Abstract
Abstract The Southern Granulite Terrain (SGT) is a large tract of exposed Archean continental crust, divided into the Madurai Block (MB), Trivandrum Block (TB), and Nagercoil Block (NB). These crustal domains are linked with the NW-SE trending Achankovil Shear Zone (AKSZ). We combine gravity and magnetic data with previously published ground observations and geochronological data to re-evaluate the crustal architecture, evolution of the AKSZ, and possible extension of AKSZ into Madagascar. Analyses indicate that the long wavelength trends of the magnetic anomalies originate at ~20 km depth of different SGT blocks. These observations are corroborated with the gravity as well as computed gravity gradient anomalies. The presence of khondalite outcrops in Trivandrum Block implies that high magnetization crust is the main source of positive magnetic anomalies. Such magnetic anomalies advocate that SGT preserves the remanent of Archean crustal blocks in South India, a part due to variation in thermal and geochemical processes. The AKSZ, TB, and MB exhibit contrasting magnetic crustal signatures. The joint modeling results reveal a three-layered crustal configuration with varying Moho ranging from 41 to 34 km in NE to SW, respectively. It is also noted that AKSZ is a narrow and deep structure near to the Western Ghats Escarpment while it is wide and shallow in the far-east, which implies that the evolution of the Western Ghats is a late geological event.
Highlights
The crustal structures of shear zones in the southern part of India have attracted wide attention owing to their vital role in reconstructing the Precambrian evolution of Southern Granulite Terrain (SGT)
In order to establish the crustal structure of Achankovil Shear Zone (AKSZ) and its adjacent blocks, five profiles, viz., P1-P1′, P2-P2′, P3-P3′, P4-P4′, and P5-P5′, are considered and the locations of these five profiles aligned in the NE-SW direction are shown in Figures 1 and 2, respectively
We developed a multiprofile density-susceptibility model from compiling the information using gravity and magnetic data sets to draw a conclusion regarding the evolution and tectonics of AKSZ and its surrounding blocks of the Madurai Block (MB) and the Trivandrum Block (TB)
Summary
The crustal structures of shear zones in the southern part of India have attracted wide attention owing to their vital role in reconstructing the Precambrian evolution of Southern Granulite Terrain (SGT). The key to unraveling the evolution of South India, and its role in the amalgamation of Gondwana supercontinent, lies in the exposed lower crustal section of the SGT which is associated with several shear and suture zones [2,3,4,5]. It is believed that the final amalgamation of Gondwanaland took place during the Pan-African, and Madagascar is placed against India in the Gondwana assembly. Such assemblage discrepancies in the SGT and their connection to Madagascar for the Gondwana reconstruction is of immense interest as the crustal architecture are still debated in terms of physical parameters (density and magnetization) and geological history
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