The Salton Seismic Imaging Project

Feature

Studying Earthquake Hazards and Rifting Processes in the Imperial and Coachella Valleys

Space shuttle image depicting area's geologic features

Southern California consists of two of Earth’s plates (the Pacific and North American plates) moving past each other. The boundary between the two plates is quite crooked. Heavy red lines indicate the San Andreas and related faults. As the two plates move past each other along these faults (in the directions of the small white arrows), earthquakes occur. The purple lines indicate locations between these faults where the Earth is being pulled apart, creating a deep valley or even new ocean. Volcanoes and underground magma in these areas create geothermal energy and hot springs (CPG is Cerro Prieto Geothermal area; BSZ is Brawley Seismic Zone and geothermal area). In the Transverse Ranges, where the San Andreas Fault undergoes a “Big Bend,” the plates are pushing against each other (heavy white arrows), building mountains, which are uplifted along thrust faults (the thin red lines with teeth). Thus, mountain building and valley subsidence are occurring very close to each other in this part of southern California.

The Imperial and Coachella Valleys, located in the Salton Trough, are forming by active plate tectonic processes. From the Imperial Valley southward into the Gulf of California, plate motions are rifting the continent apart. In the Coachella Valley, the plates are sliding past one another along the San Andreas and related faults. These processes build the stunning landscapes of the region, but also produce damaging earthquakes.

Rupture of the southern section of the San Andreas Fault, from the Coachella Valley to the Mojave Desert, is believed to be the greatest natural hazard that California will face in the near future. With an estimated magnitude between 7.2 and 8.1, such an earthquake would result in violent shaking, loss of life, and disruption of lifelines (freeways, aqueducts, power, petroleum, and communication lines) that will bring much of southern California to a standstill.

As part of the nation’s effort to avert a catastrophe of this magnitude, a number of projects are underway to more fully understand and mitigate the effects of such an event. One project, funded jointly by the National Science Foundation (NSF) and the U.S. Geological Survey (USGS), is to understand through “seismic imaging” the structure of the Earth surrounding the San Andreas Fault, including the sedimentary basins on which cities are built.

This project, the Salton Seismic Imaging Project (SSIP), will create images of underground structure and sediments in the Imperial and Coachella Valleys and adjacent mountain ranges to investigate the earthquake hazards they pose to cities in this area. Importantly, the images will determine the underground geometry of the San Andreas Fault, how deep the sediments are, and how fast earthquake energy can travel through the sediments. All of these factors determine how hard the Earth will shake during a major earthquake. If we can better understand how and where earthquakes and strong shaking will occur, then buildings can be better designed or retrofitted to resist damage and collapse, and emergency plans can be prepared.

More Information

  1. Background information (2.5 Mb .pdf)
  2. Frequently Asked Questions (92 Kb .pdf)
  3. Environmental Assessment of our activities (1.5 Mb .pdf)
  4. Preliminary Results (58 Mb .pdf)

These preliminary results have not received Director’s approval and as such are provisional and subject to revision. The data are released on the condition that neither the USGS nor the United States Government may be held liable for any damages resulting from authorized or unauthorized use.

Scientific Staff

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