Low-angle normal faulting in the basin and range-Colorado plateau transition zone during the January 3, 2011 circleville, UT earthquake sequence

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Title Low-angle normal faulting in the basin and range-Colorado plateau transition zone during the January 3, 2011 circleville, UT earthquake sequence
Publication Type thesis
School or College College of Mines & Earth Sciences
Department Geology & Geophysics
Author Gammans, Christine Naomi Louise
Date 2013-08
Description On January 3, 2011, an Mw 4.5 earthquake occurred in the Tushar Mountains near Circleville, Utah (38.248°N, -112.329°W, 7.75 km depth, and origin time of 12:06:36.58). The Tushar Mountains are located in the transition zone between the stable Colorado Plateau (CP) to the east and the deforming Basin and Range (BR) province to the west. In this area, seismicity associated with the Intermountain Seismic Belt is relatively common. The University of Utah Seismograph Stations (UUSS) detected and located 97 aftershocks in the 33 weeks following the mainshock. On January 6, UUSS installed a portable station in the source region. Using three aftershocks recorded by the portable station as master events, including the largest (Mw 3.8), we relocated the mainshock/aftershock sequence. These refined locations were used as initial locations for the HypoDD method of Waldhauser and Ellsworth [2001] to produce a second, improved set of relocations. In addition to P- and S-arrival time picks, we used the lag-times from waveform cross-correlations as input to HypoDD. We analyzed the fault geometry apparent in the final locations by comparing them to known moment-tensor focal planes and by applying principal component analysis to measure the degree of planarity and orientation of the sequence as a whole. Additionally, using cross-correlation analysis, we identified aftershocks best suited for an empirical Green's function analysis of the mainshock and a strike-slip aftershock that occurred on January 6. From the events chosen by cross-correlation, we were able to obtain source-time functions that were used to obtain fault dimensions, stress drops, and evidence for or against directivity. Lastly, we determined focal mechanisms for ten of the events using first-motion methods. The results of the combined analyses indicate that the mainshock occurred on a low-angle normal fault and that the entire sequence occurred on at least two different fault planes.
Type Text
Publisher University of Utah
Subject Low-angle normal faulting
Dissertation Institution University of Utah
Dissertation Name Master of Science
Language eng
Rights Management Copyright © Christine Naomi Louise Gammans 2013
Format application/pdf
Format Medium application/pdf
Format Extent 1,929,623 bytes
Identifier etd3/id/2515
ARK ark:/87278/s6ps144g
Setname ir_etd
ID 196091
Reference URL https://collections.lib.utah.edu/ark:/87278/s6ps144g