2013 年 6.2 级 Shonbeh (Kaki) 地震(伊朗扎格罗斯):高分辨率余震和 InSAR 数据分析对卡泽伦剪切过渡带的地震构造影响

F. Yaminifard, M. Tatar, A. Fathian
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引用次数: 0

摘要

本研究旨在调查部署在 2013 年 4 月 9 日 Shonbeh(卡基)地震震中地区的密集临时地震学网络所记录的余震序列数据,该地区位于伊朗扎格罗斯简单褶皱带南部。为了全面了解湘贝地震,我们使用干涉合成孔径雷达(InSAR)数据对地震的共震位移进行了研究。高分辨率定位余震的震中分布显示出地震活动的西北-东南和北-南走向。余震集中在 3 至 14 千米的深度范围内,这意味着根据 InSAR 建模得出的断层参数,断裂主要发生在沉积覆盖层内。精确定位的余震在东北走向断面上的投影和 InSAR 地面位移数据与西北走向的东北倾和西南倾断层段一致。我们观察到一种 NNW-SSE 右侧走向的冲击滑动运动,这种运动适应了北扎格罗斯和中扎格罗斯之间的斜向汇聚和差异运动。余震的空间模式和震源机制与卡泽伦过渡带南部西北-东南走向的逆断层段和北-南走向的右侧走向滑动断层段之间的分布式变形相一致,后者容纳了一个宽剪切带。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The 2013 Mw 6.2 Shonbeh (Kaki) earthquake (Zagros-Iran): seismo-tectonic implications for the Kazerun shear transition zone from high-resolution aftershock and InSAR data analysis
The aim of this study is to investigate the aftershock sequence data recorded by a dense temporary seismological network deployed in the epicentral area of the 2013 April 9 Shonbeh (Kaki) earthquake, located in the south of the Simply Folded Belt of the Zagros (Iran). For a comprehensive understanding, coseismic displacements of the Shonbeh earthquake have been investigated using Interferometric Synthetic Aperture Radar (InSAR) data. The epicentral distribution of high-resolution relocated aftershocks shows NW-SE and N-S trending of seismicity. The aftershocks are confined between ∼3 and ∼14 km depth, which implies that the rupture occurred mostly within the sedimentary cover beside the fault parameters retrieved from InSAR modeling. Projection of precisely located aftershocks on NE-oriented section and InSAR ground displacement data are consistent with both NW-trending NE- and SW-dipping fault segments. We observe a NNW-SSE right-lateral strike-slip motions that accommodate oblique convergence and differential motion between the North and Central Zagros. The spatial pattern and focal mechanisms of aftershocks are consistent with a distributed deformation between NW-SE trending reverse and N-S trending right-lateral strike-slip fault segments in the south of the Kazerun transition zone that accommodates a wide shear zone.
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