北色萨利(希腊)沿盲正断层的多米诺式地震:来自野外观测、地震学、SAR干涉测量和GNSS的运动学证据

A. Ganas, S. Valkaniotis, P. Briole, A. Serpetsidaki, V. Kapetanidis, Ilektra Karasante, I. Kassaras, G. Papathanassiou, I. Karamitros, V. Tsironi, P. Elias, V. Sarhosis, A. Karakonstantis, Emmanouela Konstantakopoulou, P. Papadimitriou, E. Sokos
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引用次数: 21

摘要

本文对截至2021年4月30日收集和处理的2021年3月北色萨利地震序列的大地测量、地震和地质数据进行了联合分析。首先,我们重新定位了区域和本地网络的地震活动数据,并推断了2021年3月3日破裂面的倾角(NE)和倾角(38°)。此外,我们利用Sentinel-1卫星获取的上升和下降SAR图像来绘制同震位移场。我们的研究结果表明,2021年3月3日发生的Mw=6.3破裂发生在位于Zarko (Trikala)和Damasi (Larissa)村之间的ne向39°正断层上。2021年3月4日的地震发生在大马西北方,沿西北纬向断层,造成的变形小于前一天的地震。第三次地震发生在2021年3月12日,沿着一条向南倾斜的正断层。利用p波第一运动极性计算了22个M≥4.0级余震震源机制。几乎所有的震源机构都表现出正常的运动学或具有主要的正常倾滑分量。InSAR的使用对于区分破裂之间的地面变形至关重要。大部分变形发生在垂直分量上,在达马西以南和以西的Mw=6.3破裂面上最大沉降量为0.39 m。测量总水平位移0.3 m (E-W)。我们还使用了位于震中附近的12个永久站点的GNSS数据(采样间隔为30秒)来获得站点位置的三维地震偏移。只有第一个事件在GNSS站产生显著的位移(正如断层模型所预测的那样,断层模型本身受到InSAR的很好约束)。我们计算了几个震后干涉图,但我们观察到,除了下盘区域(Zarkos山)之外,几乎没有震后变形。这种震后形变在近场低于7毫米水平(四分之一条纹),在GNSS站点低于1毫米水平。从东南到西北方向的三个事件的级联激活指向了一个多米诺骨牌式地震的模式,沿着邻近的断层段。断裂的运动学指向上地壳伸展方向的逆时针变化(从达马西附近的NE-SW到Verdikoussa附近的N-S向西北方向)。
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Domino-style earthquakes along blind normal faults in Northern Thessaly (Greece): kinematic evidence from field observations, seismology, SAR interferometry and GNSS
Here we present a joint analysis of the geodetic, seismological and geological data of the March 2021 Northern Thessaly seismic sequence, that were gathered and processed as of April 30, 2021. First, we relocated seismicity data from regional and local networks and inferred the dip-direction (NE) and dip-angle (38°) of the March 3, 2021 rupture plane. Furthermore, we used ascending and descending SAR images acquired by the Sentinel-1 satellites to map the co-seismic displacement field. Our results indicate that the March 3, 2021 Mw=6.3 rupture occurred on a NE-dipping, 39° normal fault located between the villages Zarko (Trikala) and Damasi (Larissa). The event of March 4, 2021 occurred northwest of Damasi, along a fault oriented WNW-ESE and produced less deformation than the event of the previous day. The third event occurred on March 12, 2021 along a south-dipping normal fault. We computed 22 focal mechanisms of aftershocks with M≥4.0 using P-wave first motion polarities. Nearly all focal mechanisms exhibit normal kinematics or have a dominant normal dip-slip component. The use of InSAR was crucial to differentiate the ground deformation between the ruptures. The majority of deformation occurs in the vertical component, with a maximum of 0.39 m of subsidence over the Mw=6.3 rupture plane, south and west of Damasi. A total amount of 0.3 m horizontal displacement (E-W) was measured. We also used GNSS data (at 30-s sampling interval) from twelve permanent stations near the epicentres to obtain 3D seismic offsets of station positions. Only the first event produces significant displacement at the GNSS stations (as predicted by the fault models, themselves very well constrained by InSAR). We calculated several post-seismic interferograms, yet we have observed that there is almost no post-seismic deformation, except in the footwall area (Zarkos mountain). This post-seismic deformation is below the 7 mm level (quarter of a fringe) in the near field and below the 1 mm level at the GNSS sites. The cascading activation of the three events in a SE to NW direction points to a pattern of domino-style earthquakes, along neighbouring fault segments. The kinematics of the ruptures point to a counter-clockwise change in the extension direction of the upper crust (from NE-SW near Damasi to N-S towards northwest, near Verdikoussa).
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