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1.
Electrical resistivity method is a versatile and economical technique for groundwater prospecting in different geological settings due to wide spectrum of resistivity compared to other geophysical parameters. Exploration and exploitation of groundwater, a vital and precious resource, is a challenging task in hard rock, which exhibits inherent heterogeneity. In the present study, two-dimensional Electrical Resistivity Tomography (2D-ERT) technique using two different arrays, viz., pole–dipole and pole–pole, were deployed to look into high signal strength data in a tectonically disturbed hard rock ridge region for groundwater. Four selected sites were investigated. 2D subsurface resistivity tomography data were collected using Syscal Pro Switch-10 channel system and covered a 2 km long profile in a tough terrain. The hydrogeological interpretation based on resistivity models reveal the water horizons trap within the clayey sand and weathered/fractured quartzite formations. Aquifer resistivity lies between ~3–35 and 100–200 Ωm. The results of the resistivity models decipher potential aquifer lying between 40 and 88 m depth, nevertheless, it corroborates with the static water level measurements in the area of study. The advantage of using pole–pole in conjunction with the pole–dipole array is well appreciated and proved worth which gives clear insight of the aquifer extent, variability and their dimension from shallow to deeper strata from the hydrogeological perspective in the present geological context. 相似文献
2.
Surface geophysical investigations of landslide at the Wiri area in southeastern Korea 总被引:1,自引:1,他引:0
A geophysical survey was undertaken at Wiri area of the Andong in southeastern Korea to delineate subsurface structure and
to detect the fault zone, which affected the 1997 mountain–hill subsidence and subsequent road heaving initiated by the intense
rainfall. Electrical resistivity methods of dipole–dipole array profiling and Schlumberger array sounding and seismic methods
of refraction and reflection profiling were used to map a clay zone, which was regarded as the major factor for the landslide.
The clay zone was identified in electrical resistivity and seismic sections as having low electrical resistivity (<100 Ωm)
and low seismic velocity (<400 m/s), respectively. The clay zone detected by using geophysical methods is well correlated
with its distribution from the trench and drill-core data. The results of the electrical and seismic surveys showed that slope
subsidence was associated with the sliding of saturated clay along a fault plane trending NNW–SSE and dipping 10°–20° SW.
However, the road heaving was caused by the slope movement of the saturated clay along a sub-vertical NNE-trending fault. 相似文献
3.
《Journal of African Earth Sciences》2009,53(4-5):161-166
Integrated geophysical methods involving magnetic and dipole–dipole resistivity (DDR) were conducted across a prominent zone of weakness clearly observable in Landsat MSS and SLAR images in the Precambrian basement complex of southwestern Nigeria. Up till now, the location and existence of this megascopic structure have not been confirmed using geophysical methods. With the objective of delineating this weak zone and its structural attributes, three traverses were established at 500 m intervals across it, and geophysical measurements were made at 10 m intervals along these traverses. Qualitative interpretation of the magnetic data obtained shows a diagnostic signature of a near-vertical fault, trending along a NNE–SSW direction. Also, the quantitative interpretation of the data using the non-linear least-squares regression technique indicates that the width of the magnetic anomaly ranges from 90 to 150 m, its dip angle varies between 75° and 85°; the anomaly is concealed by a regolith of approximately 15 m thickness. Furthermore, a 2D resistivity inversion of the field resistivity data reveals a three-layer model, representing thin resistive topsoil underlain by weathered bedrock, resistive bedrock with a distinct low resistivity zone located within the bedrock. The most plausible explanation for this low resistivity zone is that it was formed by shearing activities during Late Precambrian times. Conclusively, the integrated approach employed in this research confirms the existence of the supposed Ifewara shear zone (ISZ). 相似文献
4.
James C. White David Beamish 《Proceedings of the Geologists' Association. Geologists' Association》2014
A recent airborne geophysical survey has provided high resolution estimates of the electrical resistivity of the near-surface and deeper (bedrock) formations found across Anglesey and a portion of the coastal area of North Wales. This single small survey provides new geophysical information on both the complex configuration of the Neoproterozoic and Cambrian bedrock units and the shallow near-surface geology and glacial features. 相似文献
5.
