All About the San Andreas Fault

The San Andreas Fault is a crack in the Earth's crust in California, some 680 miles long. Many earthquakes have occurred along it, including famous ones in 1857, 1906 and 1989. The fault marks the boundary between the North American and Pacific lithospheric plates. Geologists divide it into several segments, each with its own distinct behavior. A research project has drilled a deep hole across the fault to study the rock there and listen for earthquake signals. In addition, the geology of the rocks around it sheds light on the fault's history.

Where It Is

California geologic map
California geologic map. California Geological Survey

The San Andreas Fault is the foremost of a set of faults along the boundary between the Pacific Plate on the west and the North American Plate on the east. The west side moves north, causing earthquakes with its movement. The forces associated with the fault have pushed up mountains in some places and stretched apart large basins in others. The mountains include the Coast Ranges and the Transverse Ranges, both of which consist of many smaller ranges. The basins include the Coachella Valley, the Carrizo Plain, the San Francisco Bay, the Napa Valley ​and many others. A California geologic map shows you more.

The Northern Segment

Northern San Andreas fault
View south toward Loma Prieta. Geology Guide photo

The northern segment of the San Andreas Fault extends from Shelter Cove to the south of the San Francisco Bay area. This whole segment, about 185 miles long, ruptured on the morning of April 18, 1906, in a magnitude-7.8 earthquake whose epicenter was just offshore, south of San Francisco. In some places the ground shifted by 19 feet, ripping roads, fences, and trees apart. "Earthquake trails" on the fault, with explanatory signs, can be visited atFort Ross, Point Reyes National Seashore, Los Trancos Open Space Preserve, Sanborn County Park and Mission San Juan Bautista. Small portions of this segment ruptured again in 1957 and 1989 but quakes the size of 1906's are not considered likely today.

The 1906 San Francisco Earthquake

1906 San Francisco Earthquake
The Ferry Building stayed open. Geology Guide photo

The April 18, 1906, earthquake occurred just before dawn and was felt in much of the state. Major downtown buildings like the Ferry Building (see image), well designed by contemporary standards, came through the shaking in good condition. But with the water system disabled by the quake, the city was helpless against the fires that followed. Three days later nearly all of San Francisco's center had burned out, and some 3,000 people had died. Many other cities, including Santa Rosa and San Jose, also suffered severe destruction. During reconstruction, better building codes gradually came into force, and today California builders are much more careful about earthquakes. Local geologists discovered and mapped the San Andreas Fault at this time. The event was a landmark in the young science of seismology.

The Creeping Segment

san andreas fault
The fault in Bird Creek canyon. Geology Guide photo

The creeping segment of the San Andreas Fault extends from San Juan Bautista, near Monterey, to the short ​Parkfield segment deep in the Coast Ranges. While elsewhere the fault is locked and moves in major earthquakes, here there is a constant steady movement of about an inch per year and relatively small quakes. This kind of fault motion, called aseismic creep, is rather rare. Yet this segment, the related Calaveras Fault and its neighbor the Hayward Fault all exhibit creep, which slowly bends roadways and pulls buildings apart.

The Parkfield Segment

Parkfield segment
Geology Guide photo

The Parkfield segment is at the center of the San Andreas Fault. Barely 19 miles long, this segment is special because it has its own set of magnitude-6 earthquakes that don't involve the neighboring segments. This seismological feature plus three other advantages—the fault's relatively simple structure, the lack of human disturbance and its accessibility to geologists from San Francisco and Los Angeles—make the tiny, colorful town of Parkfield a destination out of proportion to its size. A swarm of seismic instruments has been deployed for several decades to catch the next "characteristic earthquake," which finally came on September 28, 2004. The SAFOD drilling project pierces the fault's active surface just north of Parkfield.

The Central Segment

San Andreas fault
Geology Guide Photo

The central segment is defined by the magnitude-8 earthquake of January 9, 1857, which broke the ground for about 217 miles from the hamlet of Cholame near Parkfield to Cajon Pass near San Bernardino. Shaking was felt over most of California, and motion along the fault was 23 feet in places. The fault takes a large bend in the San Emigdio Mountains near Bakersfield, then runs along the south edge of the Mojave Desert at the foot of the San Gabriel Mountains. Both ranges owe their existence to the tectonic forces across the fault. The central segment has been fairly quiet since 1857, but trenching studies document a long history of great ruptures that will not stop.

The Southern Segment

USGS Photo

From Cajon Pass, this segment of the San Andreas Fault runs about 185 miles to the shores of the Salton Sea. It splits into two strands in the San Bernardino Mountains that rejoin near Indio, in the low-lying Coachella Valley. Some aseismic creep is documented in parts of this segment. At its south end, the motion between the Pacific and North American plates shifts to a stair step series of spreading centers and faults that run down the Gulf of California. The southern segment has not ruptured since sometime before 1700, and it is widely considered overdue for an earthquake of approximately magnitude 8.

Documenting Fault Offset

Distinctive rocks are widely separated by the fault
Geology Guide photo

Distinctive rocks and geologic features are found widely separated on both sides of the San Andreas Fault. These can be matched across the fault to help unravel its history over geologic time. The records of such "piercing points" show that the plate motion has favored different parts of the San Andreas Fault system at different times.Piercing points ​have clearly demonstrated at least 185 miles of offset along the fault system in the last 12 million years. Research may locate even more extreme examples as time goes on.

Transform Plate Boundaries

The San Andreas Fault is a transform or strike-slip fault that moves sideways, rather than the more common faults that move up on one side and down on the other. Nearly all transform faults are short segments in the deep sea, but those on land are noteworthy and dangerous. The San Andreas Fault began forming about 20 million years ago with a change in plate geometry that took place when a large oceanic plate started subducting beneath California. The last bits of that plate are being consumed under the Cascadia coast, from northern California to Vancouver Island in Canada, plus a small remnant in southern Mexico. As that happens, the San Andreas Fault will continue to grow, perhaps to twice today's length.

Read More About the San Andreas Fault

The San Andreas Fault looms large in the history of earthquake science, but it's not just important to geologists. It has helped create California's unusual landscape and its rich mineral wealth. Its earthquakes have changed American history. The San Andreas Fault has affected how governments and communities across the country prepare for disasters. It has shaped the California personality, which in turn affects the national character. Moreover, the San Andreas Fault is becoming a destination of its own for residents and visitors.