Scaling of the critical slip distance for seismic faulting with shear strain in fault zones

Chris Marone; Brian D. Kilgore

doi:10.1038/362618a0

Scaling of the critical slip distance for seismic faulting with shear strain in fault zones

Nature

By: Chris Marone and Brian D. Kilgore

https://doi.org/10.1038/362618a0

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Abstract

THEORETICAL and experimentally based laws for seismic faulting contain a critical slip distance1-5, Dc, which is the slip over which strength breaks down during earthquake nucleation. On an earthquake-generating fault, this distance plays a key role in determining the rupture nucleation dimension6, the amount of premonitory and post-seismic slip7-10, and the maximum seismic ground acceleration1,11. In laboratory friction experiments, Dc has been related to the size of surface contact junctions2,5,12; thus, the discrepancy between laboratory measurements of Dc (??? 10-5 m) and values obtained from modelling earthquakes (??? 10-2 m) has been attributed to differences in roughness between laboratory surfaces and natural faults5. This interpretation predicts a dependence of Dc on the particle size of fault gouge 2 (breccia and wear material) but not on shear strain. Here we present experimental results showing that Dc scales with shear strain in simulated fault gouge. Our data suggest a new physical interpretation for the critical slip distance, in which Dc is controlled by the thickness of the zone of localized shear strain. As gouge zones of mature faults are commonly 102-103 m thick13-17, whereas laboratory gouge layers are 1-10 mm thick, our data offer an alternative interpretation of the discrepancy between laboratory and field-based estimates of Dc.

Suggested Citation

Marone, C., and Kilgore, B.D., 1993, Scaling of the critical slip distance for seismic faulting with shear strain in fault zones: Nature, v. 362, no. 6421, p. 618-621, https://doi.org/10.1038/362618a0.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Scaling of the critical slip distance for seismic faulting with shear strain in fault zones
Series title	Nature
DOI	10.1038/362618a0
Volume	362
Issue	6421
Year Published	1993
Language	English
Publisher	Nature Publishing Group
Description	4 p.
First page	618
Last page	621