Indian plate blocked by the thickened Eurasian crust in the middle of the continental collision zone of southern Tibet

Gaochun Wang , Xiaobo Tian , Yibing Li , Tao Xu , Bo Wan , Yi Chen , Shitan Nie , Xusong Yang , Sicheng Zuo , Jianli Zhang
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Abstract

The relationship of the crustal contact between the Indian and Eurasian plates is a key issue in understanding crustal thickening and the subduction of the Indian lithosphere beneath the Qinghai-Tibetan Plateau. Across the middle of the Yarlung-Zangbo Suture (YZS), we deployed an ∼450-km-long SN-trending wide-angle reflection/refraction profile to observe the P-wave velocity (vP) structure beneath the northern Himalaya and the southern plateau. Our results show that, 1. the high vP (∼7.1 ​km/s) indicates that the Indian lower crust extends no more than 50 ​km north of the YZS. 2. The lower crust beneath the southern part of the plateau features an extremely low vP (<6.7 ​± ​0.2 ​km/s). 3. Compared with the velocities of several typical crustal lithologies in different temperature regimes, the low vP in the lower crust can be explained by felsic-intermediate granulite, which has prevented the lower crust from further eclogitization. We propose that the dip angle of the Indian lithospheric slab beneath the YZS is partly controlled by the composition of the lower crust of the plateau. In the northern middle YZS, the crust of the southern plateau is too thick and blocks the northward advancement of the Indian lower crust, resulting in the subduction of the Indian lithospheric slab into the upper mantle. The lower crust in western and eastern Lhasa is dominated by a mafic composition, and it was delaminated after eclogitization before the Miocene. The void zone generated by delamination favors the flattening and underthrusting of the Indian lower crust.

在西藏南部大陆碰撞带的中部,印度板块被加厚的欧亚地壳阻挡
印度板块和欧亚板块之间的地壳接触关系是理解青藏高原下地壳增厚和印度岩石圈俯冲的关键问题。在雅鲁藏布缝合线(YZS)的中部,我们部署了一个约450公里长的SN走向广角反射/折射剖面,以观察喜马拉雅北部和南部高原下方的P波速度(vP)结构。我们的结果表明,1。高vP(~7.1​km/s)表明印度下地壳延伸不超过50​YZS以北km处。2.高原南部下方的下地壳具有极低的vP(<;6.7​±​0.2​km/s)。3.与几种典型地壳岩性在不同温度状态下的速度相比,下地壳vP低可以用长英质中麻粒岩来解释,这阻止了下地壳进一步的榴辉岩化。我们认为YZS下印度岩石圈板块的倾角在一定程度上受高原下地壳的组成控制。在YZS中北部,南部高原的地壳太厚,阻碍了印度下地壳的向北推进,导致印度岩石圈板块俯冲到上地幔中。拉萨西部和东部的下地壳以镁铁质成分为主,在中新世前榴辉岩化后分层。分层产生的空隙带有利于印度下地壳的扁平化和欠推力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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