Abstract
Hydrochemistry is a critical indicator of water quality. We analysed 146 hydrochemical parameters of groundwater and the hydrogeological background of the Kashi region in China, examined their spatial distributions, and elucidated the mechanisms of their occurrence. We used graphical and multivariate statistical methods to distinguish between high- and poor-quality water. In the Kizil-Cakmak River Basin of the northern Kashi region, the primary cations were Ca2+ and Mg2+, and the primary anion was SO42−; their concentrations were four times higher than the Class III water quality standard. Additionally, the salinity was high. In contrast, in the upstream and midstream parts of the Gez-Kushan River Basin in the southern Kashi region, the primary ions were HCO3− and SO42−, and the salinity was low. Downstream of the Gez-Kushan River Basin, the primary ion was Cl−, and the salinity was low. There was a wide-ranging spatial variability in the SO42−, Cl−, and Ca2+ contents throughout the study area. The present findings can be applied to locate suitable domestic, agricultural, and industrial water sources in the Kashi region and can provide theoretical guidance for the scientific development and management of groundwater in this region.
Highlights
This study provides a scientific basis for the rational development and utilisation of groundwater resources in Kashi Prefecture and guidance for the management and protection of water resources in arid and semi-arid regions
The results revealed that Ca2+ was the primary cation in the confined and phreatic waters of the Kizil-Cakmak River Basin
The cation and anion concentrations and the total hardness (TH) in the groundwater of the northern basin of the Kashi region surpassed the safety thresholds set by the National Hygiene Standard for Drinking Water
Summary
Groundwater is a vital resource in arid and semi-arid regions. Several scholars have analysed variations in groundwater ion distributions, salinity, and microelement contents using hydrogeochemistry, environmental isotopes, multivariate statistical analysis, hydrochemical simulations, and fuzzy comprehensive evaluations. These studies have clarified the mechanisms through which groundwater composition has formed and evolved under the influences of hydrogeochemical processes, water–rock interactions, lithofacies palaeogeography, and human activity [1,11,12,13,14,15]
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