Surface parameters and bedrock properties covary across a mountainous watershed: Insights from machine learning and geophysics

Sebastian Uhlemann; Baptiste Dafflon; Haruko Murakami Wainwright; Kenneth Hurst Williams; Burke J. Minsley; Katrina D. Zamudio; Bradley Carr; Nicola Falco; Craig  Ulrich; Susan S. Hubbard

doi:10.1126/sciadv.abj2479

Surface parameters and bedrock properties covary across a mountainous watershed: Insights from machine learning and geophysics

Science Advances

By: Sebastian Uhlemann, Baptiste Dafflon, Haruko Murakami Wainwright, Kenneth Hurst Williams, Burke J. Minsley, Katrina D. Zamudio, Bradley Carr, Nicola Falco, Craig Ulrich, and Susan S. Hubbard

https://doi.org/10.1126/sciadv.abj2479

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Abstract

Bedrock property quantification is critical for predicting the hydrological response of watersheds to climate disturbances. Estimating bedrock hydraulic properties over watershed scales is inherently difficult, particularly in fracture-dominated regions. Our analysis tests the covariability of above- and belowground features on a watershed scale, by linking borehole geophysical data, near-surface geophysics, and remote sensing data. We use machine learning to quantify the relationships between bedrock geophysical/hydrological properties and geomorphological/vegetation indices and show that machine learning relationships can estimate most of their covariability. Although we can predict the electrical resistivity variation across the watershed, regions of lower variability in the input parameters are shown to provide better estimates, indicating a limitation of commonly applied geomorphological models. Our results emphasize that such an integrated approach can be used to derive detailed bedrock characteristics, allowing for identification of small-scale variations across an entire watershed that may be critical to assess the impact of disturbances on hydrological systems.

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Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Surface parameters and bedrock properties covary across a mountainous watershed: Insights from machine learning and geophysics
Series title	Science Advances
DOI	10.1126/sciadv.abj2479
Volume	8
Issue	12
Year Published	2022
Language	English
Publisher	American Association for the Advancement of Science
Contributing office(s)	Geology, Geophysics, and Geochemistry Science Center
Description	15 p.
Country	United States
State	Colorado
Other Geospatial	East River
Google Analytic Metrics	Metrics page