Predicting the areas of crustal faulting in the San Francisco Bay region

We investigated the mechanism of the distinct deformation styles in fault-bounded crustal blocks in the San Francisco Bay region using a two-dimensional map-view model. The model features a nonlinear, elastoplastic (Coulomb) upper crust, and it includes all the major faults in the region. In addition to predicting accurately the long-term fault-slip rates and stress orientations in the region, the weak-fault model predicts areas of crustal faulting in close agreement with field observations. The most striking feature is the distinct spatial domains of the minimum horizontal principal stress (σ₂), which are spatially associated with the distinct deformation styles in the region. Crustal faulting is most likely to occur in areas with the least σ₂ value.