Understanding the Deep Structure of the Essaouira Basin Using Gravity Data: Hydrogeological Inferences for a Semiarid Region in Central-Western Morocco

IF 2.4 Q2 GEOSCIENCES, MULTIDISCIPLINARY
Abdellah Khouz, Mohammed Jaffal, Jorge Trindade, Blaid Bougadir, Fatima El Bchari, Azzouz Kchikach, Mustapha El Ghorfi, Hassan Ibouh, Mourad Jadoud, Omar Kadiri, Ahmed Manar
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Abstract

The Essaouira Basin, located in central western Morocco, faces a significant threat of water shortage due to both the substantially reduced rainfall caused by climate change and the continuously increasing demand for this essential resource. Groundwater resources are being increasingly exploited to meet the needs of the population, whether for agricultural or domestic purposes. Therefore, it has become necessary to intensify investigations across the entire basin, particularly through indirect methods such as geophysical techniques, to accurately delineate the productive zones. In this context, the present study was undertaken to investigate the deep structure of this basin with the aim of comprehending the functioning of its aquifer system. This study is based on the interpretation of gravity data covering the Essaouira Basin. In addition to their qualitative analysis, these data underwent a methodological approach involving transformations to extract meaningful insights. The observed anomalies were interpreted in terms of (i) thickness variations within the slightly folded sedimentary series of the basin; (ii) Paleozoic basement topography; and (iii) the presence of salt deposits. In fact, among the negative anomalies, some coincide with evaporitic deposits that are known either from the geological outcrops or the seismic surveys carried out in the Essaouira Basin within the framework of petroleum exploration programs, while others coincide with areas of increased thickness of sedimentary sequences. The latter include synclines and basement depressions, where the accumulation of groundwater tends to occur; as a result, they constitute suitable zones for the drilling of water extraction wells. Groundwater flows observed in some existing wells are consistent with this hypothesis. The results of the contact analysis approach implemented within the framework of the study reveals the Essaouira Basin is affected by a fault network whose main direction is parallel to the Atlantic margin (i.e., NNE–SSW). This implies that the extensional tectonic phase responsible for initiating the rifting of the Central Atlantic in the Triassic era has primarily impacted the structural configuration of this basin. This study demonstrates the strong potential of the gravity method as a tool to delineate the deep structure of sedimentary basins and to identify potentially productive groundwater zones. The final results will provide important support to decision makers in sustainable groundwater management, especially in vulnerable areas.
利用重力数据了解Essaouira盆地深部结构:摩洛哥中西部半干旱区水文地质推断
Essaouira盆地位于摩洛哥中西部,由于气候变化导致降雨量大幅减少以及对这一重要资源的需求不断增加,该盆地面临着严重的水资源短缺威胁。为了满足人口的需要,无论是农业用途还是家庭用途,正在越来越多地开采地下水资源。因此,有必要加强对整个盆地的调查,特别是通过地球物理技术等间接方法,以准确地划定生产区域。在这种情况下,本研究是为了调查该盆地的深层结构,目的是了解其含水层系统的功能。本研究基于对索维拉盆地重力数据的解释。除了定性分析之外,这些数据还经历了包括转换在内的方法论方法,以提取有意义的见解。对观测到的异常进行了如下解释:(1)盆地微褶皱沉积系内的厚度变化;古生代基底地形;(三)盐矿的存在。事实上,在负异常中,有些与地质露头或在石油勘探计划框架内在索维拉盆地进行的地震调查中已知的蒸发沉积相吻合,而另一些则与沉积层序厚度增加的区域相吻合。后者包括向斜和基底洼地,在那里往往发生地下水的聚集;因此,它们构成了采水井钻井的适宜区。在一些现有井中观测到的地下水流动情况与这一假设相符。在研究框架内实施的接触分析方法的结果表明,Essaouira盆地受主要方向平行于大西洋边缘(即NNE-SSW)的断裂网络的影响。这表明,三叠纪起裂陷的中大西洋伸展构造阶段主要影响了该盆地的构造形态。这项研究证明了重力法作为描绘沉积盆地深层结构和识别潜在生产地下水带的工具的强大潜力。最终结果将为决策者提供可持续地下水管理的重要支持,特别是在脆弱地区。
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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来源期刊
Geosciences (Switzerland)
Geosciences (Switzerland) Earth and Planetary Sciences-Earth and Planetary Sciences (all)
CiteScore
5.30
自引率
7.40%
发文量
395
审稿时长
11 weeks
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