Using Isotopic and Hydrochemical Indicators to Identify Sources of Sulfate in Karst Groundwater of the Niangziguan Spring Field, China

Karst groundwater in the Niangziguan spring fields is the main source to supply domestic and industrial water demands in Yangquan City, China. However, the safety of water supply in this region has recently suffered from deteriorating quality levels. Therefore, identifying pollution sources and caus...

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Bibliographic Details
Published inWater (Basel) Vol. 13; no. 3; p. 390
Main Authors Tang, Chunlei, Jin, Hua, Liang, Yongping
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.02.2021
Subjects
Acid mine drainage
Acidic water
Aquifers
Boreholes
Calcium
Chlorides
Coal
Coal mines
Coal mining
Composition
Environmental aspects
Groundwater
Groundwater discharge
Groundwater pollution
Gypsum
hydrochemical characteristics
Identification and classification
Industrial water
Iron sulfides
Isotopes
Karst
karst spring
Magnesium
Measurement
Mine drainage
Mines
Oxidation
Pollution levels
Pollution sources
Rivers
Sewage
source of sulfate
stable isotope
Stable isotopes
Sulfates
Sulfur
Surface water
Testing
Urbanization
Water pollution
Water quality
Water shortages
Water springs
Water supply
Water temperature
Water, Underground
China
United States > US
Germany
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Summary:Karst groundwater in the Niangziguan spring fields is the main source to supply domestic and industrial water demands in Yangquan City, China. However, the safety of water supply in this region has recently suffered from deteriorating quality levels. Therefore, identifying pollution sources and causes is crucial for maintaining a reliable water supply. In this study, a systematic sample collection for the karst groundwater in the Niangziguan spring fields was implemented to identify hydrochemical characteristics of the karst groundwater through comprehensive analyses of hydrochemistry (piper diagram, and ion ratios,) and stable isotopes (S and H-O). The results show that the karst groundwater in the Niangziguan spring fields was categorized as SO4·HCO3-Ca·Mg, HCO3·SO4-Ca·Mg, and SO4-Ca types. K+, Cl-, and Na+ are mainly sourced from urban sewage and coal mine drainage. In addition, SO42− was mainly supplied by the dissolution of gypsum and the oxidation of FeS2 in coal-bearing strata. It is noteworthy that, based on H-O and S isotopes, 75% of the karst groundwater was contaminated by acidic water in coal mines at different degrees. In the groundwater of the Niangziguan spring field, the proportions of SO42− derived from FeS2 oxidation were 60.6% (N50, Chengxi spring), 30.3% (N51, Wulong spring), and 26.0% (N52, Four springs mixed with water). Acid mine drainage directly recharges and pollutes karst groundwater through faults or abandoned boreholes, or discharges to rivers, and indirectly pollutes karst groundwater through river infiltration in carbonate exposed areas. The main source of rapid increase of sulfate in karst groundwater is acid water from abandoned coal mines.
ISSN:2073-4441
2073-4441
DOI:10.3390/w13030390