A Comparison among Observations and Earthquake Simulator Results for the allcal2 California Fault Model
Autor: | M. K. Sachs, E. M. Heien, Fred F. Pollitz, M. Burak Yikilmaz, Terry E. Tullis, Donald L. Turcotte, Steven N. Ward, Louise H. Kellogg, John B. Rundle, Keith Richards-Dinger, Edward H. Field, Michael Barall, James H. Dieterich |
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Rok vydání: | 2012 |
Předmět: | |
Zdroj: | Seismological Research Letters. 83:994-1006 |
ISSN: | 1938-2057 0895-0695 |
DOI: | 10.1785/0220120094 |
Popis: | Online Material: Supplemental figures of space‐time and frequency‐magnitude relations, scaling plots, mean and covariance plots of interevent times, probability distribution functions of recurrence intervals, and earthquake density plots. In order to understand earthquake hazards we would ideally have a statistical description of earthquakes for tens of thousands of years. Unfortunately the ∼100‐year instrumental, several 100‐year historical, and few 1000‐year paleoseismological records are woefully inadequate to provide a statistically significant record. Physics‐based earthquake simulators can generate arbitrarily long histories of earthquakes; thus they can provide a statistically meaningful history of simulated earthquakes. The question is, how realistic are these simulated histories? This purpose of this paper is to begin to answer that question. We compare the results between different simulators and with information that is known from the limited instrumental, historic, and paleoseismological data. As expected, the results from all the simulators show that the observational record is too short to properly represent the system behavior; therefore, although tests of the simulators against the limited observations are necessary, they are not a sufficient test of the simulators’ realism. The simulators appear to pass this necessary test. In addition, the physics‐based simulators show similar behavior even though there are large differences in the methodology. This suggests that they represent realistic behavior. Different assumptions concerning the constitutive properties of the faults do result in enhanced capabilities of some simulators. However, it appears that the similar behavior of the different simulators may result from the fault‐system geometry, slip rates, and assumed strength drops, along with the shared physics of stress transfer. This paper describes the results of running four earthquake simulators that are described elsewhere in … |
Databáze: | OpenAIRE |
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