Geoelectrical and Hydrogeochemical Studies for Delineating Ground‐Water Contamination Due to Salt‐Water Intrusion in the Northern Part of the Nile Delta, Egypt

Ebraheem, A. M.; Senosy, Mahmoud M.; Dahab, Kamal

doi:10.1111/j.1745-6584.1997.tb00077.x

Cited by 121 publications

(47 citation statements)

References 3 publications

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“…The correlation was found in geo-electrical study on seawater intrusion (Ebraheem et al 1997;Wilson et al 2006;Sherif et al 2006;Pujari and Soni 2008). Interpretation of resistivity data is difficult, however, for salinity changes that are due to interaction between seawater intrusion and fresh groundwater and to background resistivity; the most challenging is attempting to link earth resistivity to groundwater type (fresh, brackish, or saline).…”

Section: Hydro-geochemical Parametersmentioning

confidence: 99%

“…11,12,13,14,15,16,17,18,19,20,21). Ebraheem et al (1997) and Sherif et al (2006) stated that empirical relationship between geochemistry and geophysical methods could be derived when ions dissolved in pore fluid rather than in host soil were more apparent in the electrical images. Findings of early research on use of the empirical relationship as showed by resistivityimage data could be used in this study.…”

Section: Hydro-geochemical Parametersmentioning

confidence: 99%

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Time-lapse resistivity investigation of salinity changes at an ex-promontory land: a case study of Carey Island, Selangor, Malaysia

Baharuddin

Taib

Hashim

et al. 2010

Environ Monit Assess

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Time-lapse resistivity measurements and groundwater geochemistry were used to study salinity effect on groundwater aquifer at the ex-promontory-land of Carey Island in Malaysia. Resistivity was measured by ABEM Terrameter SAS4000 and ES10-64 electrode selector. Relationship between earth resistivity and total dissolved solids (TDS) was derived, and with resistivity images, used to identify water types: fresh (ρ e > 6.5 m), brackish (3 m < ρ e < 6.5 m), or saline (ρ e < 3 m). Long-term monitoring of the studied area's groundwater quality via measurements of its time-lapse resistivity showed salinity changes in the island's groundwater aquifers not conforming to seawater-freshwater hydraulic gradient. In some aquifers far from the coast, saline water was dominant, while in some others, freshwater 30 m thick showed groundwater potential. Land transformation is believed to have changed the island's hydrogeology, which receives saltwater pressure all the time, limiting freshwater recharge to the groundwater system. The time-lapse resistivity measurements showed active salinity changes at resistivity-image bottom moving up the image for two seasons' (wet and dry) conditions. The salinity changes are believed to have been caused by incremental tide passing through highly porous material in the active-salinity-change area. The study's results were used to plan a strategy for sustainable groundwater exploration of the island.

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Section: Hydro-geochemical Parametersmentioning

confidence: 99%

Section: Hydro-geochemical Parametersmentioning

confidence: 99%

Time-lapse resistivity investigation of salinity changes at an ex-promontory land: a case study of Carey Island, Selangor, Malaysia

Baharuddin

Taib

Hashim

et al. 2010

Environ Monit Assess

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“…Various researchers are found in the literature, exploiting direct current geoelectrical methods competence in groundwater salinization investigations around the world. Examples of one dimensional soundings include: Urish and Frohlich (1990);Frohlich et al (1994); Ebraheem et al (1997); Nowroozi et al (1999);Choudhury et al (2001); Edet and Okereke (2001); Sherif et al (2006);and Adepelumi et al (2009). In all the aforementioned studies, the authors were able to successfully distinguish between freshwater and saltwater domains in various geological environments, by combining the results of numerous Vertical Electrical Soundings (VES) across coastal zones.…”

