Southern California faults
Most of central and northern California rests on a crustal block (terrane) that is being torn from the North American continent by the passing Pacific plate of oceanic crust. Southern California lies at the southern end of this block, where the Southern California faults create a complex and even chaotic landscape of seismic activity.
Fault modeling
[edit]Seismic, geologic, and other data has been integrated by the Southern California Earthquake Center (renamed "Statewide California Earthquake Center" in October 2023) to produce the Community Fault Model (CFM) database that documents over 140 faults in southern California considered capable of producing moderate to large earthquakes.[1] A three-dimensional (3D) model has been derived that can be viewed with suitable visualization software (see image).[2] The probability of a serious earthquake on various faults has been estimated in the 2008 Uniform California Earthquake Rupture Forecast. According to the United States Geological Survey, Southern California experiences nearly 10,000 earthquakes every year.[3] Details on specific faults can be found in the USGS Quaternary Fault and Fold Database.
Historical earthquakes
[edit]Southern California faults have been responsible for many high magnitude and high-impact earthquakes.[4]
- 2019 Ridgecrest earthquake
- 1999 Hector Mine earthquake
- 1994 Northridge earthquake
- 1992 Landers earthquake
- 1971 San Fernando earthquake
- 1952 Kern County earthquake
- 1933 Long Beach earthquake
- 1857 Fort Tejon earthquake
Most active faults
[edit]- San Andreas Fault
- San Jacinto Fault Zone
- Elsinore Fault Zone
- Newport-Inglewood Fault
- Garlock Fault
- Puente Hills Fault
- Sierra Madre Fault Zone
Effect on geography
[edit]Southern California's complex rock formations are a result of uplift by the region's active faults. The San Gabriel and San Bernardino Mountains gained their height from the displacement of brittle granite crust by the San Andreas and the Elsinore Faults. Movement of the Sierra Madre and Raymond Fault have both lifted the northern Los Angeles Basin while depressing the southern region. The close proximity of tall mountains and deep valleys in Southern California is a direct result of the closely nestled faults of the region.[5]
Effect on climate
[edit]The tall fault block mountains surrounding the Los Angeles region trap moisture and encourage rainfall. Without these natural barriers mediating the local climate, Los Angeles might be as dry and hot as the Eastern deserts of California. On the other hand, it has been noted that the encircling mountains tend to trap smog, causing it to accumulate in the populated region instead of moving out to sea or further inland.[5]
See also
[edit]- Basin and range topography
- Basin and Range Province
- California earthquake forecast (UCERF)
- Earthquake insurance
- List of earthquakes in California
- Plate tectonics
- Seismology
- Transverse Ranges
- Walker Lane
References
[edit]Notes
- ^ Plesch & others 2007.
- ^ See External links for download url.
- ^ "Cool Earthquake Facts | U.S. Geological Survey". United States Geological Survey. Retrieved 2024-10-05.
- ^ "Southern California Earthquake Data Center at Caltech". Southern California Earthquake Data Center. Retrieved 2024-10-20.
- ^ a b Buwalda, John P. "Geologic Faulting in Southern California.", (February 1948) https://calteches.library.caltech.edu/873/1/Faulting.pdf. Retrieved 2024-10-20.
Bibliography
- Plesch, A.; et al. (December 2007), "Community Fault Model (CFM) for Southern California" (PDF), Bulletin of the Seismological Society of America, 97 (6): 1793–1802, Bibcode:2007BuSSA..97.1793P, CiteSeerX 10.1.1.468.4206, doi:10.1785/0120050211
External links
[edit]- U.S. Geological Survey
- USGS Quaternary Fault and Fold Database A complete listing of known, geologically recent faults.
- Statewide California Earthquake Center
- Community Fault Model site, with images.