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W4311764531 startingPage "160858" @default.
W4311764531 abstract "Sulfur-based autotrophic bioremediation is recognized as an environmentally-friendly and effective method for the treatment of Cr(VI) in groundwater. However, inorganic carbon (IC), especially IC-rich solid kitchen waste, has rarely been reported as an important factor in the autotrophic process. In China, kitchen waste containing IC is generated in large quantities, and in combination with Cr(VI) autotrophic treatment technology in groundwater can achieve a win-win situation. Herein, the efficiency of Cr(VI)-bioreduction coupling solid inorganic carbon (SIC) (e.g. marble, egg shell, oyster shell, and NSAD synthetic material) and liquid inorganic carbon (LIC) was compared for the first time. After 18 d incubation, there were significant differences in Cr(VI) reduction efficiency and microbial community between SIC-bioreactors and LIC-bioreactors. Higher electron transfer activity, greater bioavailability of organics, and multiple Cr(VI) reductases were detected in SIC-biosystems, which effectively promoted Cr(VI) energy metabolism and enzyme-mediated biological reduction. High-throughput 16S rRNA gene sequencing reveled multiple cooperative mechanism in different substrate biosystems. This study not only advances the understanding of SIC coupled with Cr(VI) autotrophic bioreduction, but also provides new insights for the treatment of solid kitchen waste and groundwater bioremediation." @default.
W4311764531 created "2022-12-28" @default.
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W4311764531 date "2023-03-01" @default.
W4311764531 modified "2023-10-18" @default.
W4311764531 title "Does inorganic carbon species alter chromium reduction mechanism in sulfur-based autotrophic biosystem?" @default.
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W4311764531 cites W1989120131 @default.
W4311764531 cites W1992037781 @default.
W4311764531 cites W1999674395 @default.
W4311764531 cites W2004071896 @default.
W4311764531 cites W2016048871 @default.
W4311764531 cites W2018820633 @default.
W4311764531 cites W2038451182 @default.
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W4311764531 cites W2091333662 @default.
W4311764531 cites W2104748470 @default.
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W4311764531 cites W2169947956 @default.
W4311764531 cites W2171380981 @default.
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W4311764531 cites W2342477540 @default.
W4311764531 cites W2415850899 @default.
W4311764531 cites W2466736013 @default.
W4311764531 cites W2534422139 @default.
W4311764531 cites W2770450376 @default.
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W4311764531 cites W2789511815 @default.
W4311764531 cites W2806323010 @default.
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W4311764531 cites W2810826887 @default.
W4311764531 cites W2905993062 @default.
W4311764531 cites W2920474865 @default.
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W4311764531 cites W2947978256 @default.
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W4311764531 cites W4229333497 @default.
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W4311764531 doi "https://doi.org/10.1016/j.scitotenv.2022.160858" @default.
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