Rupture processes of the 2004 Chuetsu (mid‐Niigata prefecture) earthquake, Japan: A series of events in a complex fault system

We relocated the hypocenters of the 2004 Chuetsu earthquake sequence, Niigata, Japan, using the double‐difference method. The distribution of aftershocks reveals a complex fault system consisting of five different fault planes. Inversions of strong motion records for the five major events within the sequence indicate that the mainshock (MW 6.6) and the largest aftershock (MW 6.3) occurred on parallel WNW‐dipping fault planes. The zones of large slip (asperities) of these two events are located near the hypocenters. In contrast, the three other large earthquakes (MW 5.9, 5.7 and 5.9) occurred on east‐dipping fault planes oriented perpendicular to the fault plane of the mainshock. We used slip distributions deduced from waveform inversions to estimate the Coulomb failure stress changes that occurred immediately prior to each event. ΔCFF values were positive at the hypocenters and within the asperities of the major aftershocks. These results suggest that stress changes resulting from individual earthquakes led directly to the occurrence of subsequent earthquakes within the complex fault system.

[1]  Robert A. Page,et al.  Aftershocks and microaftershocks of the great Alaska earthquake of 1964 , 1968 .

[2]  Hirotugu Akaike,et al.  Likelihood and the Bayes procedure , 1980 .

[3]  K. Kohketsu The extended reflectivity method for synthetic near-field seismograms , 1985 .

[4]  建設省土木研究所 Proceedings of the 3rd U.S.-Japan Workshop on Earthquake Disaster Prevention for Lifeline Systems, May 11 - 13, 1989, Public Works Research Institute , Tsukuba Science City, Japan , 1989 .

[5]  Kunihiko Shimazaki,et al.  Scaling Relationship between the Number of Aftershocks and the Size of the Main Shock , 1990 .

[6]  P. Reasenberg,et al.  Response of Regional Seismicity to the Static Stress Change Produced by the Loma Prieta Earthquake , 1992, Science.

[7]  Y. Okada Internal deformation due to shear and tensile faults in a half-space , 1992, Bulletin of the Seismological Society of America.

[8]  Hiroshi P. Sato The relationship between Late Cenozoic tectonic events and stress field and basin development in northeast Japan , 1994 .

[9]  Charles L. Lawson,et al.  Solving least squares problems , 1976, Classics in applied mathematics.

[10]  Shingo Yoshida,et al.  Joint Inversion of Near- and Far-field Waveforms and Geodetic Data for the Rupture Process of the 1995 Kobe Earthquake , 1996 .

[11]  気象庁,et al.  地震・火山月報. カタログ編 = The seismological and volcanological bulletin of Japan , 1998 .

[12]  Ruth A. Harris,et al.  Introduction to Special Section: Stress Triggers, Stress Shadows, and Implications for Seismic Hazard , 1998 .

[13]  T. Sagiya,et al.  Continuous GPS Array and Present-day Crustal Deformation of Japan , 2000, pure and applied geophysics.

[14]  S. Aoi,et al.  New strong-motion observation network : KiK-net , 2000 .

[15]  F. Waldhauser,et al.  A Double-Difference Earthquake Location Algorithm: Method and Application to the Northern Hayward Fault, California , 2000 .

[16]  Robert W. Graves,et al.  Resolution analysis of finite fault source inversion using one- and three-dimensional Green's functions. 1. Strong motions , 2001 .

[17]  H. Thio,et al.  Rupture process of the 1944 Tonankai earthquake (Ms 8.1) from the inversion of teleseismic and regional seismograms , 2003 .

[18]  S. Miyazaki,et al.  Joint inversion of strong motion and geodetic data for the source process of the 2003 Tokachi-oki, Hokkaido, earthquake , 2004 .

[19]  Hiroshi P. Sato,et al.  Crustal structure in the northern Fossa Magna region, central Japan, modeled from refraction/wide-angle reflection data , 2004 .

[20]  William Menke,et al.  Absolute Earthquake Locations with Differential Data , 2004 .

[21]  H. Yamasato Modern History of Volcano Observation in Japan : Especially Volcano Surveillance of Japan Meteorological Agency , 2005 .

[22]  K. Bräuer,et al.  Evidence for ascending upper mantle‐derived melt beneath the Cheb basin, central Europe , 2005 .

[23]  T. Kanazawa,et al.  Imaging the source region of the 2004 mid‐Niigata prefecture earthquake and the evolution of a seismogenic thrust‐related fold , 2005 .

[24]  Evaluating landslide damage during the 2004 Chuetsu earthquake, Niigata Japan , 2005 .