Large earthquakes along slow converging plate margins: Calabrian Arc paleoseismicity based on the submarine turbidite record

IF 8.5 1区地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY

Geoscience frontiers Pub Date : 2023-09-01 DOI:10.1016/j.gsf.2023.101612

A. Polonia , R. Melis , P. Galli , E. Colizza , D.D. Insinga , L. Gasperini

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引用次数: 2

Abstract

The Calabrian Arc subduction-rollback system hosts seismogenic faults capable of generating earthquakes exceeding magnitude 7. Since earthquakes are the result of long-term geodynamic processes, documenting seismic activity during a sufficiently long time interval is of fundamental importance for hazard scenarios. Instrumental and historical data provide critical information on seismogenesis, but they cover time periods shorter than the recurrence times of large earthquakes, especially in areas with low deformation rates such as Calabria. If onshore paleoseismological studies are fundamental to compile earthquake catalogs, they are sometime affected by the relatively poor continuity of sedimentation in the subaerial environment.

In this study we applied the paleoseismological approach to the submarine environment to reconstruct the record of high-energy sedimentary events triggered by seismic activity. We analyzed three gravity cores collected in disconnected sedimentary basins to reconstruct resedimentation processes during the Holocene, integrating inland information for a better assessment of tectonic activity and seismogenesis. Multiproxy analyses of the sedimentary record constrained by radiometric dating allowed reconstructing event stratigraphy and linking resedimented deposits to specific earthquakes.

Onshore and offshore data allow to identify large-magnitude earthquakes in the central Calabrian Arc subduction system during the Holocene, with inferred epicenters located either along normal faults onshore and/or related to the slab dynamics. The turbidite record reveals 20 major events during the last 10 ka, with sources including crustal faults in Calabria (i.e. Lakes, Rossano and Cittanova faults). Analyses of sediment samples and high-resolution seismic reflection images allowed identification of different types of resedimented deposits during the last 30–50 ka. The basin-wide occurrence of three megaturbidites/homogenites suggests they are related to megatsunamis sourced by far field earthquakes along the Hellenic Arc. Megaturbidites with a more limited spatial extent are interpreted as subduction-type events in the Calabrian Arc, while thinner seismo-turbidites record the activity of crustal structures including faults onshore. Results suggest a recurrence time of 2–3 ka for major Calabrian Arc events that needs to be considered for a reliable hazard assessment in the Mediterranean region.

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沿缓慢收敛板块边缘的大地震:基于海底浊积岩记录的卡拉布里亚弧古地震活动性

卡拉布里亚弧俯冲回滚系统拥有能够产生7级以上地震的发震断层。由于地震是长期地球动力学过程的结果，在足够长的时间间隔内记录地震活动对灾害情景至关重要。仪器和历史数据提供了地震发生的关键信息，但它们覆盖的时间周期比大地震的复发时间短，特别是在卡拉布里亚等变形率低的地区。如果陆上古地震学研究是编制地震目录的基础，它们有时会受到陆上环境中相对较差的沉积连续性的影响。本研究将古地震学方法应用于海下环境，重建地震活动引发的高能沉积事件记录。我们分析了在不连通的沉积盆地收集的三个重力岩心，重建了全新世的再沉积过程，整合了内陆信息，以便更好地评估构造活动和地震发生。在放射性测年法的约束下，对沉积记录进行多代理分析，可以重建事件地层，并将再沉积沉积物与特定地震联系起来。陆上和海上数据可以识别全新世期间卡拉布里亚弧中部俯冲系统的大震级地震，推断震中位于陆上正断层和/或与板块动力学有关。浊积岩记录揭示了过去10 ka的20次主要事件，其来源包括卡拉布里亚的地壳断裂(即湖泊、Rossano和Cittanova断裂)。通过对沉积物样品和高分辨率地震反射图像的分析，可以识别出过去30-50 ka期间不同类型的再沉积矿床。3个大闪/均质岩的全盆地分布表明它们与沿希腊弧的远场地震引起的大海啸有关。空间范围有限的大浊积岩被解释为卡拉布里亚弧的俯冲型事件，而较薄的地震浊积岩记录了包括陆上断层在内的地壳结构的活动。结果表明，主要的卡拉布里亚弧事件的复发时间为2-3 ka，需要考虑到这一点，以便在地中海地区进行可靠的危害评估。

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来源期刊

Geoscience frontiers Earth and Planetary Sciences-General Earth and Planetary Sciences

CiteScore

17.80

自引率

3.40%

发文量

147

审稿时长

35 days

期刊介绍： Geoscience Frontiers (GSF) is the Journal of China University of Geosciences (Beijing) and Peking University. It publishes peer-reviewed research articles and reviews in interdisciplinary fields of Earth and Planetary Sciences. GSF covers various research areas including petrology and geochemistry, lithospheric architecture and mantle dynamics, global tectonics, economic geology and fuel exploration, geophysics, stratigraphy and paleontology, environmental and engineering geology, astrogeology, and the nexus of resources-energy-emissions-climate under Sustainable Development Goals. The journal aims to bridge innovative, provocative, and challenging concepts and models in these fields, providing insights on correlations and evolution.