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W2321962611 startingPage "3815" @default.
W2321962611 abstract "The photochemical reduction of Fe(III) complexes to Fe(II) is a well-known initiation step for the production of reactive oxygen species (ROS) in sunlit waters. Here we show a geochemical mechanism for the same in dark environments based on the tidally driven, episodic movement of anoxic groundwaters through oxidized, Fe(III) rich sediments. Sediment samples were collected from the top 5 cm of sediment in a saline tidal creek in the estuary at Murrell's Inlet, South Carolina and characterized with respect to total Fe, acid volatile sulfides, and organic carbon content. These sediments were air-dried, resuspended in aerated solution, then exposed to aqueous sulfide at a range of concentrations chosen to replicate the conditions characteristic of a tidal cycle, beginning with low tide. No detectable ROS production occurred from this process in the dark until sulfide was added. Sulfide addition resulted in the rapid production of hydrogen peroxide, with maximum concentrations of 3.85 μM. The mechanism of hydrogen peroxide production was tested using a simplified three factor representation of the system based on hydrogen sulfide, Fe(II) and Fe(III). The resulting predictive model for maximum hydrogen peroxide agreed with measured hydrogen peroxide in field-derived samples at the 95% level of confidence, although with a persistent negative bias suggesting a minor undiscovered peroxide source in sediments." @default.
W2321962611 created "2016-06-24" @default.
W2321962611 creator A5017651586 @default.
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W2321962611 creator A5056848982 @default.
W2321962611 creator A5079691509 @default.
W2321962611 creator A5087018121 @default.
W2321962611 date "2014-03-14" @default.
W2321962611 modified "2023-09-24" @default.
W2321962611 title "Geochemical Production of Reactive Oxygen Species From Biogeochemically Reduced Fe" @default.
W2321962611 cites W11593016 @default.
W2321962611 cites W154216494 @default.
W2321962611 cites W1591456221 @default.
W2321962611 cites W1956722161 @default.
W2321962611 cites W1970854893 @default.
W2321962611 cites W1975010088 @default.
W2321962611 cites W1980115502 @default.
W2321962611 cites W1980849404 @default.
W2321962611 cites W1980857424 @default.
W2321962611 cites W1984514072 @default.
W2321962611 cites W1984792894 @default.
W2321962611 cites W1988271230 @default.
W2321962611 cites W1989282437 @default.
W2321962611 cites W1990618897 @default.
W2321962611 cites W1991362504 @default.
W2321962611 cites W1997884189 @default.
W2321962611 cites W2000438124 @default.
W2321962611 cites W2009116588 @default.
W2321962611 cites W2016182716 @default.
W2321962611 cites W2016657672 @default.
W2321962611 cites W2016808125 @default.
W2321962611 cites W2017619753 @default.
W2321962611 cites W2018411318 @default.
W2321962611 cites W2019241569 @default.
W2321962611 cites W2020025612 @default.
W2321962611 cites W2023668138 @default.
W2321962611 cites W2025183313 @default.
W2321962611 cites W2040222154 @default.
W2321962611 cites W2042607261 @default.
W2321962611 cites W2042796545 @default.
W2321962611 cites W2045266752 @default.
W2321962611 cites W2045436678 @default.
W2321962611 cites W2045778992 @default.
W2321962611 cites W2047087071 @default.
W2321962611 cites W2054645658 @default.
W2321962611 cites W2058340149 @default.
W2321962611 cites W2061691644 @default.
W2321962611 cites W2062241188 @default.
W2321962611 cites W2063042384 @default.
W2321962611 cites W2065694665 @default.
W2321962611 cites W2066296042 @default.
W2321962611 cites W2072808229 @default.
W2321962611 cites W2072886082 @default.
W2321962611 cites W2073481205 @default.
W2321962611 cites W2076489000 @default.
W2321962611 cites W2078563229 @default.
W2321962611 cites W2081946175 @default.
W2321962611 cites W2083794130 @default.
W2321962611 cites W2084036292 @default.
W2321962611 cites W2088919565 @default.
W2321962611 cites W2091913250 @default.
W2321962611 cites W2094677922 @default.
W2321962611 cites W2100050744 @default.
W2321962611 cites W2115580169 @default.
W2321962611 cites W2121701785 @default.
W2321962611 cites W2124467272 @default.
W2321962611 cites W2127459494 @default.
W2321962611 cites W2130582622 @default.
W2321962611 cites W2131203423 @default.
W2321962611 cites W2137662186 @default.
W2321962611 cites W2139609343 @default.
W2321962611 cites W2142431724 @default.
W2321962611 cites W2149485520 @default.
W2321962611 cites W2154270578 @default.
W2321962611 cites W2165802741 @default.
W2321962611 cites W2745964773 @default.
W2321962611 cites W307000743 @default.
W2321962611 cites W4236350793 @default.
W2321962611 doi "https://doi.org/10.1021/es4051764" @default.
W2321962611 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24597860" @default.
W2321962611 hasPublicationYear "2014" @default.
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