Nature of the crust beneath northwest Basin and Range province from teleseismic receiver function data

Nature of the crust beneath northwest Basin and Range province from teleseismic receiver function data

We utilized teleseismic receiver function techniques complemented by active source refraction seismology to study the crustal structure and continental rift processes responsible for the development of the northwest corner of the Basin and Range province in northwest Nevada. Our passive seismic arra...

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Bibliographic Details
Published in:Journal of Geophysical Research - Solid Earth Vol. 113; no. B10; pp. B10308 - n/a
Main Authors: Gashawbeza, Ewenet M., Klemperer, Simon L., Wilson, Charles K., Miller, Elizabeth L.
Format: Journal Article
Language:English
Published: Washington, DC American Geophysical Union 01-10-2008
Blackwell Publishing Ltd
Subjects:
Basin and Range
Continental crust
Continental structures
Continental tectonics
crustal structure
Earth sciences
Earth, ocean, space
Exact sciences and technology
Exploration Geophysics
extensional
Geodesy and Gravity
Gravity anomalies and Earth structure
Seismology
Tectonophysics
Vp/Vs ratio
Basin and Range Province
Sierra Nevada Batholith
United States
Modoc Plateau
Sierra Nevada
California
Nevada
V p /V s ratio
Basin and Range
crustal structure
experimental studies
extension
thickness
anisotropy
seismology
surveys
lower crust
velocity
North America
faults
Modeling
crust
seismic arrays
Paleozoic
island arcs
new data
depth
Phanerozoic
Cenozoic
flow
direction
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Summary:We utilized teleseismic receiver function techniques complemented by active source refraction seismology to study the crustal structure and continental rift processes responsible for the development of the northwest corner of the Basin and Range province in northwest Nevada. Our passive seismic array of 28 short‐period stations, spanning 70 km west to east, and 5 broadband USArray transportable array stations that extended our aperture to 230 km provided data on crustal properties independent of the results of our active source refraction experiment. Combining data from the two experiments provides better constraints on Moho depth, Vp/Vs ratio, and the structure and composition of the crust beneath the northwestern Basin and Range province than possible from either experiment alone. Our new data indicate Moho depths that vary from 29.5 on the east to 36.5 km in the west along the passive source array and Vp/Vs ratios that systematically span a wide range from 1.68 to 1.83. Velocity modeling of data collected from the 300 km, wide‐angle refraction/reflection survey provides comparable Moho depths of 32–37 km under the same region. Decreasing Vp/Vs is correlated with decreasing crustal thickness, with Vp/Vs ratio > 1.80 in northeast California and Vp/Vs < 1.74 in the thinner crust of the Basin and Range province. We associate the high Vp/Vs of northeast California with mafic additions to the crust during formation of the Modoc Plateau in a region of accreted Paleozoic island arc terrans similar to those exposed in the eastern Klamaths and northwestern Sierra Nevada. Unusually low Vp/Vs in conjunction with low absolute Vp and Vs is observed beneath the central part of our array and may be due to the roots of the Sierra Nevada batholith, now dismembered by Basin and Range faults. Back azimuthal stacking of our receiver function data suggests a northwest oriented crustal anisotropy fast direction beneath this region, parallel to the northwest to southeast oriented Cenozoic extension experienced by the Basin and Range province and suggestive of a similar flow direction in the middle to lower crust.
Bibliography:ark:/67375/WNG-KR1P6NT5-5
ArticleID:2007JB005306
Tab-delimited Table 1.
istex:0609FBCB33AF7041887A41950EE00B607DF5A4EE
ISSN:0148-0227
2156-2202
DOI:10.1029/2007JB005306