Details

Autor(en) / Beteiligte

• Zhang, Qianqian
• Wang, Huiwei
• Lu, Chuan

Titel

Tracing sulfate origin and transformation in an area with multiple sources of pollution in northern China by using environmental isotopes and Bayesian isotope mixing model

Ist Teil von

• Environmental pollution (1987), 2020-10, Vol.265, p.115105-115105, Article 115105

Ort / Verlag

Elsevier Ltd

Erscheinungsjahr

2020

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• Sulfate (SO42−) contamination in groundwater and surface water is an environmental problem of widespread concern. In this study, we combined stable isotope analyses of SO42− (δ34S and δ18O) and water (δ2H and δ18O) with a Bayesian mixing model (SIAR), for the first time, to identify sources and transformation of SO42− in an area of northern China with multiple potential sources of pollution. The overall values of δ34S and δ18O-SO42- ranged from 1.3‰ to 16.3‰ and −3.8‰–8.8‰ in groundwater, and from −1.1‰ to 9.3‰ and 2.7‰–9.2‰ in surface waters, respectively. Analyses of SO42− isotopes and water chemistry indicated that SO42− in groundwater and surface water mainly originated from mixing of oxidation of sulfate, sewage, chemical fertilizers, dissolution of evaporite and precipitation. There was no significant correlation between δ34S and δ18O and SO42− concentration in groundwater, indicating that bacterial sulfate reduction did not affect the SO42− isotopic composition. SIAR model showed the main sources of SO42− in groundwater and surface water comprised oxidation of sulfide minerals and sewage. In groundwater, oxidation of sulfide minerals and sewage accounted for 37.5–44.5% and 35.5–42.7% of SO42−, respectively. In regard to surface waters, the contribution of oxidation of sulfide minerals to SO42− was higher in the wet season (31.8 ± 9.9%) than in the intermediate (22.4 ± 7.8%) and dry (20.9 ± 8.2%) seasons, but the contribution proportion of sewage was slightly lower in the wet season (19.9 ± 8.5%) than in the intermediate (23.8 ± 8.7%) and dry (24.2 ± 8.5%) seasons. This study indicates that it is necessary for local government to improve the treatment infrastructure for domestic sewage and optimize methods of agricultural fertilization and irrigation to prevent SO42− contamination of groundwater and surface water. [Display omitted] •Combining δ15N and δ18O-SO42- and water chemistry can increase the accuracy of tracing.•A Bayesian mixing model used for the first time to quantity SO42− sources.•Bacterial sulfate reduction did not affect the SO42− isotopic composition.•Sulfate in ground and surface in this area derived from mixed pollution source.•SO42− in ground and surface water comes from oxidation of sulfide minerals and sewage.