Geologic Publications for Mount Rainier

Utility of a swath laser rangefinder for characterizing mass movement flow depth and landslide initiation

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Author(s): Maciej K. Obryk, Emily C. Bedinger, Alexandra M. Iezzi, Emily H. Bryant, Kate E. Allstadt, David L. George, Benjamin B. Mirus

Category: PUBLICATION
Document Type: Technical Note
Publisher: Landslides
Published Year: 2025
Volume:
Number:
Pages: 8
DOI Identifier: 10.1007/s10346-025-02533-8
ISBN Identifier:
Keywords: Debris flow Monitoring Swath laser Laser rangefinders Flume

Abstract:
Mass movements such as debris flows and landslides are some of the deadliest and most destructive natural hazards occurring mostly in alpine and volcanic settings. With ever-growing populations located downslope from known debris flow channels, early warning systems can help prevent loss of life. Geophysical and technological advances have improved monitoring and detection capabilities in recent years; however, they can often be cost prohibitive and resource intensive, making them less accessible to disadvantaged populations. We tested and validated a readily available and cost-effective two-dimensional swath laser rangefinder in a controlled experimental setting against two independent flow-depth lasers. The swath laser successfully recorded cross-sectional changes in flow depth from four debris flows and a water-only flood, in addition to geomorphic changes associated with landslide initiation. The results suggest that a swath laser could be integrated into systems for debris flow detection and characterization of mass movements in natural settings, thus improving the ability to monitor these hazards.

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Suggested Citations:
In Text Citation:
Obryk and others (2025) or (Obryk et al., 2025)

References Citation:
Obryk, M.K., E.C. Bedinger, A.M. Iezzi, E.H. Bryant, K.E. Allstadt, D.L. George, and B.B. Mirus, 2025, Utility of a swath laser rangefinder for characterizing mass movement flow depth and landslide initiation: Technical Note, Landslides, 8 p., doi: 10.1007/s10346-025-02533-8.