C. H. Scholz scite author profile

Abstract. A number of observations indicate that an upper stability transition occurs along well-developed faults, such as the San Andreas, as a result of unconsolidated gouge within shallow regions of these faults. These observations include the depth distribution of seismicity along faults with and without well-developed gouge zones, correlations between seismicity and shallow crustal structure, and modeling of coseismic and post-seismic slip. In addition, recent experimental friction studies indicate that thick layers of simulated gouge exhibit a positive slip-rate dependence of frictional resistance (velocity strengthening) and thus inherently stable slip, whereas bare rock surfaces and thin gouge layers exhibit potentially unstable velocity weakening behavior. Subduction zones with large accretionary wedges also exhibit an upper stability transition in that slip is aseismic within the accretionary wedge. A stability transition due to the presence of unconsolidated material can also be invoked in this case.

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Roughness of natural fault surfaces

Power

Tullis

Brown

et al. 1987

Geophysical Research Letters

356

207

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Why large earthquakes do not nucleate at shallow depths

Das

Scholz

1983

Nature

184

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A reappraisal of large earthquake scaling

Scholz¹

1994

International Journal of Rock Mechanics and Mining Sciences &am

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C. H. Scholz

The depth of seismic faulting and the upper transition from stable to unstable slip regimes

Roughness of natural fault surfaces

Why large earthquakes do not nucleate at shallow depths

A reappraisal of large earthquake scaling

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