Electrical resistivity structure of the Southeastern part of Bayan Har Block: Insights into the seismogenic environment of 2022 Maerkang earthquake swarm

IF 2.7 3区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
Yan Zhan , Xiangyu Sun , Xuehua Liu , Lingqiang Zhao , Dahu Li , Sha Li , Zeyi Dong , Xiaoyu Lou , Chongtao Hao , Yuxin Bao
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Abstract

The Bayan Har block (BHB) is one of the areas with the strongest seismicity in China. Since 1997, six earthquakes with magnitudes of 7 or greater have occurred in this block. The activity of earthquakes has shown a trend of increasing from the edge of the BHB to its interior. In this article, three-dimensional inversion was used to generate the electrical resistivity structure in the Maerkang earthquake area based on magnetotelluric data in the Maerkang earthquake area in the southeast of the BHB. Combined with the electrical resistivity structure characteristics of the Maduo earthquake area in 2021 and the Jiuzhaigou earthquake area in 2017, the seismogenic environment and tectonic deformation in the BHB were revealed and analyzed. The electrical resistivity structure revealed that the Songgang fault was an electrical resistivity contrast zone that extends into the middle and lower crust, and connects to the Dari fault zone to the northwest, which is the seismogenic fault of the 2022 Maerkang earthquakes. The resistivity structure of the BHB exhibits a layered structure with a widespread high-conductivity layer in the middle and lower crust. The burial depth of the high-conductivity layer is undulating in waves along the profile, which may be a deep manifestation of the strong shortening deformation in the middle and lower crust of the region. The lower crust of the BHB is a medium with a high melt fraction, which may provide a material source for the flow of the middle and lower crust in the northeastern part of the Tibetan Plateau and may be an important controlling factor in the occurrence of moderate and strong earthquakes in the region.

巴彦哈尔区块东南部的电阻率结构:洞察 2022 年马尔康地震群的成震环境
巴彦哈尔区块(BHB)是中国地震活动最强的地区之一。自 1997 年以来,该区块共发生 7 级以上地震 6 次。地震活动呈现出从巴彦哈尔地块边缘向内部递增的趋势。本文根据 BHB 东南部马康地震区的磁电探测数据,利用三维反演生成了马康地震区的电阻率结构。结合 2021 年玛多震区和 2017 年九寨沟震区的电阻率结构特征,揭示和分析了北京热海地震带的震源环境和构造变形。电阻率结构揭示了松岗断层为一电阻率对比带,延伸至地壳中下部,与西北部的达里断层带相连,达里断层带是2022年马尔康地震的发震断层。BHB 的电阻率结构呈现分层结构,在中下地壳中广泛分布着高导层。高导层的埋藏深度沿剖面呈波状起伏,这可能是该地区中下地壳强烈缩短变形的深层表现。BHB下地壳是一个熔融分率较高的介质,可能为青藏高原东北部中下地壳的流动提供了物质来源,也可能是该地区发生中强地震的重要控制因素。
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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来源期刊
Tectonophysics
Tectonophysics 地学-地球化学与地球物理
CiteScore
4.90
自引率
6.90%
发文量
300
审稿时长
6 months
期刊介绍: The prime focus of Tectonophysics will be high-impact original research and reviews in the fields of kinematics, structure, composition, and dynamics of the solid arth at all scales. Tectonophysics particularly encourages submission of papers based on the integration of a multitude of geophysical, geological, geochemical, geodynamic, and geotectonic methods
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