Indications of complex lithospheric structure around the Cheyenne Belt in the western U.S. based on shear wave splitting analysis
Date
2014
Authors
Millikan, Ronald, author
Schutt, Derek, advisor
Hannah, Judy, committee member
Breidt, Jay, committee member
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Abstract
This study employs the method of shear wave splitting using a modified Silver and Chan methodology to produce constraints on the character of the upper mantle below the Cheyenne Belt suture zone (CB), North America. The CB marks the boundary between the Proterozoic Yavapai and Archean Wyoming Provinces. A previously undetected regional anisotropic fossil fabric with north trending fast axis orientations was detected in topographically low areas and interpreted produced by Proterozoic strain created during the convergence that produced the CB. Anisotropy results sub-parallel to absolute plate motion (APM) were detected in the mountainous areas. This is interpreted as caused by local post-Laramide heating of the lithosphere, which has reset Proterozoic anisotropy. This interpretation explains the complexity of shear wave splitting noted in Colorado by other studies.
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Subject
anisotropy
shear wave splitting
lithospheric structure
Cheyenne Belt