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Article |
U.S. Geological Survey
345 Middlefield Rd.
Menlo Park, California 94025
A dilatational step-over between the right-lateral Hayward and Rodgers
Creek faults lies beneath San Pablo Bay in the San Francisco Bay area. A key
seismic hazard issue is whether an earthquake on one of the faults could
rupture through the step-over, enhancing its maximum possible magnitude. If
ruptures are terminated at the step-over, then another important issue is how
strain transfers through the step. We developed a combined seismic reflection
and refraction cross section across south San Pablo Bay and found that the
Hayward and Rodgers Creek faults converge to within 4 km of one another near
the surface, about 2 km closer than previously thought. Interpretation of
potential field data from San Pablo Bay indicated a low likelihood of
strike-slip transfer faults connecting the Hayward and Rodgers Creek faults.
Numerical simulations suggest that it is possible for a rupture to jump across
a 4-km fault gap, although special stressing conditions are probably required
(e.g., Harris and Day, 1993,
1999). Slip on the Hayward and
Rodgers Creek faults is building an extensional pull-apart basin that could
contain hazardous normal faults. We investigated strain in the pull-apart
using a finite-element model and calculated a 
0.02-MPa/yr differential
stressing rate in the step-over on a least-principal-stress orientation nearly
parallel to the strike-slip faults where they overlap. A 1- to 10-MPa
stress-drop extensional earthquake is expected on normal faults oriented
perpendicular to the strike-slip faults every 50–500 years. The last
such earthquake might have been the 1898 M 6.0–6.5 shock in San Pablo
Bay that apparently produced a small tsunami. Historical hydrographic surveys
gathered before and after 1898 indicate abnormal subsidence of the bay floor
within the step-over, possibly related to the earthquake. We used a
hydrodynamic model to show that a dip-slip mechanism in north San Pablo Bay is
the most likely 1898 rupture scenario to have caused the tsunami. While we
find no strike-slip transfer fault between the Hayward and Rodgers Creek
faults, a normal-fault link could enable through-going segmented rupture of
both strike-slip faults and may pose an independent hazard of M 6
earthquakes like the 1898 event.
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