Unraveling the Preparatory Processes of the 2023 Mw 7.8–7.6 Kahramanmaraş Earthquake Doublet

Seismological Research Letters Pub Date : 2024-01-19 DOI:10.1785/0220230413

Fengling Yin, Changsheng Jiang

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Abstract

Within a span of 9 hr on 6 February 2023, two significant earthquakes, with magnitudes of Mw 7.8 and 7.6, struck the southeastern part of Türkiye and the northern region of Syria, resulting in significant casualties and widespread economic losses. The occurrence of such intense earthquakes in rapid succession on adjacent faults, especially within a highly complex intraplate region with a multifault network, poses a rare phenomenon, presenting new challenges for seismic hazard analysis in such areas. To investigate whether the preparatory processes for the Mw 7.8–7.6 earthquake doublet could be identified on a large spatial scale prior to the seismic events, we employed a data-driven approach for b-value calculation. The difference in b-values from the background values (Δb) in a reference period were used as inputs, and the cumulative migration pattern (CMP) method, quantitatively describing the migration of seismic activity, was utilized to calculate the corresponding probability distributions. The results indicate a widespread phenomenon of decreasing b-values in the study area over a decade before the occurrence of the earthquake doublet, revealing a significant enhancement of differential crustal stress over a large region. In addition, despite not being the region with the most pronounced decrease in b-values, there is a distinct high probability distribution of CMP near the nucleation points of the earthquake doublet, indicating a spatial and temporal “focus” of increased crustal differential stress in the study area, unveiling the preparatory process of the earthquake doublet. This study reveals quantifiable migration patterns over a long time scale and a large spatial extent, providing new insights into the evolution and occurrence processes of the 2023 Mw 7.8–7.6 Kahramanmaraş earthquake doublet. Moreover, it offers potential clues for seismic hazard analysis in such intraplate regions with multiple fault systems.

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揭示 2023 年 7.8-7.6 级卡赫拉曼马拉什双重地震的准备过程

2023 年 2 月 6 日，在短短 9 小时内，土耳其东南部和叙利亚北部地区分别发生了 7.8 级和 7.6 级大地震，造成了重大人员伤亡和广泛的经济损失。在相邻的断层上，尤其是在具有多断层网络的高度复杂的板块内部区域内，迅速连续发生如此强烈的地震是一种罕见的现象，给此类地区的地震灾害分析带来了新的挑战。为了研究是否能在地震发生前的大空间尺度上确定 Mw 7.8-7.6 双重地震的准备过程，我们采用了数据驱动的 b 值计算方法。将基准期 b 值与背景值的差值（Δb）作为输入，利用定量描述地震活动迁移的累积迁移模式（CMP）方法计算相应的概率分布。结果表明，在双联地震发生前的十多年里，研究区域内普遍存在 b 值下降的现象，揭示了大区域内地壳应力差异的显著增强。此外，尽管不是 b 值下降最明显的区域，但在地震双响成核点附近存在明显的 CMP 高概率分布，表明研究区域存在地壳差应力增强的时空 "焦点"，揭示了地震双响的准备过程。这项研究揭示了长时间尺度和大空间范围内可量化的迁移模式，为 2023 年 7.8-7.6 级卡赫拉曼马拉什双发地震的演变和发生过程提供了新的视角。此外，它还为此类板内地区多断层系统的地震灾害分析提供了潜在线索。

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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Seismological Research Letters

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