We are well into the fall, but California weather is, well, really nice (and please use the word "drought" quietly around here; it is a touchy subject). Although each week in the month of November brings more snow to the high country of the Sierra Nevada, the Coast Ranges can be visited all year, and so 15 of my students joined me Saturday on a tour of the San Andreas fault in the vicinity of Hollister and Pinnacles National Monument. The town of Hollister has been famous among geologists for years as an example of a place where active fault creep can be observed.
The Calaveras fault is part of the San Andreas system, and is closely related to the Hayward fault that tracks through the towns of the east shore of San Francisco Bay, including Oakland, Berkeley, and Hayward. Because the Calaveras fault in Hollister is creeping, it probably does not build up as much stress, and thus does not produce large earthquakes. Farther north, the fault is locked and building up considerable stress, and as such is capable of producing much more damaging earthquakes. A magnitude 7.0+ quake is not unlikely along this fault.
The retaining wall in the top photo has been used in many textbooks as an example of historical fault offset. The sidewalk and walls are probably 50-60 years old, and have moved a couple of feet. The house nearby is built directly on the fault trace, and year after year is increasingly stressed, to the extent that the foundation must be replaced every so often (they raise the house off the foundation to do the work). Note that the far side of the fault has moved to the right from the photographer's perspective. This indicates that the Calaveras is a right lateral fault, just like the San Andreas.
The street next to the retaining wall (second photo) was repaved within the last couple of years, but is already showing the effects of creep. The pavement is showing a series of diagonal cracks called riedel shears. Before long the surface will break into a single continuous crack.
The adjacent new sidewalk has already split, and has been repaired (third photo).