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Solute Geochemistry and Water Quality Assessment of Groundwater in an Arid Endorheic Watershed on Tibetan Plateau

Author

Listed:
  • Fenglin Wang

    (Bureau of Qinghai Environmental Geological Prospecting, Xi’ning 810007, China
    Key Laboratory of Geo-Environment of Qinghai Province, Xi’ning 810007, China
    Qinghai 906 Engineering Survey and Design Institute Co., Ltd., Xi’ning 810007, China)

  • Hongjie Yang

    (Faculty of Geosciences and Environmental Engineering, Southwest Jiaotong University, Chengdu 611756, China)

  • Yuqing Zhang

    (Faculty of Geosciences and Environmental Engineering, Southwest Jiaotong University, Chengdu 611756, China)

  • Shengbin Wang

    (Bureau of Qinghai Environmental Geological Prospecting, Xi’ning 810007, China
    Key Laboratory of Geo-Environment of Qinghai Province, Xi’ning 810007, China
    Qinghai 906 Engineering Survey and Design Institute Co., Ltd., Xi’ning 810007, China)

  • Kui Liu

    (Faculty of Geosciences and Environmental Engineering, Southwest Jiaotong University, Chengdu 611756, China)

  • Zexue Qi

    (Bureau of Qinghai Environmental Geological Prospecting, Xi’ning 810007, China
    Key Laboratory of Geo-Environment of Qinghai Province, Xi’ning 810007, China
    Qinghai 906 Engineering Survey and Design Institute Co., Ltd., Xi’ning 810007, China)

  • Xiaoran Chai

    (Bureau of Qinghai Environmental Geological Prospecting, Xi’ning 810007, China
    Key Laboratory of Geo-Environment of Qinghai Province, Xi’ning 810007, China
    Qinghai 906 Engineering Survey and Design Institute Co., Ltd., Xi’ning 810007, China)

  • Liwei Wang

    (Faculty of Geosciences and Environmental Engineering, Southwest Jiaotong University, Chengdu 611756, China)

  • Wanping Wang

    (Bureau of Qinghai Environmental Geological Prospecting, Xi’ning 810007, China
    Key Laboratory of Geo-Environment of Qinghai Province, Xi’ning 810007, China
    Qinghai 906 Engineering Survey and Design Institute Co., Ltd., Xi’ning 810007, China)

  • Fatemeh Barzegari Banadkooki

    (Faculty of Engineering, Payam Noor University, Tehran P.O. Box 76169-14111, Iran)

  • Venkatramanan Senapthi

    (Department of Disaster Management, Alagappa University, Karaikudi 630002, India)

  • Yong Xiao

    (Faculty of Geosciences and Environmental Engineering, Southwest Jiaotong University, Chengdu 611756, China)

Abstract

Understanding groundwater geochemistry is crucial for water supply in arid regions. The present research was conducted in the arid Mo river watershed on the Tibetan plateau to gain insights into the geochemical characteristics, governing processes and quality of groundwater in arid endorheic watersheds. A total of 28 groundwater samples were collected from the phreatic and confined aquifers for hydrochemical analysis. The results showed that the groundwater was slightly alkaline in all aquifers of the watershed. The phreatic groundwater samples (PGs) and confined groundwater samples (CGs) had the TDS value in the ranges of 609.19–56,715.34 mg/L and 811.86–2509.51 mg/L, respectively. PGs were salter than CGs, especially in the lower reaches. Both the PGs and CGs were dominated by the Cl-Na type, followed by the mixed Cl-Mg·Ca type. The toxic elements of NO 2 − (0.00–0.20 mg/L for PGs and 0.00–0.60 mg/L for CGs), NH 4 + (0.00–0.02 mg/L for PGs and 0.00–0.02 mg/L for CGs) and F − (0.00–4.00 mg/L for PGs and 1.00–1.60 mg/L for CGs) exceeded the permissible limits of the Chinese guidelines at some sporadic sites. Water–rock interactions, including silicates weathering, mineral dissolution (halite and sulfates) and ion exchange, were the main contributions to the groundwater chemistry of all aquifers. The geochemistry of PGs in the lower reach was also greatly influenced by evaporation. Agricultural sulfate fertilizer input was responsible for the nitrogen pollutants and salinity of PGs. All CGs and 73.91% of PGs were within the Entropy-weighted water quality index (EWQI) of below 100 and were suitable for direct drinking purposes. Precisely 8.70 and 17.39% of PGs were within the EWQI value in the range of 100–150 (medium quality and suitable for domestic usage) and beyond 200 (extremely poor quality and not suitable for domestic usage), respectively. The electrical conductivity, sodium adsorption ratio, sodium percentage and permeability index indicated that groundwater in most parts of the watershed was suitable for irrigation, and only a small portion might cause salinity, sodium or permeability hazards. Groundwater with poor quality was mainly distributed in the lower reaches. CGs and PGs in the middle-upper reaches could be considered as the primary water resources for water supply. Agricultural pollution should be paid more attention to safeguard the quality of groundwater.

Suggested Citation

  • Fenglin Wang & Hongjie Yang & Yuqing Zhang & Shengbin Wang & Kui Liu & Zexue Qi & Xiaoran Chai & Liwei Wang & Wanping Wang & Fatemeh Barzegari Banadkooki & Venkatramanan Senapthi & Yong Xiao, 2022. "Solute Geochemistry and Water Quality Assessment of Groundwater in an Arid Endorheic Watershed on Tibetan Plateau," Sustainability, MDPI, vol. 14(23), pages 1-22, November.
  • Handle: RePEc:gam:jsusta:v:14:y:2022:i:23:p:15593-:d:981847
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    References listed on IDEAS

    as
    1. Xiaomin Gu & Yong Xiao & Shiyang Yin & Honglu Liu & Baohui Men & Zhongyong Hao & Peng Qian & Huijun Yan & Qichen Hao & Yong Niu & Hui Huang & Qiuming Pei, 2019. "Impact of Long-Term Reclaimed Water Irrigation on the Distribution of Potentially Toxic Elements in Soil: An In-Situ Experiment Study in the North China Plain," IJERPH, MDPI, vol. 16(4), pages 1-12, February.
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