Section: Introductionmentioning

confidence: 99%

Large Scale Electrical Resistivity Tomography Survey Correlated to Hydrogeological Data for Mapping Groundwater Salinization: A Case Study from a Multilayered Coastal Aquifer in Rhodope, Northeastern Greece

et al. 2015

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A large scale two dimensional electrical resistivity survey was carried out to investigate groundwater salinization phenomena of a multilayered coastal aquifer in south Rhodope area, northeastern Greece. The electrical resistivity tomography (ERT) profiles, calibrated with lithological, physicochemical and geophysical log data, were used to demarcate the geometry of the aquifer system and characterize the extent of the interface between saline and freshwater in a coastal groundwater system, which has been subject to overexploitation for the last 35 years. In total, 12 deep high resolution ERT profile lines, covering a distance of approximately 15 km were carried out at key locations across the downgraded part of the aquifer system. The resistivity sections were calibrated using a reference dataset of 45 information wells incorporating 28 lithological logs, 31 groundwater quality samples from a variety of screen placements and five gamma ray logs. Results revealed the presence of four major resistivity zones ranging in values between 0.1 and 150 Ωm at various depths and locations. A very low resistivity zone (0.1-5 Ωm) correlated with saline water saturated layers, a medium resistivity zone (5-15 Ωm) attributed to clays and silts, and two high resistivity zones generally representing freshwater saturated sediments of coarse grain size (15-40 Ωm) or alterations of thin marl and fine sand layers (40-150 Ωm). It is demonstrated that extensive use of high resolution deep geoelectrical sections, calibrated with a large number of hydrogeological data can successfully delineate aquifer geometry dimensions, identify hydraulic boundaries and clarify ambiguous field measurements, thus allowing the development of a thorough hydrogeological conceptual model.

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“…The direct current (DC) resistivity method for conducting a VES is effectively used for groundwater study due to the simplicity of the technique, easy interpretation and the rugged nature of the associated instrumentation. The technique is widely used in soft and hard rock areas and previous study using this technique includes (Ebraheem et al, 1997;Frohlich et al, 1994;Olorunfemi et al, 1999;Adelusi and Balogun, 2001;Omosuyi et al, 2003;Oladapo et al, 2004) The present study is to determine the geoelectric and Dar-Zarrouk parameters in evaluating the groundwater potential and aquifers risk to surface infiltrations.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of groundwater potential and aquifer protective capacity assessment at Tutugbua-Olugboyega area, off Ondo road, Akure Southwestern Nigeria

Ayuk¹,

Adelusi²,

Adiat³

2013

Int. J. Phys. Sci.

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A total of thirty-two (32) vertical electrical sounding (VES) data were acquired using R 50 d.c. Resistivity meter within the Precambrian basement geology of part of Akure metropolis southwestern Nigeria. The VES data were interpreted; eight type curves were identified, from the geoelectric section the subsurface was characterized into four lithologies namely topsoil, weathered layer (clay /lateritic clay), weathered / fractured basement and bedrock. Thus, two major aquifers were mapped these are weathered/partially weathered layer and weathered basement/fractured basement aquifers. These aquifers are characterized by thick overburden, found within basement depressions and exhibit moderate to relatively high values of coefficient of anisotropy, λ, (0.97-1.11) with depth. Also, ancient river channel trending approximately NE-SW was mapped. The assessment of the materials above the aquifers showed that longitudinal conductance (S), values ranged from 0.0035 to 0.17 mhos; thus the S values are generally low suggesting that the materials above the aquifers are loose and porous thus having less capacity to protect aquifers in the study area. Thus the aquifers are poorly protected, and by implication vulnerable to infiltration.

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Geoelectrical and Hydrogeochemical Studies for Delineating Ground‐Water Contamination Due to Salt‐Water Intrusion in the Northern Part of the Nile Delta, Egypt

Cited by 121 publications

References 3 publications

Time-lapse resistivity investigation of salinity changes at an ex-promontory land: a case study of Carey Island, Selangor, Malaysia

Time-lapse resistivity investigation of salinity changes at an ex-promontory land: a case study of Carey Island, Selangor, Malaysia

Large Scale Electrical Resistivity Tomography Survey Correlated to Hydrogeological Data for Mapping Groundwater Salinization: A Case Study from a Multilayered Coastal Aquifer in Rhodope, Northeastern Greece

Evaluation of groundwater potential and aquifer protective capacity assessment at Tutugbua-Olugboyega area, off Ondo road, Akure Southwestern Nigeria

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