3D Body-Wave Velocity Structure of the Southern Aegean, Greece

IF 2.4 Q2 GEOSCIENCES, MULTIDISCIPLINARY Geosciences (Switzerland) Pub Date : 2023-09-07 DOI:10.3390/geosciences13090271

A. Karakonstantis, F. Vallianatos

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Abstract

This study delves into the southern Aegean regionwhere the subduction of the oceanic Mediterranean lithosphere under the Aegean continental one takes place. This region is considered one of the most active ones in the eastern Mediterranean Sea due to intense tectonic movements in the Late Quaternary. More than 1200 manually revised events from 2018 to 2023 have been used in order to obtain the 3D structure of body-wave velocity and VP/VS ratioto 80 km depth through earthquaketomography. A series of resolution tests have been performed and demonstrated fair resolution of the derived velocity structures in the area of interest. The derived anomalies of body-waves (dVP, dVS) and VP/VS ratio provided important information about the southern Aegean regional tectonics and secondarily active faults of smaller scale (>20 km). The region is marked by significant low-velocity anomalies in the crust and uppermost mantle, beneath the active arc volcanoes. The seismicity related to the Hellenic Subduction Zone (HSZ) is connected to a low-angle positive anomaly of VP and VS, correlated withthe observed intermediate-depth seismicity (H ≥ 40 km) in this part of the study area. This result could be related to the diving HSZ slab.

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希腊南部爱琴海的三维体波速度结构

本研究深入研究了爱琴海南部地区，在那里发生了地中海海洋岩石圈在爱琴海大陆岩石圈下的俯冲。由于晚第四纪强烈的构造运动，该地区被认为是东地中海最活跃的地区之一。利用2018年至2023年的1200多个人工修正事件，通过地震成像获得80 km深度的体波速度和VP/VS比的三维结构。进行了一系列的分辨率测试，并证明了在感兴趣的地区推导出的速度结构的合理分辨率。体波异常(dVP、dVS)和VP/VS比值为研究爱琴海南部区域构造和较小尺度(>20 km)次级活动断层提供了重要信息。该地区的标志是在活跃的弧火山之下的地壳和上地幔中有明显的低速异常。与希腊俯冲带(HSZ)有关的地震活动性与VP和VS低角度正异常有关，与研究区观测到的中深地震活动性(H≥40 km)相关。这一结果可能与HSZ板的跳水有关。

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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