Export 964 results:
Author Title [ Type] Year Filters: First Letter Of Last Name is B [Clear All Filters]
“226Ra and 222Rn contents of Galapagos Rift hydrothermal waters: The importance of low-temperature interactions with crustal rocks”, Earth and Planetary Science Letters, vol. 64, pp. 417–429, 1983.
, “30,000 years of hydrothermal activity at the Lost City vent field”, Science, vol. 301, pp. 495–498, 2003.
, “30,000 years of hydrothermal activity at the Lost City vent field”, Science, vol. 301, pp. 495–498, 2003.
, “30,000 years of hydrothermal activity at the Lost City vent field”, Science, vol. 301, pp. 495–498, 2003.
, “Aberrant youth: Chemical and isotopic constraints on the young off-axis lavas of the East Pacific Rise, 9 degrees -10 degrees N”, Geochemistry, Geophysics, Geosystems, vol. 4, p. Article no. 8621, 2003.
, “Aberrant youth: Chemical and isotopic constraints on the young off-axis lavas of the East Pacific Rise, 9 degrees -10 degrees N”, Geochemistry, Geophysics, Geosystems, vol. 4, p. Article no. 8621, 2003.
, “Abiotic synthesis of graphite in hydrothermal vents”, Nature Communications, vol. 10, 2019.
, “Abyssal deposit feeders are secondary consumers of detritus and rely on nutrition derived from microbial communities in their guts”, Scientific Reports, vol. 11, 2021.
, “Active eruption seen on East Pacific Rise”, EOS, Transactions, American Geophysical Union, vol. 72, p. 505,507, 1991.
, “Activities of 223Ra and 226Ra in fluids from the Lost City Hydrothermal Field require short fluid residence times”, Journal of Geophysical Research - Oceans, 2021.
, “Activities of Ra-223 and Ra-226 in Fluids From the Lost City Hydrothermal Field Require Short Fluid Residence Times”, Journal of Geophysical Research-Oceans, vol. 126, 2021.
, “Activity and phylogenetic diversity of sulfate-reducing microorganisms in low-temperature subsurface fluids within the upper oceanic crust”, FRONTIERS IN MICROBIOLOGY, vol. 5, 2015.
, “Activity and positioning of eurythermal hydrothermal vent sulphide worms in a variable thermal environment”, JOURNAL OF EXPERIMENTAL MARINE BIOLOGY AND ECOLOGY, vol. 448, pp. 149–155, 2013.
, “Activity and positioning of eurythermal hydrothermal vent sulphide worms in a variable thermal environment”, JOURNAL OF EXPERIMENTAL MARINE BIOLOGY AND ECOLOGY, vol. 448, pp. 149–155, 2013.
, “Adaptation of chemosynthetic microorganisms to elevated mercury concentrations in deep-sea hydrothermal vents”, Limnology and Oceanography, vol. 54, pp. 41–49, 2009.
, “Adaptation of chemosynthetic microorganisms to elevated mercury concentrations in deep-sea hydrothermal vents”, Limnology and Oceanography, vol. 54, pp. 41–49, 2009.
, “Ages and implications of East Pacific Rise sulphide deposits at 21 degrees N”, Nature, vol. 300, pp. 169–171, 1982.
, “Allopatric and Sympatric Drivers of Speciation in Alviniconcha Hydrothermal Vent Snails”, Molecular Biology and Evolution, vol. 37, pp. 3469-3484, 2020.
, “Allopatric and sympatric drivers of speciation in Alviniconcha hydrothermal vent snails”, Molecular Biology and Evolution, p. msaa177, 2020.
, “Allopatric and sympatric drivers of speciation in Alviniconcha hydrothermal vent snails”, Molecular Biology and Evolution, p. msaa177, 2020.
, “Allopatric and Sympatric Drivers of Speciation in Alviniconcha Hydrothermal Vent Snails”, Molecular Biology and Evolution, vol. 37, pp. 3469-3484, 2020.
, “Along-axis variations in seafloor spreading in the MARK area”, Nature, vol. 328, pp. 681–685, 1987.
, “Along-axis variations in seafloor spreading in the MARK area”, Nature, vol. 328, pp. 681–685, 1987.
, “Alvin explores the deep northern Gulf of Mexico Slope”, EOS, Transactions, American Geophysical Union, vol. 88, pp. 341–342, 2007.
, “Alvin explores the deep northern Gulf of Mexico Slope”, EOS, Transactions, American Geophysical Union, vol. 88, pp. 341–342, 2007.
,