Unearthing the San Andreas fault zone

November 21, 2002

An in-depth analysis of major long-term research on the San Andreas fault indicates that parts of the fault are likely to experience a major temblor sooner than previously believed, including the section near Palm Springs and the San Bernardino-Riverside areas, and the Hayward Fault in the Bay Area.

These and other findings are part of a special report on the San Andreas fault system about to be released by the Bulletin of the Seismological Society of America. The research complied in the special report is the result of years and in some cases, decades, of meticulous work by 74 scientists. Even though the San Andreas fault, the main boundary fault between the Pacific and the North American plates, is the most studied fault in the world, scientists are only slowly unearthing its mysteries as revealed in deep trenches dug into 10 sites on the fault.

At the Wrightwood paleoseismic site near the eastern end of the San Gabriel Mountains, research by U.S. Geological Survey geologist Thomas Fumal and his colleagues from the University of Oregon suggests that this area may experience a major earthquake within the next 30 years. Through the earthquake history revealed in trenches for the last 1,500 years, Fumal and his colleagues documented evidence and dates of 14 well-recorded earthquakes.

Fumal noted that at this location on the San Andreas fault, the time interval between surface-rupturing earthquakes averages about 105 years. The most recent earthquake to rupture through Wrightwood was the 1857 Fort Tejon earthquake, which broke the fault for about 200 miles northwest of San Bernardino.

"At each of the paleoseismic sites from Wrightwood south, the elapsed time since the most recent large earthquake is significantly longer than the average time between earthquakes," Fumal said. "This suggests to me that at least the southernmost 120 miles of the fault may rupture in a large earthquake of 7.6 to 7.8 magnitude within the next few decades. Such an earthquake would be especially hazardous to the San Bernardino-Riverside urban area, which is developed right up to the fault."

Similar research by Fumal and his colleagues on the San Andreas fault zone at Thousand Palms Oasis near Palm Springs indicates that this part of the fault is also primed for an earthquake. The most recent large earthquake to rupture this section of the fault occurred about 320 years ago. Paleoseismic evidence recorded in the earth's layers suggest that the average time between earthquakes on this part of the fault is 215 years, though the span between earthquakes here may have been as long as 400 years or as short as a few decades.

USGS scientist Jim Lienkaemper wrote about USGS research on large paleoearthquakes - that is, "fossil" earthquakes - of the southern Hayward fault in Fremont, Calif., in the past 500 years. The Hayward fault, a major branch of the San Andreas fault, lies under one of the most densely populated parts of California. This research indicates that large earthquakes of magnitude 6.8 to 7.0 occurred on this part of the fault four times over the past 500 years, with an average recurrence span of about 130 years, plus or minus 40 years, a shorter time span than previous studies indicated. More investigations, said Lienkaemper, should discern if this shorter interval is characteristic of the fault or if an unusual cluster of activity caused it. The last of the four earthquakes occurred in 1868.

Katherine Kendrick, another USGS scientist writing in the journal, discussed the slip rate along the northern part of the San Jacinto fault, adjacent to the San Bernardino basin, noting that this research allows the possibility that the slip rate may be closer to three-fourths of an inch per year than half-inch per year usually cited . "This higher estimate of the slip rate has implications for the seismic hazard near the San Jacinto fault," Kendrick said, "because the proximity of this fault to the highly populated San Bernardino basin and the thick accumulation of sediments within the basin that amplifies ground shaking from earthquakes.

Kendrick research suggests that the northern part of the San Jacinto fault may have functioned as the plate boundary, with large or frequent earthquakes over the past 100,000 years, making it an important partner with the San Andreas fault as a source of large earthquakes in California.

These and other studies, Fumal said, are invaluable for emergency managers and state and federal officials in their ability to better understand the earthquake hazards associated with large faults, with the ultimate end result being public safety, lives saved, and major losses to the economy avoided.

The USGS serves the nation by providing reliable scientific information to describe and understand the Earth; minimize loss of life and property from natural disasters; manage water, biological, energy, and mineral resources; and enhance and protect our quality of life.
This press release and in-depth information about USGS programs may be found on the USGS home page: http://www.usgs.gov. To receive the latest USGS news releases automatically by email, send a request to listproc@listserver.usgs.gov. Specify the listserver(s) of interest from the following names: water-pr: geologic-hazards-pr; biological-pr; geologic-pr; mapping-pr; products-pr; lecture-pr. In the body of the message write: subscribe (name of listserver) (your name). Example: subscribe water-pr joe smith.

Tom Fumal,650-329-5630, thomas_fumal@usgs.gov
Jim Lienkaemper,650-329-5642 jlienk@usgs.gov
Catherine Puckett,707-442-1329 catherine_puckett@usgs.gov

US Geological Survey

Related Earthquake Articles from Brightsurf:

Healthcare's earthquake: Lessons from COVID-19
Leaders and clinician researchers from Beth Israel Lahey Health propose using complexity science to identify strategies that healthcare organizations can use to respond better to the ongoing pandemic and to anticipate future challenges to healthcare delivery.

Earthquake lightning: Mysterious luminescence phenomena
Photoemission induced by rock fracturing can occur as a result of landslides associated with earthquakes.

How earthquake swarms arise
A new fault simulator maps out how interactions between pressure, friction and fluids rising through a fault zone can lead to slow-motion quakes and seismic swarms.

Typhoon changed earthquake patterns
Intensive erosion can temporarily change the earthquake activity (seismicity) of a region significantly.

Cause of abnormal groundwater rise after large earthquake
Abnormal rises in groundwater levels after large earthquakes has been observed all over the world, but the cause has remained unknown due to a lack of comparative data before & after earthquakes.

New clues to deep earthquake mystery
A new understanding of our planet's deepest earthquakes could help unravel one of the most mysterious geophysical processes on Earth.

Fracking and earthquake risk
Earthquakes caused by hydraulic fracturing can damage property and endanger lives.

Earthquake symmetry
A recent study investigated around 100,000 localized seismic events to search for patterns in the data.

Crowdsourcing speeds up earthquake monitoring
Data produced by Internet users can help to speed up the detection of earthquakes.

Geophysics: A surprising, cascading earthquake
The Kaikoura earthquake in New Zealand in 2016 caused widespread damage.

Read More: Earthquake News and Earthquake Current Events
Brightsurf.com is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to Amazon.com.