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, “Imprint of past environmental regimes on structure and succession of a deep-sea hydrothermal vent community”, Oecologia, vol. 161, pp. 387–400, 2009.
, “Improving enzyme thermostability: The Thermococcus litoralis glutamate dehydrogenase model”, in New developments in marine biotechnology, New York: Plenum Press, 1998, pp. 221–225.
, “In search of ancestral Kilauea Volcano”, Geology, vol. 28, pp. 1079–1082, 2000.
, “In situ measurement of dissolved chloride in high temperature hydrothermal fluids”, Geochimica et Cosmochimica Acta, vol. 71, pp. 2510–2523, 2007.
, “In situ measurement of dissolved chloride in high temperature hydrothermal fluids”, Geochimica et Cosmochimica Acta, vol. 71, pp. 2510–2523, 2007.
, “In situ measurement of fluid flow from cold seeps at active continental margins”, Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 41, pp. 721–739, 1994.
, “In situ voltammetry at deep-sea hydrothermal vents”, in Environmental electrochemistry: Analyses of trace element biogeochemistry, American Chemical Society, 2002, pp. 40–51.
, “Incorporation of deep-sea and small-sized species provides new insights into gastropods phylogeny”, Molecular Phylogenetics and Evolution, vol. 135, pp. 136-147, 2019.
, “Influence of environmental conditions on early development of the hydrothermal vent polychaete Alvinella pompejana”, Journal of Experimental Biology, vol. 208, pp. 1551–1561, 2005.
, “Inner floor of the Rift Valley: First submersible study”, Nature, vol. 250, pp. 558–560, 1974.
, “Inorganic carbon uptake in hydrothermal vent tubeworms facilitated by high environmental pCO2”, Nature, vol. 362, pp. 147–149, 1993.
, “Inorganic chemistry, gas compositions and dissolved organic carbon in fluids from sedimented young basaltic crust on the Juan de Fuca Ridge flanks”, Geochimica et Cosmochimica Acta, vol. 85, pp. 213–227, 2012.
, “Inorganic chemistry, gas compositions and dissolved organic carbon in fluids from sedimented young basaltic crust on the Juan de Fuca Ridge flanks”, Geochimica et Cosmochimica Acta, vol. 85, pp. 213–227, 2012.
, “In-situ study of eastern ridge-transform intersection of the Vema Fracture Zone”, Tectonophysics, vol. 190, pp. 55–71, 1991.
, “Interactions between temperature and energy supply drive microbial communities in hydrothermal sediment”, Communications Biology, vol. 4, p. 1006, 2021.
, “Interactions between temperature and energy supply drive microbial communities in hydrothermal sediment”, Communications Biology, vol. 4, p. 1006, 2021.
, “Interactions between temperature and energy supply drive microbial communities in hydrothermal sediment”, Communications Biology, vol. 4, p. 1006, 2021.
, “Interactive inspection and analysis of multisensor data from the TAG hydrothermal vent site”, EOS, Transactions, American Geophysical Union, vol. 77, p. 768, 1996.
, “Interactive inspection and analysis of multisensor data from the TAG hydrothermal vent site”, EOS, Transactions, American Geophysical Union, vol. 77, p. 768, 1996.
, “Inter-comparison of the potentially active prokaryotic communities in the halocline sediments of Mediterranean deep-sea hypersaline basins”, Extremophiles, vol. 19, pp. 949–960, 2015.
, “Interrelationships between vent fluid chemistry, temperature, seismic activity, and biological community structure at a mussel-dominated, deep-sea hydrothermal vent along the East Pacific Rise”, Journal of Shellfish Research, vol. 27, pp. 177–190, 2008.
, “Interrelationships between vent fluid chemistry, temperature, seismic activity, and biological community structure at a mussel-dominated, deep-sea hydrothermal vent along the East Pacific Rise”, Journal of Shellfish Research, vol. 27, pp. 177–190, 2008.
, “Intraoceanic tectonism in the Gorringe Bank: observations by submersible”, in Ophiolites and oceanic lithosphere, vol. 13, Boston, Mass.: Blackwell Scientific Publications, 1984, pp. 113–120.
, “Intraoceanic tectonism in the Gorringe Bank: observations by submersible”, in Ophiolites and oceanic lithosphere, vol. 13, Boston, Mass.: Blackwell Scientific Publications, 1984, pp. 113–120.
, “An investigation into the suitability of bismuth as an alternative to gold-amalgam as a working electrode for the in situ determination of chemical redox species in the natural environment”, Electroanalysis, vol. 18, pp. 1167–1172, 2006.