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Continuous measurements of valley floor width in mountainous landscapes

Clubb, Fiona J.; Weir, Eliot F.; Mudd, Simon M.

Continuous measurements of valley floor width in mountainous landscapes Thumbnail


Eliot F. Weir

Simon M. Mudd


Mountainous landscapes often feature alluviated valleys that control both ecosystem diversity and the distribution of human populations. Alluviated, flat valley floors also play a key role in determining flood hazard in these landscapes. Various mechanisms have been proposed to control the spatial distribution and width of valley floors, including climatic, tectonic, and lithologic drivers. Attributing one of these drivers to observed valley floor widths has been hindered by a lack of reproducible, automated valley extraction methods that allow continuous measurements of valley floor width at regional scales. Here, we present a new method for measuring valley floor width in mountain landscapes from digital elevation models (DEMs). This method first identifies valley floors based on thresholds of slope and elevation compared to the modern channel and uses these valley floors to extract valley centrelines. It then measures valley floor width orthogonal to the centreline at each pixel along the channel. The result is a continuous measurement of valley floor width at every pixel along the valley, allowing us to constrain how valley floor width changes downstream. We demonstrate the ability of our method to accurately extract valley floor widths by comparing with independent Quaternary fluvial deposit maps from sites in the UK and the US. We find that our method extracts similar downstream patterns of valley floor width to the independent datasets in each site, with a mean width difference of 17–69 m. The method works best in confined valley settings and will not work in unconfined valleys where the valley walls are not easily distinguished from the valley floor. We then test current models of lateral erosion by exploring the relationship between valley floor width and drainage area in the Appalachian Plateau, USA, selected because of its tectonic quiescence and relatively homogeneous lithology. We find that an exponent relating width and drainage area (cv = 0.3 ± 0.06) is remarkably similar across the region and across spatial scales, suggesting that valley floor width evolution is driven by a combination of both valley wall undercutting and wall erosion in the Appalachian Plateau. Finally, we suggest that, similar to common metrics used to explore vertical incision, our method provides the potential to act as a network-scale metric of lateral fluvial response to external forcing


Clubb, F. J., Weir, E. F., & Mudd, S. M. (2022). Continuous measurements of valley floor width in mountainous landscapes. Earth Surface Dynamics, 10(3), 437-456.

Journal Article Type Article
Acceptance Date May 10, 2022
Online Publication Date May 31, 2022
Publication Date 2022
Deposit Date May 31, 2022
Publicly Available Date Jun 1, 2022
Journal Earth Surface Dynamics
Print ISSN 2196-6311
Publisher Copernicus Publications
Peer Reviewed Peer Reviewed
Volume 10
Issue 3
Pages 437-456


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