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G. H. Keller and Shepard, F. P., Currents and sedimentary processes in submarine canyons off the northeast United States, in Sedimentation in Submarine Canyons, Fans, and Trenches, D. J. Stanley, Ed. Stroudsburg, Penn.: Dowden, Hutchinson and Ross, 1978, pp. 15–31.
G. H. Keller, Lambert, D., Rowe, G., and Staresinic, N., Bottom currents in the Hudson Canyon, Science, vol. 180, pp. 181–183, 1973.
G. H. Keller, Lambert, D. N., and Bennett, R. H., Geotechnical properties of continental slope deposits: Cape Hatteras to Hydrographer Canyon, in Geology of Continental Slopes, L. J. Doyle, Ed. Tulsa, Okla.: Society of Economic Paleontologists and Mineralogists, 1979, pp. 131–151.
G. H. Keller, The submersible- a unique tool for marine geology, in Submersibles and Their Use in Oceanography and Ocean Engineering, R. A. Geyer, Ed. New York, N.Y.: Elsevier Scientific Publishing Co., 1977, pp. 213–234.
M. Y. Kellermann, Schubotz, F., Elvert, M., Lipp, J. S., Birgel, D., Prieto-Mollar, X., Dubilier, N., and Hinrichs, K. - U., Symbiont–host relationships in chemosynthetic mussels: A comprehensive lipid biomarker study, Organic Geochemistry, vol. 43, pp. 112–124, 2012.
M. Y. Kellermann, Yoshinaga, M. Y., Wegener, G., Krukenberg, V., and Hinrichs, K. - U., Tracing the production and fate of individual archaeal intact polar lipids using stable isotope probing, ORGANIC GEOCHEMISTRY, vol. 95, pp. 13–20, 2016.
D. S. Kelley, Karson, J. A., Fruh-Green, G. L., Yoerger, D. R., Shank, T. M., Butterfield, D. A., Hayes, J. M., Schrenk, M. O., Olson, E. J., Proskurowski, G., Jakuba, M. V., Bradley, A. M., Larson, B. I., Ludwig, K. A., Glickson, D. A., Buckman, K., Bradley, A. S., Brazelton, W. J., Roe, K., Elend, M. J., Delacour, A., Bernasconi, S. M., Lilley, M. D., Baross, J. A., Summons, R. T., and Sylva, S. P., A serpentinite-hosted ecosystem: The lost city hydrothermal field, Science, vol. 307, pp. 1428–1434, 2005.
D. S. Kelley, The Lost City Hydrothermal Field, Oceanography, vol. 18, pp. 32–45, 2005.
D. S. Kelley, Fruh-Green, G. L., Karson, J. A., and Ludwig, K. A., The Lost City Hydrothermal Field revisited, Oceanography, vol. 20, pp. 90–99, 2007.
D. S. Kelley, Delaney, J. R., and Yoerger, D. R., Geology and venting characteristics of the Mothra hydrothermal field, Endeavour segment, Juan de Fuca Ridge, Geology, vol. 29, pp. 959–962, 2001.
D. S. Kelley, Karson, J. A., Blackman, D. K., Fruh-Green, G. L., Butterfield, D. A., Lilley, M. D., Olson, E. J., Schrenk, M. O., Roe, K. K., Lebon, G. T., and Rivizzigno, P., An off-axis hydrothermal vent field near the Mid-Atlantic Ridge at 30 degrees N, Nature, vol. 412, pp. 145–149, 2001.
C. A. Kellogg, Enumeration of viruses and prokaryotes in deep-sea sediments and cold seeps of the Gulf of Mexico, Deep-Sea Research. Part II: Topical Studies in Oceanography, vol. 57, pp. 2002–2007, 2010.
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.
M. P. Kennedy, Clarke, S. H., Greene, H. G., and Lonsdale, P. F., Observations from DSRV Alvin of Quaternary faulting on the southern California continental margin. Menlo Park, Calif.: U.S. Geological Survey, 1985, p. 26.
B. M. Kennedy, Noble gases in vent water from the Juan de Fuca Ridge, Geochimica et Cosmochimica Acta, vol. 52, pp. 1929–1935, 1988.
M. J. Kennish and Lutz, R. A., Calcium carbonate dissolution rates in deep-sea bivalve shells on the East Pacific Rise at 21 degrees N: results of an 8- year in-situ experiment, Palaeogeography, Palaeoclimatology, Palaeoecology, vol. 154, pp. 293–299, 1999.
J. N. Kenny, A modeling system for the dynamics of an underwater launch and recovery of a deep submersible. Woods Hole, Mass.: Woods Hole Oceanographic Institution, 1969, p. 65.
C. E. Kicklighter, Fisher, C. R., and Hay, M. E., Chemical defense of hydrothermal vent and hydrocarbon seep organisms: a preliminary assessment using shallow-water consumers, Marine Ecology Progress Series, vol. 275, pp. 11–19, 2004.
T. J. Kiernan, Proposed test and evaluation program for Project TITANES. Bethesda, Md.: Naval Ship Research and Development Center (NSRDC), 1970.
T. J. Kiernan, Predictions of the collapse strength of three HY-100 steel spherical hulls fabricated for the oceanographic research vehicle Alvin. Washington, D.C.: David Taylor Model Basin, 1964, p. 41.
T. Killeen and Morris, J. D., NSF looks ahead with basic ocean research, Sea Technology, vol. 50, pp. 27–28, 2009.
J. S. Killingley, Berger, W. H., Macdonald, K. C., and Newman, W. A., 18O/16O variations in deep-sea carbonate shells from the Rise hydrothermal field, Nature, vol. 287, pp. 218–221, 1980.
H. K. Kim and McMurty, G. M., Radial growth rates and 210-Pb ages of hydrothermal massive sulfides from the Juan de Fuca Ridge, Earth and Planetary Science Letters, vol. 104, pp. 299–314, 1991.
S. Kim and Hammerstrom, K., Hydrothermal vent community zonation along environmental gradients at the Lau back-arc spreading center, Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 62, pp. 10–19, 2012.
S. L. Kim and Mullineaux, L. S., Distribution and near-bottom transport of larvae and other plankton at hydrothermal vents, Deep-Sea Research. Part II: Topical Studies in Oceanography, vol. 45, pp. 423–440, 1998.

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