Contribution of geophysical methods in characterizing the structure of El Fahs plain: Hydrogeological implications

Contribution of geophysical methods in characterizing the structure of El Fahs plain: Hydrogeological implications

The El Fahs plain aquifer belongs to Tunisian Northern Atlas and it is particularly important due to its exploitation, well yields and the water's chemical quality. In recent years, the increasing exploitation is becoming unsustainable and this warrants studies and policies to better manage the...

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Bibliographic Details
Published in:Journal of African earth sciences (1994) Vol. 172; p. 103984
Main Authors: Hachani, Fatma, Balti, Hadhémi, Montassar, Maroua, Kadri, Ali, Chkirbene, Anis, Mlayah, Ammar, Gasmi, Mohamed
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-12-2020
Subjects:
El fahs plain
Gravity method
Hydrogeology
NE Tunisia
VES
Gravity method
El fahs plain
Hydrogeology
NE Tunisia
VES
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Summary:The El Fahs plain aquifer belongs to Tunisian Northern Atlas and it is particularly important due to its exploitation, well yields and the water's chemical quality. In recent years, the increasing exploitation is becoming unsustainable and this warrants studies and policies to better manage the groundwater resources in the El Fahs plain. Therefore, it is crucial to understand the subsurface structure and to determine the zones that are favourable for the exploitation of potential units. For these purposes, a geophysical study by gravity and electrical resistivity methods has been conducted. The gravity method consisted in 1365 gravity data points collected from uniformly-distributed stations. The Bouguer anomaly map of El Fahs plain and its surrounding areas provided information about the subsurface density variation and showed positive anomalies indicating raised zones and negative anomalies characterizing the depression zones. Quantitative treatment applied to Bouguer anomaly map highlighted new deep structures with details on their depths (up to 2800 m) and dips. These results demonstrate that the plain corresponds to a collapsed area limited by three fault systems E-W, NW-SE and N–S. Some of these faults are conform to the existing ones. However, a new N–S fault system is highlighted, which produced a new structural map. A study by vertical electrical sounding (VES) survey was conducted in order to provide details on El Fahs plain. It consisted of 114 Schlumberger VES with lengths of current line AB ranging from 400 to 600 m. Interpretation results of the VES shows that El Fahs plain is covered by a very heterogeneous and thick Quaternary filling deposits (48 m by place). The Mio-Pliocene deposits have a thickness that occasionally exceeds 190 m, and it is composed of conductive (<15 Ω m) and resistant (>16 Ω m) units. The underlying Upper Cretaceous is composed of conductive (<17 Ω m) and resistant (>20 Ω m) units. From a hydrogeology point of view, the gravity results show that the groundwater flow is strongly influenced by the basin morphostructure and the existing faults in the area. Furthermore, the VES results reveal that three normal faults are responsible for collapsing the central part of the plain and favouring groundwater flow in this direction. •We use VES and gravity to understand the substructure in shallow and deep aspects.•El Fahs plain corresponds to a collapsed area limited by three fault systems.•Gravity showed that the fault depth affected the study area can reach 2800 m.•VES characterised the lithological series on shallower depth (200 m).•Data compilation allowed to delineate four potential areas for water exploitation.
ISSN:1464-343X
1879-1956
DOI:10.1016/j.jafrearsci.2020.103984