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Fault healing inferred from time dependent variations in source properties of repeating earthquakes
Author(s) -
Marone Chris,
Vidale John E.,
Ellsworth William L.
Publication year - 1995
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1029/95gl03076
Subject(s) - seismology , geology , creep , fault (geology) , slip (aerodynamics) , drop (telecommunication) , san andreas fault , geodesy , physics , thermodynamics , engineering , telecommunications
We analyze two sets of repeating earthquakes on the Calaveras fault to estimate in‐situ rates of fault strengthening (healing). Earthquake recurrence intervals t r range from 3 to 803 days. Variations in relative moment and duration are combined to study changes in stress drop, rupture dimension, rupture velocity, and particle velocity as a function of t r . Healing rates and source variations are compared with predictions of laboratory‐derived friction laws. Two interpretations of event duration τ are used: one in which τ is given by the ratio of slip to particle velocity and one in which it scales as rupture dimension divided by rupture velocity. Our data indicate that faults strengthen during the interseismic period. We infer that source dimension decreases with t r due to aseismic creep within the region surrounding the repeating events. Stress drop increases 1–3MPa per decade increase in t r , which represents an increase of a factor of 2–3 relative to events with t r between 10 and 100 days. This rate of fault healing is consistent with extrapolations of laboratory measurements of healing rates if fault strength is high, on order of 60MPa, and stress drop is roughly 10% of this value.