Block models of crustal motion in southern California constrained by GPS measurements

[1] We estimate slip rates on major active faults in southern California using a block model constrained by Global Positioning System measurements of interseismic deformation. The block model includes the effects of block rotation and elastic strain accumulation consistent with a simple model of the earthquake cycle. Our estimates of the right-lateral strike-slip rate on the San Andreas fault vary by at least a factor of 5, from a high of 35.9 ± 0.5 mm/yr in the Carrizo Plain to a low of 5.1 ± 1.5 mm/yr through the San Bernadino segment. Shortening across the Puente Hills Thrust and left-lateral slip on the Raymond Hill fault are consistent with both thickening and escape tectonics in the Los Angeles Basin. Discrepancies between geodetic and geologic slip rate estimates along the San Andreas and San Jacinto faults, as well as in the Eastern California Shear Zone, may be explained by a temporal change in fault system behavior. We find no substantial evidence for long-term postseismic relaxation and infer that the viscosity of the lower crust/upper mantle may be relatively high (η > 1019 Pa s).

[1]  Jeanne L. Hardebeck,et al.  Constraints on fault slip rates of the southern California plate boundary from GPS velocity and stress inversions , 2005 .

[2]  B. Meade,et al.  Viscoelastic deformation for a clustered earthquake cycle , 2004 .

[3]  Michael Oskin,et al.  Large-magnitude transient strain accumulation on the Blackwater fault, Eastern California shear zone , 2004 .

[4]  Robert W. King,et al.  Imprint of the North American plate in Siberia revealed by GPS , 2003 .

[5]  James F. Dolan,et al.  Recognition of Paleoearthquakes on the Puente Hills Blind Thrust Fault, California , 2003, Science.

[6]  Timothy H. Dixon,et al.  Paleoseismology and Global Positioning System: Earthquake-cycle effects and geodetic versus geologic fault slip rates in the Eastern California shear zone , 2003 .

[7]  David T. Sandwell,et al.  Fault creep along the southern San Andreas from interferometric synthetic aperture radar, permanent scatterers, and stacking , 2003 .

[8]  Thomas L. Pratt,et al.  Puente Hills Blind-Thrust System, Los Angeles, California , 2002 .

[9]  D. Dreger,et al.  The Combined Inversion of Seismic and Geodetic Data for the Source Process of the 16 October 1999 Mw 7.1 Hector Mine, California, Earthquake , 2002 .

[10]  Timothy H. Dixon,et al.  REVEL: A model for Recent plate velocities from space geodesy , 2002 .

[11]  Haluk Ozener,et al.  Estimates of Seismic Potential in the Marmara Sea Region from Block Models of Secular Deformation Constrained by Global Positioning System Measurements , 2002 .

[12]  P. Segall Integrating Geologic and Geodetic Estimates of Slip Rate on the San Andreas Fault System , 2002 .

[13]  D. Argus,et al.  Present tectonic motion across the Coast Ranges and San Andreas fault system in central California , 2001 .

[14]  David T. Sandwell,et al.  Variations in Coulomb Stress Accumulation Along the San Andreas Fault System , 2001 .

[15]  P. Segall,et al.  Modeling broadscale deformation in northern California and Nevada from plate motions and elastic strain accumulation , 2001 .

[16]  Paul A. Rosen,et al.  Transient strain accumulation and fault interaction in the eastern California shear zone , 2001 .

[17]  J. C. Savage,et al.  Strain accumulation and rotation in the Eastern California Shear Zone , 2001 .

[18]  Robert W. King,et al.  Present day kinematics of the Eastern California Shear Zone from a geodetically constrained block model , 2001 .

[19]  Gerald W. Bawden,et al.  Tectonic contraction across Los Angeles after removal of groundwater pumping effects , 2001, Nature.

[20]  Y. Bock,et al.  Geodetic detection of active faults in S. California , 2001 .

[21]  Timothy H. Dixon,et al.  Refined kinematics of the Eastern California shear zone from GPS observations, 1993-1998 , 2001 .

[22]  W. Prescott,et al.  Inversion of GPS data for spatially variable slip‐rate on the San Andreas Fault near Parkfield, CA , 2001 .

