific, Oceanus, vol. 45, p. 6, 2007.
H. W. Jannasch, The ultimate sink, in Proceedings of the Workshop: Microbial Degradation of Pollutants in Marine Environments, Pensacola Beach, Florida, 9-14 April 1978, A. W. Bourquin, Ed. Gulf Breeze, Fla.: Environmental Research Laboratory, Office of Research and Development, U.S. Environmental Protection Agency, 1979, pp. 3–9.
M. F. Bowen, Ultimate ocean depth packaging for a digital ring laser gyroscope, vol. 98-15. Woods Hole, Mass.: Woods Hole Oceanographic Institution, 1998, p. 24.
A. - L. Reysenbach, Liu, Y. T., Banta, A. B., Beveridge, T. J., Kirshtein, J. D., Schouten, S., Tivey, M. K., Von Damm, K. L., and Voytek, M. A., A ubiquitous thermoacidophilic archaeon from deep-sea hydrothermal vents, Nature, vol. 442, pp. 444–447, 2006.
Z. P. McKiness and Cavanaugh, C. M., The ubiquitous mussel: Bathymodiolus aff. brevior symbiosis at the Central Indian Ridge hydrothermal vents, Marine Ecology Progress Series, vol. 295, pp. 183–190, 2005.
T. Okutani, Two new species of Provanna (Gastropoda: Cerithiacea) from snail pit in the hydrothermal vent site at the Mariana Back-Arc Basin, Venus the Japanese Journal of Malacology, vol. 49, pp. 19–24, 1990.
M. H. Pettibone, Two new species of Harmothoinae (Polychaeta: Polynoidae) from the East Pacific Rise, collected by Alvin dives 2000 and 2003, Proceedings of the Biological Society of Washington, vol. 102, pp. 305–310, 1989.
R. Zottoli, Two new genera of deep-sea polychaete worms of the family Ampharetidae and the role of one species in deep-sea ecosystems, Proceedings of the Biological Society of Washington, vol. 95, pp. 48–57, 1982.
H. H. Learnard, Marquet, W. M., and McCamis, M. J., Twenty-four (24) man-hour test of Alvin's environmental system. Woods Hole, MA: Woods Hole Oceanographic Institution, 1964, p. 9.
S. Gollner, Zekeley, J., Govenar, B., Le Bris, N., Nemeschkal, H. L., Fisher, C. R., and Bright, M., Tubeworm-associated permanent meiobenthic communities from two chemically different hydrothermal vent sites on the East Pacific Rise, Marine Ecology Progress Series, vol. 337, pp. 39–49, 2007.
L. S. Mullineaux, Fisher, C. R., Peterson, C. H., and Schaeffer, S. W., Tubeworm succession at hydrothermal vents: Use of biogenic cues to reduce habitat selection error?, Oecologia, vol. 123, pp. 275–284, 2000.
J. Klose, Aistleitner, K., Horn, M., Krenn, L., Dirsch, V., Zehl, M., and Bright, M., Trophosome of the Deep-Sea Tubeworm Riftia pachyptila Inhibits Bacterial Growth, PLOS ONE, vol. 11, 2016.
M. M. Gowing and Wishner, K. F., Trophic relationships of deep-sea calanoid copepods from the benthic boundary layer of the Santa Catalina Basin, California, Deep-Sea Research. Part A, Oceanographic Research Papers, vol. 33, pp. 939–961, 1986.
C. L. Van Dover, Trophic relationships among invertebrates at the Kairei hydrothermal vent field (Central Indian Ridge), Marine Biology, vol. 141, pp. 761–772, 2002.