Structurally controlled mineralization in parts of Aravalli craton, India: Constraints from gravity and magnetic data

IF 2.1 3区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
S. Bangaru Babu , A.V. Satyakumar , Ajay Vinayak Kulkarni , Parijat Kishan Vats
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引用次数: 0

Abstract

Aravalli craton of central Rajasthan comprises Mangalwar Complex and Sandmata Complex with Archean to Proterozoic basement, well known for the mineralization. Recent geological studies have also revealed that the Aravalli mountains of the Banded Gneiss Complex are composed of Paleoproterozoic granulite and amphibolite-facies. Extensive geophysical surveys comprising gravity and magnetic were conducted to assess the occurrence of potential mineral sources in the uplifted crustal blocks of the Aravalli Fold belt. The calculated Bouguer gravity anomalies trending in a NE-SW direction and three broad gravity highs (∼7–10 mGal) were observed. These gravity highs may be due to the uplifting of the basement or the presence of high-density contrast material near the subsurface. A gradient in the gravity contours at the northwestern part of the study area is due to the fault/structural contact trending along the NE-SW direction. The 2D inversion technique is used to model the gravity data perpendicular to fault/contact. The horizontal gradient reflects the distribution of structures and intrusive bodies, which will give new insight for further future mineral exploration. The spectral analysis depicts the three depth interfaces, ∼7, ∼3.1, and ∼1.1 km, representing the basement and shallow depth interfaces. Further, the subsurface ore bodies geometry was obtained through 2D modelling of gravity data incorporating the constraints from the rock sample's physical property (density). We established that the structure and lithology of the host rocks were responsible for controlling mineralization by integrating the geochemical findings with geophysical measurements. In addition, the Archean to the Proterozoic basement of the study area is undulating at a depth of ∼3–5 km.

Abstract Image

印度Aravalli克拉通部分地区的构造控制成矿作用:重力和磁性数据的限制
拉贾斯坦邦中部的Aravalli克拉通包括Mangalwar杂岩和Sandmata杂岩,具有太古宙至元古代基底,以矿化而闻名。最近的地质研究还表明,带状片麻岩杂岩的Aravalli山脉由古元古代麻粒岩和角闪岩相组成。进行了包括重力和磁力在内的广泛地球物理调查,以评估Aravalli褶皱带隆起地壳块体中潜在矿物来源的存在。观测到沿东北-西南方向的布格重力异常和三个宽重力高点(~7–10 mGal)。这些重力高点可能是由于基底抬升或地下附近存在高密度对比物质。研究区域西北部重力等值线的梯度是由于沿NE-SW方向的断层/结构接触。二维反演技术用于对垂直于断层/接触面的重力数据进行建模。水平梯度反映了构造和侵入体的分布,这将为未来进一步的矿产勘探提供新的见解。光谱分析描绘了三个深度界面,~7、~3.1和~1.1km,代表基底和浅层深度界面。此外,地下矿体的几何形状是通过重力数据的2D建模获得的,该建模结合了岩石样品物理性质(密度)的约束条件。通过将地球化学结果与地球物理测量相结合,我们确定了寄主岩石的结构和岩性是控制矿化的原因。此外,研究区域的太古宙至元古界基底在约3–5km的深度处起伏。
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来源期刊
Journal of Geodynamics
Journal of Geodynamics 地学-地球化学与地球物理
CiteScore
4.60
自引率
0.00%
发文量
21
审稿时长
6-12 weeks
期刊介绍: The Journal of Geodynamics is an international and interdisciplinary forum for the publication of results and discussions of solid earth research in geodetic, geophysical, geological and geochemical geodynamics, with special emphasis on the large scale processes involved.
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