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After maintaining elevations near sea level for over 500 million years, the Colorado Plateau (CP) has a present average elevation of 2 km. We compute new receiver function images from the first dense seismic transect to cross the plateau that reveal a central CP crustal thickness of 42–50 km thinning to 30–35 km at the CP margins. Isostatic calculations show that only approximately 20% of central CP elevations can be explained by thickened crust alone, with the CP edges requiring nearly total mantle compensation. We calculate an uplift budget showing that CP buoyancy arises from a combination of crustal thickening, heating and alteration of the lithospheric root, dynamic support from mantle upwelling, and significant buoyant edge effects produced by small‐scale convecting asthenosphere at its margins.
Knowledge graph centered on High‐resolution receiver function imaging reveals with 6 nodes and 15 connections. Top connected: Stephen P. Grand, D. R. Wilson, Richard Aster, W. Scott Baldridge, James Ni.
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