Isotopic and hydrogeochemical characterization of groundwater and surface water from a mine site in Tanzania

IF 1.5 Q4 WATER RESOURCES

H2Open Journal Pub Date : 2021-12-04 DOI:10.2166/h2oj.2021.119

Musiba Masamba Musiba, M. Rwiza

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引用次数: 1

Abstract

This study used the hydrochemical properties of water to reveal the causes of water quality degradation. The results showed that most samples located downstream of the mine tailings dam were slightly acidic with pH as low as 4.6. Samples with high levels of Na+, Cl−, and could not be isotopically linked to the local geochemistry, but the anthropogenic activities and evaporation were probably responsible for the observed water chemistry. The Piper diagram indicated cations were dominate by Ca and Mg, while anions were dominated by bicarbonates and sulphates. Pb and Hg levels (mean 70.29 and 17.95 μg/L, respectively) were all higher than the World Health Organization (WHO) and Tanzanian drinking water guidelines. Mining activities probably contributed to the observed low pH values and elevated concentration of cyanides, heavy metals, and metalloids. Stable isotope results indicated a vulnerability of the water to recent contamination that could be attributed to anthropogenic activities. Moreover, isotopic studies indicated a flow pattern from the eastern to the western side of the mine study site. Lowland samples were more 3H-enriched than highland ones. The present study concludes that groundwater recharge from recent local precipitation may have an impact on the sources studied.

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坦桑尼亚矿场地下水和地表水的同位素和水文地球化学特征

本研究利用水的水化学性质揭示了水质退化的原因。结果表明，位于尾矿坝下游的大多数样品呈微酸性，pH值低至4.6。Na+、Cl−含量高的样品在同位素上与当地地球化学没有联系，但人类活动和蒸发可能是观测到的水化学的原因。Piper图显示阳离子以Ca和Mg为主，而阴离子以碳酸氢盐和硫酸盐为主。Pb和Hg水平（平均值分别为70.29和17.95μg/L）均高于世界卫生组织（世界卫生组织）和坦桑尼亚饮用水指南。采矿活动可能导致观察到的低pH值和氰化物、重金属和类金属浓度升高。稳定同位素结果表明，水易受近期污染，这可能是人为活动造成的。此外，同位素研究表明，矿井研究场地的流动模式是从东部到西部。低地样品比高地样品更富含3H。本研究的结论是，最近局部降水的地下水补给可能会对所研究的水源产生影响。

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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