Significant geometric variation of the subducted plate beneath the northernmost Cascadia subduction zone and its tectonic implications as revealed by the 2014 M 6.4 earthquake sequence.

Hutchinson, Jesse, Kao, Honn, Riedel, Michael , Obana, Koichiro, Wang, Kelin, Kodaira, Shuichi, Takahashi, Tsutomo and Yamamoto, Yojiro (2020) Significant geometric variation of the subducted plate beneath the northernmost Cascadia subduction zone and its tectonic implications as revealed by the 2014 M 6.4 earthquake sequence. Earth and Planetary Science Letters, 551 . Art.Nr. 116569. DOI 10.1016/j.epsl.2020.116569.

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Supplementary data:

Abstract

Highlights

• Hypocenters within the subducted Explorer plate indicate slab deformation.
• The oceanic slab is bending downward toward the northwest.
• A complex sequence of focal mechanisms also indicates plate deformation.
• Decreased seismic activity in the overriding plate indicates decoupling to the NW.
• Deformation and decoupling could limit megathrust rupture propagation.

Abstract

At the northernmost extent of the Cascadia subduction zone, the Explorer plate subducts at approximately 2 cm/yr, less than half the rate of the Juan de Fuca plate to the south. The boundary between these two plates is known as the Nootka fault zone, which is one of the focuses of the Seafloor Earthquake Array Japan-Canada Cascadia Experiment (SeaJade). During this survey, an
6.4 earthquake occurred on 24 April 2014. This event and the subsequent aftershocks (referred to as the Nootka Sequence) reveal an approximately 40-km-long subducted fault within the Explorer Plate to the north of the Nootka fault zone. We infer that the fault is a subducted conjugate fault because of its nearly identical orientation to those seaward of the subduction front within the Nootka fault zone. The depth distribution and focal mechanisms of the aftershocks indicate significant margin-parallel deformation of the subducting plate. The subduction interface at the Nootka Sequence fault has been deflected downward to the northwest from a depth of approximately 15 – 25 km over a distance of 25 km. We propose two possible scenarios that are modified from previously suggested slab-tear model with induced margin-parallel mantle flow to explain the significant deformation of the young, warm subducting Explorer plate. To the northwest of this change in slab geometry, a lack of seismic activity above the plate interface indicates that the Explorer plate has partially decoupled from the overriding North America plate. We conclude that the geometric variation separating the southern Explorer plate from the north, along with decoupling and a possible intraslab tear, may be a significant combination to resist the propagation of a megathrust rupture across this boundary.

Document Type: Article
Keywords: Cascadia subduction zone, Explorer plate, megathrust, Nootka fault zone, plate deformation
Research affiliation: JAMSTEC
OceanRep > GEOMAR > FB4 Dynamics of the Ocean Floor > FB4-GDY Marine Geodynamics
Refereed: Yes
Open Access Journal?: No
Publisher: Elsevier
Date Deposited: 28 Sep 2020 12:30
Last Modified: 08 Feb 2023 09:39
URI: https://oceanrep.geomar.de/id/eprint/50591

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