The Spatiotemporal properties of afterslip following the 2016 Kaikoura earthquake in New Zealand from GPS observations: Its complementary and inherited patterns with coseismic slip

IF 2.8 3区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
Lupeng Zhang, Guojie Meng, Yawen She
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Abstract

Summary The Mw 7.8 Kaikoura earthquake, which occurred on November 13, 2016, ruptured a complex system of strike-slip and reverse faults in northeastern South Island, New Zealand. However, the postseismic afterslip behavior and its relationship to the coseismic slip remain incompletely understood. This study investigates the spatiotemporal characteristics of afterslip following the mainshock by using four years of position data from 58 continuous GPS (cGPS) stations, considering the viscoelastic relaxation. Meanwhile, this study considers the contributions of crustal and the interface faults when exploring the combined effect of afterslip and viscoelastic relaxation. Results reveal substantial coseismic deformation northeastern of the epicenter, and postseismic displacements exhibit a continuation of the northeastward evolution. The primary coseismic slip occurred along the Kekerengu and Jordan Thrust faults, while secondary slip was accommodated by the Humps fault and the shallow subduction interface. Two primary afterslip zones are identified: one extending downdip from the secondary coseismic slip areas, and the other adjacent to shallow primary coseismic slip areas near the seismogenic Needles and Hope faults. The afterslip distribution exhibits a spatially complementary pattern to the coseismic slip areas, suggesting that velocity-strengthening zones may have hindered coseismic rupture propagation. The total seismic moment released by afterslip is estimated at ∼2.51×1020 N·m (Mw ∼7.53), approximately 30% of the coseismic moment. Meanwhile, about 80% of the postseismic seismic moment is ascribed to the slip along the southern subduction interface, suggesting the subduction fault plays an important role during postseismic slip. Temporal evolution modeling highlights that roughly 55% of the total afterslip moment was released within the initial three months. Postseismic afterslip dominated during the first month following the earthquake, with a slip rate of ∼10 mm/day. This rate subsequently decreased to ∼5 mm/day over the following two to three months, indicating that the majority of postseismic afterslip occurred shortly after the mainshock. In contrast to the earlier afterslip stages, the latter stages show continued movement along the Needles fault and the subduction interface. Cumulative peak slips have reached 2 cm since mid-2018, with fault slip rates decreasing to approximately 0.6-1.0 mm/day. This indicates ongoing afterslip at shallow faults and the subduction interface, with a steady slip rate over time. Importantly, the cumulative Coulomb stress changes induced by both coseismic slip and afterslip have increased the earthquake hazards potential near the Wellington fault, a densely populated region warranting further investigation.
通过全球定位系统观测发现的 2016 年新西兰凯库拉地震后的后滑动时空特性:其与同震滑移的互补和继承模式
摘要 2016 年 11 月 13 日发生的威力 7.8 级凯库拉(Kaikoura)地震破坏了新西兰南岛东北部一个由走向滑动断层和逆断层组成的复杂系统。然而,人们对地震后的后滑行为及其与共震滑动的关系仍不甚了解。本研究利用 58 个连续全球定位系统(cGPS)站四年的定位数据,考虑粘弹性松弛,研究了主震后余震滑动的时空特征。同时,本研究在探讨余震和粘弹性松弛的综合效应时考虑了地壳和界面断层的贡献。研究结果表明,震中东北部发生了巨大的同震变形,震后位移继续向东北方向演化。主要的同震滑动发生在凯克伦古断层和约旦推断断层沿线,而次级滑动则由驼峰断层和浅层俯冲界面承担。确定了两个原生后滑动带:一个从次级共震滑动区向下延伸,另一个毗邻产生地震的针状断层和希望断层附近的浅层原生共震滑动区。后滑动分布在空间上与同震滑动区形成互补,表明速度加强区可能阻碍了同震断裂的传播。后滑动释放的总地震力矩估计为 2.51×1020 N-m(Mw ∼7.53),约为共震力矩的 30%。同时,约80%的震后地震力矩归因于沿南部俯冲界面的滑动,表明俯冲断层在震后滑动中发挥了重要作用。时间演化模型显示,约55%的后滑动总力矩是在最初三个月内释放的。震后后滑动在震后第一个月内占主导地位,滑动速率为∼10毫米/天。在随后的两三个月内,这一速率下降到每天 5 毫米,表明大部分震后余滑发生在主震后不久。与早期的后滑阶段不同,后滑阶段显示出尼德尔斯断层和俯冲界面的持续运动。自 2018 年年中以来,累计峰值滑动已达 2 厘米,断层滑动速率降至约 0.6-1.0 毫米/天。这表明浅层断层和俯冲界面正在发生后滑移,随着时间的推移,滑移率保持稳定。重要的是,同震滑动和后滑动引起的累积库仑应力变化增加了惠灵顿断层附近的地震危害潜力,该地区人口稠密,值得进一步研究。
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
Geophysical Journal International
Geophysical Journal International 地学-地球化学与地球物理
CiteScore
5.40
自引率
10.70%
发文量
436
审稿时长
3.3 months
期刊介绍: Geophysical Journal International publishes top quality research papers, express letters, invited review papers and book reviews on all aspects of theoretical, computational, applied and observational geophysics.
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