Origin of high mountains in the continents: The Southern Sierra Nevada

Brian Wernicke; Robert Clayton; Mihai Ducea; Craig H. Jones; Stephen Park; Stan Ruppert; Jason Saleeby; J. Kent Snow; Livia Squires; Moritz Fliedner; George Jiracek; Randy Keller; Simon Klemperer; James Luetgert; Peter Malin; Kate Miller; Walter Mooney; Howard Oliver; Robert Phinney

doi:10.1126/science.271.5246.190

Origin of high mountains in the continents: The Southern Sierra Nevada

Brian Wernicke, Robert Clayton, Mihai Ducea, Craig H. Jones, Stephen Park, Stan Ruppert, Jason Saleeby, J. Kent Snow, Livia Squires, Moritz Fliedner, George Jiracek, Randy Keller, Simon Klemperer, James Luetgert, Peter Malin, Kate Miller, Walter Mooney, Howard Oliver, Robert Phinney

Research output: Contribution to journal › Article › peer-review

216 Scopus citations

Abstract

Active and passive seismic experiments show that the southern Sierra, despite standing 1.8 to 2.8 kilometers above its surroundings, is underlain by crust of similar seismic thickness, about 30 to 40 kilometers. Thermobarometry of xenolith suites and magnetotelluric profiles indicate that the upper mantle is eclogitic to depths of 60 kilometers beneath the western and central parts of the range, but little subcrustal lithosphere is present beneath the eastern High Sierra and adjacent Basin and Range. These and other data imply the crust of both the High Sierra and Basin and Range thinned by a factor of 2 since 20 million years ago, at odds with purported late Cenozoic regional uplift of some 2 kilometers.

Original language	English (US)
Pages (from-to)	190-193
Number of pages	4
Journal	Science
Volume	271
Issue number	5246
DOIs	https://doi.org/10.1126/science.271.5246.190
State	Published - 1996
Externally published	Yes

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Wernicke, B., Clayton, R., Ducea, M., Jones, C. H., Park, S., Ruppert, S., Saleeby, J., Snow, J. K., Squires, L., Fliedner, M., Jiracek, G., Keller, R., Klemperer, S., Luetgert, J., Malin, P., Miller, K., Mooney, W., Oliver, H., & Phinney, R. (1996). Origin of high mountains in the continents: The Southern Sierra Nevada. Science, 271(5246), 190-193. https://doi.org/10.1126/science.271.5246.190

Wernicke, B, Clayton, R, Ducea, M, Jones, CH, Park, S, Ruppert, S, Saleeby, J, Snow, JK, Squires, L, Fliedner, M, Jiracek, G, Keller, R, Klemperer, S, Luetgert, J, Malin, P, Miller, K, Mooney, W, Oliver, H & Phinney, R 1996, 'Origin of high mountains in the continents: The Southern Sierra Nevada', Science, vol. 271, no. 5246, pp. 190-193. https://doi.org/10.1126/science.271.5246.190

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title = "Origin of high mountains in the continents: The Southern Sierra Nevada",

abstract = "Active and passive seismic experiments show that the southern Sierra, despite standing 1.8 to 2.8 kilometers above its surroundings, is underlain by crust of similar seismic thickness, about 30 to 40 kilometers. Thermobarometry of xenolith suites and magnetotelluric profiles indicate that the upper mantle is eclogitic to depths of 60 kilometers beneath the western and central parts of the range, but little subcrustal lithosphere is present beneath the eastern High Sierra and adjacent Basin and Range. These and other data imply the crust of both the High Sierra and Basin and Range thinned by a factor of 2 since 20 million years ago, at odds with purported late Cenozoic regional uplift of some 2 kilometers.",

author = "Brian Wernicke and Robert Clayton and Mihai Ducea and Jones, {Craig H.} and Stephen Park and Stan Ruppert and Jason Saleeby and Snow, {J. Kent} and Livia Squires and Moritz Fliedner and George Jiracek and Randy Keller and Simon Klemperer and James Luetgert and Peter Malin and Kate Miller and Walter Mooney and Howard Oliver and Robert Phinney",

year = "1996",

doi = "10.1126/science.271.5246.190",

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T2 - The Southern Sierra Nevada

AU - Wernicke, Brian

AU - Clayton, Robert

AU - Ducea, Mihai

AU - Jones, Craig H.

AU - Park, Stephen

AU - Ruppert, Stan

AU - Saleeby, Jason

AU - Snow, J. Kent

AU - Squires, Livia

AU - Fliedner, Moritz

AU - Jiracek, George

AU - Keller, Randy

AU - Klemperer, Simon

AU - Luetgert, James

AU - Malin, Peter

AU - Miller, Kate

AU - Mooney, Walter

AU - Oliver, Howard

AU - Phinney, Robert

PY - 1996

Y1 - 1996

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AB - Active and passive seismic experiments show that the southern Sierra, despite standing 1.8 to 2.8 kilometers above its surroundings, is underlain by crust of similar seismic thickness, about 30 to 40 kilometers. Thermobarometry of xenolith suites and magnetotelluric profiles indicate that the upper mantle is eclogitic to depths of 60 kilometers beneath the western and central parts of the range, but little subcrustal lithosphere is present beneath the eastern High Sierra and adjacent Basin and Range. These and other data imply the crust of both the High Sierra and Basin and Range thinned by a factor of 2 since 20 million years ago, at odds with purported late Cenozoic regional uplift of some 2 kilometers.

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Origin of high mountains in the continents: The Southern Sierra Nevada

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