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Arrested development: Erosional equilibrium in the southern Sierra Nevada, California, maintained by feedbacks between channel incision and hillslope sediment production

Authors :
Jean L. Dixon
Leonard S. Sklar
W. Jesse Hahm
Clifford S. Riebe
Ken L. Ferrier
Barbara S. Jessup
Anthony Dosseto
Scott N. Miller
Dale W. Johnson
Carolyn T. Hunsaker
R. P. Callahan
Source :
GSA Bulletin. 131:1179-1202
Publication Year :
2019
Publisher :
Geological Society of America, 2019.

Abstract

Tributary creeks of the southern Sierra Nevada have pronounced knickpoints that separate the landscape into an alternating sequence of gently sloped treads and steeply sloped risers. These knickpoints and the surrounding “stepped topography” suggest that the landscape is still responding to Pleistocene changes in base level on main-stem rivers. We tested this hypothesis using cosmogenic nuclides and uranium isotopes measured in stream sediment from widely distributed locations. Catchment-scale erosion rates from the cosmogenic nuclides suggest that the treads are relict surfaces that have adjusted to a previous base level. Nevertheless, erosion rates of relict interfluves are similar to canyon incision rates, implying that relief is unchanging in the lower Kings and San Joaquin Rivers. In addition, our results suggest that much of the southern Sierra Nevada is in a state of arrested development: the landscape is not fully adjusted to—and moreover is not responding to— changes in base-level lowering in the canyons. We propose that this can be explained by a paucity of coarse sediment supply, which fails to provide sufficient tools for bedrock channel incision at knickpoints. We hypothesize that the lack of coarse sediment in channels is driven by intense weathering of the local granitic bedrock, which reduces the size of sediment supplied from hillslopes to the channels. Our analysis highlights a feedback in which sediment size reduction due to weathering on hillslopes and transport in channels is both a key response to and control of bedrock channel incision and landscape adjustment to base-level change.

Details

ISSN :
00167606
Volume :
131
Database :
OpenAIRE
Journal :
GSA Bulletin
Accession number :
edsair.doi...........838695686e61bac8ac8cdf5aca8bb887
Full Text :
https://doi.org/10.1130/b35006.1