[23]  G. Bawden Source parameters for the 1952 Kern County earthquake, California : A joint inversion of leveling and triangulation observations , 2001 .

[24]  B. Meade,et al.  The Current Distribution of Deformation in the Western Tien Shan from Block Models Constrained by Geodetic Data , 2001 .

[25]  J. Dolan,et al.  Paleoseismology and Geomorphology of the Raymond Fault, Los Angeles County, California , 2000 .

[26]  J. C. Savage Viscoelastic‐coupling model for the earthquake cycle driven from below , 2000 .

[27]  Thomas K. Rockwell,et al.  Paleoseismology of the Johnson Valley, Kickapoo, and Homestead Valley Faults: Clustering of Earthquakes in the Eastern California Shear Zone , 2000 .

[28]  J. C. Savage,et al.  Strain accumulation across the Eastern California Shear Zone at latitude 36°30′N , 2000 .

[29]  Egill Hauksson,et al.  Crustal structure and seismicity distribution adjacent to the Pacific and North America plate boundary in southern California , 2000 .

[30]  Fred F. Pollitz,et al.  Mobility of continental mantle: Evidence from postseismic geodetic observations following the 1992 Landers earthquake , 2000 .

[31]  Bertrand Meyer,et al.  Seismic hazard in the Marmara Sea region following the 17 August 1999 Izmit earthquake , 2000, Nature.

[32]  Meghan S. Miller,et al.  Present‐day motion of the Sierra Nevada block and some tectonic implications for the Basin and Range province, North American Cordillera , 2000 .

[33]  Andrea Donnellan,et al.  Reconciling rapid strain accumulation with deep seismogenic fault planes in the Ventura Basin, California , 1999 .

[34]  Michael B. Heflin,et al.  Shortening and thickening of metropolitan Los Angeles measured and inferred by using geodesy , 1999 .

[35]  T. Dixon,et al.  New kinematic models for Pacific‐North America motion from 3 Ma to present, I: Evidence for steady motion and biases in the NUVEL‐1A Model , 1999 .

[36]  E. Hearn,et al.  Kinematics of the southern Walker Lane Belt and motion of the Sierra Nevada block, California , 1998 .

[37]  Y. Bock,et al.  Escape tectonics in the Los Angeles metropolitan region and implications for seismic risk , 1998, Nature.

[38]  S. Ward On the consistency of earthquake moment rates, geological fault data, and space geodetic strain: the United States , 1998 .

[39]  T. Hanks,et al.  M ≧ 6 earthquakes in southern California during the twentieth century: No evidence for a seismicity or moment deficit , 1998, Bulletin of the Seismological Society of America.

[40]  T. Rockwell,et al.  Ages of Late Holocene earthquakes on the central Garlock fault near El Paso Peaks, California , 1998 .

[41]  J. C. Savage,et al.  Viscoelastic coupling model of the San Andreas Fault along the Big Bend, southern California , 1998 .

[42]  B. Souter Comparisons of geological models to GPS observations in southern California , 1998 .

[43]  R. Bennett,et al.  Global Positioning System constraints on fault slip rates in the Death Valley Region, California and Nevada , 1997 .

[44]  D. Potter Long-term postseismic relaxation in southern California: Evidence from a geostatistical analysis of geodetic data , 1997 .

[45]  David D. Jackson,et al.  Crustal deformation across and beyond the Los Angeles basin from geodetic measurements , 1996 .

[46]  William Rodi,et al.  Global Positioning System constraints on fault slip rates in southern California and northern Baja, Mexico , 1996 .

[47]  Susan Y. Schwartz,et al.  Simultaneous inversion for earthquake location and velocity structure beneath central Costa Rica , 1996 .

[48]  Kenneth W. Hudnut,et al.  Co-seismic displacements of the 1994 Northridge, California, earthquake , 1996, Bulletin of the Seismological Society of America.

[49]  R. Mccaffrey Estimates of modern arc-parallel strain rates in fore arcs , 1996 .

[50]  B. Evans,et al.  Strength of the lithosphere: Constraints imposed by laboratory experiments , 1995 .

[51]  D. Agnew,et al.  Present-day crustal deformation in southern California , 1994 .

