NDSF Bibliography

Export 691 results:

BibTeX
RIS

Filters: First Letter Of Last Name is C [Clear All Filters]

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

M

F. Dowell, Cardman, Z., Dasarathy, S., Kellermann, M. Y., Lipp, J. S., S Ruff, E., Biddle, J. F., McKay, L. J., MacGregor, B. J., Lloyd, K. G., Albert, D. B., Mendlovitz, H., Hinrichs, K. - U., and Teske, A., “Microbial Communities in Methane- and Short Chain Alkane-Rich Hydrothermal Sediments of Guaymas Basin”, FRONTIERS IN MICROBIOLOGY, vol. 7, 2016.

L. M. Nigro, Harris, K., Orcutt, B. N., Hyde, A., Clayton-Luce, S., Becker, K., and Teske, A., “Microbial communities at the borehole observatory on the Costa Rica Rift flank (Ocean Drilling Program Hole 896A)”, FRONTIERS IN MICROBIOLOGY, vol. 3, 2012.

P. Lam, Cowen, J. P., Popp, B. N., and Jones, R. D., “Microbial ammonia oxidation and enhanced nitrogen cycling in the Endeavour hydrothermal plume”, Geochimica et Cosmochimica Acta, vol. 72, pp. 2268–2286, 2008.

J. J. Childress, Fisher, C. R., Brooks, J. M., II, K. M. C., Bidigare, R., and Anderson, A. E., “A methanotrophic marine molluscan (Bivalvia, Mytilidae) symbiosis: mussels fueled by gas”, Science, vol. 233, pp. 1306–1308, 1986.

C. Joseph, Campbell, K. A., Torres, M. E., Martin, R. A., Pohlman, J. W., Riedel, M., and Rose, K., “Methane-derived authigenic carbonates from modern and paleoseeps on the Cascadia margin: Mechanisms of formation and diagenetic signals”, Tracing Phanerozoic hydrocarbon seepage from local basins to the global Earth system, vol. 390, pp. 52–67, 2013.

R. Kochevar, Childress, J. J., Fisher, C. R., and Minnich, E., “The methane mussel: roles of symbiont and host in the metabolic utilization of methane”, Marine Biology, vol. 112, pp. 389–401, 1992.

J. A. Welhan and Craig, H., “Methane, hydrogen and helium in hydrothermal fluids at 21 degrees N on the East Pacific Rise”, in Hydrothermal processes at seafloor spreading centers, P. A. Rona, Ed. New York, N.Y.: Plenum Press, 1983, pp. 391–409.

BibTeX
RIS

H. Q. Yao, Zhou, H. Y., Peng, X. T., Bao, S. X., Wu, Z. J., Li, J. T., Sun, Z. L., Chen, Z. Q., Li, J. W., and Chen, G. Q., “Metal sources of black smoker chimneys, Endeavour Segment, Juan de Fuca Ridge: Pb isotope constraints”, Applied Geochemistry, vol. 24, pp. 1971–1977, 2009.

H. Q. Yao, Zhou, H. Y., Peng, X. T., Bao, S. X., Wu, Z. J., Li, J. T., Sun, Z. L., Chen, Z. Q., Li, J. W., and Chen, G. Q., “Metal sources of black smoker chimneys, Endeavour Segment, Juan de Fuca Ridge: Pb isotope constraints”, Applied Geochemistry, vol. 24, pp. 1971–1977, 2009.

J. Reveillaud, Anderson, R., Reves-Sohn, S., Cavanaugh, C., and Huber, J. A., “Metagenomic investigation of vestimentiferan tubeworm endosymbionts from Mid-Cayman Rise reveals new insights into metabolism and diversity”, Microbiome, vol. 6, no. Journal Article, pp. 19 - 19, 2018.

P. R. Girguis and Childress, J. J., “Metabolite uptake, stoichiometry and chemoautotrophic function of the hydrothermal vent tubeworm Riftia pachyptila: responses to environmental variations in substrate concentrations and temperature”, Journal of Experimental Biology, vol. 209, pp. 3516–3528, 2006.

J. J. Childress, Cowles, D. L., Favuzzi, J. A., and Mickel, T. J., “The metabolic rates of deep-sea benthic decapod crustaceans decline with increasing depth primarily due to the decline in temperature”, Deep-Sea Research. Part A, Oceanographic Research Papers, vol. 37, pp. 929–949, 1990.

