结构评估和矿产前景：印度中部 Mahakoshal 和 Vindhyan 地区地段重力研究的启示

IF 1.3 4区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY

Journal of Earth System Science Pub Date : 2024-07-31 DOI:10.1007/s12040-024-02354-8

Afaque Karim, Upananda Low, Anurag Tripathi, Kashinath Prasad

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引用次数: 0

摘要

摘要本文分析了最近在印度中部 Mahakoshal-Vindhyan 盆地部分地区进行的地面勘测所获得的重力数据集，该勘测面积达 3500 平方公里，旨在评估重力异常和结构属性，从而确定潜在的矿产勘探区域。布格重力异常的总变化量为 41 mGal，在 ENE-WSW 轴上有一个突出的高点，划分出 Mahakoshal 褶皱带，而在 Vindhyan 盆地上主要观察到低重力异常（-48 至 -59 mgal）。各种地球物理处理技术表明文迪贤盆地没有变形。数据分析显示，在 Mahakoshal 地区存在超基性侵入体、一些与剪切带和断层带相对应的异常区，其走向呈多个方向（东-西、东-西-西、东北-西南和北-南）。这些构造特征对 Mahakoshals 和 Vindhyans 的发展产生了重大影响。基于衍生的异常图显示，在马哈科沙尔带的北部、东部和南部有三个不同的高梯度断层带。在马哈科沙尔带的东南部，划定了一个突出的剪切带低重力异常，可能是由断裂造成的。利用频谱分析、欧拉解法、维尔纳解法和分析最大值解法估算了异常源的深度。此外，对特定剖面的重力数据进行二维前向建模，有助于为研究区域的 Mahakoshal 和 Vindhyan 地区构建一个示意性演化模型。值得注意的是，本研究揭示了马哈科沙尔带东南部独特的曲线剪切基底带，为未来通过综合研究进行矿产勘探提供了潜在区域。摘要本文介绍了以 2.5 平方公里的站点密度获取的地面重力数据集的地球物理异常，该数据集覆盖了文迪扬和马哈科沙尔地区的 3500 平方公里。重力数据评估发现，在新生代马哈科沙尔褶皱带中存在高密度超基性岩以及由超基性断层控制的独特异常剪切带。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Structural evaluation and mineral prospects: Insights from gravity studies in segments of Mahakoshal and Vindhyan Regions, central India

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Structural evaluation and mineral prospects: Insights from gravity studies in segments of Mahakoshal and Vindhyan Regions, central India

Abstract

In this paper, gravity dataset acquired from a recent ground survey spanning 3500 km² in parts of Mahakoshal–Vindhyan Basin, central India, has been analysed with an aim to evaluate gravity anomalies and assess structural attributes that could identify potential areas for mineral exploration. The Bouguer gravity anomaly exhibits a total variation of 41 mGal with a prominent high in ENE–WSW axis demarcating the Mahakoshal Fold belt, whereas, a low gravity anomaly (–48 to –59 mgal) is predominantly observed over Vindhyan basin. Various geophysical processing techniques identify absence of deformations in the Vindhyan basin. The data analysis shows the presence of ultramafic intrusives, a few anomalous zones corresponding to shear and fault zones in Mahakoshal, trending in multiple directions (E–W, ENE–WSW, NE–SW, and N–S). These tectonic features significantly impacted the development of the Mahakoshals and Vindhyans. Derivative-based anomaly maps reveal three distinguished high-gradient fault zones in the north, east and south of the Mahakoshal belt. In the southeast of the Mahakoshal belt, a prominent low gravity anomaly of shear zone, probably caused by rifting, is delineated. The depths of anomaly sources are estimated using spectral analysis, Euler solutions, Werner solutions, and analytical maxima solutions. Furthermore, 2D forward modelling of gravity data along a specific profile aid in constructing a schematic evolutionary model for the Mahakoshal and Vindhyan regions in the study area. Notably, the present work reveals distinct curvilinear sheared basement zones in the southeastern Mahakoshal belt, suggesting potential zones for future mineral exploration through integrated studies.

Highlights

The paper presents the geophysical anomalies of a ground gravity dataset acquired at a station density of 2.5 km² over 3500 km² in segments of Vindhyans and Mahakoshals.
Gravity data evaluation discerns the presence of high-density ultramafic rock as well as a distinctive anomalous shear zone controlled by supracrustal faults within the Proterozoic Mahakoshal Fold belt.
Based on the geophysical characteristics and structural assessments, three potential target zones have been identified for future mineral exploration.

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来源期刊

Journal of Earth System Science Earth and Planetary Sciences-General Earth and Planetary Sciences

CiteScore

3.20

自引率

5.30%

发文量

226

期刊介绍： The Journal of Earth System Science, an International Journal, was earlier a part of the Proceedings of the Indian Academy of Sciences – Section A begun in 1934, and later split in 1978 into theme journals. This journal was published as Proceedings – Earth and Planetary Sciences since 1978, and in 2005 was renamed ‘Journal of Earth System Science’. The journal is highly inter-disciplinary and publishes scholarly research – new data, ideas, and conceptual advances – in Earth System Science. The focus is on the evolution of the Earth as a system: manuscripts describing changes of anthropogenic origin in a limited region are not considered unless they go beyond describing the changes to include an analysis of earth-system processes. The journal''s scope includes the solid earth (geosphere), the atmosphere, the hydrosphere (including cryosphere), and the biosphere; it also addresses related aspects of planetary and space sciences. Contributions pertaining to the Indian sub- continent and the surrounding Indian-Ocean region are particularly welcome. Given that a large number of manuscripts report either observations or model results for a limited domain, manuscripts intended for publication in JESS are expected to fulfill at least one of the following three criteria. The data should be of relevance and should be of statistically significant size and from a region from where such data are sparse. If the data are from a well-sampled region, the data size should be considerable and advance our knowledge of the region. A model study is carried out to explain observations reported either in the same manuscript or in the literature. The analysis, whether of data or with models, is novel and the inferences advance the current knowledge.