{"title":"半干旱陆地地区(突尼斯东北部、地中海盆地)深层结构制图和水资源远景的地球物理评估","authors":"Oussama Kortas, H. Gabtni","doi":"10.1144/qjegh2022-076","DOIUrl":null,"url":null,"abstract":"In Mediterranean semi-arid regions, shallow aquifers are generally over-exploited. Several Deeper groundwater boreholes exhibit serious problems of low hydraulic yield and dry wells. The existence of a reliable information about the regional geological structure can enhance the success of deep well programs.\n Geophysics proved very useful, as a fast and efficient tool to understand the structuring of deep hydrogeology aquifers. Indeed, the identification and characterization of the deep structures of the Bir Drassen – Sidi Toumi region (Cap-Bon, Northeastern Tunisia) contribute to a better quantification of the groundwater potential for asustainable management. This province can be considered as the SW extension of the NE-SW Jebel Abderrahman atlasic anticline, one of the most prominent geological structures in Northeastern Tunisia. To identify the Miocene and Oligocene reservoirs, a geophysical study was carried out, using advanced gravity analysis, supported by boreholes, seismic and geoelectrical calibration.\n Different gravity filters were applied to reveal the Sub-basins architecture and faulting network in the region. Using the calculation of maxima of Total Horizontal Gravity Derivative and Euler's solutions distribution, a set of deep faults of different directions was divulged. Time Domain Electromagnetic mapping illustrate the influence of fault zones on the regional arrangement of sub-basins aquifers and their recharge processes.\n Finally, a 3D residual gravity inversion was carried out, to better image the tectonically controlled depocenters associated with prolific thick fluvial-deltaic reservoirs. These “Deep Aquifer Valley” can be suggested as strategic targets for deep hydrogeological exploration planning.","PeriodicalId":20937,"journal":{"name":"Quarterly Journal of Engineering Geology and Hydrogeology","volume":" ","pages":""},"PeriodicalIF":1.3000,"publicationDate":"2022-11-04","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Geophysical Assessment for Deep Structuring Mapping and Water Resources Perspectivity in semi-arid land region (Northeastern Tunisia, Mediterranean basin)\",\"authors\":\"Oussama Kortas, H. Gabtni\",\"doi\":\"10.1144/qjegh2022-076\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"In Mediterranean semi-arid regions, shallow aquifers are generally over-exploited. Several Deeper groundwater boreholes exhibit serious problems of low hydraulic yield and dry wells. The existence of a reliable information about the regional geological structure can enhance the success of deep well programs.\\n Geophysics proved very useful, as a fast and efficient tool to understand the structuring of deep hydrogeology aquifers. Indeed, the identification and characterization of the deep structures of the Bir Drassen – Sidi Toumi region (Cap-Bon, Northeastern Tunisia) contribute to a better quantification of the groundwater potential for asustainable management. This province can be considered as the SW extension of the NE-SW Jebel Abderrahman atlasic anticline, one of the most prominent geological structures in Northeastern Tunisia. To identify the Miocene and Oligocene reservoirs, a geophysical study was carried out, using advanced gravity analysis, supported by boreholes, seismic and geoelectrical calibration.\\n Different gravity filters were applied to reveal the Sub-basins architecture and faulting network in the region. Using the calculation of maxima of Total Horizontal Gravity Derivative and Euler's solutions distribution, a set of deep faults of different directions was divulged. Time Domain Electromagnetic mapping illustrate the influence of fault zones on the regional arrangement of sub-basins aquifers and their recharge processes.\\n Finally, a 3D residual gravity inversion was carried out, to better image the tectonically controlled depocenters associated with prolific thick fluvial-deltaic reservoirs. 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Geophysical Assessment for Deep Structuring Mapping and Water Resources Perspectivity in semi-arid land region (Northeastern Tunisia, Mediterranean basin)
In Mediterranean semi-arid regions, shallow aquifers are generally over-exploited. Several Deeper groundwater boreholes exhibit serious problems of low hydraulic yield and dry wells. The existence of a reliable information about the regional geological structure can enhance the success of deep well programs.
Geophysics proved very useful, as a fast and efficient tool to understand the structuring of deep hydrogeology aquifers. Indeed, the identification and characterization of the deep structures of the Bir Drassen – Sidi Toumi region (Cap-Bon, Northeastern Tunisia) contribute to a better quantification of the groundwater potential for asustainable management. This province can be considered as the SW extension of the NE-SW Jebel Abderrahman atlasic anticline, one of the most prominent geological structures in Northeastern Tunisia. To identify the Miocene and Oligocene reservoirs, a geophysical study was carried out, using advanced gravity analysis, supported by boreholes, seismic and geoelectrical calibration.
Different gravity filters were applied to reveal the Sub-basins architecture and faulting network in the region. Using the calculation of maxima of Total Horizontal Gravity Derivative and Euler's solutions distribution, a set of deep faults of different directions was divulged. Time Domain Electromagnetic mapping illustrate the influence of fault zones on the regional arrangement of sub-basins aquifers and their recharge processes.
Finally, a 3D residual gravity inversion was carried out, to better image the tectonically controlled depocenters associated with prolific thick fluvial-deltaic reservoirs. These “Deep Aquifer Valley” can be suggested as strategic targets for deep hydrogeological exploration planning.
期刊介绍:
Quarterly Journal of Engineering Geology and Hydrogeology is owned by the Geological Society of London and published by the Geological Society Publishing House.
Quarterly Journal of Engineering Geology & Hydrogeology (QJEGH) is an established peer reviewed international journal featuring papers on geology as applied to civil engineering mining practice and water resources. Papers are invited from, and about, all areas of the world on engineering geology and hydrogeology topics. This includes but is not limited to: applied geophysics, engineering geomorphology, environmental geology, hydrogeology, groundwater quality, ground source heat, contaminated land, waste management, land use planning, geotechnics, rock mechanics, geomaterials and geological hazards.
The journal publishes the prestigious Glossop and Ineson lectures, research papers, case studies, review articles, technical notes, photographic features, thematic sets, discussion papers, editorial opinion and book reviews.