Late Quarternary displacements along the Sarma segment of the Primorsky fault based on gpr survey data (Baikal rift)

Pub Date : 2020-09-23 DOI:10.5800/gt-2020-11-3-0490
I. Denisenko, O. Lunina
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引用次数: 1

Abstract

. Ground-penetrating radar (GPR) surveys were performed in the Sarma segment of the Primorsky fault between the settlements of Shida and Kurma. This segment belongs to one of the largest structures of the Baikal rift and was active in Late Quaternary (Early Holocene). The study aimed to reconstruct vertical displacement amplitudes and dip angles of fractures along the fault segment, clarify its kinematic type, and estimate a maximum magnitude of earthquakes that may occur in the study area. The GPR equipment set included an OKO-2 georadar and AB-250M and ABDL-Triton shielded antennas. The GPR surveys were supported by morphostructural and tectonophysical methods. Based on the interpretation of the geophysical survey data and satellite images, faults associated with the Sarma paleoseismic dislocation were mapped. Their total length amounts to 14 km. According to the GPR survey data, one-stage vertical displacements show normal faulting and vary from SW to NE from 4.4 to 7.7 m. Paleo-earthquake magnitudes calculated from the maximum displacement values (Mw=7.2, and Мs=7.4) suggest that potential earthquakes in the Primorsky fault zone may be stronger than previously assumed.
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基于gpr测量资料的滨海断裂带萨尔马段晚第四纪位移(贝加尔湖裂谷)
. 探地雷达(GPR)测量在什达和库尔马定居点之间的滨海断层萨尔马段进行。该段属于贝加尔湖裂谷最大的构造之一,活动于晚第四纪(早全新世)。研究旨在重建断层段裂缝的垂直位移幅值和倾角,明确其运动学类型,估计研究区可能发生的最大地震震级。GPR设备包括一个OKO-2地质雷达和AB-250M和ABDL-Triton屏蔽天线。地质探地雷达调查得到了形态构造和构造物理方法的支持。根据地球物理调查资料和卫星图像的解释,绘制了与萨尔马古地震位错有关的断层图。它们的总长度达14公里。探地雷达调查资料显示,一期垂向位移为正断层,从西南向东北方向变化,范围为4.4 ~ 7.7 m。根据最大位移值(Mw=7.2, Мs=7.4)计算的古地震震级表明,滨海断裂带的潜在地震可能比先前假设的更强。
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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