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The strength of earthquake-generating faults

Accepted version
Peer-reviewed

Type

Article

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Abstract

jats:p This paper summarizes the observations and methods that have been used to study the strength of active earthquake-generating (seismogenic) faults. Indirect inferences based upon a range of geophysical and geological observations suggest that faults fail in earthquakes at shear stresses of less than jats:italicc.</jats:italic> 50 MPa, equivalent to effective coefficients of friction of less than 0.3, and possibly as low as 0.05. These low levels of effective friction are likely to be the result of a combination of high pore fluid pressures, which could be local or transient, and the frictional properties of phyllosilicate-rich fault rocks. The dip angles of new faults forming in oceanic outer rises imply that intrinsically low-friction fault rocks must control the fault strength in at least that setting. When combined with the much higher fault strengths inferred from borehole studies and some laboratory measurements, the observations are most consistent with weak faults embedded in strong surroundings, providing a clear reason for the prevalence of fault reactivation. However, the conditions required for the formation of new faults, and the reasons for an apparent wide variability in the degree of fault healing through time, remain unknown. </jats:p>

Description

Keywords

37 Earth Sciences, 3705 Geology, 3706 Geophysics

Journal Title

Journal of the Geological Society

Conference Name

Journal ISSN

0016-7649
2041-479X

Volume Title

175

Publisher

Geological Society of London
Sponsorship
Natural Environment Research Council (NE/J019895/1)
Natural Environment Research Council (NE/K011014/1)
Natural Environment Research Council (NE/J016322/1)
Natural Environment Research Council (NE/M017559/1)
NERC, ESRC