“Aftershock Faults” and what they could mean for seismic hazard assessment
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Abstract
We study stress‐loading mechanisms for the California faults used in rupture forecasts. Stress accumulation drives earthquakes, and that accumulation mechanism governs recurrence. Most moment release in California occurs because of relative motion between the Pacific plate and the Sierra Nevada block; we calculate relative motion directions at fault centers and compare with fault displacement directions. Dot products between these vectors reveal that some displacement directions are poorly aligned with plate motions. We displace a 3D finite‐element model according to relative motions and resolve stress tensors onto defined fault surfaces, which reveal that poorly aligned faults receive no tectonic loading. Because these faults are known to be active, we search for other loading mechanisms. We find that nearly all faults with no tectonic loading show increase in stress caused by slip on the San Andreas fault, according to an elastic dislocation model. Globally, faults that receive a sudden stress change respond with triggered earthquakes that obey an Omori law rate decay with time. We therefore term this class of faults as “aftershock faults.” These faults release ∼4% of the moment release in California, have ∼0.1%–5% probability of M 6.7 earthquakes in 30 yr, and have a 0.001%–1% 30 yr M 7.7 probability range.
Study Area
| Publication type | Article |
|---|---|
| Publication Subtype | Journal Article |
| Title | “Aftershock Faults” and what they could mean for seismic hazard assessment |
| Series title | The Seismic Record |
| DOI | 10.1785/0320220036 |
| Volume | 3 |
| Issue | 1 |
| Year Published | 2023 |
| Language | English |
| Publisher | Seismological Society of America |
| Contributing office(s) | Pacific Coastal and Marine Science Center |
| Description | 11 p. |
| First page | 1 |
| Last page | 11 |
| Country | United States |
| State | California |
| Google Analytic Metrics | Metrics page |