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W3005359247 endingPage "119495" @default.
W3005359247 startingPage "119495" @default.
W3005359247 abstract "The Loki's Castle vent field at the ultraslow-spreading Arctic Mid-Ocean Ridge (AMOR) hosts a low-temperature venting area, which is characterized by microbial mats and numerous up to 1 m tall barite chimneys. An actively-venting barite chimney yielded δ18OSO4 and δ34SSO4 values heavier than ambient seawater and sulfide-oxidizing bacteria in microbial mats identified microbial sulfate reduction and sulfide oxidation as the main processes. In order to investigate the chemical and microbial structure below the barite field, we obtained two gravity cores and present chemical composition (e.g., H2S, SO42−, NH4+, DIC) and stable isotope data for the pore fluids (δ34SSO4, δ13CDIC) together with stable isotope (δ13Corg, δ34S, ∆33S) and lipid biomarker data on bulk sediments. The gravity core more distant to the high-temperature vents shows seawater-like pore fluid profiles with only minor vent fluid contribution (<1%), whereas the bulk sediments yield negative δ34S and positive ∆33S values indicative of sulfate reduction. In contrast, the pore fluid data in close proximity to the high-temperature vents (5–9% vent fluid contribution) record distinct horizons showing sulfate depletion, which coincide with δ34SSO4 values that are higher than those for ambient seawater sulfate. The sediments in these horizons record negative δ34S and positive ∆33S values, indicating that both the pore fluids and the sediments are influenced by active sulfate reduction. We also detected a greater abundance of archaeal mono- and dialkyl tetraether lipids (GMGTs, GDGTs) and bacterial fatty acids in the sediments at actively venting sites, pointing to a more diverse microbial community. Moreover, a positive correlation observed between GMGT abundance and sulfur concentration in the sediments indicates that the availability of sulfur is crucial for the presence of GMGT-producing archaea. Our multi-proxy approach suggests that sulfate reduction in the sub-seafloor sediments of the Loki's Castle barite field is largely driven by microbial processes." @default.
W3005359247 created "2020-02-14" @default.
W3005359247 creator A5013157752 @default.
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W3005359247 creator A5067450588 @default.
W3005359247 creator A5090760611 @default.
W3005359247 date "2020-04-01" @default.
W3005359247 modified "2023-09-23" @default.
W3005359247 title "Sub-seafloor sulfur cycling in a low-temperature barite field: A multi-proxy study from the Arctic Loki’s Castle vent field" @default.
W3005359247 cites W1484786867 @default.
W3005359247 cites W1973258325 @default.
W3005359247 cites W1977718990 @default.
W3005359247 cites W1984962510 @default.
W3005359247 cites W1986409998 @default.
W3005359247 cites W1986899865 @default.
W3005359247 cites W1989956320 @default.
W3005359247 cites W1990648220 @default.
W3005359247 cites W1994047524 @default.
W3005359247 cites W1994173692 @default.
W3005359247 cites W1994360423 @default.
W3005359247 cites W1997349677 @default.
W3005359247 cites W1998521119 @default.
W3005359247 cites W1998784111 @default.
W3005359247 cites W2001032892 @default.
W3005359247 cites W2004492492 @default.
W3005359247 cites W2004678497 @default.
W3005359247 cites W2004828219 @default.
W3005359247 cites W2008772238 @default.
W3005359247 cites W2010603268 @default.
W3005359247 cites W2010724918 @default.
W3005359247 cites W2010989785 @default.
W3005359247 cites W2012632535 @default.
W3005359247 cites W2019421568 @default.
W3005359247 cites W2024284605 @default.
W3005359247 cites W2028837171 @default.
W3005359247 cites W2030690323 @default.
W3005359247 cites W2031128482 @default.
W3005359247 cites W2031268176 @default.
W3005359247 cites W2032157932 @default.
W3005359247 cites W2032962002 @default.
W3005359247 cites W2036212907 @default.
W3005359247 cites W2038814991 @default.
W3005359247 cites W2040027770 @default.
W3005359247 cites W2042783269 @default.
W3005359247 cites W2046466981 @default.
W3005359247 cites W2051310762 @default.
W3005359247 cites W2052767116 @default.
W3005359247 cites W2057274239 @default.
W3005359247 cites W2060965440 @default.
W3005359247 cites W2061118289 @default.
W3005359247 cites W2062758619 @default.
W3005359247 cites W2066157635 @default.
W3005359247 cites W2068593151 @default.
W3005359247 cites W2073058404 @default.
W3005359247 cites W2075542686 @default.
W3005359247 cites W2077890342 @default.
W3005359247 cites W2081802085 @default.
W3005359247 cites W2088831824 @default.
W3005359247 cites W2090240765 @default.
W3005359247 cites W2091732366 @default.
W3005359247 cites W2103782314 @default.
W3005359247 cites W2104688577 @default.
W3005359247 cites W2108000480 @default.
W3005359247 cites W2113449951 @default.
W3005359247 cites W2116972303 @default.
W3005359247 cites W2126171915 @default.
W3005359247 cites W2131062810 @default.
W3005359247 cites W2138717680 @default.
W3005359247 cites W2139685023 @default.
W3005359247 cites W2140763040 @default.
W3005359247 cites W2143961788 @default.
W3005359247 cites W2144365502 @default.
W3005359247 cites W2148086816 @default.
W3005359247 cites W2152797960 @default.
W3005359247 cites W2153901829 @default.
W3005359247 cites W2154051843 @default.
W3005359247 cites W2156736985 @default.
W3005359247 cites W2157333715 @default.
W3005359247 cites W2169211592 @default.
W3005359247 cites W2169458900 @default.
W3005359247 cites W2169559039 @default.
W3005359247 cites W2170816306 @default.
W3005359247 cites W2171890005 @default.
W3005359247 cites W2255347426 @default.
W3005359247 cites W2323355519 @default.
W3005359247 cites W2396641139 @default.
W3005359247 cites W2492266443 @default.
W3005359247 cites W2513277014 @default.
W3005359247 cites W2521745639 @default.
W3005359247 cites W2806840498 @default.
W3005359247 cites W4233615550 @default.
W3005359247 doi "https://doi.org/10.1016/j.chemgeo.2020.119495" @default.
W3005359247 hasPublicationYear "2020" @default.
W3005359247 type Work @default.
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