Landslide-induced terminal moraine-like landforms on the east side of Mount Shiroumadake, Northern Japanese Alps

Previous studies have interpreted landforms east of Mount Shiroumadake (2932 m asl), in the Northern Japanese Alps, as lateral and terminal moraines and outwash terraces of glacial origin. However, recent studies in other areas of the Northern Japanese Alps have interpreted similar landforms as char...

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Bibliographic Details
Published in:Geomorphology (Amsterdam, Netherlands) Netherlands), 2011-04, Vol.127 (3), p.156-165
Main Authors: Kariya, Yoshihiko, Sato, Go, Komori, Jiro
Format: Article
Language:English
Subjects:
14C age
Alps
Bedrock
Earth sciences
Earth, ocean, space
Earthquakes, seismology
Engineering and environment geology. Geothermics
Exact sciences and technology
Geomorphology
Glaciation
glaciers
gravel
Holocene
humid zones
Internal geophysics
Landforms
landscapes
Landslide
Landslides
Marine and continental quaternary
Natural hazards: prediction, damages, etc
Origins
Paleoearthquake
Paraglaciation
piedmont
rain
Rock
snow
Surficial geology
surveys
Terminals
Terraces
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Summary:Previous studies have interpreted landforms east of Mount Shiroumadake (2932 m asl), in the Northern Japanese Alps, as lateral and terminal moraines and outwash terraces of glacial origin. However, recent studies in other areas of the Northern Japanese Alps have interpreted similar landforms as characteristic landslide bodies. We re-examined the origin and age of moraine-like landforms on the eastern side of Mount Shiroumadake through field geological surveys and landform analysis. We show that terminal moraine-like landforms in our study area consist of beds of brecciated or crushed gravel with locally derived crackle clasts and are unrepresentative of the variety of bedrock expose in the plausible source areas of Pleistocene glaciers. We interpret these deposits as induced by mass rock creep and landsliding at the terminus of a steep ridge or a steep valley side slope. Similarly, terrace surfaces formerly-interpreted as of outwash or fluvial origin consist of gravel beds with many fractured rock clasts of landslide origin. Although the timing of the landslides is not well constrained, they may have occurred in the early to middle Holocene. The highly deformed rocks of the study area, combined with the humid climate with much snowfall and rainfall, have left the landscape with an inherent predisposition for landsliding. Paleoearthquakes on nearby active faults in the piedmont area of Mount Shiroumadake may have provided a direct trigger for landsliding.
ISSN:0169-555X
1872-695X
DOI:10.1016/j.geomorph.2010.12.012