Decreasing landslide erosion on steeper slopes in soil‐mantled landscapes
Abstract
Slope‐stability models predict that steeper hillslopes require smaller hydrological triggers for shallow landslides to occur due to the added downslope pull of gravity, which should result in more frequent landslides and faster erosion. However, field observations indicate that landslide frequency does not consistently increase on steeper hillslopes. Here, we use measurements of 1,096 soil landslides in California and Switzerland, and a compilation of landslide geometries, to show that steeper hillslopes typically have thinner soils and that thin soils inhibit landslides due to enhanced roles of cohesion and boundary stresses. We find that the landscape‐averaged landslide erosion depth peaks near the threshold slope for instability, and it drops to half that value on hillslopes that are just 5° to 10° steeper. We propose that faster rates of soil creep on steeper slopes cause thin and more stable soils, which in turn reduces landslide erosion, despite the added pull of gravity.
Additional Information
© 2020 American Geophysical Union. Received 13 FEB 2020; Accepted 20 APR 2020; Accepted article online 3 MAY 2020. J. P. P. was funded by Uniscientia Stiftung, the ETH Foundation, and SNF grant P400P2_183929. The authors thank Isaac Larsen and David Milledge for providing the landslide geometry compilations that are shown in Figure 1. All data used to make the figures are available at https://www.hydroshare.org/resource/037197c2aaa24aeaa18f4e6e1fe5be4a/. Additional data from the Swiss landslides not used in this publication is freely available here: https://hangmuren.wsl.ch/index.html.Attached Files
Published - 2020GL087505.pdf
Supplemental Material - grl60571-sup-0002-2020gl087505-si.docx
Supplemental Material - grl60571-sup-0003-2020gl087505-ts01.xlsx
Supplemental Material - grl60571-sup-0004-2020gl087505-ts02.xlsx
Supplemental Material - grl60571-sup-0005-2020gl087505-ts03.xlsx
Supplemental Material - grl60571-sup-0006-2020gl087505-ts04.xlsx
Supplemental Material - grl60571-sup-0007-2020gl087505-ts05.xlsx
Supplemental Material - grl60571-sup-0008-2020gl087505-ts06.xlsx
Supplemental Material - grl60571-sup-0009-2020gl087505-ts07.xlsx
Supplemental Material - grl60571-sup-0010-2020gl087505-ts08.xlsx
Supplemental Material - grl60571-sup-0011-2020gl087505-ts09.xlsx
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Additional details
- Eprint ID
- 102987
- Resolver ID
- CaltechAUTHORS:20200504-154313129
- Uniscientia Stiftung
- ETH Foundation
- Swiss National Science Foundation (SNSF)
- P400P2_183929
- Created
-
2020-05-04Created from EPrint's datestamp field
- Updated
-
2021-11-16Created from EPrint's last_modified field
- Caltech groups
- Division of Geological and Planetary Sciences (GPS)