Estimation of the sediment thickness beneath the Southern Benue Trough in Nigeria by using gravity and borehole data

IF 0.7 4区 地球科学 Q4 GEOSCIENCES, MULTIDISCIPLINARY
O. I. Apeh, R. Tenzer, L. Pham, Z. H. Ozuah
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Abstract

Mapping the sediment-basement morphology represents a crucial part of the geophysical exploration of oil, gas, and mineral resources. In this study, authors estimated the sediment thickness in the area covering the Southern Benue Trough in Nigeria and parts of the Cameroon Volcanic Line using a high-resolution tailored gravity model together with sediment and bedrock samples taken from 113 logged boreholes. A 3-D inversion of the residual gravity data is done by applying a recently developed time-efficient gravity inversion software to determine a 3-D depth structure of the basement relief after regional-residual gravity separation. The estimated depths of the sediment-basement based on a 3-D gravity data inversion are compared with the measured sediment thickness data from drilling profiles to optimally select the gravity inversion parameters, particularly the mean sediment depth, and density contrast. Our numerical result indicates that the sediment thickness within the Southern Benue Trough study area and parts of the Cameroon Volcanic Line vary from 0.8 to 5.5 km, with a prevailing southwest trend of increasing sediment thickness while decreasing eastward. This trend closely mimics the known geological structure of the study area and generally agrees with localized estimates of the sediment thickness from previous studies. Moreover, the Bouguer gravity map of the study area exhibits a spatial pattern that indicates an existence of a high-density material, which could have led to the shallowing of sediments over and along the Abakaliki Anticlinorium. Based on these findings, the authors argued that these magmatic structures could influence hydrothermal fluid migration and might have entrapped enough sediments suitable for the maturation of mineral resources over time.
利用重力和钻孔资料估算尼日利亚南贝努埃海槽下沉积物厚度
绘制沉积物基底形态图是石油、天然气和矿产资源地球物理勘探的重要组成部分。在这项研究中,作者使用高分辨率定制重力模型以及从113个测井钻孔中采集的沉积物和基岩样本,估计了尼日利亚贝努埃海槽南部和喀麦隆火山线部分地区的沉积物厚度。应用最近开发的时效重力反演软件对残余重力数据进行三维反演,以确定区域残余重力分离后基底起伏的三维深度结构。将基于三维重力数据反演的沉积物基底的估计深度与钻孔剖面中测得的沉积物厚度数据进行比较,以最佳地选择重力反演参数,特别是平均沉积物深度和密度对比度。我们的数值结果表明,贝努埃海槽南部研究区和喀麦隆火山线部分地区的沉积物厚度在0.8至5.5km之间,主要呈西南方向沉积物厚度增加而向东减少的趋势。这一趋势与研究区域的已知地质结构非常相似,通常与之前研究中对沉积物厚度的局部估计一致。此外,研究区域的布格重力图显示了一种空间模式,表明存在高密度物质,这可能导致阿巴卡利基背斜上方和沿线的沉积物变浅。基于这些发现,作者认为,这些岩浆结构可能会影响热液的迁移,并可能捕获了足够的沉积物,适合随着时间的推移使矿产资源成熟。
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来源期刊
Earth Sciences Research Journal
Earth Sciences Research Journal 地学-地球科学综合
CiteScore
1.50
自引率
0.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: ESRJ publishes the results from technical and scientific research on various disciplines of Earth Sciences and its interactions with several engineering applications. Works will only be considered if not previously published anywhere else. Manuscripts must contain information derived from scientific research projects or technical developments. The ideas expressed by publishing in ESRJ are the sole responsibility of the authors. We gladly consider manuscripts in the following subject areas: -Geophysics: Seismology, Seismic Prospecting, Gravimetric, Magnetic and Electrical methods. -Geology: Volcanology, Tectonics, Neotectonics, Geomorphology, Geochemistry, Geothermal Energy, ---Glaciology, Ore Geology, Environmental Geology, Geological Hazards. -Geodesy: Geodynamics, GPS measurements applied to geological and geophysical problems. -Basic Sciences and Computer Science applied to Geology and Geophysics. -Meteorology and Atmospheric Sciences. -Oceanography. -Planetary Sciences. -Engineering: Earthquake Engineering and Seismology Engineering, Geological Engineering, Geotechnics.
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