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Distribution of slip from 11 M w > 6 earthquakes in the northern Chile subduction zone
Author(s) -
Pritchard M. E.,
Ji C.,
Simons M.
Publication year - 2006
Publication title -
journal of geophysical research: solid earth
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.67
H-Index - 298
eISSN - 2156-2202
pISSN - 0148-0227
DOI - 10.1029/2005jb004013
Subject(s) - seismology , geology , subduction , geodetic datum , slip (aerodynamics) , interferometric synthetic aperture radar , geodesy , episodic tremor and slip , seismic moment , trench , moment tensor , moment magnitude scale , tectonics , fault (geology) , synthetic aperture radar , deformation (meteorology) , geometry , physics , thermodynamics , chemistry , remote sensing , oceanography , organic chemistry , layer (electronics) , mathematics , scaling
We use interferometric synthetic aperture radar, GPS, and teleseismic data to constrain the relative location of coseismic slip from 11 earthquakes on the subduction interface in northern Chile (23°–25°S) between the years 1993 and 2000. We invert body wave waveforms and geodetic data both jointly and separately for the four largest earthquakes during this time period (1993 M w 6.8; 1995 M w 8.1; 1996 M w 6.7; 1998 M w 7.1). While the location of slip in the teleseismic‐only, geodetic‐only, and joint slip inversions is similar for the small earthquakes, there are differences for the 1995 M w 8.1 event, probably related to nonuniqueness of models that fit the teleseismic data. There is a consistent mislocation of the Harvard centroid moment tensor locations of many of the 6 < M w < 8 earthquakes by 30–50 km toward the trench. For all models, the teleseismic data are better able to resolve fine details of the earthquake slip distribution. The 1995 earthquake did not rupture to the maximum depth of the seismogenic zone (as defined by the other earthquakes). In addition to the above events, we use only teleseismic data to determine the rupture characteristics of four other M w > 6 earthquakes, as well as three M w > 7 events from the 1980s. All of these earthquakes appear to rupture different portions of the fault interface and do not rerupture a limited number of asperities.

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