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Late Miocene erosion and evolution of topography along the western slope of the Colorado Rockies

ScholarsArchive at Oregon State University

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Title Late Miocene erosion and evolution of topography along the western slope of the Colorado Rockies
Names Rosenberg, Russell (creator)
Kirby, Eric (creator)
Aslan, Andres (creator)
Karlstrom, Karl (creator)
Heizler, Matt (creator)
Ouimet, Will (creator)
Date Issued 2014-08 (iso8601)
Note This is an author's peer-reviewed final manuscript, as accepted by the publisher. The published article is copyrighted by the Geological Society of America and can be found at: http://geosphere.gsapubs.org/
Abstract In the Colorado Rocky Mountains, the association of high topography and low seismic
velocity in the underlying mantle suggests that recent changes in lithospheric buoyancy may have
been associated with surface uplift of the range. This paper examines the relationships among
late Cenozoic fluvial incision, channel steepness, and mantle velocity domains along the western
slope of the northern Colorado Rockies. New ⁴⁰Ar/³⁹Ar ages on basalts capping the Tertiary
Browns Park Formation range from ~11-6 Ma and provide markers from which we reconstruct
incision along the White, Yampa and Little Snake Rivers. The magnitude of post-10 Ma incision
varies systematically from north to south, increasing from ~500 m along the Little Snake River to
~1500 m along the Colorado River. Spatial variations in the amount of late Cenozoic incision are
matched by metrics of channel steepness; the upper Colorado River and its tributaries (e.g.
Gunnison and Dolores Rivers) are two to three times greater than the Yampa and White Rivers,
and these variations are independent of both discharge and lithologic substrate. The coincidence
of steep river profiles with deep incision suggests that the fluvial systems are dynamically
adjusting to an external forcing, but is not readily explained by a putative increase in erosivity
associated with late Cenozoic climate change. Rather, channel steepness 34 correlates with the
position of the channels relative to low velocity mantle. We suggest that the history of late
Miocene – present incision and channel adjustment reflects long-wavelength tilting across the
western slope of the Rocky Mountains.
Genre Article
Identifier Rosenberg, R., Kirby, E., Aslan, A., Karlstrom, K., Heizler, M., & Ouimet, W. (2014). Late Miocene erosion and evolution of topography along the western slope of the Colorado Rockies. Geosphere, 10(4), 641-663. doi:10.1130/GES00989.1

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