Tracing the origin and geochemical processes of dissolved sulphate in a karst-dominated wetland catchment using stable isotope indicators

• Published in: Journal of hydrology (Amsterdam) Vol. 562; pp. 210 - 222
• Main Authors: Cao, Xingxing, Wu, Pan, Zhou, Shaoqi, Sun, Jing, Han, Zhiwei
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.07.2018
• Subjects: Dissolved sulphate; Karst water; Stable isotope; Wetland; Karst water; Stable isotope; Dissolved sulphate; Wetland
• ISSN: 0022-1694; 1879-2707
• DOI: 10.1016/j.jhydrol.2018.04.072

•The sources of sulfate in a karst-dominated wetland catchment has been disscussed.•Groundwater and rain water have contributed to sulfate in karst wetland water.•Local sulfur cycles processes were discussed in karst wetland ecosystem. Sulphur plays a critical role in the biogeochemistry of wetlands. SO42− is the sulphur form that is most commonly assimilated by plants, and it is the medium of sulphur transformation in wetland ecosystems. The Caohai wetland is an important ecosystem on the Yunnan–Guizhou Plateau, SW China, and karst water is the most important water source in this wetland. In this study, the compositions of multiple isotopes (δ34SSO4 and δ18OSO4) were measured in groundwater, river water and wetland water in the Caohai catchment to elucidate the solute sources and behaviours of sulphate. The results suggest that SO42− in groundwater is mainly derived from sulphide oxidation. Groundwater contributes a significant amount of sulphate to river water, and it is the main sulphate source of wetland water during the high-flow season. In contrast, rain water is the main sulphate source of wetland water during the low-flow season due to the reduction in groundwater recharge. These data indicate that groundwater is not only an important water source in the karst-dominated wetland catchment but also provides pathways by which sulphate is transported to the wetland. In addition, due to the effects of dissimilatory sulphate reduction in the wetland, the sulphate isotope composition in wetland water was higher than those in the groundwater and inflowing rivers, which indicates that biogeochemical processes in wetland ecosystems influence the sulphate content and composition in karst water.