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Slip Behavior of the Queen Charlotte Plate Boundary Before and After the 2012, M W 7.8 Haida Gwaii Earthquake: Evidence From Repeating Earthquakes
Author(s) -
Hayward Tim W.,
Bostock Michael G.
Publication year - 2017
Publication title -
journal of geophysical research: solid earth
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.983
H-Index - 232
eISSN - 2169-9356
pISSN - 2169-9313
DOI - 10.1002/2017jb014248
Subject(s) - seismology , subduction , geology , episodic tremor and slip , slip (aerodynamics) , interplate earthquake , plate tectonics , seismic hazard , thrust fault , earthquake rupture , fault (geology) , tectonics , engineering , aerospace engineering
The Queen Charlotte plate boundary, near Haida Gwaii, B.C., includes the dextral, strike‐slip, Queen Charlotte Fault (QCF) and the subduction interface between the downgoing Pacific and overriding North American plates. In this study, we present a comprehensive repeating earthquake catalog that represents an effective slip meter for both structures. The catalog comprises 712 individual earthquakes (0.3≤ M W ≤3.5) arranged into 224 repeating earthquake families on the basis of waveform similarity and source separation estimates from coda wave interferometry. We employ and extend existing relationships for repeating earthquake magnitudes and slips to provide cumulative slip histories for the QCF and subduction interface in six adjacent zones within the study area between 52.3°N and 53.8°N. We find evidence for creep on both faults; however, creep rates are significantly less than plate motion rates, which suggests partial locking of both faults. The QCF exhibits the highest degrees of locking south of 52.8°N, which indicates that the seismic hazard for a major strike‐slip earthquake is highest in the southern part of the study area. The 28 October 2012, M W 7.8 Haida Gwaii thrust earthquake occurred in our study area and altered the slip dynamics of the plate boundary. The QCF is observed to undergo accelerated, right‐lateral slip for 1–2 months following the earthquake. The subduction interface exhibits afterslip thrust motion that persists for the duration of the study period (i.e., 3 years and 2 months after the Haida Gwaii earthquake). Afterslip is greatest (5.7–8.4 cm/yr) on the periphery of the main rupture zone of the Haida Gwaii event.