Temporal changes in the debris flow threshold under the effects of ground freezing and sediment storage on Mt. Fuji
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Published:2021-11-02
Issue:6
Volume:9
Page:1381-1398
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ISSN:2196-632X
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Container-title:Earth Surface Dynamics
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language:en
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Short-container-title:Earth Surf. Dynam.
Author:
Imaizumi Fumitoshi, Ikeda AtsushiORCID, Yamamoto Kazuki, Ohsaka Okihiro
Abstract
Abstract. Debris flows are one of the most destructive sediment transport processes in mountainous areas because of their large volume, high velocity, and
kinematic energy. Debris flow activity varies over time and is affected by changes in hydrogeomorphic processes in the initiation zone. To clarify
temporal changes in debris flow activities in cold regions, the rainfall threshold for the debris flow occurrence was evaluated in Osawa failure at
a high elevation on Mt. Fuji, Japan. We conducted field monitoring of the ground temperature near a debris flow initiation zone to estimate the
presence or absence of seasonally frozen ground during historical rainfall events. The effects of ground freezing and the accumulation of channel
deposits on the rainfall threshold for debris flow occurrence were analyzed using rainfall records and annual changes in the volume of channel
deposits since 1969. Statistical analyses showed that the intensity–duration threshold during frozen periods was clearly lower than that during
unfrozen periods. A comparison of maximum hourly rainfall intensity and total rainfall also showed that debris flows during frozen periods were
triggered by a smaller magnitude of rainfall than during unfrozen periods. Decreases in the infiltration rate due to the formation of frozen ground
likely facilitated the generation of overland flow, triggering debris flows. The results suggest that the occurrence of frozen ground and the
sediment storage volume need to be monitored and estimated for better debris flow disaster mitigation in cold regions.
Funder
Ministry of Land, Infrastructure, Transport and Tourism Japan Society for the Promotion of Science
Publisher
Copernicus GmbH
Subject
Earth-Surface Processes,Geophysics
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