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Small-scale convection at the edge of the Colorado Plateau: Implications for topography, magmatism, and evolution of Proterozoic lithosphere

van Wijk, J.W.; Baldridge, W.S.; van Hunen, J.; Goes, S.; Aster, R.; Coblentz, D.D.; Grand, S.P.; Ni, J.

Authors

J.W. van Wijk

W.S. Baldridge

S. Goes

R. Aster

D.D. Coblentz

S.P. Grand

J. Ni



Abstract

The Colorado Plateau of the southwestern United States is characterized by a bowl-shaped high elevation, late Neogene–Quaternary magmatism at its edge, large gradients in seismic wave velocity across its margins, and relatively low lithospheric seismic wave velocities. We explain these observations by edge-driven convection following rehydration of Colorado Plateau lithosphere. A rapidly emplaced Cenozoic step in lithosphere thickness between the Colorado Plateau and adjacent extended Rio Grande rift and Basin and Range province causes small-scale convection in the asthenosphere. A lithospheric drip below the plateau is removing lithosphere material from the edge that is heated and metasomatized, resulting in magmatism. Edgedriven convection also drives margin uplift, giving the plateau its characteristic bowl shape. The edge-driven convection model shows good consistency with features resolved by seismic tomography.

Citation

van Wijk, J., Baldridge, W., van Hunen, J., Goes, S., Aster, R., Coblentz, D., …Ni, J. (2010). Small-scale convection at the edge of the Colorado Plateau: Implications for topography, magmatism, and evolution of Proterozoic lithosphere. Geology, 38(7), 611-614. https://doi.org/10.1130/g31031.1

Journal Article Type Article
Publication Date 2010
Deposit Date May 24, 2010
Journal Geology
Print ISSN 0091-7613
Electronic ISSN 1943-2682
Publisher Geological Society of America
Peer Reviewed Peer Reviewed
Volume 38
Issue 7
Pages 611-614
DOI https://doi.org/10.1130/g31031.1
Public URL https://durham-repository.worktribe.com/output/1552446



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