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W2768049476 startingPage "59" @default.
W2768049476 abstract "In the microbially mediated nitrate-reducing Fe(II) oxidation system, it is recognized that chemical oxidation of Fe(II) by nitrite, which is a bioreduction intermediate of nitrate, can occur under anoxic conditions (chemodenitrification), but it is still difficult to quantitatively evaluate the contributions of biological Fe(II) oxidation and chemodenitrification. Here, nitrate reduction coupled with Fe(II) oxidation by a suggested lithoautotrophic nitrate-reducing Fe(II)-oxidizing bacterium, Pseudogulbenkiania sp. strain 2002, was investigated in PIPES buffered medium without any organic cosubstrate through reaction kinetics, nitrogen isotope fractionation, and secondary mineral characterization. Substantial Fe(II) oxidation was observed in the presence of cells and nitrate, and nitrite (0.59 mM) was able to quickly oxidize Fe(II). Stored carbon in strain 2002 harvested during pre-incubation can serve as carbon source for nitrate reduction. Furthermore, the N isotopic composition (δ15N) of N2O in Cell + NO3− + Fe(II) was much more negative than those in Cell + NO3−/NO2−, Cell + NO2− + Fe(II), and NO2− + Fe(II), implying that Fe(II) affects N fractionation associated with the reduction of nitrate to nitrite. Goethite was formed in Fe(II) + NO2−, while lepidocrocite was the main mineral phase in Cell + Fe(II) + NO3−. The morphology and cell-mineral interactions determined by electron microscopy showed that secondary minerals were formed outside of cells in Cell + NO2− + Fe(II), while cell encrustation was observed in the periplasmic space of cells in Cell + NO3− + Fe(II). The secondary minerals present in the different treatments further illustrated the co-occurrence of biological, chemical, and coupling processes in the microbially mediated nitrate-reducing Fe(II) oxidation system. This study highlights the involvements of the biological Fe(II) oxidation and chemical Fe(II) oxidation by nitrite in microbially mediated nitrate-reducing Fe(II) oxidation." @default.
W2768049476 created "2017-11-17" @default.
W2768049476 creator A5018863416 @default.
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W2768049476 date "2018-01-01" @default.
W2768049476 modified "2023-10-17" @default.
W2768049476 title "Biological and chemical processes of microbially mediated nitrate-reducing Fe(II) oxidation by Pseudogulbenkiania sp. strain 2002" @default.
W2768049476 cites W1515005580 @default.
W2768049476 cites W1650307984 @default.
W2768049476 cites W1912524554 @default.
W2768049476 cites W1964917293 @default.
W2768049476 cites W1966781604 @default.
W2768049476 cites W1967319661 @default.
W2768049476 cites W1973622473 @default.
W2768049476 cites W1978104005 @default.
W2768049476 cites W1979651681 @default.
W2768049476 cites W1981219076 @default.
W2768049476 cites W1981823014 @default.
W2768049476 cites W1984298218 @default.
W2768049476 cites W1985495459 @default.
W2768049476 cites W1986909143 @default.
W2768049476 cites W1987347504 @default.
W2768049476 cites W1987474905 @default.
W2768049476 cites W1992945557 @default.
W2768049476 cites W1993808211 @default.
W2768049476 cites W2002612728 @default.
W2768049476 cites W2026699540 @default.
W2768049476 cites W2028412372 @default.
W2768049476 cites W2033210311 @default.
W2768049476 cites W2035584911 @default.
W2768049476 cites W2040948049 @default.
W2768049476 cites W2049756681 @default.
W2768049476 cites W2054436302 @default.
W2768049476 cites W2057302851 @default.
W2768049476 cites W2058943237 @default.
W2768049476 cites W2064099247 @default.
W2768049476 cites W2064497102 @default.
W2768049476 cites W2069059833 @default.
W2768049476 cites W2069682326 @default.
W2768049476 cites W2070612240 @default.
W2768049476 cites W2073215623 @default.
W2768049476 cites W2075271243 @default.
W2768049476 cites W2077688484 @default.
W2768049476 cites W2087083211 @default.
W2768049476 cites W2090240224 @default.
W2768049476 cites W2094337473 @default.
W2768049476 cites W2094907505 @default.
W2768049476 cites W2097640027 @default.
W2768049476 cites W2109676654 @default.
W2768049476 cites W2112853419 @default.
W2768049476 cites W2114984366 @default.
W2768049476 cites W2118203054 @default.
W2768049476 cites W2121157724 @default.
W2768049476 cites W2122202426 @default.
W2768049476 cites W2122893477 @default.
W2768049476 cites W2131353163 @default.
W2768049476 cites W2132581380 @default.
W2768049476 cites W2133813560 @default.
W2768049476 cites W2135555298 @default.
W2768049476 cites W2137171441 @default.
W2768049476 cites W2153329023 @default.
W2768049476 cites W2154150416 @default.
W2768049476 cites W2161559851 @default.
W2768049476 cites W2161956009 @default.
W2768049476 cites W2162781148 @default.
W2768049476 cites W2166354240 @default.
W2768049476 cites W2167196479 @default.
W2768049476 cites W2168199502 @default.
W2768049476 cites W2171144657 @default.
W2768049476 cites W2209655773 @default.
W2768049476 cites W2289338988 @default.
W2768049476 cites W2317719756 @default.
W2768049476 cites W2320796054 @default.
W2768049476 cites W2334703419 @default.
W2768049476 cites W2399947100 @default.
W2768049476 cites W2405184400 @default.
W2768049476 cites W2521714955 @default.
W2768049476 cites W2528176786 @default.
W2768049476 cites W2548093181 @default.
W2768049476 cites W2745592183 @default.
W2768049476 cites W2750289670 @default.
W2768049476 doi "https://doi.org/10.1016/j.chemgeo.2017.11.004" @default.
W2768049476 hasPublicationYear "2018" @default.
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