Constraining fault interpretation through tomographic velocity gradients: application to northern Cascadia

Ramachandran, K.

doi:10.5194/se-3-53-2012

Cited by 4 publications

(1 citation statement)

References 25 publications

(35 reference statements)

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“…Terminations of reflections on either side of the fault zone and northdipping reflections further north constrain the dip of the fault to be sub-vertical to north dipping at an angle greater than 30 degrees (Hayward et al, 2006). Ramachandran (2012) showed that spatial velocity gradients can be effectively used in identifying subsurface discontinuities in the horizontal and vertical directions. This interpretation resulted in inferring the Washington state location of the DMFZ much more clearly.…”

Section: Devil's Mountain Fault Zonementioning

confidence: 99%

Active faulting in the northern Juan de Fuca Strait: implications for Victoria, British Columbia

Barrie

Greene²

2015

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The Devil's Mountain Fault Zone extends east to west from Washington state to just south of Victoria in the northern Juan de Fuca Strait. Recently collected geophysical data were used to map this fault zone in detail, which show the main trace, and associated primary and secondary (conjugate) faults that occur within a 6 km wide deformation zone west of the Canada/U.S.A. boundary. The fault zone has been active in the Holocene as seen in the offset and disrupted upper Quaternary strata, seafloor displacement, and deformation within sediment cores taken close to the axis of the faults. Based on the length and previously estimated slip rates of the fault zone in Washington state, it appears to have the potential of producing a strong earthquake adjacent to Victoria, perhaps as large as magnitude 7.0 or greater.

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Section: Devil's Mountain Fault Zonementioning

confidence: 99%