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Covariation of climate and long-term erosion rates across a steep rainfall gradient on the Hawaiian island of Kaua'i

Author(s)
Ferrier, Ken L.; Perron, J. Taylor; Huppert, Kimberly L.; Slosberg, Michelle; Mukhopadhyay, Sujoy; Rosener, Matt; Stock, Jonathan D.; ... Show more Show less
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Abstract
Erosion of volcanic ocean islands creates dramatic landscapes, modulates Earth’s carbon cycle, and delivers sediment to coasts and reefs. Because many volcanic islands have large climate gradients and minimal variations in lithology and tectonic history, they are excellent natural laboratories for studying climatic effects on the evolution of topography. Despite concerns that modern sediment fluxes to island coasts may exceed long-term fluxes, little is known about how erosion rates and processes vary across island interiors, how erosion rates are influenced by the strong climate gradients on many islands, and how modern island erosion rates compare to long-term rates. Here, we present new measurements of erosion rates over 5 yr to 5 m.y. timescales on the Hawaiian island of Kaua‘i, across which mean annual precipitation ranges from 0.5 to 9.5 m/yr. Eroded rock volumes from basins across Kaua‘i indicate that million-year-scale erosion rates are correlated with modern mean annual precipitation and range from 8 to 335 t km[superscript –2] yr[superscript –1]. In Kaua‘i’s Hanalei River basin, [superscript 3]He concentrations in detrital olivines imply millennial-scale erosion rates of >126 to >390 t km[superscript –2] yr[superscript –1] from olivine-bearing hillslopes, while fluvial suspended sediment fluxes measured from 2004 to 2009 plus estimates of chemical and bed-load fluxes imply basin-averaged erosion rates of 545 ± 128 t km[superscript –2] yr[superscript –1]. Mapping of landslide scars in satellite imagery of the Hanalei basin from 2004 and 2010 implies landslide-driven erosion rates of 30–47 t km[superscript –2] yr[superscript –1]. These measurements imply that modern erosion rates in the Hanalei basin are no more than 2.3 ± 0.6 times faster than millennial-scale erosion rates, and, to the extent that modern precipitation patterns resemble long-term patterns, they are consistent with a link between precipitation rates and long-term erosion rates.
Date issued
2013-02
URI
http://hdl.handle.net/1721.1/85607
Department
Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences
Journal
Geological Society of America Bulletin
Publisher
Geological Society of America
Citation
Ferrier, K. L., J. T. Perron, S. Mukhopadhyay, M. Rosener, J. D. Stock, K. L. Huppert, and M. Slosberg. “Covariation of Climate and Long-Term Erosion Rates Across a Steep Rainfall Gradient on the Hawaiian Island of Kaua’i.” Geological Society of America Bulletin 125, no. 7–8 (July 1, 2013): 1146–1163.
Version: Author's final manuscript
ISSN
0016-7606
1943-2674

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