Journal of Applied Volcanology (Sep 2024)

Debris-flow monitoring on volcanoes via a novel usage of a laser rangefinder

  • Alexandra M. Iezzi,
  • Emily Bryant,
  • Weston A. Thelen,
  • Craig Gabrielson,
  • Seth C. Moran,
  • Matthew R. Patrick,
  • E. Frank Younger,
  • Maciej K. Obryk

DOI
https://doi.org/10.1186/s13617-024-00146-9
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 11

Abstract

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Abstract Mount Rainier has had at least 11 large lahars over the last 6,000 years, including one occurring without evidence of eruptive activity. This prompted the creation of a lahar detection system that uses a combination of seismic, infrasound, and tripwires. We test a laser rangefinder placed on a river channel bank for detecting and confirming mass movements flowing past a station as an alternative to the physical tripwires. After testing the device at an experimental debris-flow flume, the laser rangefinder successfully captured a small debris flow on Mount Rainier in 2023, confirming its effectiveness as a lahar detection and monitoring tool. Over the 2-month deployment at Mount Rainier, we find that spurious recordings in the laser rangefinder data (noise) tend to correlate with high humidity, and that periods of noise do not correlate with increased co-located seismic amplitude. Therefore, the impact of the noise on future alarms can be mitigated by coupling a laser rangefinder alarm with that of independent datasets.

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