Self-formed bedrock waterfalls
Abstract
Waterfalls are inspiring landforms that set the pace of landscape evolution as a result of bedrock incision. They communicate changes in sea level or tectonic uplift throughout landscapes or stall river incision, disconnecting landscapes from downstream perturbations. Here we use a flume experiment with constant water discharge and sediment feed to show that waterfalls can form from a planar, homogeneous bedrock bed in the absence of external perturbations. In our experiment, instabilities between flow hydraulics, sediment transport and bedrock erosion lead to undulating bedforms, which grow to become waterfalls. We propose that it is plausible that the origin of some waterfalls in natural systems can be attributed to this intrinsic formation process and we suggest that investigations to distinguish self-formed from externally forced waterfalls may help to improve the reconstruction of Earth history from landscapes.
Additional Information
© 2019 Springer Nature Publishing AG. Received 23 February 2018; Accepted 07 January 2019; Published 13 March 2019; Issue Date 14 March 2019. We thank J. Preimesberger for assistance with preliminary experiments, R. DiBiase, W. Dietrich, N. Izumi, G. Parker, J. Prancevic, J. Turowski and M. Yokokawa for discussion, and A. Wickert for a review. We acknowledge funding from the National Science Foundation (grant EAR-1147381 to M.P.L. and a Graduate Research Fellowship to J.S.S.), NASA (grant 12PGG120107 to M.P.L.), and the Alexander von Humboldt Foundation (postdoctoral fellowship to J.S.S.). This work includes data services provided by the OpenTopography Facility with support from the National Science Foundation under NSF Award Numbers 1557484, 1557319 and 1557330, and EAR-1043051. Data availability: All topographic and water surface profiles are available in the Supplementary Information. Author Contributions: J.S.S. and M.P.L. designed the study and wrote the manuscript with input from B.M.F. J.S.S. and B.M.F. performed the experiment with input from M.P.L. The authors declare no competing interests.Attached Files
Supplemental Material - 41586_2019_991_Fig4_ESM.jpg
Supplemental Material - 41586_2019_991_Fig5_ESM.jpg
Supplemental Material - 41586_2019_991_Fig6_ESM.jpg
Supplemental Material - 41586_2019_991_Fig7_ESM.jpg
Supplemental Material - 41586_2019_991_Fig8_ESM.jpg
Supplemental Material - 41586_2019_991_Fig9_ESM.jpg
Supplemental Material - 41586_2019_991_MOESM1_ESM.xlsx
Supplemental Material - 41586_2019_991_MOESM2_ESM.zip
Supplemental Material - 41586_2019_991_MOESM3_ESM.mp4
Supplemental Material - 41586_2019_991_MOESM4_ESM.mp4
Supplemental Material - 41586_2019_991_Tab1_ESM.jpg
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Additional details
- Eprint ID
- 91128
- DOI
- 10.1038/s41586-019-0991-z
- Resolver ID
- CaltechAUTHORS:20181121-090230516
- NSF
- EAR-1147381
- NSF Graduate Research Fellowship
- NASA
- 12PGG120107
- Alexander von Humboldt Foundation
- NSF
- EAR-1557484
- NSF
- EAR-1557319
- NSF
- EAR-1557330
- NSF
- EAR-1043051
- Created
-
2019-03-14Created from EPrint's datestamp field
- Updated
-
2021-11-16Created from EPrint's last_modified field
- Caltech groups
- Division of Geological and Planetary Sciences (GPS)