NDSF Bibliography

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J. M. Brooks, Kennicutt, M. C., Fisher, C. R., Macko, S. A., Cole, K., Childress, J. J., Bidigare, R. R., and Vetter, R. D., “Deep-sea hydrocarbon seep communities: Evidence for energy and nutritional carbon sources”, Science, vol. 238, pp. 1138–1142., 1987.

J. M. Brooks, Kennicutt, M. C., Fisher, C. R., Macko, S. A., Cole, K., Childress, J. J., Bidigare, R. R., and Vetter, R. D., “Deep-sea hydrocarbon seep communities: Evidence for energy and nutritional carbon sources”, Science, vol. 238, pp. 1138–1142., 1987.

M. Klages, Vopel, K., Bluhm, H., Brey, T., Soltwedel, T., and Arntz, W. E., “Deep-sea food falls: first observation of a natural event in the Arctic Ocean”, Polar Biology, vol. 24, pp. 292–295, 2001.

M. Klages, Vopel, K., Bluhm, H., Brey, T., Soltwedel, T., and Arntz, W. E., “Deep-sea food falls: first observation of a natural event in the Arctic Ocean”, Polar Biology, vol. 24, pp. 292–295, 2001.

S. W. Ross, Rhode, M., and Brooke, S., “Deep-sea coral and hardbottom habitats on the west Florida slope, eastern Gulf of Mexico”, Deep Sea Research Part I: Oceanographic Research Papers, vol. 120, pp. 14–28, 2017.

S. W. Ross, Brooke, S., Quattrini, A. M., Rhode, M., and J Watterson, C., “A deep-sea community, including Lophelia pertusa, at unusually shallow depths in the western North Atlantic Ocean off northeastern Florida”, MARINE BIOLOGY, vol. 162, pp. 635–648, 2015.

C. L. Van Dover, Kaartvedt, S., Bollens, S. M., Wiebe, P. H., Martin, J. W., and France, S. C., “Deep-sea amphipod swarms”, Nature, vol. 358, pp. 25–26, 1992.

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. Q. Lang, Früh-Green, G. L., Bernasconi, S. M., Brazelton, W. J., Schrenk, M. O., and McGonigle, J. M., “Deeply-sourced formate fuels sulfate reducers but not methanogens at Lost City hydrothermal field”, Scientific Reports, vol. 8, p. 755, 2018.

S. Q. Lang, Früh-Green, G. L., Bernasconi, S. M., Brazelton, W. J., Schrenk, M. O., and McGonigle, J. M., “Deeply-sourced formate fuels sulfate reducers but not methanogens at Lost City hydrothermal field”, Scientific Reports, vol. 8, p. 755, 2018.

R. Hekinian, Pineau, F., Shilobreeva, S., Bideau, D., Gracia, E., and Javoy, M., “Deep sea explosive activity on the Mid-Atlantic Ridge near 34 degrees 50'N; magma composition, vesicularity and volatile content”, Journal of Volcanology and Geothermal Research, vol. 98, pp. 49–77, 2000.

G. S. Stone and Busch, W. S., “Deep ocean science and facility needs”, Marine Technology Society Journal, vol. 25, pp. 14–21, 1991.

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R. D. Ballard, “Deep Black Sea”, National Geographic Magazine, vol. 199, pp. 52–69, 2001.

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E. Pacific Ri Group, Ballard, R. D., Craig, H., Edmond, J., Einaudi, M., Holcomb, R., Holland, H. D., Hopson, C., Luyendyk, B. P., Macdonald, K., Morton, J., Orcutt, J., and Sleep, N., “Crustal processes of the Mid-Ocean Ridge”, Science, vol. 213, pp. 31–40, 1981.

J. F. Allan, Sack, R. O., and Batiza, R., “Cr-rich spinels as petrogenetic indicators: MORB-type lavas from the Lamont Seamount Chain”, American Mineralogist, vol. 73, pp. 741–753, 1988.

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N. M. Neira, Clark, J. F., Fisher, A. T., Wheat, C. G., Haymon, R. M., and Becker, K., “Cross-hole tracer experiment reveals rapid fluid flow and low effective porosity in the upper oceanic crust”, Earth and Planetary Science Letters, vol. 450, pp. 355–365, 2016.

R. Batiza, Fornari, D. J., Vanko, D. A., and Lonsdale, P., “Craters, calderas, and hyaloclastites on young Pacific seamounts”, Journal of Geophysical Research, vol. 89, pp. 8371–8390, 1984.

E. E. Davis, Becker, K., and He, J., “Costa Rica Rift revisited: Constraints on shallow and deep hydrothermal circulation in young oceanic crust”, Earth and Planetary Science Letters, vol. 222, pp. 863–879, 2004.

J. M. Webster, Braga, J. C., Clague, D. A., Gallup, C., Hein, J. R., Potts, D. C., Renema, W., Riding, R., Riker-Coleman, K., Silver, E. A., and Wallace, L. M., “Coral reef evolution on rapidly subsiding margins”, Global and Planetary Change, vol. 66, pp. 128–148, 2009.

E. E. Cordes, McGinley, M. P., Podowski, E. L., Becker, E. L., Lessard-Pilon, S., Viada, S. T., and Fisher, C. R., “Coral communities of the deep Gulf of Mexico”, Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 55, pp. 777–787, 2008.

C. Diaz- Recio Lorenzo, Bruggen, Dter, Luther, G. W., Gartman, A., and Gollner, S., “Copepod assemblages along a hydrothermal stress gradient at diffuse flow habitats within the ABE vent site (Eastern Lau Spreading Center, Southwest Pacific)”, Deep Sea Research Part I Oceanographic Research Papers, p. 103532, 2021.

C. R. Fisher, Brooks, J. M., Vodenichar, J. S., Zande, J. M., Childress, J. J., and Burke, R. A., “The co-occurrence of methanotrophic and chemoautotrophic sulfur-oxidizing symbionts in a deep-sea mussel”, Marine Ecology, vol. 14, pp. 277–289, 1993.

C. R. Fisher, Brooks, J. M., Vodenichar, J. S., Zande, J. M., Childress, J. J., and Burke, R. A., “The co-occurrence of methanotrophic and chemoautotrophic sulfur-oxidizing symbionts in a deep-sea mussel”, Marine Ecology, vol. 14, pp. 277–289, 1993.

Z. S. Kolber, Plumley, F. G., Lang, A. S., Beatty, J. T., Blankenship, R. E., Van Dover, C. L., Vetriani, C., Koblizek, M., Rathgeber, C., and Falkowski, P. G., “Contribution of aerobic photoheterotrophic bacteria to the carbon cycle in the ocean”, Science, vol. 292, pp. 2492–2495, 2001.

Z. S. Kolber, Plumley, F. G., Lang, A. S., Beatty, J. T., Blankenship, R. E., Van Dover, C. L., Vetriani, C., Koblizek, M., Rathgeber, C., and Falkowski, P. G., “Contribution of aerobic photoheterotrophic bacteria to the carbon cycle in the ocean”, Science, vol. 292, pp. 2492–2495, 2001.

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