《Journal of African Earth Sciences》2011,61(5):337-345
Two geophysical techniques were integrated to map the groundwater aquifers on complex geological settings, in the crystalline basement terrain in northeast Nuba Mountains. The water flow is structurally controlled by the northwest–southeast extensional faults as one of several in-situ deformational patterns that are attributed to the collision of the Pan-African oceanic assemblage of the Nubian shield against the pre-Pan African continental crust to the west. The structural lineaments and drainage systems have been enhanced by the remote sensing technique. The geophysical techniques used are: vertical electrical soundings (VES) and electrical resistivity tomography (ERT), in addition to hydraulic conductivity measurements. These measurements were designed to overlap in order to improve the producibility of the geophysical data and to provide a better interpretation of the hydrogeological setting of the aquifer complex structure. Smooth and Block inversion schemes were attempted for the observed ERT data to study their reliability in mapping the different geometries in the complex subsurface. The VES data was conducted where ERT survey was not accessible, and inverted smoothly and merged with the ERT in the 3D resistivity grid. The hydraulic conductivity was measured for 42 water samples collected from the distributed dug wells in the study area; where extremely high saline zones were recorded and have been compared to the resistivity values in the 3D model. 相似文献
6.
Gökhan Göktürkler Çağlayan Balkaya Zülfikar Erhan Ayça Yurdakul 《Environmental Geology》2008,54(6):1283-1290
Near-surface geophysical methods are commonly used to solve a wide class of geological, engineering and environmental problems. In this study, a geoelectrical survey was performed to investigate an alluvial aquifer. The study area is located in the southwest of the Çubukluda? graben, situated in the south of ?zmir, Turkey. The geophysical studies included the electrical resistivity imaging and self-potential (SP) methods. The resistivity data were acquired along eight profiles in the northern part of the study area by a Wenner-Schlumberger electrode configuration and the data processing was achieved by a tomographic inversion technique. The SP data were collected by gradient technique along 16 profiles. Total field values were calculated for each profile by addition of the successive gradient values, then a total field SP map was obtained. The water-saturated zone in the northern part of the study area was clearly revealed by the electrical resistivity imaging and the SP survey yielded useful information on the subsurface fluid movement. 相似文献
7.
The coastal alluvial plain of Sarno River (Campania Region, southern Italy) is a very rich environment that has experienced a long history of changes due to both natural phenomena such as eustatic sea-level variations and deposition of volcanoclastic sediments, and human civilizations who populated this area since historical times. As a result, it is characterized by complex stratigraphic sequences and groundwater flow systems. The architecture of the multi-layered aquifer system in a sample area, located in a densely urbanized sector at the mouth of Sarno River, was reconstructed. Starting from the analysis of stratigraphic log data and laboratory geotechnical measurements, the lithostratigraphical-unit sequence was retrieved and a realistic three-dimensional (3D) model of the hydrogeological heterogeneity was obtained. The results of a detailed 2D electrical resistivity tomography survey were used to support the analysis of the spatial heterogeneity of the aquifer system in a sector characterized by lack of log data. The integration of hydrogeological and geophysical data allowed for the reconstruction of a 3D hydrogeophysical model of the multi-layered system, which electrically characterizes and geometrically identifies two aquifers. Finally, piezometric-level measurements validated the hydrogeological–geophysical model and showed the effectiveness of the methodology. 相似文献
8.
