Delineation of the Seawater-Freshwater Interface from the Coastal Alluvium of Kalekoy-Gokceada, NW Turkey

Ekinci, Yunus Levent; Demirci, Alper; Ertekin, Can

doi:10.3923/jas.2008.1977.1981

Cited by 5 publications

(2 citation statements)

References 1 publication

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“…In response to the need for a better understanding of the source of this important natural resource, the field of hydro-geophysics has emerged as a science that investigate a diverse number of hydrological processes employing geophysical techniques. Today, there is an extensive list of references about the applicability of these techniques to the study of groundwater; as examples, we can refer to the work of Williams et al, 2 Haeni, 3 Annan, 4 Steeples, 5 Ekinci et al 6 and Robinson et al 7 Nevertheless, among all the existing geophysical techniques, the electric and electromagnetic are more widely applied for this kind of research. 8 As examples we can mention the works of Sandberg et al, 9 Louis et al, 10,11 Giudici et al, 12 Braga et al, 13 Robineau et al, 14 and Yeh et al 15 For the electrical prospection, the time-lapse analysis of electrical resistivity tomography (ERT) has been often used in studies related to the monitoring of groundwater at different seasons.…”

Section: Introductionmentioning

confidence: 99%

Study of Seasonal Rainfall Infiltration via Time-Lapse Surface Electrical Resistivity Tomography: Case Study of Gamboa Area, Panama Canal Watershed

Díaz

Mojica²,

Ogden

et al. 2013

Air, Soil and Water Research

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Air, Soil and Water Research sources provide drinking water to their population. Use of these sources depends on the rainy season, which starts the recharge process. The Panama Canal is one of the most important maritime routes at a global level. The Canal allows for a rapid communication between the Atlantic and Pacific oceans, making a more dynamic commercial and economic exchange among world nations. Due to this, the understanding and conservation of water resources in the Panama Canal Watershed has become one of the most important priorities regarding their operation, without excluding the water

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Section: Introductionmentioning

confidence: 99%

Study of Seasonal Rainfall Infiltration via Time-Lapse Surface Electrical Resistivity Tomography: Case Study of Gamboa Area, Panama Canal Watershed

Díaz

Mojica²,

Ogden

et al. 2013

Air, Soil and Water Research

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“…Most of these works used electrical geophysical techniques, which represent one of the oldest and cheapest geophysical techniques for investigating subsurface rocks and properties. Apart from using the method for foundation investigation, electrical resistivity methods have been used to resolve a variety of subsurface problems such as exploration and evaluation of groundwater potential and properties [9,10,11], characterization of geology and subsurface structures [12,13], soil properties investigation [14], and hydrocarbon exploration [15], just to mention a few.…”

Section: Introductionmentioning

confidence: 99%

Geophysical Assessment of Subsurface Conditions at Proposed Building Sites: Implications for Foundation Failure and Building Collapse

Ariyo

Fatoba

Bayewu

et al. 2018

GeoScience Engineering

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Building collapse has been a recurrent environmental hazard in Nigeria in the last two decades. This is a corollary of inadequate foundation investigation prior to construction, poor government policies, and general lack of awareness on the importance of geophysical and geotechnical investigations. In this study, geological mapping and detailed geophysical investigation using Electrical Resistivity Imaging (ERI) and Vertical Electrical Sounding (VES) were carried out to understand the suitability of proposed building sites at the main campus of the Olabisi Onabanjo University (OOU), Ago-Iwoye, Nigeria for construction. Both Wenner array and dipole-dipole were used for profiling and Schlumberger for sounding. Four transverses and VES were used in each of the three areas investigated. Our results show that the subsurface of the study areas is underlain by Precambrian basement rock of Nigeria. Rocks in the study area include banded gneiss, porphyroblastic gneiss, biotite-hornblende granite and quartzite schist. The sounding stations across the three areas and 2D resistivity imaging revealed three principal geoelectric layers, the topsoil, the weathered layer and the fractured/fresh basement with varied resistivity values for each layers. At the VES stations, the three geoelectric layers have resistivity values of 62 to 1182 Ωm, 3.2 to 1360Ωm and 87 to 4680 Ωm. On the 2D resistivity imaging profiles, the resistivity of the three layers varies from 2 to 1182 Ωm, 30to 1360 Ωm, and 40 to 2904 Ωm for the topsoil, the weathered basement, and fractured/fresh bedrock. Our work demonstrates that some of the proposed sites are structurally incompetent for engineering or foundation purposes. Excavation of the topsoil and reinforcement are required to sustain the proposed structures.

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A Damped Least-Squares Inversion Program for the Interpretation of Schlumberger Sounding Curves

Ekinci¹,

Demirci²

2008

J. of Applied Sciences

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Delineation of the Seawater-Freshwater Interface from the Coastal Alluvium of Kalekoy-Gokceada, NW Turkey

Cited by 5 publications

References 1 publication

Study of Seasonal Rainfall Infiltration via Time-Lapse Surface Electrical Resistivity Tomography: Case Study of Gamboa Area, Panama Canal Watershed

Study of Seasonal Rainfall Infiltration via Time-Lapse Surface Electrical Resistivity Tomography: Case Study of Gamboa Area, Panama Canal Watershed

Geophysical Assessment of Subsurface Conditions at Proposed Building Sites: Implications for Foundation Failure and Building Collapse

A Damped Least-Squares Inversion Program for the Interpretation of Schlumberger Sounding Curves

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