J. J. Childress, Cowles, D. L., Favuzzi, J. A., and Mickel, T. J., “The metabolic rates of deep-sea benthic decapod crustaceans decline with increasing depth primarily due to the decline in temperature”, Deep-Sea Research. Part A, Oceanographic Research Papers, vol. 37, pp. 929–949, 1990.

J. J. Childress and Mickel, T. J., “Metabolic rates of animals from the hydrothermal vents and other deep-sea habitats.”, in Hydrothermal vents of the Eastern Pacific: An overview, M. L. Jones, Ed. Vienna, Va.: INFAX, 1985, pp. 249–260.

BibTeX
RIS

M. S. Henry, Childress, J. J., and Figueroa, D., “Metabolic rates and thermal tolerances of chemoautotrophic symbioses from Lau Basin hydrothermal vents and their implications for species distributions”, Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 55, pp. 679–695, 2008.

J. J. Childress and Thuesen, E. V., “Metabolic potentials of deep-sea fishes: a comparative approach”, in Environmental and Ecological Biochemistry, P. W. Hochachka, Ed. New York: Elsevier, 1995, pp. 175–196.

BibTeX
RIS

A. J. Arp, Childress, J. J., and Fisher, C. R., “Metabolic and blood gas transport characteristics of the hydrothermal vent bivalve Calyptogena magnifica”, Physiological Zoology, vol. 57, pp. 648–662, 1984.

BibTeX
RIS

J. J. Childress, Arp, A. J., and Fisher, C. R., “Metabolic and blood characteristics of the hydrothermal vent tube worm Riftia pachypitila”, Marine Biology, vol. 83, pp. 109–124, 1984.

C. Vetriani, Chew, Y. S., Miller, S. M., Yagi, J., Coombs, J., Lutz, T. A., and Barkay, T., “Mercury adaptation among bacteria from a deep-sea hydrothermal vent”, Applied and Environmental Microbiology, vol. 71, pp. 220–226, 2005.

C. Vetriani, Chew, Y. S., Miller, S. M., Yagi, J., Coombs, J., Lutz, T. A., and Barkay, T., “Mercury adaptation among bacteria from a deep-sea hydrothermal vent”, Applied and Environmental Microbiology, vol. 71, pp. 220–226, 2005.

H. C. Wu, Chen, Y., Yang, C. J., Zhang, J. F., Zhou, H. Y., Peng, X. T., and Ji, F. W., “Mechatronic integration and implementation of in situ multipoint temperature measurement for seafloor hydrothermal vent”, Science in China Series E-Technological Sciences, vol. 50, pp. 144–153, 2007.

F. B. Wooding, Bowen, A. D., Yoerger, D. R., Chave, A. D., and Dodeman, A. H., “Mechanical design and deployment of the Hawaii-2 Observatory”, in Proceedings of International Workshop on Scientific Use of Submarine Cables: Marine geophysical research using undersea cables, Japan Print Center, 1997, pp. 172–174.

BibTeX
RIS

J. Francheteau, Needham, H. D., Choukroune, P., Juteau, T., Seguret, M., Ballard, R. D., Fox, P. J., Normark, W., Carranza, A., Cordoba, D., Guerrero, J., Rangin, C., Bougault, H., Cambon, P., and Hekinian, R., “Massive deep-sea sulphide ore deposits discovered on the East Pacific Rise”, Nature, vol. 277, pp. 523–528, 1979.

J. Francheteau, Needham, H. D., Choukroune, P., Juteau, T., Seguret, M., Ballard, R. D., Fox, P. J., Normark, W., Carranza, A., Cordoba, D., Guerrero, J., Rangin, C., Bougault, H., Cambon, P., and Hekinian, R., “Massive deep-sea sulphide ore deposits discovered on the East Pacific Rise”, Nature, vol. 277, pp. 523–528, 1979.

J. Francheteau, Needham, H. D., Choukroune, P., Juteau, T., Seguret, M., Ballard, R. D., Fox, P. J., Normark, W., Carranza, A., Cordoba, D., Guerrero, J., Rangin, C., Bougault, H., Cambon, P., and Hekinian, R., “Massive deep-sea sulphide ore deposits discovered on the East Pacific Rise”, Nature, vol. 277, pp. 523–528, 1979.

Pages