多软弱层对青藏高原北部柴达木盆地内部变形的影响

Huitong Yang, Wei Tan, Lei Wu, Yongshu Zhang, Bo Wang, Junyong Zhang, Xuebing Wei, Pengcheng Tang, Liguang Mao, Chuanwu Wang, Yan Chen, Jianchao Tang, Kai Huang, Ancheng Xiao, Xiubin Lin, Hanlin Chen
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摘要

柴达木盆地是青藏高原内最大的沉积盆地,新生代堆积厚度达15千米。了解它是如何在印度-欧亚大陆碰撞的远场效应下发生变形的,对于我们进一步了解高原向北生长的机制至关重要。与典型的压缩盆地(上部地壳变形集中在盆地边缘)不同,柴达木盆地的特点是整个盆地发育了许多西北至西北走向的褶皱。为什么在距离边缘 100 公里以外的柴达木盆地内部会发生地壳缩短现象,以及这些褶皱下的地下几何形态仍是未知数。在此,我们基于新获得的三维和二维地震反射数据、井眼测井和比例物理模拟模型,研究了柴达木盆地内部褶皱的几何形状、运动学和形成机制。我们首次揭示了鲁勒河地层、上小干柴沟地层和上犹沙山地层中的三个局部软弱层。它们主要由泥岩夹蒸发岩和灰岩组成,空间分布不同,可能受到主要断层和褶皱的限制。这些力学薄弱层在构造荷载作用下局部变厚或变薄,并(或)促进了剥离滑动,形成了地表观察到的许多解理褶皱。软弱层上的浅层变形在很大程度上与底层涉及的断裂和褶皱脱钩,后者大多向上终止于这些软弱层。模拟建模结果表明,吕勒河地层最下部广泛分布的去溶层很可能促进了变形向盆地内部的长距离快速传播。总之,我们的研究凸显了柴达木盆地内部新生代变形过程中多个薄弱层的重要性。
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Impact of multiple weak layers on deformation of the interior of Qaidam Basin, northern Tibetan Plateau
The Qaidam Basin is the largest sedimentary basin within the Tibetan Plateau, with up to ∼15-km-thick deposits accumulated in the Cenozoic. Understanding how it deformed in response to the far-field effects of India-Eurasia collision is critical to improving our knowledge of the mechanism underlying northward plateau growth. Unlike typical compressional basins, where upper-crustal deformation concentrates at their margins, the Qaidam Basin features the development of many NW- to WNW-striking folds across the entire basin. Why crustal shortening occurred in the interior of Qaidam Basin, ∼100 km away from the margins, together with the underground geometries beneath these folds, remains unknown. Herein, based on newly acquired three- and two-dimensional (3-D and 2-D) seismic reflection data, borehole logging, and scaled physical analog modeling, we investigated the geometries, kinematics, and formation mechanisms of the folds within the interior of Qaidam Basin. For the first time, we reveal three local weak layers in the Lulehe, Upper Xiaganchaigou, and Shangyoushashan Formations, respectively. They consist mainly of mudstone intercalated with evaporites and limestones, and they have different spatial distributions that are likely confined by major faults and folds. These mechanically weak layers became locally thickened or thinned in response to tectonic loading and/or facilitated detachment slip to form many décollement folds that were observed at the surface. The shallow deformation above the weak layers is largely decoupled from underlying basement-involved faulting and folding, which mostly terminate upward in these weak layers. Analog modeling results suggest that the lowermost and widely distributed décollement layer in the Lulehe Formation likely facilitated long-distance rapid propagation of deformation into the basin interior. In sum, our study highlights the significance of multiple weak layers during Cenozoic deformation in the Qaidam Basin interior.
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