Hydrogeomorphology and recharge mechanism of a coastal aquifer in tectonic-controlled watersheds

• Verfasst von: Yousif, Mohamed [VerfasserIn]
• Verfasst von: Geldern, Robert van [VerfasserIn]
• Verfasst von: Bubenzer, Olaf [VerfasserIn]
• Titel: Hydrogeomorphology and recharge mechanism of a coastal aquifer in tectonic-controlled watersheds
• Titelzusatz: A multi-proxy approach based on remote sensing and environmental isotopes
• Verf.angabe: Mohamed Yousif, Robert van Geldern, Olaf Bubenzer
• E-Jahr: 2024
• Jahr: August 2024
• Umfang: 19 S.
• Illustrationen: Illustrationen
• Fussnoten: Online verfügbar: 12. Juni 2024, Artikelversion: 14. Juni 2024 ; Gesehen am 16.06.2025
• Titel Quelle: Enthalten in: Groundwater for sustainable development
• Ort Quelle: Amsterdam : Elsevier, 2015
• Jahr Quelle: 2024
• Band/Heft Quelle: 26(2024) vom: Aug., Artikel-ID 101237, Seite 1-19
• ISSN Quelle: 2352-801X
• DOI: doi:10.1016/j.gsd.2024.101237
• Datenträger: Online-Ressource
• Sprache: eng
• Sach-SW: Environmental isotopes
• Sach-SW: Groundwater
• Sach-SW: Miocene aquifer
• Sach-SW: Red sea coast
• Sach-SW: Remote sensing
• K10plus-PPN: 1928258050

Abstract

Coastal aquifers worldwide can be considered an essential water source required for preservation of the coastal ecosystems. However, these aquifers are vulnerable to seawater intrusions and over-pumping due to their proximity to the sea and human activities, respectively. Therefore, the investigation of recharge mechanism has special importance in the regions of tectonic rift activities where they exhibit complex geological structures and hydrogeological characteristics. In the current research, an integrated approach of remote sensing and environmental isotopes together with field investigation and subsurface datasets (aeromagnetic, gravity and well logs) are employed to identify the nature and factors affecting groundwater recharge of the Miocene coastal aquifer along the Red Sea-Gulf of Suez western margin (continental rift basin). The research findings reveal that: (1) The coastal Miocene aquifer consists of both clastic (sandstone, sand and gravels) and carbonate rocks (limestone and dolomite) with subsurface thickness ranges between 100 and 200 m. (2) Its groundwater shows contrast salinity values (expressed by total dissolved solids, TDS) between 2755 and 10,996 mg/l, due to the variation in recharge rates and the lithologic dissimilarity of the water bearing formations. (3) The environmental isotopes indicate that the Miocene groundwater has a mixed isotopic signature between modern meteoric (rainfall) and fossil waters. (4) The isotopic data of the Miocene aquifer and the enriched Gulf of Suez verifies that no seawater intrusions are affecting this aquifer with existing hydraulic barriers (clogged/sealed faults or impermeable massive blocks). (5) The hydrogeomorphological investigations, aeromagnetic and gravity data reveal an existence of two morphotectonic depressions (water collectors) which have paleo and recent recharge opportunities for the subsurface sedimentary layers (2-4 km thick). From the applied viewpoint, these two depressions have potential prospects for future groundwater exploration, which has significant impact on food security and land reclamation.