日本地球惑星科学連合2015年大会

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セッション記号 H (地球人間圏科学) » H-DS 防災地球科学

[H-DS06] Landslides and related phenomena

2015年5月28日(木) 14:15 〜 16:00 101A (1F)

コンビーナ:*千木良 雅弘(京都大学防災研究所)、王 功輝(京都大学防災研究所)、今泉 文寿(静岡大学農学部)、座長:山田 真澄(京都大学防災研究所)、土井 一生(京都大学防災研究所)

15:30 〜 15:45

[HDS06-10] 1949年今市地震によって発生した降下火砕物の崩壊

*千木良 雅弘1鈴木 毅彦2王 功輝1飛田 哲男1 (1.京都大学防災研究所、2.首都大学東京)

キーワード:地震, 斜面崩壊, テフラ, 軽石

Debris avalanches of pyroclastic fall deposits have been frequently induced by earthquakes in circum pacific countries, causing severe damage. Recent earthquakes that induced that type of landslides are 2011 Tohoku earthquake, 1984 Naganoken Seibu earthquake, 1978 Izu-Oshima-Kinkai earthquake, 1969 Tokachi-Oki earthquake, and 1949 Imaichi earthquake, in which landslides induced by the 1949 Imaichi have much less record than the others. Landslides induced by the 1949 Imaichi earthquake with a magnitude of 6.4 has been reported to have induced numerous numbers of landslides by Morimoto (1951) but their distribution has not been well plotted on a map and the slid materials are not well specified. We surveyed the affected area using high-resolution DEMs obtained by the airborne LiDAR and made field surveys. Comparison between the high-resolution DEMs and local landslide distribution maps showed that there are two types of landslide, one is a deep landslide with a sliding surface along the Kanuma Pumice Fall Deposot in a depth of 5-6 m and the other is a shallow landslide with a sliding surface probably along the base of the Imaichi Pumice Fall Deposit in a depth of 2-3 m. The deep landslides are rather easy to identify using high-resolution DEMs, and in addition to the 1949 landslides, we identified older deep landslides, which are assumed to have sliding surfaces in the same horizon with the 1949 landslides. Topographic features of shallow landslides may be erased fast, so we suppose older landslides cannot be identified on high-resolution DEM images.