Your search keyword '"Nazih, Mohamed"' showing total 2 results

1. Geophysical studies to delineate groundwater aquifer in arid regions: A case study, Gara Oasis, Egypt.

Author

NAZIH, Mohamed, GOBASHY, Mohamed, ARAFFA, Sultan, SOLIMAN, Khaled Soliman, and ABDELHALIM, Ahmed

Subjects

*ARID regions, *AQUIFERS, *MAGNETIC pole, *MAGNETIC separators, *GEOPHYSICAL surveys, *ELECTRICAL resistivity, *MAGNETOTELLURICS, *AQUIFER pollution, *GROUNDWATER

Abstract

Groundwater is an important factor in establishing new urban communities, especially in coastal arid and semi-arid regions. Egypt is one of the world's driest countries, with hyper-arid territory accounting for 86% of the total area and arid and semi-arid terrain accounting for the rest. The present work aims to demonstrate the powerful integration of geophysical techniques to assess groundwater potentiality and suitability in Gara Oasis (GO), which describes a good example of Egypt's strategic southern extension of its arid north-western coast. Geophysical methods, including electrical resistivity and aeromagnetics, were used to evaluate groundwater resources. The study region reduced to pole total magnetic intensity map is subjected to digital filters that include derivatives, analytic signal, and tilt angle. The possible structures controlling the shallow and deep aquifers are delineated and integrated with geoelectric results. Moreover, two magnetic tomography sections are constructed to show the subsurface distribution of magnetic susceptibilities and formation boundaries. Ten vertical electric soundings (VESs) are measured and used in this study to construct four geoelectrical cross-sections. According to the results, Gara's commonly calculated subsurface resistivity model comprises six major resistivity layers. The 5th layer, in particular, is composed of Fractured dolomitic Limestone and represents a possible promising shallow aquifer. Moreover, as evidenced by various magnetic data filters, the shallow (Miocene carbonate) and deep (Nubian sandstone) aquifers are structurally controlled and regulated by a system of faults or contacts. These contacts trends NW-SE, E-W, and NE-SW as common trends emerged from the total derivative and tilt maps. Results suggest that the central part (N-S zone) together with the western side of Gara, have the most notable aquifer possibility demanded future improvement strategies. [ABSTRACT FROM AUTHOR]

Published

2022

2. Hydrogeochemical and geophysical investigations to delineate underground water aquifer in arid regions: A case study, Gara oasis, Egypt.

Author

NAZIH, Mohamed, GOBASHY, Mohamed Mostafa, SALEM, Zenhom, SOLIMAN, Khaled Soliman, and HASSAN, Ahmed AbdelHalim M.

Subjects

*ARID regions, *GROUNDWATER, *AQUIFERS, *WATER-rock interaction, *GROUNDWATER quality, *HYDROGEOLOGY, *GEOPHYSICAL surveys, *AQUIFER pollution

Abstract

The goal of the present study is to investigate, delineate, and evaluate the shallow Miocene groundwater aquifer with vertical and lateral facies variations in the Gara oasis, western desert of Egypt. This oasis represents a typical arid region in North Africa. Through grid texture analysis, lineament detection, edge detection, thresholding, and identifying areas of structural complexity from the filtered residual reduced-to-pole magnetic anomaly map, it is possible to outline the fracture zones that principally control the groundwater aquifers and water flow in the area. The groundwater quality and quantity are examined hydro-geochemically through nine groundwater samples that were gathered from wells and springs distributed throughout the area around Gara Lake. Measurements of physio-chemical parameters (TDS, pH, and EC) are carried out and its spatial distribution is critically studied. The results reveal that the ion-exchange process caused by water-rock interaction is the dominant process. Furthermore, the main ions in the groundwater in the study areas were Na and Cl. This might be due to evaporation or halite dissolution with the upward flow of waters through the fractures from the deep aquifer of the Nubian sandstone to the shallow aquifer of the fractured Miocene limestone. [ABSTRACT FROM AUTHOR]

Published

2022