Proceeding of the ConferenceStanford University Press |
المحتوى
Microearthquake Study of the San Jacinto Valley Riverside | 1 |
Macroseismicity of the San Jacinto Fault Zone | 11 |
Table of Contents cont | 20 |
Time Variations of the Average Earthquake Magnitude | 24 |
Microseismicity and Recent Tectonic Activity Whittier | 43 |
Characteristics of Strain Variation Along the San Andreas | 54 |
Some Aspects of Strain Release and Seismic Slip in Central | 64 |
Stress Accumulation in the Transverse Ranges Southern | 70 |
FAULT CREEP | 268 |
Fault Creep and Earthquakes on the San Andreas Fault | 274 |
CreepCaused Strain Events at Stone Canyon California | 286 |
A Statistical Study of Fault Creep Events | 294 |
Relationship Between Seismicity Fault Creep and Crustal | 303 |
OFFSET DETERMINATIONS AND GEOLOGIC RELATIONS | 322 |
Strontium Isotopes and the San Andreas Fault | 339 |
Paleocene Geography of the Los Angeles Region | 348 |
Measurements of Strain Accumulation Between the San Andreas | 80 |
Radio Interferometry for Study of the Earthquake Mechanism | 104 |
Time Dependent Tilt Response to Ocean Loading for Sites | 124 |
Relative Motion of the Pacific and North American Plates | 136 |
Tectonic Evolution of the Transverse Ranges Province | 149 |
Evidence for StrikeSlip Displacement Beneath the Trans | 171 |
Regional Topography Seismicity Volcanism and the Present | 181 |
PHYSICAL PROPERTIES OF THE FAULT ZONE | 192 |
Estimation of Frictional Stress on the San Andreas Fault | 206 |
A Search for Tectonomagnetic Effects in California | 225 |
Fault Activity and its Significance assessed by explora | 239 |
Surface Fracture Patterns Along the San Andreas Fault | 248 |
A Structural Model for the San Andreas Fault Zone Along | 259 |
Displacement of Eocene Strata and Implications for | 358 |
Offset of Late OligoceneEarly Miocene Volcanic Rocks | 368 |
Post Early Miocene Displacement Along the San Andreas | 374 |
Tectonics at the Junction of the San Andreas Fault | 383 |
EARTHQUAKE PREDICTION WITH EMPHASIS ON DILATANCY | 391 |
A Stiffness Model for Seis | 405 |
The DilatancyDiffusion Model of Earthquake Prediction | 417 |
Laboratory Investigation of Dilatancy and Motion on Fault | 427 |
Search for Temporal Changes in Seismic Velocities Using | 436 |
Pore Pressure and Strain | 446 |
Premonitory Changes in Shear Velocity Anisotropy | 479 |
Water Level Fluctuations on the San Andreas Fault | 489 |
عبارات ومصطلحات مألوفة
aftershock Alpine fault Amer Andreas fault system Andreas fault zone anomaly AVERAGE MAGNITUDE b-value baseline Basin Bear Valley North belt Bull Burford Calaveras fault central California changes cm/yr Coast Ranges creep events creep rate creepmeter Crowell crustal deformation depth dilatancy dislocation displacement earthquakes fault creep fault trace geodimeter Geophys Gulf of California heat flow Hollister indicate kilometers lines located m.y. ago magnetic main event measurements Miocene mm/yr motion movement Nason North American plates observed occurred offset Orocopia Pacific Parkfield Parkfield earthquake plate pore pressure region right lateral San Andreas fault San Andreas system San Gabriel fault San Gabriel Mountains San Jacinto fault San Juan Bautista Santa Scholz segment Seism seismic slip shear stress shown in Figure southern California Stone Canyon strike-slip surface tectonic tilt trans-Mexican volcanic belt Transverse Ranges trend U.S. Geol U.S. Geological Survey velocity western Winery