Abstract
Geological heterogeneity is abundant in crustal fault zones; however, its role in controlling the mechanical behaviour of faults is poorly constrained. Here, we present laboratory friction experiments on laterally heterogeneous faults, with patches of strong, rate-weakening quartz gouge and weak, rate-strengthening clay gouge. The experiments show that the heterogeneity leads to a significant reduction in strength and frictional stability in comparison to compositionally identical faults with homogeneously mixed gouges. We identify a combination of weakening effects, including smearing of the weak clay; differential compaction of the two gouges redistributing normal stress; and shear localization producing stress concentrations in the strong quartz patches. The results demonstrate that geological heterogeneity and its evolution can have pronounced effects on fault strength and stability and, by extension, on the occurrence of slow-slip transients versus earthquake ruptures and the characteristics of the resulting events, and should be further studied in lab experiments and earthquake source modelling.
Highlights
Geological heterogeneity is abundant in crustal fault zones; its role in controlling the mechanical behaviour of faults is poorly constrained
As well as being apparently weak, many crustal faults exhibit a spectrum of slip behaviour, with earthquake slip and aseismic creep often occurring on the same fault[17,18] and slow slip phenomena being prevalent at all crustal depths[19]
To ensure that the observed weakening was not caused by the arrangement of the different gouge patches in the experiments, tests were performed where the symmetry of the heterogeneous layers was reversed
Summary
Geological heterogeneity is abundant in crustal fault zones; its role in controlling the mechanical behaviour of faults is poorly constrained. The heterogeneous gouge layers are constructed by placing different sized patches of fine-grained quartz and clay powder (both
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