Export 101 results:
Author [ Title] Type Year Filters: First Letter Of Title is N [Clear All Filters]
“Nutritional interactions at Galapagos hydrothermal vents: Inferences from stable carbon and nitrogen isotopes”, Marine Ecology Progress Series, vol. 103, pp. 45–55, 1994.
, “Nutrient exchange and oxygen consumption by deep-sea benthic communities: Preliminary in situ measurements”, Limnology and Oceanography, vol. 23, pp. 997–1005, 1978.
, “Nucleotide sequence and expression of a deep-sea ribulose 1,5 bisphosphate carboxylase gene cloned from a chemoautotrophic bacterial endosymbiont”, Proceedings of the National Academy of Sciences of the United States of America, vol. 87, pp. 8850–8854, 1990.
, “NSRDC (Naval Ship Research and Development Center) and the new Alvin”, Naval Research Reviews, vol. 27, pp. 9–19, 1974.
, “NSF takes the plung on a bigger, faster research sub”, Science, vol. 305, pp. 926–927, 2004.
, “NSF looks ahead with basic ocean research”, Sea Technology, vol. 50, pp. 27–28, 2009.
, “NRM intensity of altered oceanic basalts across the MAR (21 degrees N, 0-1.5 Ma): A record of geomagnetic palaeointensity variation?”, Geophysical Journal International, vol. 145, pp. 401–422, 2001.
, NRL's deep sea floor search ERA: a brief history of the NRL/MIZAR search system and Its major achievements. Washington, D.C.: Naval Research Laboratory, 1988, p. 56.
, “A novel trigger-based method for hydrothermal vents prospecting using an autonomous underwater robot”, Autonomous Robots, vol. 29, pp. 67–83, 2010.
, “Novel microbial assemblages inhabiting crustal fluids within mid-ocean ridge flank subsurface basalt”, ISME Journal, vol. 10, pp. 2033–2047, 2016.
, “A novel group of abyssal methanogenic archaebacteria (Methanopyrus) growing at 110 degrees C”, Nature, vol. 342, pp. 833–834, 1989.
, “Novel forms of structural integration between microbes and a hydrothermal vent gastropod from the Indian Ocean”, Applied and Environmental Microbiology, vol. 70, pp. 3082–3090, 2004.
, “Notes on a major oceanographic find”, Oceanus, vol. 20, pp. 35–44, 1977.
, “Northwest Rota-1 Seamount”, Oceanography, vol. 23, pp. 182–183, 2010.
, “Nonuniform magnetization of seamounts: A least squares approach”, Journal of Geophysical Research, vol. 91, pp. 3686–3700, 1986.
, “A nonlinear sliding mode autopilot for unmanned undersea vehicles”, in Oceans '94: Oceans Engineering for Today's Technology and Tomorrow's Preservation : Proceedings, vol. 3, New York: IEEE, 1994, pp. 93–98.
, “Nodular carbonate sediment on Bahamian slopes: Possible precursors to nodular limestones”, Journal of Sedimentary Petrology, vol. 50, pp. 117–131, 1980.
, “Nodal basins at slow spreading ridge-transform intersections: A comparison to the central portion of the Troodos ophiolite”, in Ophiolites: Oceanic Crustal Analogues: Proceedings of the Symposium "Troodos 87", Nicosia, Cyprus: Geological Survey Dept., Ministry of Agriculture and Natural Resources, 1990, pp. 125–130.
, “Noble gases in vent water from the Juan de Fuca Ridge”, Geochimica et Cosmochimica Acta, vol. 52, pp. 1929–1935, 1988.
, “Noble gas systematics in new popping rocks from the Mid-Atlantic Ridge (14 degrees N): Evidence for small-scale upper mantle heterogeneities”, Earth and Planetary Science Letters, vol. 519, pp. 70-82, 2019.
, “NOAA's national undersea research program”, in Oceans '86 Conference Record, vol. 5, New York, N.Y.: IEEE, 1986, pp. 1447–1451.
, “NOAA's manned undersea science and technology program and diving operations”, in Working Diver 1978: Symposium Proceedings, March 7-8, 1978, Columbus, Ohio, Washington, D.C.: Marine Technology Society, 1978, pp. 55–66.
, NOAA Ocean Explorer: Submarine ring of fire 2006, vol. 2007. Silver Spring, Md.: U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Office of Ocean Exploration, 2006.
, “NOAA Ocean Explorer: Expedition to the deep slope”, vol. 2007. U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Office of Ocean Exploration, Silver Spring, Md., 2006.
, “Nitrate-based niche differentiation by distinct sulfate-reducing bacteria involved in the anaerobic oxidation of methane”, ISME JOURNAL, vol. 8, pp. 150–163, 2014.
,