The Mw 7.7 Tocopilla Earthquake of 14 November 2007 at the Southern Edge of the Northern Chile Seismic Gap: Rupture in the Deep Part of the Coupled Plate Interface

The slip distribution of the Mw 7.7 Tocopilla earthquake was obtained from the joint inversion of teleseismic and strong-motion data. Rupture occurred as underthrusting at the base of the seismically coupled plate interface, mainly between 35 and 50 km depth. From the hypocenter, located below the coast 25 km south of the town of Tocopilla, the rupture propagated 50 km northward and 100 km southward. Overall, the slip distribution was dominated by two slip patches, one near the hypo- center and the other 70 km to the south where slip reached its maximum value (3 m). An additional branch of moderate slip propagated at shallower depth toward the west near the northern tip of the Mejillones peninsula. Rupture velocity remained close to 2:8 km=sec, with a total rupture duration of 45 sec. The first 2 weeks of aftershocks located with a local seismic network display a strong correlation with the slip distri- bution. The 2007 rupture ended below the Mejillones peninsula, where the 1995 An- tofagasta rupture also ended (Ruegg et al., 1996; Delouis et al., 1997; Pritchard et al., 2006). This corroborates the role of barrier played by this structure. The downdip end of the seismically coupled zone at 50 km depth, evidenced by previous studies for the 1995 event, is also confirmed. The 2007 Tocopilla earthquake contributed only mod- erately to the rupturing of the great northern Chile seismic gap, which still has the capacity for generating a much larger underthrusting event.

[1]  Kelin Wang,et al.  Thermal models of the Middle America Trench at the Nicoya Peninsula, Costa Rica , 2002 .

[2]  C. Ji,et al.  Distribution of slip from 11 Mw > 6 earthquakes in the northern Chile subduction zone , 2006 .

[3]  Jens Havskov,et al.  A Computer Program for Locating Earthquakes Both Locally and Globally , 1995 .

[4]  D. Comte,et al.  Stress distribution and geometry of the subducting Nazca plate in northern Chile using teleseismically recorded earthquakes , 1995 .

[5]  L. Ruff,et al.  Analysis of the 23 June 2001 Mw = 8.4 Peru underthrusting earthquake and its aftershocks , 2002 .

[6]  NábÄ lek,et al.  Determination of earthquake source parameters from inversion of body waves , 1984 .

[7]  B. Delouis,et al.  Mw 7.8 Tarapaca intermediate depth earthquake of 13 June 2005 (northern Chile): Fault plane identification and slip distribution by waveform inversion , 2007 .

[8]  M. Bouchon A simple method to calculate Green's functions for elastic layered media , 1981 .

[9]  L. Rivera,et al.  The Andean subduction zone between 22 and 25°S (northern Chile): precise geometry and state of stress , 1996 .

[10]  R. Armijo,et al.  The MW=8.1 Antofagasta (North Chile) Earthquake of July 30, 1995: First results from teleseismic and geodetic data , 1996 .

[11]  Sirpa Mäki,et al.  The computer program , 1980 .

[12]  M. Simons,et al.  An aseismic slip pulse in northern Chile and along‐strike variations in seismogenic behavior , 2006 .

[13]  Sandro Ridella,et al.  Minimizing multimodal functions of continuous variables with the “simulated annealing” algorithmCorrigenda for this article is available here , 1987, TOMS.

[14]  Mario Pardo,et al.  Reappraisal of great historical earthquakes in the northern Chile and southern Peru seismic gaps , 1991 .

[15]  E. Möbius,et al.  Charge states of energetic (≈0.5 MeV/n) ions in corotating interaction regions at 1 AU and implications on source populations , 2002 .

[16]  Paul Lundgren,et al.  Joint Inversion of InSAR, GPS, Teleseismic, and Strong-Motion Data for the Spatial and Temporal Distribution of Earthquake Slip: Application to the 1999 İzmit Mainshock , 2002 .

[17]  L. Rivera,et al.  The Mw = 8.0 Antofagasta (northern Chile) earthquake of 30 July 1995: A precursor to the end of the large 1877 gap , 1997, Bulletin of the Seismological Society of America.

[18]  Kurt L. Feigl,et al.  Crustal deformation and fault slip during the seismic cycle in the North Chile subduction zone, from GPS and InSAR observations , 2004 .

[19]  William L. Goffe,et al.  SIMANN: FORTRAN module to perform Global Optimization of Statistical Functions with Simulated Annealing , 1992 .