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W90247211 abstract "Superoxide (O 2 – ) and hydrogen peroxide (H 2 O 2 ) concentrations ranging from 87 to 1120 pmol L −1 and 5 to 107 nmol L −1 , respectively, were measured in samples of surface water from the Great Barrier Reef (GBR) lagoon in the absence of photochemistry. Nonphotochemical, particle‐associated net production rates of O 2 ‐ ranging from 1 to 16 pmol L ‐1 s ‐1 were also determined and calculated to be similar in magnitude to the likely abiotic photochemical O 2 ‐ production rates in GBR surface waters. Manipulative experiments using 0.22‐µm filtration and addition of biological inhibitors demonstrated that the majority of this particle‐associated production was biological and likely driven by photosynthetic organisms. Pseudo‐first‐order O 2 ‐ decay rate constants were very low at O 2 ‐ concentrations < 1 nmol L ‐1 (values in filtered samples ranged from 0.7 to 4.3 x 10 −2 s −1 ) but increased with increasing O 2 ‐ concentration toward a value of ~ 0.2 s −1 at O 2 ‐ concentrations > 10 nmol L ‐1 . This was thought to occur because reduced forms of metals such as iron and copper, or redox‐active organic moieties, preferentially react with O 2 rather than O 2 ‐ at low O 2 ‐ concentrations, thereby inhibiting catalyzed O 2 ‐ disproportionation. This notion was supported by the observation that addition of superoxide dismutase dramatically increased rates of H 2 O 2 production in samples. We suggest that, under these conditions, O 2 ‐ can maintain a biologically useful reducing microenvironment around cells without resulting in significant accumulation of potentially harmful H 2 O 2 ." @default.
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W90247211 date "2010-06-02" @default.
W90247211 modified "2023-10-16" @default.
W90247211 title "Dynamics of nonphotochemical superoxide production in the Great Barrier Reef lagoon" @default.
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W90247211 cites W1970866499 @default.
W90247211 cites W1977077161 @default.
W90247211 cites W1977436759 @default.
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W90247211 doi "https://doi.org/10.4319/lo.2010.55.4.1521" @default.
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