[52]  Mark D. Petersen,et al.  Fault slip rates and earthquake histories for active faults in southern California , 1994 .

[53]  Y. Bock,et al.  Co-seismic displacements of the 1992 landers earthquake sequence , 1994, Bulletin of the Seismological Society of America.

[54]  P. Bird,et al.  Computer simulations of California tectonics confirm very low strength of major faults , 1994 .

[55]  Sean C. Solomon,et al.  Geodetic slip rate for the eastern California shear zone and the recurrence time of Mojave desert earthquakes , 1994, Nature.

[56]  M. Clark,et al.  The Owens Valley fault zone, eastern California, and surface faulting associated with the 1872 earthquake , 1994 .

[57]  Andrea Donnellan,et al.  Geodetic measurement of deformation in the Ventura basin region , 1993 .

[58]  Andrea Donnellan,et al.  Discrepancy between geological and geodetic deformation rates in the Ventura basin , 1993, Nature.

[59]  Kerry E Sieh,et al.  HOLOCENE SLIP RATE OF THE CENTRAL GARLOCK FAULT IN SOUTHEASTERN SEARLES VALLEY, CALIFORNIA , 1993 .

[60]  A. Nur,et al.  The Nature of the Landers-Mojave Earthquake Line , 1993, Science.

[61]  Walter H. F. Smith,et al.  Free software helps map and display data , 1991 .

[62]  J. C. Savage,et al.  An apparent shear zone trending north-northwest across the Mojave Desert into Owens Valley, eastern , 1990 .

[63]  J. C. Savage Equivalent strike‐slip earthquake cycles in half‐space and lithosphere‐asthenosphere earth models , 1990 .

[64]  Thomas H. Jordan,et al.  Geodetic measurement of tectonic deformation in the Santa Maria Fold and Thrust Belt, California , 1990 .

[65]  William L. Ellsworth,et al.  Earthquake history, 1769-1989 , 1990 .

[66]  David R. Brillinger,et al.  A more precise chronology of earthquakes produced by the San Andreas fault in southern California , 1989 .

[67]  Richard G. Gordon,et al.  Current plate motions , 1990 .

[68]  D. Jackson,et al.  Aseismic crustal deformation in the Transverse Ranges of Southern California , 1987 .

[69]  T. Jordan,et al.  Vector constraints on western U.S. deformation from space geodesy, neotectonics, and plate motions , 1987 .

[70]  D. Jackson,et al.  Dislocation model for aseismic crustal deformation at Hollister, California , 1986 .

[71]  Sean C. Solomon,et al.  Geodetic measurement of deformation in the central Mojave Desert, California , 1986 .

[72]  R. Weldon,et al.  A kinematic model of southern California , 1986 .

[73]  Y. Okada Surface deformation due to shear and tensile faults in a half-space , 1985 .

[74]  Ray J. Weldon,et al.  Holocene rate of slip and tentative recurrence interval for large earthquakes on the San Andreas fault, Cajon Pass, southern California , 1985 .

[75]  Kurt L. Feigl,et al.  Space geodetic measurement of crustal deformation in central and southern California , 1993 .

[76]  P. Bird,et al.  Kinematics of present crust and mantle flow in southern California , 1984 .

[77]  Richard H. Jahns,et al.  Holocene activity of the San Andreas fault at Wallace Creek , 1984 .

[78]  Kerry E Sieh,et al.  Slip along the San Andreas fault associated with the great 1857 earthquake , 1984 .

[79]  Robert V. Sharp,et al.  Variable rates of late Quaternary strike slip on the San Jacinto fault zone, southern California , 1981 .

[80]  H. Kanamori,et al.  A moment magnitude scale , 1979 .

[81]  J. C. Savage,et al.  Asthenosphere readjustment and the earthquake cycle , 1978 .

[82]  Amos Nur,et al.  Postseismic Viscoelastic Rebound , 1974, Science.

[83]  J. C. Savage,et al.  Geodetic determination of relative plate motion in central California , 1973 .

[84]  K. Rybicki The elastic residual field of a very long strike-slip fault in the presence of a discontinuity , 1971, Bulletin of the Seismological Society of America.

[85]  L. E. Malvern Introduction to the mechanics of a continuous medium , 1969 .