Title of article
The Plausibility of Long-wavelength Stress Correlation or Stress Magnitude as a Mechanism for Precursory Seismicity: Results from Two Simple Elastic Models
Author/Authors
M.E. Winter ، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2000
Pages
22
From page
2227
To page
2248
Abstract
Observations of accelerating seismic activity prior to large earthquakes in natural fault
systems have raised hopes for intermediate-term earthquake forecasting. If this phenomena does exist,
then what causes it to occur? Recent theoretical work suggests that the accelerating seismic release
sequence is a symptom of increasing long-wavelength stress correlation in the fault region. A more
traditional explanation, based on Reid’s elastic rebound theory, argues that an accelerating sequence of
seismic energy release could be a consequence of increasing stress in a fault system whose stress moment
release is dominated by large events. Both of these theories are examined using two discrete models of
seismicity: a Burridge-Knopoff block-slider model and an elastic continuum based model. Both models
display an accelerating release of seismic energy prior to large simulated earthquakes. In both models
there is a correlation between the rate of seismic energy release with the total root-mean-squared stress
and the level of long-wavelength stress correlation. Furthermore, both models exhibit a systematic
increase in the number of large events at high stress and high long-wavelength stress correlation levels.
These results suggest that either explanation is plausible for the accelerating moment release in the
models examined. A statistical model based on the Burridge-Knopoff block-slider is constructed which
indicates that stress alone is sufficient to produce accelerating release of seismic energy with time prior
to a large earthquake.
Keywords
Precursory seismicity , stress correlation.
Journal title
Pure and Applied Geophysics
Serial Year
2000
Journal title
Pure and Applied Geophysics
Record number
429288
Link To Document