Abstract
A seasonal rain front (Baiu front) accompanied a long-term accumulation of precipitation propagated over the wide areas of the main island of Japan during 15–24 July 2006. In Okaya City, Nagano Prefecture, several flow-type landslides occurred in the early morning of 19 July 2006, claiming eight lives. Among these landslides, a most peculiar complex earth slide–earth flow occurred on a north gentle slope of the upstream portion of the Motosawagawa River. In the source area, volcanoclastic soils overlying tuffaceous rocks at about 4-m depth slid due to the prolonged precipitation that raised the water table level in the soil. Along with the travel path, the failed materials fluidized causing the liquefaction of the volcanoclastic soils underlain by volcanic black ash soils. The resulting flow spread over a wide area up to the final deposition. Constant volume box-shear tests on undisturbed volcanoclastic soil specimens taken from the source area showed effective normal stress tended to decrease during shearing. The ring shear tests on saturated disturbed specimens produced the large loss of shear resistance, which may explain the fluidized motion of the complex landslide.
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Acknowledgment
The authors wish to thank Mr. U. Kurokawa, Dr. T. Okamoto, Ms. Y. Ichikawa, and Dr. Y. Tada of the Forestry and Forest Products Research Institute for their great help in the field investigations. Our sincere thanks are offered to Mr. H. Miyajima for help with conducting laboratory tests. Finally, we wish to thank Prof. R. C. Sidle for intensive review.
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Okada, Y., Ochiai, H., Okamoto, T. et al. A complex earth slide–earth flow induction by the heavy rainfall in July 2006, Okaya City, Nagano Prefecture, Japan. Landslides 4, 197–203 (2007). https://doi.org/10.1007/s10346-006-0075-7
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DOI: https://doi.org/10.1007/s10346-006-0075-7