Hydrogeological framework and estimation of aquifer hydraulic parameters using geoelectrical data: a case study from West Iran 总被引:1,自引:0,他引:1
Abduulah Taheri Tizro Kostantanous S. Voudouris Mortaza Salehzade Hassan Mashayekhi 《Hydrogeology Journal》2010,18(4):917-929
Detailed local geological, geophysical, and hydrogeological investigations were carried out for the alluvial aquifer in the Kangavar basin, West Iran to delineate the architecture of different subsurface geological horizons using lithologs and generated vertical electrical sounding (VES) data. An attempt has also been made to estimate aquifer transmissivity from resistivity data. Forty VESs were recorded with the Schlumberger electrode configuration in the study area; 28 of these were selected for evaluation. The maximum current electrode spacing was 400–500 m. The data obtained were interpreted by computer iterative modeling with curve matching for calibration purposes. In order to ascertain the subsurface geological framework, the general distribution of resistivity responses of the geological formations was obtained and geoelectrical sections along a number of lines were prepared. Probable aquifer horizons from these sections were identified. The transmissivity of the unconfined aquifer was computed by determining the Dar-Zarrouk parameters (longitudinal unit conductance and transverse unit resistance) and were compared with the actual field transmissivity. The results showed a direct relation between aquifer transmissivity and modified transverse resistance. 相似文献
9.
Application of electrical resistivity tomography (ERT) technique to detect underground cavities in a karst area of South Korea 总被引:1,自引:1,他引:0
Mi Kyung Park Samgyu Park Myeong-Jong Yi Changryol Kim Jung-Sul Son Jung-Ho Kim Adepelumi Adekunle Abraham 《Environmental Earth Sciences》2014,71(6):2797-2806
Recently, the electrical resistivity tomography (ERT) technique has been increasingly applied to underground cavity detection filled with groundwater and/or clay. In this study, an ERT survey was conducted to examine the spatial distribution and shape of underground cavities in a karst area in Korea. Numerical ERT modeling and inversion were carried out to select appropriate field survey parameters. Two geological structures, similar to those that exist in the field survey area, were modeled: a sinkhole model and a vein-type structure. Electrode configurations using pole–pole, pole–dipole, dipole–pole, and dipole–dipole arrays were tested with the two geologic models and compared. The numerical modeling showed that the resistivity distribution of the ERT tomogram using the pole–dipole array produced the best representation of the two models. The pole–dipole and pole–pole array configurations were applied in an ERT field survey using six boreholes. The field ERT results show that cavity areas filled with clay or groundwater appeared as low-resistivity anomalies in the limestone formation. This was particularly evident in the inclined vein-type structures attributed to fracture zones, where the field data were similar to the modeling results. Therefore, the ERT technique could be effectively used for detecting underground limestone cavities under similar geological conditions as those at our study area. 相似文献
10.
This paper is based on the analysis and research on the silver-lead-zinc polymetallic ore in New Ballyhoo Banner in southern Manzhouli of Inner Mongolia.Because metal mineralization brings rock formations,the geophysical features such as low resistivity,high polarization rate and uneven distribution of magnetization,the comprehensive geophysical methods are adopted including high-precision magnetic measurement,high-power induced polarization,IP field middle gradient and controlled source audio-frequency magnetotellurics.In the survey work of multi-metal ore deposits,from surface sweeping to single point measurement,and from single point to section going deeper layer by layer,the resolution of measurement is continuously improved,and various geophysical methods support and complement each other,so explorers can successfully predict the direction,scale and volume of the metallogenic belts in conjunction with geochemical exploration,geological survey and drilling.It has provided a strong basis for completing the exploration task of predicting the reserve volume of ore bodies.The research conclusions of this exploration case have thus a high reference value in the same type of exploration work. 相似文献
11.
This paper is based on the analysis and research on the silver-lead-zinc polymetallic ore in New Ballyhoo Banner in southern Manzhouli of Inner Mongolia. Because metal mineralization brings rock formations,the geophysical features such as low resistivity, high polarization rate and uneven distribution of magnetization, the comprehensive geophysical methods are adopted including high-precision magnetic measurement, high-power induced polarization, IP field middle gradient and controlled source audio-frequency magnetotellurics. In the survey work of multi-metal ore deposits, from surface sweeping to single point measurement, and from single point to section going deeper layer by layer, the resolution of measurement is continuously improved, and various geophysical methods support and complement each other, so explorers can successfully predict the direction, scale and volume of the metallogenic belts in conjunction with geochemical exploration, geological survey and drilling. It has provided a strong basis for completing the exploration task of predicting the reserve volume of ore bodies. The research conclusions of this exploration case have thus a high reference value in the same type of exploration work. 相似文献
12.
