Relocation of the 2018–2022 seismic sequences at the Central Gulf of Corinth: New evidence for north-dipping, low angle faulting

IF 2.7 3区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS Tectonophysics Pub Date : 2024-07-22 DOI:10.1016/j.tecto.2024.230433
Vasilis Kapetanidis , Ioannis Spingos , Athanassios Ganas , Antonia Papageorgiou , George Kaviris
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Abstract

The Gulf of Corinth, Central Greece, is a highly active half-graben, characterized by seismicity which is more intense in its western part, while destructive earthquakes have also occurred towards its eastern end. We herein present an analysis of the seismicity in the Central Gulf of Corinth, for the period from June 2018 to December 2022. We applied the EQTransformer machine-learning model to enhance the initially available data, adding missing P- and S-wave arrival-times or improving existing ones. The events were initially located using a new local velocity model and then relocated using the double-difference method, including waveform cross-correlation data from local stations. The hypocenters, generally distributed at depths between 5 and 15 km, along with the focal mechanisms of significant earthquakes (1965 through 2022) and the geometry of mapped faults on the surface were co-examined to better understand their possible connection. It is shown that major outcropping north-dipping structures, such as the East Helike fault and its eastward offshore extension, match only with the southern bounds of seismicity. The Mw = 5.9, 1970 Antikira and Mw = 5.7, 1992 Galaxidi earthquakes cannot be associated with known mapped faults on the surface and likely occurred on low-angle, north-dipping planes. The variability in slip behavior of the low-angle detachment in the Gulf of Corinth, ranging from seismic slip to aseismic creep, probably accounts for the most part of the N-S extensional deformation. The spatial pattern of the 2018–2022 microseismicity delineates the edges of the rupture planes of major events that occurred during the instrumental era, including the Mw = 6.3, 1995 Aigion earthquake. The lack of aftershocks for significant earthquakes, including the Mw = 5.0, 8 October 2022 event, south of Desfina, is interpreted in terms of different pore pressure conditions, variations in fault-rock strength, and the preferred accumulation of high stress inside the upper crust.

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科林斯湾中部 2018-2022 年地震序列的重新定位:北倾低角度断层的新证据
希腊中部的科林斯湾是一个高度活跃的半海湾,其西部的地震活动更为剧烈,而其东端也发生过破坏性地震。在此,我们对 2018 年 6 月至 2022 年 12 月期间科林斯湾中部的地震活动进行了分析。我们应用 EQTransformer 机器学习模型来增强初始可用数据,增加缺失的 P 波和 S 波到达时间或改进现有数据。我们使用新的本地速度模型对事件进行了初步定位,然后使用双差分法(包括来自本地站点的波形交叉相关数据)对事件进行了重新定位。为了更好地了解它们之间可能存在的联系,对一般分布在 5 至 15 千米深处的次地震中心、重大地震(1965 年至 2022 年)的焦点机制以及地表绘制的断层几何形状进行了共同研究。结果表明,主要的露头北倾构造,如东赫利克断层及其向东的近海延伸,仅与地震活动的南部边界相吻合。1970 年发生的 Mw = 5.9 级的安提基拉地震和 1992 年发生的 Mw = 5.7 级的加拉西迪地震与地表已知的测绘断层无关,很可能发生在低角度的北倾平面上。科林斯湾低角度剥离的滑动行为变化多端,从地震滑动到无地震蠕动,可能是 N-S 伸展变形的大部分原因。2018-2022 年微震的空间模式划定了仪器时代发生的重大事件的破裂面边缘,包括 1995 年发生的 Mw = 6.3 的艾吉翁地震。重大地震(包括 2022 年 10 月 8 日在德斯菲纳以南发生的 Mw=5.0 的地震)没有余震,这可以从不同的孔隙压力条件、断层岩强度变化以及上地壳内部高应力的优先累积等方面进行解释。
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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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