Analysis of hydrochemical characteristics and genesis of water-deficient rivers in China: a case study of the Ciyao River Basin in Shanxi Province

Hui Xiao-Mei, Yuan Jin, Li Chao, Fan Xiao-jun, Z. Yuan
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引用次数: 18

Abstract

In order to explore the chemical water characteristics of water-scarce rivers in China, the Ciyao River basin in Shanxi Province was taken as a case study. Water samples of the mainstream and its tributaries were collected in the wet, normal, and dry seasons of 2021. The composition and spatial variation of the main ions in the water body were analyzed using the ion chromatography (IC) instrument. In addition, Pearson correlation analyses were used to evaluate relevant correlation between ion concentrations. The results showed that the overall surface water in the study area was weakly alkaline, and the content of total dissolved solids (TDS) varied greatly, ranging from 702 to 5091 mg/L, with an average of 2897 mg/L. The TDS showed a middle stream > downstream > upstream trend, and the hydrochemical type was Cl • SO4 • HCO3 – Ca • Na. The contents of most ions were significantly changed based on differences in sampling sites and seasons. Natural and human factors influence the chemical characteristics of the river. According to the Gibbs diagram and Piper diagram (Figure 3), the ionic composition of the water body in the basin is mainly affected by the joint action of rock weathering and evaporative crystallization. Carbonate rocks constitute the most significant rock weathering, followed by evaporative and silicate rocks. Wastewater from industrial enterprises, agricultural wastewater, and activities of people’s daily living also have some influence on rock weathering. Cation exchange is also important in forming chemical water components in the Ciyao River. The research results can provide technical references and a basis for regional water environment protection, water resources development and utilization, and watershed eco-hydrology research.
中国缺水河流水化学特征及成因分析——以山西省慈姚河流域为例
为探讨中国缺水河流的水化学特征,以山西省慈姚河流域为例进行了研究。在2021年湿季、正常季和旱季分别采集干流和支流水样。采用离子色谱法(IC)分析了水体中主要离子的组成及空间变异。此外,采用Pearson相关分析评价离子浓度之间的相关关系。结果表明:研究区地表水总体呈弱碱性,总溶解固形物(TDS)含量变化较大,范围为702 ~ 5091 mg/L,平均为2897 mg/L;TDS呈中游>下游>上游趋势,水化学类型为Cl•SO4•HCO3 - Ca•Na。由于采样地点和季节的不同,大多数离子的含量发生了显著变化。自然和人为因素影响河流的化学特征。由Gibbs图和Piper图(图3)可知,盆地水体的离子组成主要受岩石风化和蒸发结晶共同作用的影响。碳酸盐岩是风化作用最显著的岩石,其次是蒸发岩和硅酸盐岩。工业企业废水、农业废水以及人们日常生活活动对岩石风化也有一定的影响。阳离子交换在慈姚河水化学成分的形成中也起着重要作用。研究成果可为区域水环境保护、水资源开发利用和流域生态水文研究提供技术参考和依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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