Dynamic rupture through a branched fault configuration at Yucca Mountain and resulting ground motions

Elizabeth L. Templeton, Harsha S. Bhat, Renata Dmowska, & James R. Rice

Published 2010, SCEC Contribution #1267

WWe seek to characterize the likelihood of multiple fault activation along a branched normal fault system during earthquake rupture, using dynamic finnite element analyses. This is motivated by the normal faults in the vicinity of Yucca Mountain, NV, a potential site for a high-level radioactive waste repository. The Solitario Canyon Fault (SCF), a north-south trending fault located approximately 1 km west of the crest of Yucca Mountain, is the most active of these faults. Based on the results of previous branching work by Kame et al. (2003), branch activation in the hanging wall of a normal fault, such as the Solitario Canyon Fault may be possible for fast ruptures propagating near the Rayleigh wave speed at the branch junction. Dynamic branch activation along a splay of the SCF during a seismic event could have important effects on the rupture velocity and resulting ground motions at the proposed repository site. We consider elastic as well as a pressure-dependent elastic plastic response of the off-fault material. We find that based on the regional stress state in the area, the only likely candidates for branch activation in the hanging wall of the SCF are more steeply westward dipping intrablock splay faults. We also find that the rupture velocity for an earthquake propagating updip along the SCF must reach supershear speeds in order for dynamic branch activation to occur. Branch activation can have significant effects on the ground motions at the proposed repository site, 1 km away from the SCF beneath the crest of Yucca Mountain, causing the repository site to experience a second peak in large vertical particle velocities. Elastic-plastic response near the branch junction reduces peak ground velocities and accelerations at the proposed repository site.

Citation
Templeton, E. L., Bhat, H. S., Dmowska, R., & Rice, J. R. (2010). Dynamic rupture through a branched fault configuration at Yucca Mountain and resulting ground motions. Bulletin of the Seismological Society of America, 100(4), 1485–1497. doi: 10.1785/0120090121.