隔水帷幕渗漏是影响软土基坑稳定性的关键问题。针对隔水帷幕渗漏检测技术,开展了数值模拟和物理模型试验,深入研究了不同采集装置类型三维电阻率法和探地雷达法对渗漏异常的反映能力及在探测剖面上表现出来的异常特征,给出了判断帷幕是否渗漏和确定渗漏点位置的解释方法。结果表明:温纳装置、偶极装置和温纳-施龙贝格装置都能有效反映渗漏点的存在;降水后帷幕未发生渗漏时,与基坑外侧软土含水层相比,内侧软土层电阻率表现为高阻异常;帷幕渗漏后基坑内侧底部软土层电阻率降低,外侧电阻率升高,并呈现漏斗状异常,两侧低阻异常与帷幕的交叉点可正确指示渗漏点位置;帷幕发生渗漏后,基于基坑外侧的探地雷达探测剖面中会出现双曲型反射波同相轴,通过其顶点可确定渗漏点的位置。研究结果证实了两种地球物理手段开展软土基坑隔水帷幕渗漏检测的可行性。 相似文献
13.
Groundwater investigation in the southern part of Gabes using resistivity sounding, southern Tunisia 总被引:2,自引:1,他引:1
Abdelkader Mhamdi Ferid Dhahri Mouez Gouasmia Nadia Inoubli Mohamed Soussi Hamed Ben Dhia 《Arabian Journal of Geosciences》2013,6(2):601-614
The groundwater hydrogeology of southern Tunisia emphasizes two main groundwater bodies so-called Zeuss-Koutine and south Gabes. These groundwater bodies yielding economically important storage of useful water present complex internal architecture and heterogeneity allowing exchange flows throughout permeable or/and fractured bodies. A geophysical survey using resistivity soundings was carried out along this area to describe in detail the field structure and the 3D extent of these groundwater bodies by the hydrogeological new data and detailed subsurface mapping based on resistivity sounding and seismic data. This survey discusses also the potentialities of some permeable layer in water storage and purposes potential favorable areas for optimum groundwater mining. 相似文献
14.
15.
滑坡属于地质灾害中的重要灾种之一,查明滑坡区的地质与地球物理特征,对分析滑坡形成机制、评价滑坡稳定性具有重要意义。鉴于此,本文将高密度电法引入三峡库区腹地万州区滑坡地质调查中,在区内四方碑滑坡、塘角1号滑坡和麻柳林滑坡进行地球物理探测工作,并结合钻孔资料对实测结果进行对比验证。实测结果表明:在地形复杂地区开展地球物理探测工作,通过数据反演与分析,可获取滑坡体地层结构及滑移面;结合相关地质资料,通过对比解译,可弥补单纯依靠钻孔信息来确定滑移面形态的不足;3个典型滑坡区地球物理实测资料揭露滑坡体和滑床地球物理电性特征表现为,由崩坡积物、第四系粉质黏土以及含水碎石块组成的滑坡体电阻率低于40 Ω·m,而由砂岩与泥岩组成的滑床电阻率高于40 Ω·m,高密度电法对基岩滑坡和土质滑坡都能获取较好的结果。 相似文献
16.
