基于地球物理资料的天山岩石圈体积与空间分割

Pub Date : 2021-09-17 DOI:10.5800/gt-2021-12-3-0537
A. Rybin, E. Bataleva, K. Nepeina, V. E. Matyukov
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引用次数: 0

摘要

本文综合了对天山中部岩石圈深部结构的研究成果,旨在确定其地球物理模型中的主要构造元素。我们将构造和地质资料与地球物理方法和震源位置获得的深部构造资料进行了比较。根据地质学概念,天山造山带具有纵向和横向分段的特征。天山北段、中段、西南段和东段的边界为深部断裂构造。在深断层和传热传质通道中,内源过程是局部的。高速、地电和热模型将这些断层和通道视为对比对象,可称为这些过程的指标。我们对NNC、KNET、CAIIG、KRNET、SOME目录中地震震源位置的分析表明,地震事件强烈地局限于断裂带和大块体的边界。地球物理场异常之间的相关性表明了天山构造的继承程度和主要构造段的边界。为了比较不同地球物理场反映的地壳和上地幔的非均质性,我们分析了基于体积地震层析模型的地震层析剖面,并沿研究区主要构造元素剖面进行了地电和速度剖面分析。这些剖面用于识别地震波速度相对较低(即降低)的区域,并检测褶皱带的深层纵向分割。在考虑的所有深度的地震层析剖面中都发现了显示异常地震波速度的物体。纵波和横波速度差异最大的是典型的深度为0-5 km和50-65 km的区域,显示了天山最明显的北部、南部和西部区域。总的来说,天山北段的纵波和横波速度比中段和南段的速度要快。我们分析了大地电磁测深资料识别的地电非均质性分布,以确定主要构造元素的边界,这些构造元素被认为是局限于断层结构边界的电导率增加带。地震震中的分布清楚地反映了天山断裂的北段、中段和南段的分割,并相对于塔拉斯-费尔干纳断裂显示了天山的西段和东段。我们对天山地壳和上地幔的研究证实了上述构造段在深部结构上存在差异。综合分析研究结果,可以定性地识别出地壳和上地幔的速度和地电非均质性分布与地震活动性和地壳应力-应变状态之间的关系。
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VOLUMETRIC AND SPATIAL SEGMENTATION OF THE TIEN SHAN LITHOSPHERE ACCORDING TO GEOPHYSICAL DATA
This article consolidates the results of studying the deep structure of the lithosphere of the Central Tien Shan, which aimed to identify the main tectonic elements in its geophysical models. We have compared the structural and geological data with the information on the deep structure obtained by geophysical methods and from the positions of earthquake hypocenters in the study area. According to geological concepts, the Tien Shan orogenic belt is characterized by longitudinal and transverse segmentation. The boundaries of the Northern, Middle, Southern Western and Eastern segments of the Tien Shan are deep-seated fault structures. In deep faults and channels of heat and mass transfer, endogenous processes are localized. High-velocity, geoelectrical and thermal models consider such faults and channels as contrasting objects that can be referred to as indicators of these processes.Our analysis of the locations of earthquake hypocenters from NNC, KNET, CAIIG, KRNET, SOME catalogues shows that seismic events are strongly confined to the fault zones and the boundaries of large blocks. A correlation between the anomalies of geophysical fields suggests the degree of inheritance of tectonic structures and the boundaries of the main tectonic segments of the Tien Shan. To compare the crustal and upper mantle heterogeneities reflected in different geophysical fields, we have analyzed seismic tomographic sections based on volumetric seismotomographic models geoelectric and velocity sections along profiles across the main tectonic elements of the study area. The sections are used to identify the zones with relatively low (i.e. reduced) seismic wave velocities and detect the deep-seated longitudinal segmentation of the folded belt. Objects showing anomalous seismic wave velocities are found in the seismotomographic sections at all the depths under consideration. The most contrasting differences in the velocities of P- and S-waves are typical of the depths of 0-5 km and 50-65 km, showing the most clearly observed Northern, Southern and Western segments of the Tien Shan. In general, the velocities of P- and S-waves at the Northern Tien Shan are higher than those at the Middle and Southern segments. We have analyzed the distribution of geoelectric heterogeneities identified from magnetotelluric sounding data in order to determine the boundaries of the main tectonic elements that are considered as the zones of increased electrical conductivity confined to the boundaries of the fault structures. The distribution of earthquake epicenters clearly reflects the segmentation of the Tien Shan into the Northern, Middle and Southern segments and shows the Western and Eastern Tien Shan relative to the Talas-Fergana fault. Ourstudies of the crust and the upper mantle of the Tien Shan have confirmed that the abovementioned tectonic segments have differences in their deep structures Based on a comprehensive analysis of the study results, we can qualitatively identify a relationship between the distribution of the velocity and geoelectric heterogeneities in the crust and upper mantle, seismicity and the stress-strain state of the crust.
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