Interseismic Ground Deformation and Fault Slip Rates in the Greater San Francisco Bay Area From Two Decades of Space Geodetic Data

The detailed spatial variations of strain accumulation and creep on major faults in the northern San Francisco Bay Area (North Bay), which are important for seismic potential and evaluation of natural hazards, remain poorly understood. Here we combine interferometric synthetic aperture radar data fr...

Full description

Saved in:
Bibliographic Details
Published in:Journal of geophysical research. Solid earth 2018-09, Vol.123 (9), p.8095-8109
Main Authors: Xu, Wenbin, Wu, Songbo, Materna, Kathryn, Nadeau, Robert, Floyd, Michael, Funning, Gareth, Chaussard, Estelle, Johnson, Christopher W., Murray, Jessica R., Ding, Xiaoli, Bürgmann, Roland
Format: Article
Language:English
Subjects:
Accumulation
Basins
Cenozoic
Coastal inlets
Creeks
Data
Deformation
Earthquakes
Elastic deformation
Evaluation
Fault lines
Fault zones
Faults
Geological faults
Geophysics
GEOSCIENCES
Geothermal fields
Geysers
Global positioning systems
GPS
Hazards
Hot springs
Hydrology
Interferometric synthetic aperture radar
Radar
Radar data
Remote sensing
SAR (radar)
Satellite navigation systems
Satellites
Seismic activity
Slip
Solifluction
Spaceborne remote sensing
Spatial data
Spatial variations
Strain
Synthetic aperture radar
Synthetic aperture radar interferometry
Velocity distribution
Wavelength
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The detailed spatial variations of strain accumulation and creep on major faults in the northern San Francisco Bay Area (North Bay), which are important for seismic potential and evaluation of natural hazards, remain poorly understood. Here we combine interferometric synthetic aperture radar data from the ERS‐1/2 and Envisat satellites between 1992 and 2010 with continuous and campaign GPS data to obtain a high spatial and temporal coverage of ground deformation of the North Bay. The SAR data from both ascending and descending orbits are combined to separate horizontal and vertical components of the deformation. We jointly invert the horizontal component of the mean velocities derived from these data to infer the deep strike‐slip rates on major locked faults. We use the estimated deep rates to simulate the long‐wavelength deformation due to interseismic elastic strain accumulation along these locked faults. After removing the long‐wavelength signal from the InSAR horizontal mean velocity field, we estimate fault‐parallel surface creep rates of up to 2 mm/year along the central section of the Rodgers Creek fault and surface creep rates ranging between 2 and 4 mm/year along the Concord fault. No surface creep is geodetically resolved along the West Napa and Green Valley fault zones. We identified characteristically repeating earthquakes on the Rodgers Creek fault, the West Napa fault, the Green Valley fault, and the Concord fault. Nontectonic deformation in the Geysers geothermal field and in Late Cenozoic basins (Rohnert Park and Sonoma basins) are also observed, likely due to hydrological and sediment‐compaction processes, respectively. Key Points Interseismic ground deformation map of the greater San Francisco Bay Area is generated Deep strike‐slip rates on major locked faults are estimated Surface creeping signals are observed on the Rodgers Creek fault and the Concord fault
ISSN:2169-9313
2169-9356
DOI:10.1029/2018JB016004