The March 2021 Tyrnavos, central Greece, doublet (Μw6.3 and Mw6.0): Aftershock relocation, faulting details, coseismic slip and deformation

V. Karakostas, C. Papazachos, E. Papadimitriou, M. Foumelis, A. Kiratzi, C. Pikridas, A. Kostoglou, Charalambos Kkallas, N. Chatzis, S. Bitharis, A. Chatzipetros, A. Fotiou, Chrysanthi Ventouzi, E. Karagianni, P. Bonatis, C. Kourouklas, P. Paradisopoulou, E. Scordilis, Dominikos Vamvakaris, I. Grendas, D. Kementzetzidou, A. Panou, G. Karakaisis, I. Karagianni, P. Hatzidimitriou, Odysseus Galanis
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引用次数: 14

Abstract

On 3 March 2021, the Mw6.3 Tyrnavos earthquake shook much of the Thessalia region, leading to extensive damage in many small towns and villages in the activated area. The first main shock was followed in the next day, on 4th of March 2021, by an “equivalent” main shock with Mw6.0 in the adjacent fault segment. These are the largest earthquakes to strike the northeastern part of Thessalia since the M6.3, 1941 Larissa earthquake. The main shocks triggered extensive liquefaction mainly along the banks of the Titarisios tributary where alluvial flood deposits most probably amplified the ground motions. Our seismic monitoring efforts, with the use of recordings of the regional seismological network along with a dense local network that was installed three days after the seismic excitation initiation, led to the improved understanding the geometry and kinematics of the activated faults. The aftershocks form a north–northwest–trending, east–northeast–dipping, ~40 km long distribution, encompassing the two main ruptures along with minor activated structures, consistent with the rupture length estimated from analysis of regional waveform data and InSAR modeling. The first rupture was expanded bilaterally, the second main shock nucleated at its northern tip, where from this second rupture propagated unilaterally to the north–northwest. The focal mechanisms of the two main shocks support an almost pure normal faulting, similar to the aftershocks fault plane solution determined in this study. The strong ground motion of the March 3 main shock was computed with a stochastic simulation of finite fault model. Coseismic displacements that were detected using a dense GPS / GNSS network of five permanent stations located the Thessaly region, have shown an NNE–SSW extension as expected from the nature and location of the causative fault. Coulomb stress changes due to the coseismic slip of the first main shock, revealed that the hypocentral region of the second main shock was brought closer to failure by more than 10 bars.
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2021年3月希腊中部Tyrnavos双震(Μw6.3和Mw6.0):余震重新定位,断层细节,同震滑动和变形
2021年3月3日,蒂尔纳沃斯6.3级地震震撼了塞萨利亚地区的大部分地区,导致活跃地区的许多小城镇和村庄遭到严重破坏。在第一次主震之后的第二天,即2021年3月4日,在邻近的断层段发生了一次Mw6.0的“等效”主震。这是自1941年拉里萨6.3级地震以来,塞萨利亚东北部发生的最大地震。主要的冲击引发了广泛的液化,主要沿着Titarisios支流的河岸,那里的冲积洪水沉积物很可能放大了地面运动。我们的地震监测工作,利用区域地震台网的记录,以及在地震激发开始三天后安装的密集的本地网络,提高了对活动断层的几何形状和运动学的理解。余震呈西北偏北、东北偏东、长约40 km的分布,包括两个主要断裂和较小的活化构造,与区域波形数据分析和InSAR模拟估计的断裂长度一致。第一次断裂向两侧扩展,第二次主震在其北端成核,从第二次断裂向西北偏北单方面传播。两个主震的震源机制支持一个几乎纯粹的正常断层,类似于本研究确定的余震断层平面解。用有限断层模型的随机模拟方法计算了3·3主震的强地面运动。利用位于色萨利地区的五个永久站点的密集GPS / GNSS网络检测到的同震位移显示,从导致断层的性质和位置来看,同震位移显示了北东向南南向的延伸。第一次主震同震滑动引起的库仑应力变化表明,第二次主震震源震源区离破坏更近了10巴以上。
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