Using remote sensing techniques to identify geomorphic modifications caused by landslide tsunamis

When a large landslide falls into a deep body of water it can produce giant tsunami waves capable of causing widespread geomorphic change to landscapes. What changes occur and how long impacts from landslide tsunamis persist in the geologic record is not well understood. Landslide tsunamis often occ...

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Bibliographic Details
Main Author: Adams, Trent
Format: Text
Language:unknown
Published: ScholarWorks@CWU 2021
Subjects:
Landslides
tsunamis
modifications
Geology
Geomorphology
Geophysics and Seismology
Oceanography
Greenland
Alaska
Online Access:https://digitalcommons.cwu.edu/source/2021/COTS/54
https://www.youtube.com/watch?v=f_PqlXGN70M
Description
Summary:When a large landslide falls into a deep body of water it can produce giant tsunami waves capable of causing widespread geomorphic change to landscapes. What changes occur and how long impacts from landslide tsunamis persist in the geologic record is not well understood. Landslide tsunamis often occur in relatively recently deglaciated regions, such as Alaska in the U.S. and in Greenland. In the last century four of the largest historic landslide tsunamis occurred in these regions that caused vegetation loss, reorganization of stream channel networks, and the formation of unique geomorphic features indicative of landslide tsunamis. We used remote sensing techniques to analyze satellite images and digital elevation models of sites where landslide tsunamis have occurred in the past to determine what geomorphic modifications were caused and to assess the timeframe at which modifications remain preserved in the geologic record. Our methods of event identification can be applied to other historic landslide tsunami sites and can potentially be used to identify unknown historic landslide tsunamis.

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