Crustal strain near the big bend of the San Andreas fault: Analysis of the Los Padres-Tehachapi trilateration networks, California
- Geological Survey, Menlo Park, CA (United States)
- Stanford Univ., CA (United States)
In the region of the Los Padres-Tehachapi geodetic network, the San Andreas fault (SAF) changes its orientation by over 30{degree} from N 40{degree}W, close to that predicted by plate motion for a transform boundary, to N 73{degree}W. The strain orientation near the SAF is consistent with right-lateral shear along the fault, with maximum shear rate of 0.38 {plus minus} 0.01 {mu}rad/yr at N 63{degree}W. In contrast, away from the SAF the strain orientations on both sides of the fault are consistent with the plate motion direction, with maximum shear rate of 0.19 {plus minus} 0.01 {mu}rad/yr at N 44{degree}W. The strain rate does not drop off rapidly away from the fault, and thus the area is fit by either a broad shear zone below the SAF or a single fault with a relatively deep locking depth. The fit to the line length data is poor for locking depth d less than 25 km. For d of 25 km a buried slip rate of 30 {plus minus} 6 mm/yr is estimated. The authors also estimated buried slip for models that include the Garlock and Big Pine faults, in addition to the SAF. Slip rates on other faults are poorly constrained by the Los Padres-Tehachapi network. The best fitting Garlock fault model had computed left-lateral slip rate of 11 {plus minus} 2 mm/yr below 10 km. Buried left-lateral slip of 15 {plus minus} 6 mm/yr on the Big Pine fault, within the Western Transverse Ranges, provides significant reduction in line length residuals; however, deformation there may be more complicated than a single vertical fault. A subhorizontal detachment on the southern side of the SAF cannot be well constrained by these data. The authors investigated the location of the SAF and found that a vertical fault below the surface trace fits the data much better than either a dipping fault zone located south of the surface trace.
- OSTI ID:
- 5010181
- Journal Information:
- Journal of Geophysical Research; (United States), Vol. 95:B2; ISSN 0148-0227
- Country of Publication:
- United States
- Language:
- English
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580000* - Geosciences