Coseismic Coulomb Stress Changes on Intraplate Faults in the Western Quebec Seismic Zone Following Three Major Earthquakes in the Past Century

IF 1.3 4区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY

Canadian Journal of Earth Sciences Pub Date : 2023-07-10 DOI:10.1139/cjes-2023-0025

J. Rimando, A. Peace, K. Goda, Navid Sirous, P. Rosset, L. Chouinard

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引用次数: 0

Abstract

There is currently no active fault map for the intraplate western Quebec seismic zone (WQSZ) in eastern Canada, and consequently, no detailed finite-fault source models which are critical for seismic hazard assessments in this region with a rapidly growing population. While previous numerical stress modelling studies have shown that mostly NNW-SSE to NW-SE-striking faults exhibit the highest potential for reactivation under the present-day tectonic stress field, such modelling is unable to take into account the interaction of faults and earthquakes. This study attempts to identify possible future rupture zones using Coulomb stress analysis. We explore the static stress transfer caused by the 1935 M_W 6.1 Témiscaming, 1944 M_W 5.8 Cornwall-Massena, and the 2013 M_W 4.7 Ladysmith earthquakes, which are proximal to faults in the WQSZ that exhibit a relatively high reactivation potential, to determine if they have an increased potential for failure. The significance of Coulomb stress changes (ΔCFS) observed on the nearby ‘receiver’ faults varied widely. Among the events analyzed in this study, only the 1935 M_W 6.1 Témiscaming earthquake caused extensively positive ΔCFS (≥ 0.1 Bar) on its receiver fault. The areal extent of the receiver fault that has been promoted to failure suggests that earthquakes with a comparable magnitude to the 1935 event can be triggered. This work is the first attempt to provide a physical basis for seismic hazard assessment input parameters in the WQSZ based on the results of numerical stress modelling.

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上个世纪三次大地震后西魁北克地震带板内断层同震库仑应力变化

目前，加拿大东部魁北克西部板内地震带(WQSZ)没有活动断层图，因此，没有详细的有限断层源模型，而这些模型对该地区人口快速增长的地震危险性评估至关重要。以往的数值应力模拟研究表明，在现今的构造应力场下，大部分NNW-SSE至nw - se走向的断层表现出最高的再激活潜力，但这种模拟无法考虑断层与地震的相互作用。本研究试图利用库仑应力分析来确定未来可能的破裂带。我们研究了1935年m_w6.1 t miscaming地震、1944年m_w5.8 Cornwall-Massena地震和2013年m_w4.7 Ladysmith地震引起的静态应力传递，这些地震位于WQSZ断层附近，表现出相对较高的再激活潜力，以确定它们是否有增加的失败潜力。在附近的“接收断层”上观测到的库仑应力变化(ΔCFS)的意义差别很大。在本研究分析的事件中，只有1935年m_w6.1 tsammiscaming地震在其接收断层上引起了广泛的正ΔCFS(≥0.1 Bar)。接收断层被提升为失效的面积范围表明，可以触发与1935年事件相当震级的地震。本文首次尝试以数值应力模拟结果为基础，为该区地震危险性评价输入参数提供物理依据。

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

Canadian Journal of Earth Sciences 地学-地球科学综合

CiteScore

2.80

自引率

7.10%

发文量

审稿时长

6-12 weeks

期刊介绍： The Canadian Journal of Earth Sciences reports current research in climate and environmental geoscience; geoarchaeology and forensic geoscience; geochronology and geochemistry; geophysics; GIS and geomatics; hydrology; mineralogy and petrology; mining and engineering geology; ore deposits and economic geology; paleontology, petroleum geology and basin analysis; physical geography and Quaternary geoscience; planetary geoscience; sedimentology and stratigraphy; soil sciences; and structural geology and tectonics. It also publishes special issues that focus on information and studies about a particular segment of earth sciences.