Complexity of the 2016 M 7.8 Kaikōura, New Zealand, earthquake from seismic observation: Inferences of overpressured fluid involvement

IF 2.4 3区地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS

Physics of the Earth and Planetary Interiors Pub Date : 2024-02-09 DOI:10.1016/j.pepi.2024.107155

Tomomi Okada , Miu Matsuno , Satoshi Matsumoto , Yuta Kawamura , Yoshihisa Iio , Tadashi Sato , Ayaka Tagami , Satoshi Hirahara , Shuutoku Kimura , Stephen Bannister , John Ristau , Martha K. Savage , Clifford H. Thurber , Richard H. Sibson

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Abstract

The M 7.8 Kaikoura earthquake occurred in the northern South Island of New Zealand on 3 Nov., 2016, involving the rupture of >20 faults. To understand the complexity of the Kaikoura earthquake, details of the fault geometry, seismic velocity distribution, and stress field are necessary. We have undertaken seismic tomography along the c. 200 km length of the rupture zone. Data from both 51 temporary stations and 22 permanent (GeoNet) stations were collected from March 2011 to December 2018.

The hypocenter of the Kaikoura earthquake and aftershocks near the Kekerengu fault locate along lineaments where seismic velocity changes laterally in the epicentral region. In the uppermost crust, lower velocities occur beneath the Emu Plain and Cape Campbell. A higher velocity region near Kaikoura may have acted as a barrier that prevented eastward rupture from the hypocenter and led to the complex fault distribution in this area. These complexities in the seismic velocity structure may relate to the multi-segment rupture character of the Kaikoura earthquake. Spatial correlations between rupture areas and high Vp/Vs suggest the involvement of overpressured fluid in the nucleation and propagation of rupture segments, which is also supported by the reactivation of unfavourably oriented strike-slip ruptures, many lying at c.70° to the regional maximum compressive stress trajectories.

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从地震观测看 2016 年新西兰 M 7.8 Kaikōura 地震的复杂性：超压流体参与推断

2016 年 11 月 3 日，新西兰南岛北部发生了 M 7.8 级凯库拉地震，涉及>20 条断层的断裂。要了解凯库拉地震的复杂性，就必须详细了解断层的几何形状、地震速度分布和应力场。我们沿着约 200 公里长的断裂带进行了地震层析成像。从 2011 年 3 月到 2018 年 12 月，我们收集了 51 个临时台站和 22 个永久（GeoNet）台站的数据。凯库拉地震的震中和凯克伦古断层附近的余震位于震中区地震速度横向变化的线状区域。在地壳最上层，鸸鹋平原和坎贝尔角下方的速度较低。凯库拉附近有一个速度较高的区域，它可能是一个屏障，阻止了从震中向东的断裂，并导致了这一地区复杂的断层分布。地震速度结构的这些复杂性可能与凯库拉地震的多段断裂特征有关。断裂区域与高 Vp/Vs 之间的空间相关性表明，超压流体参与了断裂段的成核和传播，这也得到了不利走向的走向滑动断裂重新激活的支持，其中许多断裂与区域最大压缩应力轨迹成约 70°。

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来源期刊

Physics of the Earth and Planetary Interiors 地学天文-地球化学与地球物理

CiteScore

5.00

自引率

4.30%

发文量

审稿时长

18.5 weeks

期刊介绍： Launched in 1968 to fill the need for an international journal in the field of planetary physics, geodesy and geophysics, Physics of the Earth and Planetary Interiors has now grown to become important reading matter for all geophysicists. It is the only journal to be entirely devoted to the physical and chemical processes of planetary interiors. Original research papers, review articles, short communications and book reviews are all published on a regular basis; and from time to time special issues of the journal are devoted to the publication of the proceedings of symposia and congresses which the editors feel will be of particular interest to the reader.