S31A-2705
Toward Expanding Tremor Observations in the Northern San Andreas Fault System in the 1990s

Wednesday, 16 December 2015
Poster Hall (Moscone South)
Landon Gray Damiao1, Douglas Scott Dreger1, Robert M Nadeau1, Taka'aki Taira1, Aurélie Guilhem2 and Brenda Luna3, (1)University of California Berkeley, Berkeley, CA, United States, (2)CEA/DAM/DIF, F-91297 Arpajon, France, (3)UC Berkeley Seismological Laboratory, Berkeley, CA, United States
Abstract:
The connection between tremor activity and active fault processes continues to expand our understanding of deep fault zone properties and deformation, the tectonic process, and the relationship of tremor to the occurrence of larger earthquakes. Compared to tremors in subduction zones, known tremor signals in California are ~5 to ~10 smaller in amplitude and duration. These characteristics, in addition to scarce geographic coverage, lack of continuous data (e.g., before mid-2001 at Parkfield), and absence of instrumentation sensitive enough to monitor these events have stifled tremor detection. The continuous monitoring of these events over a relatively short time period in limited locations may lead to a parochial view of the tremor phenomena and its relationship to fault, tectonic, and earthquake processes. To help overcome this, we have embarked on a project to expand the geographic and temporal scope of tremor observation along the Northern SAF system using available continuous seismic recordings from a broad array of 100s of surface seismic stations from multiple seismic networks. Available data for most of these stations also extends back into the mid-1990s. Processing and analysis of tremor signal from this large and low signal-to-noise dataset requires a heavily automated, data-science type approach and specialized techniques for identifying and extracting reliable data. We report here on the automated, envelope based methodology we have developed. We finally compare our catalog results with pre-existing tremor catalogs in the Parkfield area.