Teleseismic P-Wave Attenuation Beneath the Arabian Plate

IF 2.4 Q2 GEOSCIENCES, MULTIDISCIPLINARY Geosciences (Switzerland) Pub Date : 2023-11-09 DOI:10.3390/geosciences13110343
Talal Merghelani, Jun Kawahara, Kaoru Miyashita, Hani Zahran
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Abstract

In order to prove that the Arabian Plate is a tectonically active region even in its shield areas, we obtained the attenuation structure tp* of the upper mantle beneath the Arabian Plate by applying the spectral inversion method to the newly established seismic network in Saudi Arabia operated by the Saudi Geological Survey (SGS). The data sets consisted of good quality vertical components of the teleseismic events for more than 4400 spectral ratios. The result showed significant and diverse tp* structures between the eastern and western regions of the Arabian Plate. High tp* was the predominant feature underneath the Arabian Shield (western Arabia) and low tp* within the Arabian Platform (eastern Arabia). The obtained tP* values range from −1.0 s to 1.0 s. The observed high tp* patterns followed a line from north to south through the Arabian Shield along the Red Sea margin. The high tp* distribution closely followed the volcanic region, in particular the Makka–Madina–Nafud Volcanic (MMNV) line. The maximum tp* values were observed in the southern region of the Arabian Shield, at the southern part of the Red Sea, where the African and Arabian Plates diverge. The observed high tp* will be attributed to the previously revealed low-velocity anomaly and thermal activities beneath the Arabian Shield, and it is also correlated with the topography (high elevation) in the region.
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阿拉伯板块下远震纵波衰减
为了证明阿拉伯板块即使在其屏蔽区内也是构造活跃区,本文在沙特阿拉伯地质调查局(SGS)新建立的沙特阿拉伯地震台网上应用谱反演方法,得到了阿拉伯板块下上地幔的衰减结构tp*。该数据集由高质量的远震事件垂直分量组成,具有4400多个谱比。结果表明,在阿拉伯板块的东西部地区,tp*结构具有显著的差异性。高tp*是阿拉伯盾(阿拉伯西部)下的主要特征,而低tp*是阿拉伯地台(阿拉伯东部)内的主要特征。获取的“tP*”取值范围为−1.0秒~ 1.0秒。观测到的高tp*模式沿着红海边缘沿阿拉伯地盾从北向南的一条线。高tp*分布紧跟火山区,特别是Makka-Madina-Nafud火山(MMNV)线。最大的tp*值出现在阿拉伯盾的南部地区,在红海的南部,非洲板块和阿拉伯板块的分界处。观测到的高tp*将归因于先前发现的阿拉伯地盾下的低速异常和热活动,并与该地区的地形(高海拔)有关。
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来源期刊
Geosciences (Switzerland)
Geosciences (Switzerland) Earth and Planetary Sciences-Earth and Planetary Sciences (all)
CiteScore
5.30
自引率
7.40%
发文量
395
审稿时长
11 weeks
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