A Review of Earthquake Source Parameters in the Main Ethiopian Rift

IF 1 Q3 GEOCHEMISTRY & GEOPHYSICS
S. Alemayehu, Jima Asefa
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引用次数: 1

Abstract

We assessed earthquake source parameters compiled from previous studies and international databases. In addition, moment tensor inversion is made from the broadband seismic data of two earthquakes that occurred in the region in 2017 and 2018 with magnitudes Mw 5.0 and 5.1, respectively. As a result, the two events’ reliable source parameters are retrieved. We found that earthquakes are distributed in the rift floor, at margins and adjacent plateaus. Because the majority of earthquakes occur on the rift floor, deformation is most likely caused by strain accumulation transferred from border faults to magmatic segments along the rift floor. Predominantly normal faulting is observed, but some strike-slip events are also observed. Normal faulting mechanisms are consistent with major plate divergence, whereas the strike-slip components observed in the region might be associated with the counterclockwise rotation of the Danakil microplate, and the mechanism would indicate an oblique-slip deformation between the Nubian plate and the Danakil microplate. However, the focal mechanism obtained from the moment tensor inversion for the Mw 5.1 event indicates dominant normal faulting accompanied by a minor strike-slip component at the western margin of Afar, whereas the Mw 5.0 event has a significant strike-slip component at the central part of MER. The majority of focal depths of earthquakes are found within the upper crust, including the 2017 (Mw 5.0) event with a focal depth of 9.7 km that was computed using moment tensor inversion. A significant number of earthquakes are also found within the lower crust, including the 2018 (Mw 5.1) event with a focal depth of 20.2 km. However, earthquakes with focal depths within the upper mantle are also found in the compiled international database, which may not be consistent with the previously published works in the region. The observed focal depth may suggest a widespread deformation throughout the upper and lower crusts, implying that magmatic intrusions and faulting play a central role in facilitating the seismicity of the main Ethiopian rift (MER). The current investigation will provide further information on the earthquake source parameters and seismogenic depth of earthquake occurrence in the MER.
埃塞俄比亚主裂谷震源参数评述
我们评估了根据以往研究和国际数据库编制的震源参数。此外,矩张量反演是根据2017年和2018年该地区发生的两次Mw分别为5.0和5.1的地震的宽带地震数据进行的。结果,检索到了这两个事件的可靠源参数。我们发现地震分布在裂谷底部、边缘和邻近的高原。由于大多数地震发生在裂谷底部,变形很可能是由从边界断层转移到裂谷底部岩浆段的应变积累引起的。主要观察到正断层作用,但也观察到一些走滑事件。正断层机制与主要板块的分歧一致,而在该地区观察到的走滑成分可能与Danakil微板块的逆时针旋转有关,该机制表明努比亚板块和Danakil微型板块之间存在斜滑变形。然而,从Mw 5.1事件的矩张量反演中获得的震源机制表明,在Afar西部边缘,主正断层作用伴随着一个较小的走滑分量,而Mw 5.0事件在MER中部有一个显著的走滑成分。大多数地震的震源深度都在上地壳内,包括2017年(Mw 5.0)地震,震源深度为9.7 使用矩张量反演计算的km。在下地壳中也发现了大量地震,包括2018年(Mw 5.1)地震,震源深度为20.2 然而,在汇编的国际数据库中也发现了震源深度在上地幔内的地震,这可能与该地区先前发表的工作不一致。观察到的震源深度可能表明整个上下地壳发生了广泛的变形,这意味着岩浆侵入和断层作用在促进埃塞俄比亚主裂谷(MER)的地震活动方面发挥着核心作用。目前的调查将提供关于MER中地震发生的震源参数和发震深度的进一步信息。
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来源期刊
International Journal of Geophysics
International Journal of Geophysics GEOCHEMISTRY & GEOPHYSICS-
CiteScore
1.50
自引率
0.00%
发文量
12
审稿时长
21 weeks
期刊介绍: International Journal of Geophysics is a peer-reviewed, Open Access journal that publishes original research articles as well as review articles in all areas of theoretical, observational, applied, and computational geophysics.
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