SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2586155340> ?p ?o ?g. }

Showing items 1 to 100 of ±158 with 100 items per page.

W2586155340 endingPage "468" @default.
W2586155340 startingPage "458" @default.
W2586155340 abstract "Studies have shown that arsenic is desorbed/released into groundwater as a result of bacterial reduction of As(V) and Fe(III). However, bacterial activities like sulfate reduction process can also reduce the content of arsenic in groundwater. In this study, we examined the effects of different biogeochemical processes (e.g. NO3− and SO42 − reduction) on arsenic, by investigating the chemical characteristics and bacterial community structure of groundwater in the Datong Basin, northern China. Along the groundwater flow path, arsenic concentration increased from < 1 to 947.6 μg/L with dominant bacteria change from aerobic (Fluviicola, Rhodococcus) to denitrifying bacteria (Thauera, Gallionella), and then to sulfate reducing bacteria (Desulfosporosinus). According to the groundwater redox sensitive indicators (Eh, NO3−, SO42 −/Cl− and Fe2 +) concentrations (or ratios), the sampling points were approximately divided into three zones (I, I′’ and II). Variation in features of these indicators suggested that the groundwater evolved from a weakly oxidizing environment (Zone I, Eh average 93.3 mV, respectively) to strong reducing environment (Zone II, Eh average − 101.8 mV). In Zone I, bacteria mainly consuming O2 or NO3− were found which inhibits Fe(III) and As(V) reduction reaction, resulting in a low As zone (< 1 to 3.3 μg/L). However, in Zone II, where O2 and NO3− have been depleted, SO42 − reduction appears to be the dominant process, and the Fe(III) and As(V) reduction processes are also occurring and hence, enrichment of As in the groundwater (2.8 to 947.6 μg/L, average 285.6 μg/L). Besides, bacterial Fe(III) reduction process was retarded due to the weakly alkaline conditions (pH 7.60–8.11, average 7.83), but abiotic Fe(III) reduction by HS− may be continued. Therefore, we conclude that the Fe(III) and As(V) reduction processes contributed to arsenic enrichment in the groundwater, and the reductive desorption of arsenate is the main occurring process especially in the weakly alkaline environment. Moreover, NO3− reduction process can significantly restrain the release of arsenic, but the process of SO42 − reduction is insignificant for arsenic concentration decline in natural groundwater." @default.
W2586155340 created "2017-02-17" @default.
W2586155340 creator A5006444579 @default.
W2586155340 creator A5037666936 @default.
W2586155340 creator A5042908837 @default.
W2586155340 creator A5045579735 @default.
W2586155340 creator A5051190727 @default.
W2586155340 creator A5054358636 @default.
W2586155340 creator A5084151602 @default.
W2586155340 date "2017-04-01" @default.
W2586155340 modified "2023-10-14" @default.
W2586155340 title "Arsenic behavior in different biogeochemical zonations approximately along the groundwater flow path in Datong Basin, northern China" @default.
W2586155340 cites W1017852712 @default.
W2586155340 cites W1500496508 @default.
W2586155340 cites W1552555281 @default.
W2586155340 cites W1777939053 @default.
W2586155340 cites W1965521018 @default.
W2586155340 cites W1966689073 @default.
W2586155340 cites W1968397361 @default.
W2586155340 cites W1972231891 @default.
W2586155340 cites W1975337891 @default.
W2586155340 cites W1977061468 @default.
W2586155340 cites W1978895830 @default.
W2586155340 cites W1987688043 @default.
W2586155340 cites W1990536164 @default.
W2586155340 cites W1991139251 @default.
W2586155340 cites W1992963599 @default.
W2586155340 cites W1994799581 @default.
W2586155340 cites W2003221509 @default.
W2586155340 cites W2011203615 @default.
W2586155340 cites W2013537720 @default.
W2586155340 cites W2015312584 @default.
W2586155340 cites W2015833896 @default.
W2586155340 cites W2018319719 @default.
W2586155340 cites W2020290056 @default.
W2586155340 cites W2021373240 @default.
W2586155340 cites W2022925679 @default.
W2586155340 cites W2026762966 @default.
W2586155340 cites W2033505571 @default.
W2586155340 cites W2036202067 @default.
W2586155340 cites W2039242149 @default.
W2586155340 cites W2039407536 @default.
W2586155340 cites W2045956785 @default.
W2586155340 cites W2046568229 @default.
W2586155340 cites W2048356807 @default.
W2586155340 cites W2051485105 @default.
W2586155340 cites W2054297645 @default.
W2586155340 cites W2061342829 @default.
W2586155340 cites W2065151808 @default.
W2586155340 cites W2066165725 @default.
W2586155340 cites W2066935908 @default.
W2586155340 cites W2068936338 @default.
W2586155340 cites W2072073038 @default.
W2586155340 cites W2080878470 @default.
W2586155340 cites W2081381690 @default.
W2586155340 cites W2085579659 @default.
W2586155340 cites W2091660974 @default.
W2586155340 cites W2094210433 @default.
W2586155340 cites W2097017831 @default.
W2586155340 cites W2101053214 @default.
W2586155340 cites W2101972453 @default.
W2586155340 cites W2103383557 @default.
W2586155340 cites W2104631075 @default.
W2586155340 cites W2104843444 @default.
W2586155340 cites W2112842732 @default.
W2586155340 cites W2114630430 @default.
W2586155340 cites W2124287632 @default.
W2586155340 cites W2124631354 @default.
W2586155340 cites W2137171441 @default.
W2586155340 cites W2140387008 @default.
W2586155340 cites W2142132096 @default.
W2586155340 cites W2142169267 @default.
W2586155340 cites W2149602337 @default.
W2586155340 cites W2151092896 @default.
W2586155340 cites W2152593152 @default.
W2586155340 cites W2155471891 @default.
W2586155340 cites W2155933988 @default.
W2586155340 cites W2160914057 @default.
W2586155340 cites W2161368381 @default.
W2586155340 cites W2164071946 @default.
W2586155340 cites W2166171121 @default.
W2586155340 cites W2167437752 @default.
W2586155340 cites W2304412659 @default.
W2586155340 cites W3140508905 @default.
W2586155340 doi "https://doi.org/10.1016/j.scitotenv.2017.01.029" @default.
W2586155340 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28185734" @default.
W2586155340 hasPublicationYear "2017" @default.
W2586155340 type Work @default.
W2586155340 sameAs 2586155340 @default.
W2586155340 citedByCount "11" @default.
W2586155340 countsByYear W25861553402018 @default.
W2586155340 countsByYear W25861553402019 @default.
W2586155340 countsByYear W25861553402020 @default.
W2586155340 countsByYear W25861553402021 @default.
W2586155340 countsByYear W25861553402022 @default.
W2586155340 countsByYear W25861553402023 @default.
W2586155340 crossrefType "journal-article" @default.
W2586155340 hasAuthorship W2586155340A5006444579 @default.