Aftershocks of the 2010 Mw 7.2 El Mayor-Cucapah earthquake reveal complex faulting in the Yuha Desert, California

We detect and precisely locate over 9500 aftershocks that occurred in the Yuha Desert region during a 2 month period following the 4 April 2010 Mw 7.2 El Mayor‐Cucapah (EMC) earthquake. Events are relocated using a series of absolute and relative relocation procedures that include Hypoinverse, Veles...

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Published in:Journal of geophysical research. Solid earth 2013-12, Vol.118 (12), p.6146-6164
Main Authors: Kroll, Kayla A., Cochran, Elizabeth S., Richards-Dinger, Keith B., Sumy, Danielle F.
Format: Article
Language:English
Subjects:
aftershock relocation
Aftershocks
conjugate faulting
Deserts
Dimensional analysis
Earth sciences
Earth, ocean, space
Earthquakes
El Mayor-Cucapah
Exact sciences and technology
Fault lines
Geophysics
hypoDD
Hypoinverse
Hypoinverse, Velest, hypoDD
Plate tectonics
Relocation
Seismic activity
seismicity rates
Seismology
spatio-temporal migration of aftershocks
Velest
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container_issue 12
container_start_page 6146
container_title Journal of geophysical research. Solid earth
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creator Kroll, Kayla A.
Cochran, Elizabeth S.
Richards-Dinger, Keith B.
Sumy, Danielle F.
description We detect and precisely locate over 9500 aftershocks that occurred in the Yuha Desert region during a 2 month period following the 4 April 2010 Mw 7.2 El Mayor‐Cucapah (EMC) earthquake. Events are relocated using a series of absolute and relative relocation procedures that include Hypoinverse, Velest, and hypoDD. Location errors are reduced to ∼40 m horizontally and ∼120 m vertically. Aftershock locations reveal a complex pattern of faulting with en echelon fault segments trending toward the northwest, approximately parallel to the North American‐Pacific plate boundary and en echelon, conjugate features trending to the northeast. The relocated seismicity is highly correlated with published surface mapping of faults that experienced triggered surface slip in response to the EMC main shock. Aftershocks occurred between 2 km and 11 km depths, consistent with previous studies of seismogenic thickness in the region. Three‐dimensional analysis reveals individual and intersecting fault planes that are limited in their along‐strike length. These fault planes remain distinct structures at depth, indicative of conjugate faulting, and do not appear to coalesce onto a throughgoing fault segment. We observe a complex spatiotemporal migration of aftershocks, with seismicity that jumps between individual fault segments that are active for only a few days to weeks. Aftershock rates are roughly consistent with the expected earthquake production rates of Dieterich (1994). The conjugate pattern of faulting and nonuniform aftershock migration patterns suggest that strain in the Yuha Desert is being accommodated in a complex manner. Key Points Relocated seismicity reveals conjugate faulting in the Yuha Desert Spatio‐temporal relationships suggest individual faults are only active briefly Aftershock rates generally fit those described by rate‐and‐state friction
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Events are relocated using a series of absolute and relative relocation procedures that include Hypoinverse, Velest, and hypoDD. Location errors are reduced to ∼40 m horizontally and ∼120 m vertically. Aftershock locations reveal a complex pattern of faulting with en echelon fault segments trending toward the northwest, approximately parallel to the North American‐Pacific plate boundary and en echelon, conjugate features trending to the northeast. The relocated seismicity is highly correlated with published surface mapping of faults that experienced triggered surface slip in response to the EMC main shock. Aftershocks occurred between 2 km and 11 km depths, consistent with previous studies of seismogenic thickness in the region. Three‐dimensional analysis reveals individual and intersecting fault planes that are limited in their along‐strike length. These fault planes remain distinct structures at depth, indicative of conjugate faulting, and do not appear to coalesce onto a throughgoing fault segment. We observe a complex spatiotemporal migration of aftershocks, with seismicity that jumps between individual fault segments that are active for only a few days to weeks. Aftershock rates are roughly consistent with the expected earthquake production rates of Dieterich (1994). The conjugate pattern of faulting and nonuniform aftershock migration patterns suggest that strain in the Yuha Desert is being accommodated in a complex manner. Key Points Relocated seismicity reveals conjugate faulting in the Yuha Desert Spatio‐temporal relationships suggest individual faults are only active briefly Aftershock rates generally fit those described by rate‐and‐state friction</description><identifier>ISSN: 2169-9313</identifier><identifier>EISSN: 2169-9356</identifier><identifier>DOI: 10.1002/2013JB010529</identifier><language>eng</language><publisher>Hoboken, NJ: Blackwell Publishing Ltd</publisher><subject>aftershock relocation ; Aftershocks ; conjugate faulting ; Deserts ; Dimensional analysis ; Earth sciences ; Earth, ocean, space ; Earthquakes ; El Mayor-Cucapah ; Exact sciences and technology ; Fault lines ; Geophysics ; hypoDD ; Hypoinverse ; Hypoinverse, Velest, hypoDD ; Plate tectonics ; Relocation ; Seismic activity ; seismicity rates ; Seismology ; spatio-temporal migration of aftershocks ; Velest</subject><ispartof>Journal of geophysical research. 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Solid Earth</addtitle><description>We detect and precisely locate over 9500 aftershocks that occurred in the Yuha Desert region during a 2 month period following the 4 April 2010 Mw 7.2 El Mayor‐Cucapah (EMC) earthquake. Events are relocated using a series of absolute and relative relocation procedures that include Hypoinverse, Velest, and hypoDD. Location errors are reduced to ∼40 m horizontally and ∼120 m vertically. Aftershock locations reveal a complex pattern of faulting with en echelon fault segments trending toward the northwest, approximately parallel to the North American‐Pacific plate boundary and en echelon, conjugate features trending to the northeast. The relocated seismicity is highly correlated with published surface mapping of faults that experienced triggered surface slip in response to the EMC main shock. Aftershocks occurred between 2 km and 11 km depths, consistent with previous studies of seismogenic thickness in the region. 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source Wiley-Blackwell Read & Publish Collection; Alma/SFX Local Collection
subjects aftershock relocation
Aftershocks
conjugate faulting
Deserts
Dimensional analysis
Earth sciences
Earth, ocean, space
Earthquakes
El Mayor-Cucapah
Exact sciences and technology
Fault lines
Geophysics
hypoDD
Hypoinverse
Hypoinverse, Velest, hypoDD
Plate tectonics
Relocation
Seismic activity
seismicity rates
Seismology
spatio-temporal migration of aftershocks
Velest
title Aftershocks of the 2010 Mw 7.2 El Mayor-Cucapah earthquake reveal complex faulting in the Yuha Desert, California
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