CENTRAL ASIAN GEODYNAMIC REGIMES WEST AND EAST 102–104° GEODIVIDER

Pub Date : 2020-06-20 DOI:10.5800/gt-2020-11-2-0478

Y. Gatinsky, T. Prokhorova, D. Rundquist

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引用次数: 1

Abstract

. Ample geologic and geophysical data provide the basis for distinguishing the 102–104° E geodivider in the North, Central and South Asia. The geodivider’s central part is confirmed by the data on seismicity, seismically active faults and the modern crust block structure. These data and historical and instrumentally identified earthquake epicenters were used for a more correct definition of the block boundaries and interblock zones in the central part of the geodivider and in its wings. Seismic energy is considerably increased (to 10 J) in the eastern part of the geodivider’s western wing, and rarely increased directly in the geodivider itself. Near the geodivider, a seismic energy increase is detected east of it only at the western border of the South-Eastern China Block. The authors analyzed deep seismic sections and constructed energy dissipation graphs along transects crossing the geodivider and its western wing. The analysis and the graphs show the predomination of left-lateral NW-striking slips in the north, thrusts to the east and southeast in the center, and right-lateral NE-striking slips in the south. The total seismic energy increases constantly to the west. In the central and northern segments of the geodivider’s central part and west of it, horizontal blocks displacements cause a direct influence on seismicity level increasing and changes in geodynamic regimes within the investigated territory of Central Asia. Changes in the horizontal displacement vector are accompanied by the change of tectonic strain regimes. Increased heat flow values to the east from the geodivider within the East Asian transit zone are probably related to the change of the geodynamic regimes in the same direction under the influence of the submerged Pacific slab. The data obtained by the Chinese and Russian researchers confirm delamination (stratification) processes in the Southeast Tibet crust during its interaction with the colder and thicker lithosphere of Southeast China, and displacement of its upper layers to the southeast and south, as we supposed in our earlier publications.

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中亚地球动力学制度西部和东部102-104°地质分界线

．丰富的地质和地球物理资料为区分北、中、南亚地区102-104°E地质分界线提供了依据。地震活动性资料、地震活动断层资料和现代地壳块体结构资料证实了大地分隔器的中心部分。这些数据以及历史和仪器识别的地震震中被用于更正确地定义地质体中心部分及其两翼的块边界和块间带。地震能量在大地分隔器西翼的东部显著增加(达到10 J)，而在大地分隔器本身很少直接增加。在大地分隔线附近，仅在中国东南地块的西部边界，在其以东检测到地震能量增加。作者分析了深震剖面，并沿横切面构造了能量耗散图。分析结果表明，该区北部以北西向左侧滑动为主，中部以东、东南向逆冲断层为主，南部以北东向右侧滑动为主。地震总能量向西不断增加。在大地分隔带中部和西部的中部和北部段，水平块体位移对中亚调查区域内地震活动水平的增加和地球动力系统的变化产生直接影响。水平位移矢量的变化伴随着构造应变状态的变化。东亚过境带内大地分隔带向东的热流值增加，可能与淹没太平洋板块影响下同一方向地球动力机制的变化有关。中国和俄罗斯研究人员获得的数据证实了西藏东南部地壳在与中国东南部更冷、更厚的岩石圈相互作用过程中的分层(分层)过程，以及其上层向东南和南移动，正如我们在早期出版物中所假设的那样。

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