Impact of anthropogenic activities on the enrichment of fluoride and salinity in groundwater in the Yuncheng Basin constrained by Cl/Br ratio, delta O-18, delta H-2, delta C-13 and delta Li-7 isotopes

摘要

Substantial concerns have been raised about the degradation of groundwater quality and their harmful effects due to salinization processes and endemic fluorosis issues in China. Yuncheng Basin is an economically important area situated in semi-arid northern China, which has suffered from severe groundwater contamination and intensive anthropogenic activities (agricultural, industrial and domestic). Twenty water quality parameters were surveyed at 85 groundwater and salt lake water sites during August 2013-September 2015. The combining using of Cl/Br mass ratio, delta H-2, delta O-18, delta C-13, and delta(2) Li isotopes was employed to investigate the potential impact of anthropogenic activities which are supposed to contribute to groundwater salinization and fluoride enrichment in the Yuncheng Basin to a large extent. Results show that shallow groundwater are more vulnerable to contamination from anthropogenic processes of irrigation leaching, wastewater drainage, fertilizer utilization and Salt Lake water intrusion. Vertical irrigation recharge has been an important source of salt and fluoride for the shallow groundwater in the runoff area between Kaolao lowland and the central Basin, revealed by the high salinity (> 4000 mg/L), high Cl/Br ratios (> 2000), moderate high delta Li-7 (19.7 similar to 26.1 parts per thousand), moderate delta C-13 (- 8.1 similar to-10.3 parts per thousand) and constant delta O-18 and delta H-2 values. The contribution of over-utilization of fertilizers on high fluoride shallow saline groundwater is found in the crop land in the west part of the Salt Lake with a moderate high nitrate concentration (> 10 mg/L), moderate Cl/Br ratios (332 similar to 1000) and low delta Li-2 value (13.8 parts per thousand). Shallow groundwater in the northern part of the Salt lake polluted by wastewater, evidenced by boron concentration (> 2000 mu g/L), Na/K (molar ratio > 0.6), delta C-13 (-11 similar to-11.1 parts per thousand), and delta Li-7 (20.4 similar to 22.5 parts per thousand), show highest fluoride concentrations. Due to over-pumping of groundwater, Salt Lake water intrusion mainly occurs in the northern shore of the lake and results in the enrichment of fluoride and salinity in some shallow groundwater with low Cl/Br ratios (around 300), high delta Li-7 value (c.a. 27 parts per thousand), and moderate high delta O-18 (-8.2 similar to- 8.7 parts per thousand) and delta(2) Li (- 62.2 similar to- 66.1 parts per thousand) values. The influence of anthropogenic activities on deep groundwater is reflected in two possible scenarios. Increased extraction of groundwater leads to downward leakage of shallow high fluoride saline groundwater, increasing the pollution risk of deep groundwater within the depression cone in the west of Yuncheng City. The rapidly-developed drilling activities of geothermal water (delta Li-7, 11 similar to 14.3 parts per thousand; delta C-13, -7.9 similar to- 8.4 parts per thousand; [5], 709 similar to 3523 mu g/L; [F], 2.1 similar to 8.2 mg/L) bring about the contamination of fresh groundwater by the underground leaking or discharge of geothermal water. Finally, a conceptual model has been developed to demonstrate the influences of anthropogenic activities on groundwater contamination along a northwest to southeast cross-section.