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Book
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.
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.
C. L. Van Dover, Beyond the edge of the sea: Volcanoes and life in the deep ocean. Lisbon, Portugal: Luso-American Foundation, 2006, p. 32.
P. T. Polloni, Rowe, G. T., and Teal, J. M., Biremis blandi (Polychaeta: Terebellidae), new genus, new species, caught by D.S.R.V. Alvin in the Tongue of the Ocean, New Providence, Bahamas, vol. 73-60. Woods Hole, Mass.: Woods Hole Oceanographic Institution, 1973, p. 11.
E. L. Bland, Briefs of Alvin history from June 1964 to the present. Woods Hole, Mass.: Woods Hole Oceanographic Institution, 1984, p. 6.
R. D. Ballard and Chiu, T., Bright Shark. New York, N.Y.: Delacorte Press, 1992, p. 483.
Book Chapter
H. Felbeck, Childress, J. J., and Somero, G. N., Biochemical interaction between molluscs and their algal and bacterial symbionts, in Environmental Biochemistry and Physiology, P. W. Hochachka, Ed. New York, N.Y.: Academic Press, 1983, pp. 331–358.
H. W. Jannasch and Wirsen, C. O., The biochemical versatility of chemosynthetic bacteria at deep sea hydrothermal vents, in Hydrothermal vents of the Eastern Pacific: An overview, M. L. Jones, Ed. Vienna, Va.: INFAX, 1985, pp. 325–334.
M. C. Baker, Ramirez-Llodra, E., Tyler, P. A., German, C. R., Boetius, A., Cordes, E. E., Dubilier, N., Fisher, C. R., Levin, L. A., Metaxas, A., Rowden, R., Santos, R. S., Shank, R., Van Dover, C. L., Young, C., and Waren, A., Biogeography, Ecology and Vulnerability of Chemosynthetic Ecosystems in the Deep Sea, in Life in the World's Oceans: Diversity, Distribution, and Abundance, Wiley-Blackwell, 2010, pp. 161–182.
E. Suess, Carson, B., Ritger, S. D., Moore, J. C., Jones, M. L., Kulm, L. D., and Cochrane, G. R., Biological communities at vent sites along the subduction zone off Oregon, in Hydrothermal vents of the Eastern Pacific: An overview, vol. 6, M. L. Jones, Ed. Vienna, Va.: INFAX, 1985.
H. W. Jannasch, Caldwell, D. E., and Buonocore, V., Biology of geothermal environments, in Current Perspectives in Environmental Biogeochemistry, G. Giovannozzi-Sermanni, Ed. Rome: CNR-IPRA, 1987, pp. 597–601.
J. J. Childress and Fisher, C. R., The biology of hydrothermal vent animals: physiology, biochemistry, and autotrophic symbioses, in Oceanography and Marine Biology: an Annual Review, vol. 30, M. Barnes, Ed. Routledge, 1992, pp. 337–441.
A. J. Arp, Childress, J. J., and Fisher, C. R., Blood gas transport in Riftia pachyptila, in Hydrothermal vents of the Eastern Pacific: An overview, M. L. Jones, Ed. Vienna, Va.: INFAX, 1985, pp. 289–300.
S. V. Galkin, Bottom fauna of the Mohns Ridge: submersible investigations, in Bentos morei Rossii i Severnoi Atlantiki: sbornik nauchnykh trudov (Benthos of the Russian Sea and the Northern Atlantic), A. P. Kuznetsov, Ed. Moscow, Russia: Nauka, 2000, pp. 81–85.
Journal Article
L. K. Gulmann, Beaulieu, S. E., Shank, T. M., Ding, K., Seyfried, W. E., and Sievert, S. M., Bacterial diversity and successional patterns during biofilm formation on freshly exposed basalt surfaces at diffuse-flow deep-sea vents, Frontiers in Microbiology, vol. 6, p. 901, 2015.
M. Podar, Mullineaux, L. S., Huang, H. - R., Perlman, P. S., and Sogin, M. L., Bacterial group II introns in a deep sea hydrothermal vent environment., Applied and Environmental Microbiology, vol. 68, pp. 6392–6398, 2002.
A. Pearson, Seewald, J. S., and Eglinton, T. I., Bacterial incorporation of relict carbon in the hydrothermal environment of Guaymas Basin, Geochimica et Cosmochimica Acta, vol. 69, pp. 5477–5486, 2005.
Z. S. Kolber, Van Dover, C. L., Niederman, R. A., and Falkowski, P. G., Bacterial photosynthesis in the surface waters of the open ocean, Nature, vol. 407, pp. 177–179, 2000.
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.
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.
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.
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.
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.
H. Kobayashi and Nagahama, T., The bacterium isolated from Hirondellea gigas (Shinkaioosokoebi), JAMSTEC Journal of Deep Sea Research, pp. 19–22, 2000.
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.

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