By Clarence S. Ross (Author), Robert L. Smith (Author)
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Extra info for Ash-Flow Tuffs: Their Origin, Geologic Relations and Identification and Zones and Zonal Variations in Welded Ash Flows
DIETERICH, J. H. (1979), Modeling of rock friction 1. Experimental results and constitutive equations, J. Geophys. Res. 84, 2161–2168. DOLAN, J. , BOWMAN, D. , and SAMMIS, C. G. (2007), Long-range and long-term fault interactions in Southern California, Geology, 35, 855–858. , ROCKWELL, T. K. and BEN-ZION, Y. (2006), Geological observations of damage asymmetry in the structure of the San Jacinto, San Andreas and Punchbowl Faults in Southern California: A possible indicator for preferred rupture propagation direction, Pure Appl.
TCHALENKO, J. S. (1970), Similarities between shear zones of different magnitudes, Geolog. Soc. Am. Bull. 81, 1625–1640. TEMPLETON, E. L. and RICE, J. R. (2008), Off-fault plasticity and earthquake rupture dynamics, 1. Dry materials or neglect of ﬂuid pressure changes, J. Geophys. Res. , COX, S. , and TODD, H. F. (2003), Evolution of strength recovery and permeability during ﬂuidrock reaction in experimental fault zones, Earth Planet. Sci. Lett. 206(1–2), 161–172. , and EBERHART-PHILLIPS, D. (2006), Threedimensional compressional wavespeed model, earthquake relocations, and focal mechanisms for the Parkﬁeld, California, Region, Bull.
And COX, S. F. (2004), Fault-segment rupture, aftershock-zone ﬂuid ﬂow and mineralization, Geology 32, 813–816. MOONEY, W. D. and GINZBURG, A. (1986), Seismic measurements of the internal properties of fault zones, Pure Appl. Geophys. 124, 141–157. , and MCEVILLY, T. V. (1994), Seismological studies at Parkﬁeld III: Microearthquake clusters in the study of fault-zone dynamics, Bull. Seismol. Soc. Am. 83, 247– 263. 1572 Y. Finzi et al. Pure appl. , OGLESBY, D. , DAY, S. , and VIDALE, J. E. (2003), The 1999 Hector Mine Earthquake: The dynamics of a branched fault system, Bull.