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T. N. Giguère and Tunnicliffe, V., Beta diversity differs among hydrothermal vent systems: Implications for conservation, PLOS ONE, vol. 16, p. e0256637, 2021.
J. J. Childress, Gluck, D. L., Carney, R. S., and Gowing, M. M., Benthopelagic biomass distribution and oxygen consumption in a deep-sea benthic boundary layer dominated by gelatinous organisms, Limnology and Oceanography, vol. 34, pp. 913–930, 1989.
J. M. Bernhard, Kormas, K., Pachiadaki, M., Rocke, E., Beaudoin, D. J., Morrison, C., Visscher, P. T., Cobban, A., Starczak, V. R., and Edgcomb, V. P., Benthic protists and fungi of Mediterranean deep hypsersaline anoxic basin redoxcline sediments, Frontiers in Microbiology, vol. 5, p. 605, 2014.
G. Panieri and Gupta, B. K. Sen, Benthic Foraminifera of the Blake Ridge hydrate mound, Western North Atlantic Ocean, Marine Micropaleontology, vol. 66, pp. 91–102, 2008.
G. T. Rowe, Polloni, P. T., and Haedrich, R. L., Benthic fauna of the Gulf of Maine sampled by R/V Gosnold cruise 179 and DSRV Alvin dives 329, 330, 331, and 404: Infaunal species list, vol. 75-38. Woods Hole, Mass.: Woods Hole Oceanographic Institution, 1975, p. 5.
S. Gollner, Zekely, J., Van Dover, C. L., Govenar, B., Le Bris, N., Nemeschkal, H. L., and Bright, M., Benthic copepod communities associated with tubeworm and mussel aggregations on the East Pacific Rise, Cahiers de Biologie Marine, vol. 47, pp. 397–402, 2006.
K. L. Smith, Benthic community respiration in the N.W. Atlantic Ocean: In situ measurements from 40 to 5200 m, Marine Biology, vol. 47, pp. 337–347, 1978.
W. B. F. Ryan, Cita, M. B., Miller, E. L., Hanselman, D., Nesteroff, W. D., Hacker, B., and Nibbelink, M., Bedrock geology in New England submarine canyons, Oceanologica Acta, vol. 1, pp. 233–254, 1978.
P. J. Auster and Watling, L., Beaked whale foraging areas inferred by gouges in the seafloor, MARINE MAMMAL SCIENCE, vol. 26, pp. 226–233, 2010.
M. W. Silver and Alldredge, A. L., Bathypelagic marine snow: Deep-sea algal and detrital community, Journal of Marine Research, vol. 39, pp. 501–530, 1981.
K. Nedoncelle, Lartaud, F., L Pereira, C., Yuecel, M., Thurnherr, A. M., Mullineaux, L., and Le Bris, N., Bathymodiolus growth dynamics in relation to environmental fluctuations in vent habitats, DEEP-SEA RESEARCH PART I-OCEANOGRAPHIC RESEARCH PAPERS, vol. 106, pp. 183–193, 2015.
D. P. Underwood, Bathymetric and spatial distribution of echinoderms on seamounts in the Gulf of Alaska, University of Alaska, Fairbanks, Fairbanks, Alaska, 2006.
T. Fujiwara, Goto, S., and Kobayashi, K., Bathymetric and gravity survey of the eastern Nankai Trough, JAMSTEC Journal of Deep Sea Research, pp. 357–361, 1999.
L. P. Madin and Harbison, G. R., Bathocyroe fosteri gen. nov., sp. nov.: A mesopelagic ctenophore observed and collected from a submersible, Journal of the Marine Biological Association of the United Kingdom, vol. 58, pp. 559–564, 1978.
N. Ocean Survey, Baseline report of environmental conditions in Deepwater Dumpsite 106. Rockville, Md.: U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, National Ocean Survey, 1977, p. 798.
W. B. Bryan and Thompson, G., Basalts from DSDP leg 37 and the FAMOUS area: Compositional and petrogenic comparisons, Canadian Journal of Earth Sciences, vol. 14, pp. 875–885, 1977.
I. Barany and Karson, J. A., Basaltic breccias of the Clipperton fracture zone (East Pacific): Sedimentation and tectonics in a fast-slipping oceanic transform, Geological Society of America Bulletin, vol. 101, pp. 204–220, 1989.
W. P. Meurer, Sturm, M. E., Klein, E. M., and Karson, J. A., Basalt compositions from the Mid-Atlantic Ridge at the SMARK area (22 degrees 30'N to 22 degrees 50'N) - implications for parental liquid variability at isotopically homogeneous spreading centers, Earth and Planetary Science Letters, vol. 186, pp. 451–469, 2001.
T. Urabe and Kusakabe, M., Barite-silica chimneys from the Sumisu Rift, Izu-Bonin arc: possible analog to hematitic chert associatied with Kuroko depostis, Earth and Planetary Science Letters, vol. 100, pp. 283–290, 1990.
H. Kobayashi and Nagahama, T., The bacterium isolated from Hirondellea gigas (Shinkaioosokoebi), JAMSTEC Journal of Deep Sea Research, pp. 19–22, 2000.
H. W. Jannasch, Wirsen, C. O., and Winget, C. L., A bacteriological pressure-retaining deep-sea sampler and culture vessel, Deep-Sea Research and Oceanographic Abstracts, vol. 20, pp. 661–664, 1973.
A. J. Southward, Southward, E. C., Dando, P. R., Rau, G. H., Felbeck, H., and Flügel, H., Bacterial symbionts and low 13C/12C ratios in tissues of Pogonophora indicate unusual nutrition and metabolism, Nature, vol. 293, pp. 616–620, 1981.
T. Hinzke, Kleiner, M., Meister, M., Schlüter, R., Hentschker, C., Pané-Farré, J., Hildebrandt, P., Felbeck, H., Sievert, S. M., Bonn, F., Völker, U., Becher, D., Schweder, T., and Markert, S., Bacterial symbiont subpopulations have different roles in a deep-sea symbiosis, eLife, vol. 10, p. e58371, 2021.
R. Schauer, Roy, H., Augustin, N., Gennerich, H. - H., Peters, M., Wenzhoefer, F., Amann, R., and Meyerdierks, A., Bacterial sulfur cycling shapes microbial communities in surface sediments of an ultramafic hydrothermal vent field, ENVIRONMENTAL MICROBIOLOGY, vol. 13, pp. 2633–2648, 2011.
B. B. Jorgensen, Isaksen, M. F., and Jannasch, H. W., Bacterial sulfate reduction above 100C in deep-sea hydrothermal vent sediments, Science, vol. 258, pp. 1756–1757, 1992.

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