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C. Vetriani, Voordeckers, J. W., Crespo-Medina, M., O'Brien, C. E., Giovannelli, D., and Lutz, R. A., Deep-sea hydrothermal vent Epsilonproteobacteria encode a conserved and widespread nitrate reduction pathway (Nap), ISME JOURNAL, vol. 8, pp. 1510–1521, 2014.
G. T. Ventura, Simoneit, B. R. T., Nelson, R. K., and Reddy, C. M., The composition, origin and fate of complex mixtures in the maltene fractions of hydrothermal petroleum assessed by comprehensive two-dimensional gas chromatography, Organic Geochemistry, vol. 45, pp. 48–65, 2012.
S. R. Veirs, Heat flux and hydrography at a submarine volcano: Observations and models of the Main Endeavour vent field in the northeast Pacific, University of Washington, Seattle, Wash., 2003.
J. A. Vargas, Hilton, D. R., Ramirez, C., and Molina, J., Metals in bivalve mollusks from the Jaco Scar seep, Pacific, Costa Rica, Revista de biologia tropical, vol. 66, no. Journal Article, pp. S269 - S279, 2018.
R. J. Varga, Karson, J. A., and Gee, J. S., Paleomagnetic constraints on deformation models for uppermost oceanic crust exposed at the Hess Deep Rift: Implications for axial processes at the East Pacific Rise, Journal of Geophysical Research, vol. 109, p. B02104, 2004.
R. J. Varga, Horst, A. J., Gee, J. S., and Karson, J. A., Direct evidence from anisotropy of magnetic susceptibility for lateral melt migration at superfast spreading centers, Geochemistry, Geophysics, Geosystems, vol. 9, p. Q08008, 2008.
M. F. Vardaro, Genetic and anatomic relationships among three morphotypes of the echinoid Echinocrepis rostrata, INVERTEBRATE BIOLOGY, vol. 129, pp. 368–375, 2010.
J. - R. Vanney and Gennesseaux, M., Processus geodynamiques observes en submersible: Geodynamic processes observed from a submersible: Seminaire du 2 avril 1982. Paris, France: Institut Oceanographique, 1982, p. 40.
J. K. Vandiver, Dynamic analysis of a launch and recovery system for a deep submersible, vol. 69-88. Woods Hole, Mass.: Woods Hole Oceanographic Institution, 1969, p. 76.
B. P. VanderBeek and Toomey, D. R., Pn Tomography of the Juan de Fuca and Gorda Plates: Implications for Mantle Deformation and Hydration in the Oceanic Lithosphere, Journal of Geophysical Research-Solid Earth, vol. 124, pp. 8565-8583, 2019.
N. A. Van Wagoner and Johnson, H. P., Magnetic properties of three segments of the Mid-Atlantic Ridge at 37 degrees N: FAMOUS, Narrowgate, and AMAR; AMAR 2, Journal of Geophysical Research, vol. 88, pp. 5065–5082, 1983.
J. C. Van Leer, Shear of small vertical scale observed in the permanent oceanic thermocline, Massachusetts Institute of Technology and the Woods Hole Oceanographic Institution, Cambridge, MA and Woods Hole, MA, 1971.
C. L. Van Dover, Reproductive biology: deep-sea clams feel the heat, Nature, vol. 397, pp. 205–207, 1999.
C. L. Van Dover, Trophic relationships among invertebrates at the Kairei hydrothermal vent field (Central Indian Ridge), Marine Biology, vol. 141, pp. 761–772, 2002.
C. L. Van Dover, Franks, P., and Ballard, R. D., Prediction of hydrothermal vent locations from distributions of brachyuran crabs, Limnology and Oceanography, vol. 32, pp. 1006–1010, 1987.
C. L. Van Dover, Ward, M. E., Scott, J. L., Underdown, J., Anderson, B., Gustafson, C., Whalen, M., and Carnegie, R. B., A fungal epizootic in mussels at a deep-sea hydrothermal vent, Marine Ecology, vol. 28, pp. 54–62, 2007.
C. L. Van Dover, Community structure of mussel beds at deep-sea hydrothermal vents, Marine Ecology Progress Series, vol. 230, pp. 137–158, 2002.
C. L. Van Dover, Phenomena, comment and note, Smithsonian, vol. 22, pp. 22–23, 1991.
C. L. Van Dover, Chemosynthetic communities in the deep sea: ecological studies, Massachusetts Institute of Technology and the Woods Hole Oceanographic Institution, Cambridge, MA and Woods Hole, MA, 1989.
C. L. Van Dover, German, C. R., Speer, K. G., Parson, L. M., and Vrijenhoek, R. C., Evolution and biogeography of deep-sea vent and seep invertebrates, Science, vol. 295, pp. 1253–1257, 2002.
C. L. Van Dover, Jenkins, C. D., and Turnipseed, M., Corralling of larvae in the deep sea, Journal of the Marine Biological Association of the United Kingdom, vol. 81, pp. 823–826, 2001.
C. L. Van Dover and Doerries, M. B., Community structure in mussel beds at Logatchev hydrothermal vents and a comparison of macrofaunal species richness on slow- and fast-spreading mid-ocean ridges, Marine Ecology, vol. 26, pp. 110–120, 2005.
C. L. Van Dover and Lutz, R. A., Experimental ecology at deep-sea hydrothermal vents: a perspective, Journal of Experimental Marine Biology and Ecology, vol. 300, pp. 273–307, 2004.
C. L. Van Dover, Aharon, P., Bernhard, J. M., Caylor, E., Doerries, M. B., Flickinger, W., Gilhooly, W., Goffredi, S. K., Knick, K. E., Macko, S. A., Rapoport, S., Raulfs, E. C., Ruppel, C., Salerno, J. L., Seitz, R. D., Gupta, B. K. Sen, Shank, T. M., Turnipseed, M., and Vrijenhoek, R. C., Blake Ridge methane seeps: Characterization of a soft-sediment, chemosynthetically based ecosystem, Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 50, pp. 281–300, 2003.
C. L. Van Dover, In situ spawning of hydrothermal vent tubeworms (Riftia pachyptila), Biological Bulletin, vol. 186, pp. 134–135, 1994.