@article{1d548328906f4c1196e329ff81a8e511,
title = "Low variability runoff inhibits coupling of climate, tectonics, and topography in the Greater Caucasus",
abstract = "Hypothesized feedbacks between climate and tectonics are mediated by the relationship between topography and long-term erosion rates. While many studies show monotonic relationships between channel steepness and erosion rates, the degree of nonlinearity in this relationship varies by landscape. Mechanistically explaining controls on this relationship in natural settings is critical because highly nonlinear relationships imply low sensitivity between climate and tectonics. To this end, we present a coordinated analysis of cosmogenic 10Be concentrations in river sands paired with topographic, hydroclimatic, and tectonic data for the Greater Caucasus Mountains where topography is invariant along-strike despite large gradients in modern precipitation and convergence rates. We show that spatial patterns in erosion rates largely reflect regional tectonics with little sensitivity to mean precipitation or runoff. The nonlinearity in the erosion rate – steepness relationship may arise from very low runoff variability, which we attribute to the large contribution from snowmelt. Transitioning from rainfall- to snowmelt-driven runoff as mean elevation increases is common to many mid-latitude mountain ranges. The associated decrease in runoff variability may represent important, unrecognized dynamics inhibiting the sensitivity of tectonics to climate more broadly.",
keywords = "Greater Caucasus, climate-tectonic interactions, erosion models, erosion rates, geomorphology, topography",
author = "Forte, {Adam M.} and Leonard, {Joel S.} and Rossi, {Matthew W.} and Whipple, {Kelin X.} and Heimsath, {Arjun M.} and Lasha Sukhishvili and Tea Godoladze and Fakhraddin Kadirov",
note = "Funding Information: This work was supported by the National Science Foundation grant EAR-1450970 to A.M.F. and K.X.W. We thank Charles Trexler and Alexander Tye for collecting a small subset of the samples used in this analysis; Eric Cowgill and Nathan Niemi for help and advice related to this project both in and out of the field; Dachi Injia, Giga Ugrekhelidze, Davit Kapanadze, and Zurab Javakhishvili for assistance in the field; and Byron Adams and Roman DiBiase for helpful discussions and sharing codes. We acknowledge the GRDC for providing runoff data, available here ( https://www.bafg.de/GRDC/EN/Home/homepage_node.html ). We thank editor Jean-Philippe Avouac and reviewers Dirk Scherler and Jane Willenbring for comments which improved this manuscript. We also thank two anonymous reviewers of an earlier draft of this manuscript. Funding Information: This work was supported by the National Science Foundation grant EAR-1450970 to A.M.F. and K.X.W. We thank Charles Trexler and Alexander Tye for collecting a small subset of the samples used in this analysis; Eric Cowgill and Nathan Niemi for help and advice related to this project both in and out of the field; Dachi Injia, Giga Ugrekhelidze, Davit Kapanadze, and Zurab Javakhishvili for assistance in the field; and Byron Adams and Roman DiBiase for helpful discussions and sharing codes. We acknowledge the GRDC for providing runoff data, available here (https://www.bafg.de/GRDC/EN/Home/homepage_node.html). We thank editor Jean-Philippe Avouac and reviewers Dirk Scherler and Jane Willenbring for comments which improved this manuscript. We also thank two anonymous reviewers of an earlier draft of this manuscript. Publisher Copyright: {\textcopyright} 2022 Elsevier B.V.",
year = "2022",
month = apr,
day = "15",
doi = "10.1016/j.epsl.2022.117525",
language = "English (US)",
volume = "584",
journal = "Earth and Planetary Science Letters",
issn = "0012-821X",
publisher = "Elsevier",
}