New Seismic Imaging of the Crustal Structure beneath the Eastern Sichuan and Wuling Mountains, South China: Insights into the Formation of Fold-and-Thrust Belts

IF 2.6 3区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
Wenwen Zhang, Yongqian Zhang, Qingtian Lü, Yutao Shi, Yao Xu, Jiayong Yan
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引用次数: 0

Abstract

Abstract Intracontinental deformation is out of the theory of conventional plate tectonics. It is widely recognized with deformation within the continental interior instead of the plate margin, yet its formation mechanism has long been controversial. The eastern Sichuan–Wuling mountains (ESWM) area is located ∼1300 km away from the subduction plate boundary and had developed intracontinental deformations, including crustal shortening and fold-and-thrust (FAT) tectonics, making it an ideal place to understand the mechanism of intracontinental deformation. In this study, we obtain a new seismic image of the 3D crustal structure of the ESWM area using the continuous ambient noise data of 67 broadband seismic stations. We invert the Rayleigh-wave dispersions of 5–30 s derived from cross-correlating the Z-component of all station pairs and obtain the fine crustal VS model. Our new seismic image reveals distinct velocity characteristics between the thin-skinned chevron anticline FAT tectonics in the eastern Sichuan basin and the thick-skinned chevron syncline FAT tectonics in the Wuling mountains area. Specifically, a low-VS layer observed beneath the Wuling mountains area, together with the crystalline basement beneath the eastern Sichuan basin, marks the ductile décollements confining the folding and thrusting deformation. Based on our new VS model and some previous studies, we propose a geodynamic model, which is associated with the far-field effect of the westward paleo-Pacific subduction during the late Mesozoic. Our model meets all the structural investigations at surface and geophysical observations at depth, and is reliable and valuable for further studies on similar intracontinental deformation in other regions.
川东武陵山地壳结构的新地震成像:对褶皱冲断带形成的认识
陆内变形是传统板块构造理论之外的现象。它被广泛认为是大陆内部的变形而不是板块边缘的变形,但其形成机制长期以来一直存在争议。川东武陵山(ESWM)地区距离俯冲板块边界约1300 km,大陆内变形发育,包括地壳缩短构造和褶皱逆冲构造,是研究大陆内变形机制的理想场所。本文利用67个宽带地震台站的连续环境噪声数据,获得了ESWM地区三维地壳结构的新地震图像。通过对各台站对的z分量进行交叉相关,反演了5 ~ 30 s的瑞利波频散,得到了精细的地壳VS模型。新的地震图像揭示了川东薄皮chevron背斜FAT构造与武陵山区厚皮chevron向斜FAT构造之间明显的速度特征。武陵山下的低vs层与川东盆地下的结晶基底共同标志着限制褶皱和逆冲变形的韧性质结元。在此基础上,我们提出了一个与晚中生代西向古太平洋俯冲远场效应有关的地球动力学模型。我们的模型满足所有地表构造调查和深部地球物理观测,对其他地区类似陆内变形的进一步研究具有可靠和价值。
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来源期刊
Seismological Research Letters
Seismological Research Letters 地学-地球化学与地球物理
CiteScore
6.60
自引率
12.10%
发文量
239
审稿时长
3 months
期刊介绍: Information not localized
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