阿尔及利亚东北部热液泉的区域水化学,盖尔马、苏克阿赫拉斯、泰贝萨和肯切拉地区的案例

Q4 Earth and Planetary Sciences
Earth Pub Date : 2024-06-08 DOI:10.3390/earth5020011
Ibtissem Djaafri, Karima Seghir, Vincent Valles, L. Barbiero
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引用次数: 0

摘要

热液单元的特点是出现多个大流量热矿泉(格里夫斯泉),每个泉眼的温度和物理化学特征各不相同,取决于泉眼的出现点。不过,不同系统之间似乎也存在变异,但由于每个系统内部的变异性很大,要确定其特征并不容易。因此,由于缺乏进入深层水库的途径,热水化学组成的区域维度在文献中很少受到关注。在这项研究中,我们调查了阿尔及利亚东北部热液特征的区域性空间变化,尤其是 Guelma、Souk Ahras、Khenchela 和 Tébessa 热液系统。2018 年 12 月至 2019 年 10 月期间采集了 32 份热水样本,其中包括 5 份低温矿泉水样本。对标准理化参数、主要阴阳离子和锂进行了分析。数据经对数变换后,通过主成分分析、判别分析和无监督分类进行处理。结果表明,热水体是由化学成分具有一定局部特征的热水和受污染的冷地表水混合而成的。这些地表水还可能因地点不同而具有多种化学特征。除了每种资源的内部变化之外,这些不同热液系统之间的水质也存在差异。盖尔玛地区与所研究的其他热区差异最大,具有特定的硫酸钙化学特征。这个问题对于在任何领域合理开发这些地区的资源至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Regional Hydro-Chemistry of Hydrothermal Springs in Northeastern Algeria, Case of Guelma, Souk Ahras, Tebessa and Khenchela Regions
Hydrothermal units are characterized by the emergence of several large-flow thermo-mineral springs (griffons), each with varying temperature and physico-chemical characteristics depending on the point of emergence. It seems, however, that there is variability between the different systems, although it is not easy to characterize it because the variability within each system is high. The regional dimension of the chemical composition of thermal waters is, therefore, an aspect that has received very little attention in the literature due to the lack of access to the deep reservoir. In this study, we investigated the spatial variability, on a regional scale, in the characteristics of thermal waters in northeastern Algeria, and more specifically the hydrothermal systems of Guelma, Souk Ahras, Khenchela and Tébessa. Thirty-two hot water samples were taken between December 2018 and October 2019, including five samples of low-temperature mineral spring water. Standard physico-chemical parameters, major anions and cations and lithium were analyzed. The data were log-transformed data and processed via principal component analysis, discriminant analysis and unsupervised classification. The results show that thermal waters are the result of a mixture of hot waters, whose chemical profile has a certain local character, and contaminated by cold surface waters. These surface waters may also have several chemical profiles depending on the location. In addition to the internal variability in each resource, there are differences in water quality between these different hydrothermal systems. The Guelma region differs the most from the other thermal regions studied, with a specific calcic sulfate chemical profile. This question is essential for the rational development of these regional resources in any field whatsoever.
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Earth
Earth Earth and Planetary Sciences-Earth and Planetary Sciences (all)
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