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Creep on the Rodgers Creek fault, northern San Francisco Bay area from a 10 year PS‐InSAR dataset
Author(s) -
Funning Gareth J.,
Bürgmann Roland,
Ferretti Alessandro,
Novali Fabrizio,
Fumagalli Alfio
Publication year - 2007
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1029/2007gl030836
Subject(s) - interferometric synthetic aperture radar , geology , creep , seismology , san andreas fault , slip (aerodynamics) , bay , fault (geology) , geodesy , synthetic aperture radar , remote sensing , oceanography , materials science , physics , composite material , thermodynamics
Deformation in the northern San Francisco Bay area is dominated by a series of sub‐parallel strike‐slip faults. Existing GPS observations provide some constraint on the slip rates of these faults, however these have only limited resolution for resolving shallow fault behavior, such as brittle creep. We use a 30 image Permanent Scatterer InSAR (PS‐InSAR) dataset spanning the time interval 1992–2001 to dramatically increase the density of surface deformation observations. We find a discontinuity in observed surface velocities across the Rodgers Creek fault, around Santa Rosa and further north, consistent with shallow creep at rates of up to 6 mm/yr. The creeping segments are located in areas of local transtension, suggesting that lowered normal stresses may play a role in the distribution of creep. The existence of creep could significantly reduce expected moment release in future earthquakes on the Rodgers Creek fault, and thus has implications for seismic hazard assessment.