Litcius/Paper detail

Fault surface morphology as an indicator for earthquake nucleation potential

Agathe Eijsink, J. D. Kirkpatrick, François Renard, Matt J. Ikari

2022Geology29 citationsDOIOpen Access PDF

Abstract

Abstract Laboratory measurements can determine the potential for geologic materials to generate unstable (seismic) slip, but a direct relation between sliding behavior in the laboratory and physical characteristics observable in the field is lacking, especially for the phyllosilicate-rich gouges that are widely observed in natural faults. We integrated laboratory friction experiments with surface topography microscopy and demonstrated a quantitative correlation between frictional slip behavior and fault surface morphology of centimeter-scale samples. Our results show that striated, smooth fault surfaces were formed in experiments that exhibited stable sliding, whereas potentially unstable sliding was associated with rougher, isotropic fault surfaces. We interpret that frictional stability and fault surface morphology are linked via the evolution of asperity contacts on localized slip surfaces. If fault surface roughness obeys a fractal relationship over a large range of length scales, then we infer that the morphological characteristics observed in the laboratory could indicate the earthquake nucleation potential on natural fault surfaces.

Topics & Concepts

GeologyNucleationSlip (aerodynamics)Asperity (geotechnical engineering)Surface finishFault (geology)Fault planeSurface roughnessIsotropyFractalSurface (topology)Microscale chemistryMineralogyGeometrySeismologyGeotechnical engineeringMaterials scienceComposite materialOpticsChemistryOrganic chemistryPhysicsMathematics educationMathematical analysisMathematicsThermodynamicsearthquake and tectonic studiesHigh-pressure geophysics and materialsEarthquake Detection and Analysis