4.5 Article

Complex Structure in the Nootka Fault Zone Revealed by Double-Difference Tomography and a New Earthquake Catalog

Journal

GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS
Volume 23, Issue 2, Pages -

Publisher

AMER GEOPHYSICAL UNION
DOI: 10.1029/2021GC010205

Keywords

tomography; cascadia; subduction; fault zone; earthquake location; double-difference

Funding

  1. NSERC CGS-D
  2. NSERC [RGPIN-2021-03039, RGPIN-2020-07066]

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An automatic earthquake detection algorithm was used to analyze seismic waveforms recorded between 2000 and 2020 in southwest British Columbia, revealing a double seismic zone within the Nootka Fault zone (NFZ) and indicating a more northerly trajectory and increased plate curvature compared to the typical subduction zones.
We employ an automatic earthquake detection algorithm to seismic waveforms recorded between the years 2000 and 2020 in southwest British Columbia. 32,121 events which possess at least three paired P- and S-wave arrival times are located, compared to 21,538 seismic events in the existing Geologic Survey of Canada catalog. This augmented catalog is employed for double-difference seismic tomography across Vancouver Island, with particular focus on the Nootka Fault zone (NFZ). The NFZ is a transform boundary that separates the Juan de Fuca and Explorer plates in a zone of distributed left-lateral strike-slip faulting. Tomographic results indicate that a double seismic zone exists within the NFZ that parallels Vp/Vs structure typically observed in subduction zones. Specifically, a dipping high Vp/Vs layer is underlain by reduced Vp/Vs material. Structural complexities are revealed by three Mw > 6 events and their aftershocks. The 2004 Mw 6.3 and 2011 Mw 6.4 events are interpreted to reside southeast of the NFZ within the Juan de Fuca plate at depths as shallow as 20 km, and the 2014 Mw 6.6 event is interpreted to reside within oceanic lithosphere of the NFZ at depths >35 km. Vp/Vs structure further indicates that underthrust oceanic lithosphere of the Explorer plate extends to 20 km depth beneath Brooks Peninsula. Our results support the hypothesis that the NFZ represents a structurally independent slice of oceanic lithosphere that exhibits (a) a more northerly trajectory than typically depicted, and (b) increased plate curvature when compared to either the Juan de Fuca or Explorer plates.

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