TY - JOUR
T1 - The southern sierra nevada drip and the mantle wind direction beneath the Southwestern United States
AU - Zandt, George
N1 - Funding Information:
George Thompson was among the first geophysicists to set his sights on understanding the upper mantle influence on the Sierra Nevada. He set an example throughout his career that geophysicists should pay attention to geology. I thank Mihai Ducea and Clem Chase for many stimulating discussions about Sierra Nevada geology and western North American tectonics, and to Mihai Ducea, George Gehrels, and Jason Saleeby for leading an educational and inspirational field trip through the Sierra Nevada and California Coast Ranges. Mihai Ducea, Clem Chase, and Tom Owens reviewed early drafts of this paper. Mihai Ducea and Gary Ernst reviewed the final manuscript. This paper is dedicated to the memories of Doug Nelson and Guenter Bock, two geophysicists lost in the prime of their careers, who epitomized the best aspects of collaborative research. The research was supported in part by NSF grants #9805149 and #0125121.
PY - 2003
Y1 - 2003
N2 - The Miocene-Pliocene convective removal of the southern Sierra Nevada batholithic root and its sinking through the upper mantle provides a natural experiment to estimate the direction and velocity of mantle flow beneath the southwestern United States. Xenolith data, volcanism patterns, and geologic evidence are used to constrain the location and timing of the initial detachment. Seismic tomography images of the upper mantle are used to determine the displacement of the downwelling "tail" by the background mantle flow. The "mantle wind" direction based on this analysis is estimated to be SSW, in contradiction to another recent estimate based on a combination of geodetic data and shear-wave splitting measurements. The conflicting conclusions can be reconciled if the splitting measurements are dominated by anisotropy in the shallow mantle imposed by lithospheric motion. The SSW direction is approximately consistent with global models of asthenospheric counterflow directions, and therefore supports the idea that self-driving plate forces can explain the absolute motion of the North American plate.
AB - The Miocene-Pliocene convective removal of the southern Sierra Nevada batholithic root and its sinking through the upper mantle provides a natural experiment to estimate the direction and velocity of mantle flow beneath the southwestern United States. Xenolith data, volcanism patterns, and geologic evidence are used to constrain the location and timing of the initial detachment. Seismic tomography images of the upper mantle are used to determine the displacement of the downwelling "tail" by the background mantle flow. The "mantle wind" direction based on this analysis is estimated to be SSW, in contradiction to another recent estimate based on a combination of geodetic data and shear-wave splitting measurements. The conflicting conclusions can be reconciled if the splitting measurements are dominated by anisotropy in the shallow mantle imposed by lithospheric motion. The SSW direction is approximately consistent with global models of asthenospheric counterflow directions, and therefore supports the idea that self-driving plate forces can explain the absolute motion of the North American plate.
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U2 - 10.2747/0020-6814.45.3.213
DO - 10.2747/0020-6814.45.3.213
M3 - Article
AN - SCOPUS:0041887353
SN - 0020-6814
VL - 45
SP - 213
EP - 224
JO - International Geology Review
JF - International Geology Review
IS - 3
ER -