NDSF Bibliography

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B

C. L. Van Dover, Humphris, S. E., Fornari, D. J., Cavanaugh, C. M., Collier, R., Goffredi, S. K., Hashimoto, J., Lilley, M. D., Reysenbach, A. - L., Shank, T. M., Von Damm, K. L., Banta, A., Gallant, R. M., Gotz, D., Green, D., Hall, J., Harmer, T. L., Hurtado, L. A., Johnson, P., McKiness, Z. P., Meredith, C., Olson, E. J., Pan, I. L., Turnipseed, M., Won, Y. - J., Young, C. R., and Vrijenhoek, R. C., “Biogeography and ecological setting of Indian Ocean hydrothermal vents”, Science, vol. 294, pp. 818–823, 2001.

B. M. Toner, Santelli, C. M., Marcus, M. A., Wirth, R., Chan, C. S., McCollom, T., Bach, W., and Edwards, K. J., “Biogenic iron oxyhydroxide formation at mid-ocean ridge hydrothermal vents: Juan de Fuca Ridge”, Geochimica et Cosmochimica Acta, vol. 73, pp. 388–403, 2009.

B. M. Toner, Santelli, C. M., Marcus, M. A., Wirth, R., Chan, C. S., McCollom, T., Bach, W., and Edwards, K. J., “Biogenic iron oxyhydroxide formation at mid-ocean ridge hydrothermal vents: Juan de Fuca Ridge”, Geochimica et Cosmochimica Acta, vol. 73, pp. 388–403, 2009.

Y. Lelievre, Sarrazin, J., Marticorena, J., Schaal, G., Day, T., Legendre, P., Hourdez, S., and Matabos, M., “Biodiversity and trophic ecology of hydrothermal vent fauna associated with tubeworm assemblages on the Juan de Fuca Ridge”, Biogeosciences, vol. 15, no. 9, pp. 2629 - 2647, 2018.

Y. Lelievre, Sarrazin, J., Marticorena, J., Schaal, G., Day, T., Legendre, P., Hourdez, S., and Matabos, M., “Biodiversity and trophic ecology of hydrothermal vent fauna associated with tubeworm assemblages on the Juan de Fuca Ridge”, Biogeosciences, vol. 15, no. 9, pp. 2629 - 2647, 2018.

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.

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.

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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.

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.

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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. 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.

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.

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

A. Fiala-Medioni and Felbeck, H., “Autotrophic processes in invertebrate nutrition: Bacterial symbiosis in bivalve molluscs”, in Animal Nutrition and Transport Processes: V.1, Nutrition in Wild and Domestic Animals, J. Mellinger, Ed. New York: Karger, 1990, pp. 49–69.

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C. R. Fisher, Childress, J. J., and Minnich, E., “Autotrophic carbon assimilation by the chemoautotrophic symbionts of Riftia pachyptila”, Biological Bulletin, vol. 177, pp. 372–385, 1989.

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C. Roman and Mather, R., “Autonomous underwater vehicles as tools for deep-submergence archaeology”, Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment, vol. 224, pp. 327–340, 2010.

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C. G. Fox, Murphy, K. M., and Embley, R. W., “Automated display and statistical analysis of interpreted deep-sea bottom photographs”, Marine Geology, vol. 78, pp. 199–216, 1988.

F. Renosto, Martin, R. L., Borrell, J. L., Nelson, D. C., and Segel, I. H., “ATP sulfurylase from trophosome tissue of Riftia pachyptila (hydrothermal vent tube worm)”, Archives of Biochemistry and Biophysics, vol. 290, pp. 66–78, 1991.

J. McNichol, Sylva, S. P., Thomas, F., Taylor, C. D., Sievert, S. M., and Seewald, J. S., “Assessing microbial processes in deep-sea hydrothermal systems by incubation at in situ temperature and pressure”, Deep Sea Research Part I: Oceanographic Research Papers, vol. 115, pp. 221–232, 2016.

W. A. Maher, Duncan, E., Dilly, G., Foster, S., Krikowa, F., Lombi, E., Scheckel, K., and Girguis, P., “Arsenic concentrations and species in three hydrothermal vent worms, Ridgeia piscesae, Paralvinella sulficola and Paralvinella palmiformis”, Deep Sea Research Part I: Oceanographic Research Papers, vol. 116, pp. 41–48, 2016.

O. Matsubayashi, Nishimura, K., Kinoshita, M., and Urabe, T., “Array observation of seabottom temperature at a diffusive hydrothermal area within DESMOS Caldera in Manus Basin”, JAMSTEC Journal of Deep Sea Research, pp. 117–126, 1998.

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J. N. Bentley, G. Ventura, T., Dalzell, C. J., Walters, C. C., Peters, C. A., Mennito, A. S., Nelson, R. K., Reddy, C. M., Seewald, J. S., and Sievert, S. M., “Archaeal lipid diversity, alteration, preservation at Cathedral Hill, Guaymas Basin, Gulf of California, and its link to the deep time preservation paradox”, Organic Geochemistry, p. 104302, 2021.

J. N. Bentley, Ventura, G. T., Dalzell, C. J., Walters, C. C., Peters, C. A., Mennito, A. S., Nelson, R. K., Reddy, C. M., Seewald, J. S., and Sievert, S. M., “Archaeal lipid diversity, alteration, and preservation at the Cathedral Hill deep sea hydrothermal vent, Guaymas Basin, Gulf of California, and its implications regarding the deep time preservation paradox”, Organic Geochemistry, vol. 163, 2022.

A. R. Thurber, Levin, L. A., Orphan, V. J., and Marlow, J. J., “Archaea in metazoan diets: implications for food webs and biogeochemical cycling”, ISME Journal, vol. 6, pp. 1602–1612, 2012.

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