Morphological differences across the Shumagin-Semidi fault segments control slip behaviors and tsunami genesis in the Aleutian-Alaska subduction zone

IF 2.9 Q2 GEOGRAPHY, PHYSICAL
Qiang Qiu , Linlin Li , Xiaodong Yang , Jian Lin , Constance Ting Chua
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引用次数: 0

Abstract

Rupture behaviors of a subduction megathrust define the slip type, the extent and the associated tsunami hazard. They are, however, difficult to be defined precisely due to limited fault-zone observations. Here, we integrate GNSS, tsunami-waveforms, seismic-profiles, and earthquake-cycle modeling to delineate the slip-extent of the 2020 Mw 7.8 Simeonof and the 2021 Mw 8.2 Chignik earthquakes in the Semidi segment; and to understand the possible structural and mechanical control on the distinct rupture behaviors of this segment and its neighboring Shumagin segment at the Aleutian-Alaska subduction zone. We show that both the Simeonof and Chignik earthquakes slipped a compact area at depth between ∼20 and 40 km that is well constrained by the combination of GNSS and tsunami-waveform data. We explain the distinct slip behaviors associated with the Semidi and Shumagin segments by highlighting the morphological changes in the fault along the strike direction. Beneath the Shumagin Island, we identify a structural-mechanical boundary that separates the megathrust into Semidi (east) and Shumagin (west) two segments. Semidi is gentle and curved; while Shumagin is steep and planar. The Semidi segment produces spatially-heterogenous stress field, and generates partial, full, complex ruptures as indicated in modeled cycles and in historical seismic observations. Meanwhile the Shumagin segment, coincides with the ocean-continent transition boundary – the Beringian margin, tend to generate slow-slip-events, tremors, otherwise, generates small or moderate seismicity as indicated in the modeled cycles and in seismic records since 1750. Our findings indicate that Semidi is likely to rupture in a chaotic fashion with major or large earthquakes, resulting a greater tsunami hazard like the 1938 Mw 8.2 event. The tsunami potential in the Unimak segment may also remain high.

舒马金-塞米迪断层段的形态差异控制着阿留申-阿拉斯加俯冲带的滑动行为和海啸成因
俯冲大地壳的断裂行为决定了滑动类型、范围和相关的海啸危害。然而,由于对断层区的观测有限,很难对它们进行精确定义。在此,我们整合了全球导航卫星系统、海啸波形、地震剖面图和地震周期模型,以划定塞米迪地段 2020 年 7.8 级 Simeonof 地震和 2021 年 8.2 级 Chignik 地震的滑动范围,并了解阿留申-阿拉斯加俯冲带该地段及其邻近的舒马金地段的不同断裂行为可能受到的结构和机械控制。我们的研究表明,Simeonof 地震和 Chignik 地震都使深度在 20 至 40 千米之间的一个紧凑区域发生滑动,该区域受到全球导航卫星系统(GNSS)和海啸波形数据的良好约束。我们通过强调断层沿走向的形态变化来解释塞米迪段和舒马金段的不同滑动行为。在舒马金岛下方,我们确定了一个结构-机械边界,该边界将大断层分为塞米迪(东段)和舒马金(西段)两段。塞米迪段地势平缓,呈弧形;而舒马金段地势陡峭,呈平面。塞米迪地段产生空间异源应力场,并产生部分、完全、复杂的断裂,这在模型循环和历史地震观测中都有所体现。与此同时,舒马金地段与海洋-大陆过渡边界--白令海边缘相吻合,往往会产生缓慢的滑动事件、震颤,否则,就会产生小震或中震,这在模型周期和 1750 年以来的地震记录中都有显示。我们的研究结果表明,塞米迪很可能在发生大地震时以混乱的方式破裂,从而导致更大的海啸危害,如 1938 年发生的 8.2 级地震。尤尼马克(Unimak)地段的海啸潜势也可能居高不下。
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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来源期刊
Quaternary Science Advances
Quaternary Science Advances Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
4.00
自引率
13.30%
发文量
16
审稿时长
61 days
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