Cordilleran Section - 103rd Annual Meeting (4–6 May 2007)

Paper No. 3
Presentation Time: 2:15 PM

RESOLVING SUBTLE EPISODES OF TREMOR AND SLIP IN CASCADIA


DRAGERT, Herb, WANG, Kelin, KAO, Honn and ROGERS, Garry, Geological Survey of Canada, Pacific Geoscience Centre, 9860 West Saanich Road, Sidney, BC V8L 4B2, Canada, hdragert@nrcan.gc.ca

Examination of the past 12 years of seismic and continuous GPS data for northwestern Washington and southern Vancouver Island has shown that this part of the Cascadia subduction zone is marked by clearly recognizable, repeated episodes of deep plate slip and seismic tremors, called Episodic Tremor and Slip (ETS). For this part of the Cascadia margin, these prolonged ETS episodes last anywhere from a week to a month and, over the past 12 years, have occurred fairly regularly with a recurrence interval of 14.5 +/-1.2 months. Shorter, more sporadic episodes of seismic tremor have been observed at other times throughout northern Cascadia, but corresponding crustal displacements have not been well resolved with GPS, leaving unanswered the question of whether the identical phenomenon is taking place for these more random tremor events. Data from PBO borehole strainmeters (BSM) recently installed under the EarthScope Project may provide the answer. A recent 4-day episode of seismic tremor in central Vancouver Is. resulted in ill-defined surface displacements at the closest continuous GPS stations. However, strain data from the BSM (B012) at Ucluelet, located on the west coast of central Vancouver Is., are consistent with an episode of slip on the deeper subducting plate interface to the northeast of this site, the region where the tremors were observed. Simple elastic dislocation models with 2 to 3 cm of slip constrained to the subducting plate interface can replicate the observed strain signal as well as the limited surface displacements. These results suggest that BSM data may prove critical in identifying more subtle slip events and that sporadic, shorter episodes of tremor can be associated with slip on smaller asperities.