Joan Gomberg Paul Bodin 1994 <p><span>This article presents evidence for the channeling of strain energy released by the </span><i>M_s</i><span> = 7.4 Landers, California, earthquake within the eastern California shear zone (</span><span class="sc">ECSZ</span><span>). We document an increase in seismicity levels during the 22-hr period starting with the Landers earthquake and culminating 22 hr later with the </span><i>M_s</i><span> = 5.4 Little Skull Mountain (</span><span class="sc">LSM</span><span>), Nevada, earthquake. We evaluate the completeness of regional seismicity catalogs during this period and find that the continuity of post-Landers strain release within the </span><span class="sc">ECSZ</span><span> is even more pronounced than is evident from the catalog data. We hypothesize that regional-scale connectivity of faults within the </span><span class="sc">ECSZ</span><span> and </span><span class="sc">LSM</span><span> region is a critical ingredient in the unprecedented scale and distribution of remotely triggered earthquakes and geodetically manifest strain changes that followed the Landers earthquake. The viability of static strain changes as triggering agents is tested using numerical models. Modeling results illustrate that regional-scale fault connectivity can increase the static strain changes by approximately an order of magnitude at distances of at least 280 km, the distance between the Landers and </span><span class="sc">LSM</span><span> epicenters. This is possible for models that include both a network of connected faults that slip “sympathetically” and realistic levels of tectonic prestrain. Alternatively, if dynamic strains are a more significant triggering agent than static strains, </span><span class="sc">ECSZ</span><span> structure may still be important in determining the distribution of triggered seismic and aseismic deformation.</span></p> application/pdf 10.1785/BSSA0840030835 en Seismological Society of America Triggered seismicity and deformation between the Landers, California, and Little Skull Mountain, Nevada, earthquakes article