A.A. Adepelumi B.D. Ako T.R. Ajayi A.O. Olorunfemi M.O. Awoyemi D.E. Falebita 《Journal of African Earth Sciences》2008,52(4-5):161-166
Integrated geophysical methods involving magnetic and dipole–dipole resistivity (DDR) were conducted across a prominent zone of weakness clearly observable in Landsat MSS and SLAR images in the Precambrian basement complex of southwestern Nigeria. Up till now, the location and existence of this megascopic structure have not been confirmed using geophysical methods. With the objective of delineating this weak zone and its structural attributes, three traverses were established at 500 m intervals across it, and geophysical measurements were made at 10 m intervals along these traverses. Qualitative interpretation of the magnetic data obtained shows a diagnostic signature of a near-vertical fault, trending along a NNE–SSW direction. Also, the quantitative interpretation of the data using the non-linear least-squares regression technique indicates that the width of the magnetic anomaly ranges from 90 to 150 m, its dip angle varies between 75° and 85°; the anomaly is concealed by a regolith of approximately 15 m thickness. Furthermore, a 2D resistivity inversion of the field resistivity data reveals a three-layer model, representing thin resistive topsoil underlain by weathered bedrock, resistive bedrock with a distinct low resistivity zone located within the bedrock. The most plausible explanation for this low resistivity zone is that it was formed by shearing activities during Late Precambrian times. Conclusively, the integrated approach employed in this research confirms the existence of the supposed Ifewara shear zone (ISZ). 相似文献
17.
The effectiveness of inversion apparent resistivity data to determine accurately the true resistivity distribution over 2D structures has been investigated using a common inversion scheme based on smoothness-constrained nonlinear least-squares optimization with enhancing horizontal resolution (EHR) technique by numerical simulation. The theoretical model generates in RES2DMOD software at specific distance and depth using Wenner, Wenner–Schlumberger, and pole–dipole arrays were inverted. The inversion model was compared with the original 2D model in RES2DINV software. The study model includes horizontal layering, vertical resolution, and horizontal two layers with different resistivity. Also, the response to variations in data density of these arrays was investigated. The study shows the best array suitable to be used in the survey was chosen for real data acquisition at the actual site. Subsequently, the results from borehole were used to verify the results of 2D resistivity imaging method with and without EHR technique. Saturated zone (0–40 Ω-m) was found scattered at the depth of 10–20 m. The borehole is located at 63 m at 2D resistivity imaging survey which shows at depth 10–20 m is sandy silt. Highly weathered sandstone was found at 6 m depth with resistivity value of 800 Ω-m and SPT N value of 20. The bedrock was found at 27 m depth with resistivity value of 3,000 Ω-m and SPT N value of 50. The application of 2D resistivity imaging with EHR technique indicate the ability of the proposed approach in terms of density, depth, and resistivity value of anomalous and layer in a computationally and numerically efficient manner and to exhibit good performance in the data inversion. 相似文献
18.
A multi-method geophysical survey, using time-domain electromagnetic (TDEM) fields, is conducted on the north-eastern coastal aquifer of Cap Bon, Tunisia. The aim of the study is to investigate the inland extent saltwater intrusion, to estimate the fresh-saltwater transition zone, and to characterize the lithologic spatial variability of the underground layers. Moreover, the TDEM is used to determine both fluid resistivity and bulk resistivity which are required to calculate the porosity by applying the Archie’s equation. The survey of TDEM profiles is carried out along the left and right overbanks of the Lebna river from the coast until the Lebna dam. The interpretation and the analysis of these profiles allow us to better identify the flux exchanges between the river and the underlying aquifer. On the basis of the 1D and 2D longitudinal and transversal resistivity profiles as well as the existing boreholes data and groundwater quality, it seems that the freshwater-saltwater interface is moving forward inland. Furthermore, electromagnetic results combined to the Archie’s law show that the porosity values are at the ranges of 12–36 and 5–31% for the Quaternary outcropping and Pliocene formation, respectively. 相似文献
19.
本文旨在考察综合地球物理勘探方法在了解覆盖层厚度和基底深度、划分构造形态和走向等方面的有效性,在青海省团鱼山南部地区分别应用重力和可控源音频大地电磁方法开展了地质勘测。在地质解释过程中,综合工区地质资料,并按不同方法的特点进行相互约束。利用地球物理勘测结果,根据地层电性和密度属性,划分了区域的构造形态和走向,建立了团鱼山南部地区的地质构造模型。综合地球物理方法的应用,有效地降低了地球物理勘探的多解性,为精细地质解释提供了依据,为下一步开展全面物探工作和钻探布设奠定了基础。 相似文献