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Find Your Science at GSA
30 Jan. 2013
GSA Release No. 13-05
Contact:
Kea Giles
Managing Editor,
GSA Communications
+1-303-357-1057
February 2013 GSA Today

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GSA Today: Rejuvenation of the Southern Appalachians

Boulder, Colorado, USA – In the February 2013 issue of GSA Today, Sean Gallen and his colleagues from the Department of Marine, Earth, and Atmospheric Sciences at North Carolina State University take a new look at the origin of the Miocene rejuvenation of topographic relief in the southern Appalachians.

Conventional wisdom holds that the southern Appalachian Mountains have not experienced a significant phase of tectonic forcing for more than 200 million years; yet, they share many characteristics with tectonically active settings, including locally high topographic relief, steep slopes, incised river gorges, and frequent mass-wasting events.

Two competing hypotheses are commonly used to explain their modern topographic expression. One suggests that relief is largely controlled by variable lithologic resistance to weathering and that their modern form has long persisted in a dynamic equilibrium. The second postulates that their relief is a product of recent rejuvenation, driven either by climate change or the epeirogenic uplift of the land surface driven by mantle forcing.

Within portions of the Cullasaja River basin of the southern Appalachians, Gallen and colleagues show that relief has increased by more than 150% since the Miocene. Evident within the basin are a set of retreating knickpoints that delineate a rugged, actively incising landscape from lower-relief relict topography. Constraints on the timing of knickpoint entry into the basin suggest that the process of landscape rejuvenation began well prior to the late Cenozoic (earlier than four million years ago) transition to a more oscillatory (glacial-interglacial) climate regime. Furthermore, the geomorphology of the Cullasaja River basin is difficult to reconcile in the context of a transition to a more erosive climatic regime but is consistent with an epeirogenically uplifted landscape. Consequently, these observations lend new support to the idea that the rugged topography of the southern Appalachians has developed in response to post-orogenic regional uplift in the Miocene.

ARTICLE
Miocene rejuvenation of topographic relief in the southern Appalachians
Sean F. Gallen, Karl W. Wegmann, and DelWayne R. Bohnenstiehl, Dept. of Marine, Earth, and Atmospheric Sciences, North Carolina State University, 2800 Faucette Drive, Raleigh, North Carolina 27695, USA. Pages 4-10; doi: 10.1130/GSATG163A.1, http://www.geosociety.org/gsatoday/archive/23/2/article/i1052-5173-23-2-4.htm.

GSA TODAY articles are open access online; for a print copy, please contact Kea Giles at . Please discuss articles of interest with the authors before publishing stories on their work, and please make reference to GSA TODAY in articles published. This press release was written by GSA Today science editor Damian Nance and GSA Today managing editor Kea Giles.

 

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