Long-term hydrochemical monitoring and geothermometry: understanding groundwater salinization and thermal fluid contamination in Mila’s basin, Northeastern Algeria

IF 1.4 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS Acta Geochimica Pub Date : 2023-12-15 DOI:10.1007/s11631-023-00662-2
Yasmina Bouroubi-Ouadfel, Adnane Souffi Moulla, Abdelkader Khiari
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Abstract

The regular hydrochemical monitoring of groundwater in the Mila basin over an extended period has provided valuable insights into the origin of dissolved salts and the hydrogeochemical processes controlling water salinization. The data reveals that the shallow Karst aquifer shows an increase in TDS of 162 mg L−1 while the thermal carbonate aquifer that is also used for drinking water supply exhibits an increase of 178 mg L−1. Additionally, significant temperature variations are recorded at the surface in the shallow aquifers and the waters are carbogaseous. Analysis of dissolved major and minor elements has identified several processes influencing the chemical composition namely: dissolution of evaporitic minerals, reduction of sulphates, congruent and incongruent carbonates’ dissolution, dedolomitization and silicates’ weathering. The hydrogeochemical and geothermometric results show a mixing of saline thermal water with recharge water of meteoric origin. Two main geothermal fields have been identified, a partially evolved water reservoir and a water reservoir whose fluid interacts with sulphuric acid (H2S) of magmatic origin. These hot waters that are characterized by a strong hydrothermal alteration do ascend through faults and fractures and contribute to the contamination of shallower aquifers. Understanding the geothermometry and the hydrogeochemistry of waters is crucial for managing and protecting the quality of groundwater resources in the Mila basin, in order to ensure sustainable water supply for the region. A conceptual model for groundwater circulation and mineralization acquisition has been established to further enhance understanding in this regard.

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长期水化学监测和地温测量:了解阿尔及利亚东北部米拉盆地的地下水盐碱化和热流体污染情况
对米拉盆地地下水进行的长期定期水化学监测为了解溶解盐的来源和控制水盐化的水文地质化学过程提供了宝贵的信息。数据显示,浅层喀斯特含水层的 TDS 增加了 162 毫克/升,而同样用于饮用水供应的热碳酸盐含水层则增加了 178 毫克/升。此外,浅含水层的地表温度变化很大,水体呈碳气态。对溶解的主要元素和次要元素的分析确定了影响化学成分的几个过程,即:蒸发矿物质的溶解、硫酸盐的还原、同碳酸盐和不同碳酸盐的溶解、脱硅和硅酸盐的风化。水文地球化学和地热测量结果表明,咸水热能水与陨石补给水混合在一起。已经确定了两个主要的地热田,一个是部分进化的储水层,另一个是流体与岩浆源硫酸(H2S)相互作用的储水层。这些具有强烈热液蚀变特征的热水确实通过断层和裂缝上升,并对较浅的含水层造成污染。为了确保该地区的可持续供水,了解水的地热测量和水文地球化学对于管理和保护米拉盆地的地下水资源质量至关重要。已经建立了一个地下水循环和矿化获取概念模型,以进一步加深对这方面的了解。
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来源期刊
Acta Geochimica
Acta Geochimica GEOCHEMISTRY & GEOPHYSICS-
CiteScore
2.80
自引率
6.20%
发文量
1134
期刊介绍: Acta Geochimica serves as the international forum for essential research on geochemistry, the science that uses the tools and principles of chemistry to explain the mechanisms behind major geological systems such as the Earth‘s crust, its oceans and the entire Solar System, as well as a number of processes including mantle convection, the formation of planets and the origins of granite and basalt. The journal focuses on, but is not limited to the following aspects: • Cosmochemistry • Mantle Geochemistry • Ore-deposit Geochemistry • Organic Geochemistry • Environmental Geochemistry • Computational Geochemistry • Isotope Geochemistry • NanoGeochemistry All research articles published in this journal have undergone rigorous peer review. In addition to original research articles, Acta Geochimica publishes reviews and short communications, aiming to rapidly disseminate the research results of timely interest, and comprehensive reviews of emerging topics in all the areas of geochemistry.
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