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青藏高原典型高寒盆地富锶地下水特征:对可持续开发利用的启示

Characterization of strontium-rich groundwater in a typical alpine basin on Tibetan Plateau: Implications for sustainable exploitation and development.

作者信息

Xiao Shanhu, Wang Jie, Xiao Yong, Yang Shaokang, Zhang Yuqing, Wang Jianhui, Chen Huizhu, Hu Wenxu, Wang Liwei, Zhu Guangbin, Su Yanting, Zhao Dongyang

机构信息

Bureau of Qinghai Environmental Geological Prospecting, Xi'ning, China.

Qinghai 906 Engineering Survey and Design Institute Co., Ltd., Xi'ning, China.

出版信息

PLoS One. 2025 Sep 10;20(9):e0331449. doi: 10.1371/journal.pone.0331449. eCollection 2025.

DOI:10.1371/journal.pone.0331449
PMID:40929125
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12422519/
Abstract

This study focuses on mineral groundwater in alpine regions and its sustainable exploitation. The Tongde basin on Tibetan Plateau was investigated to reveal the hydrochemistry and formation of mineral groundwater in alpine basins and its sustainable development under anthropogenic disturbances. The results show that groundwater there is characterized by enriched strontium, with concentrations in the range of 0.29-2.03 mg/L, exceeding the mineral water threshold of 0.20 mg/L. Groundwater has large salinity variation but is predominantly fresh, with an average TDS of 456.72 mg/L and a dominant hydrochemical facies of HCO3-Ca. Groundwater chemistry is primarily governed by water-rock interactions, particularly silicates weathering, carbonates dissolution and cation exchange. The enriched Sr in groundwater primarily originate from the dissolution of silicate minerals and carbonate cements in arkosic sandstone and argillaceous siltstone, with albite, calcite, and strontianite being the primary minerals involved. Groundwater quality in the basin is mostly excellent to good, with EWQI values below 100. While agricultural practices have introduced nitrogen contaminants (NH4+, NO2- and NO3-) into groundwater. Among them, NO3- would pose potential health risks to various populations and should be addressed in the development of alpine basins with the endowment of mineral water resources.

摘要

本研究聚焦于高寒地区的矿泉地下水及其可持续开发利用。对青藏高原的同德盆地进行了调查,以揭示高寒盆地矿泉地下水的水化学特征、形成过程及其在人为干扰下的可持续发展情况。结果表明,该地地下水以富锶为特征,浓度范围为0.29 - 2.03毫克/升,超过了0.20毫克/升的矿泉水阈值。地下水盐度变化较大,但主要为淡水,平均总溶解固体为456.72毫克/升,主要水化学相为HCO₃ - Ca。地下水化学主要受水 - 岩相互作用控制,特别是硅酸盐风化、碳酸盐溶解和阳离子交换。地下水中富集的锶主要源于长石砂岩和泥质粉砂岩中硅酸盐矿物和碳酸盐胶结物的溶解,涉及的主要矿物为钠长石、方解石和天青石。该盆地地下水水质大多优良,水质指数值低于100。不过,农业活动已将氮污染物(NH₄⁺、NO₂⁻和NO₃⁻)引入地下水中。其中,NO₃⁻会对各类人群构成潜在健康风险,在开发具有矿泉水资源禀赋的高寒盆地时应予以关注。

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