From the Hydroclimatic Disaster to the Forced (Re)construction: Case Study of the Akatani Watershed in Japan

Dumont, Mélody; Arnaud-Fassetta, Gilles; Gomez, Christopher; Lissak, Candide; Viel, Vincent

https://hdl.handle.net/20.500.14094/0100491591

このアイテムのアクセス数:39件（2025-06-29 13:25 集計）

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メタデータID	0100491591
アクセス権	open access
出版タイプ	Version of Record
タイトル	From the Hydroclimatic Disaster to the Forced (Re)construction: Case Study of the Akatani Watershed in Japan
著者	Dumont, Mélody ; Arnaud-Fassetta, Gilles ; Gomez, Christopher ; Lissak, Candide ; Viel, Vincent
著者名 Dumont, Mélody
著者名 Arnaud-Fassetta, Gilles
著者ID A2057 研究者ID 1000020800577 KUID https://kuid-rm-web.ofc.kobe-u.ac.jp/search/detail.html?systemId=9e51fdd23b5fca20520e17560c007669 著者名 Gomez, Christopher ゴメス, クリストファー所属機関名海事科学研究科
著者名 Lissak, Candide
著者名 Viel, Vincent
言語	English (英語)
収録物名	Proceedings
巻(号)	87(1)
ページ	42
出版者	MDPI
刊行日	2023-07-21
公開日	2024-09-17
抄録	On 5–6 July 2017 (J17), an unusual series of rainfalls induced a concentration of precipitations in Northern Kyushu, Japan, reaching 516 mm in 24 h in Asakura City, a first in its history since the beginning of observation in 1976. This triggered unprecedented hydro-meteorological hazards (landslides, debris flows, and floods) in forested mountainous areas, such as in the Akatani watershed, where the estimated discharge reached 520 m3/s at its outflow. It induced numerous deaths, structural damages, destruction of river channels, and deposition of sediment in flood plains. If smaller-scale hazards have usually driven authorities to build protection systems in the watershed, the J17 crisis called for a full remodeling of it, interrupting waterways and reshaping slope shapes and structures. Considering the means deployed by the central government for this reconstruction, the J17 event triggered a full “re-construction” of rivers, modifying the hydrosystem’s functioning at the watershed scale. Thus, our objective is to show that after the relative stability of Akatani watershed’s hydrosystem over 75 y, the exceptionality of the J17 crisis forced us to rethink the watershed’s organization, using this event as the reference for post-disaster reconstruction. The research relies on field surveys in 2019 and 2022, interviews of officials, and GIS analysis based on historical aerial photograph interpretation and geospatial data. It revealed that (a) the geometry of post-disaster channels was completely redesigned to match a new reference and (b) sediment control structures were multiplied to restructure slopes, breaking the slope angles into subwatersheds. The Akatani watershed case then illustrates the full range of structural measures developed by Japanese engineering to reduce hydrological risks.
キーワード	post-disaster reconstruction
	River System Sabo
	Akatani watershed
カテゴリ	海事科学研究科
カテゴリ	会議発表論文
権利	© 2023 by the authors.
権利	Creative Commons Attribution license
関連情報	DOI https://doi.org/10.3390/IECG2022-14820

資源タイプ	conference paper
eISSN	2504-3900　OPACで所蔵を検索　 CiNiiで学外所蔵を検索
会議記述	会議名 The 4th International Electronic Conference on Geosciences 回次 4th 開催期間 1–15 December 2022 開催会場 Online

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