著者

舛谷 敬一 馬籠 純

出版者

一般社団法人 地理情報システム学会

雑誌

GIS-理論と応用 (ISSN:13405381)

巻号頁・発行日

vol.22, no.1, pp.15-25, 2014-06-30 (Released:2019-02-28)

参考文献数

9

被引用文献数

3 1

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Flood hazard maps are quite useful for the aid to damage reduction and emergency operations for major flood crisis. In this paper, in order to derive flood hazard maps even for ungauged basins, we propose a simple method for assessing the flood inundation area based on purely topographical analyses of Digital Elevation Model (DEM), without meteorological data and hydrological models. The quality of the map derived from the proposed method is evaluated for the Fujikawa river basin against the corresponding maps given by Ministry of Land, Infrastructure, Transport and Tourism. Despite the crudeness of the model, the simulated maps are in good agreement with the reference maps. For the Chao Phraya River basin in Thailand, where an unprecedented flood disaster was caused during the 2011 monsoonal season, the simulated flood inundation map successfully reproduces the actual flooded land.

著者

馬籠 純 竹内 邦良 金丸 茂男 石平 博

出版者

Japan Society of Civil Engineers

雑誌

水工学論文集 (ISSN:09167374)

巻号頁・発行日

vol.46, pp.295-300, 2002-02-10 (Released:2010-06-04)

参考文献数

10

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The purpose of this study is to understand the potential impact of reservoir induced water storage on the basin scale water cycle. In this study, the increase of the basin scale residence time of river water is used as the index of the effect of reservoir on water cycle, and its spatial and temporal distribution in Japan are demonstrated. The results of analysis show that the potential increase of residence time by dam reservoirs in Japan has gradually increased from 1960's and reached to 14.5 days in 1995. The actual residence time increase is also estimated in the Tone river basin where operation and seasonal variation of river discharge are taken into account. It is shown that the estimated actual residence time is much smaller than the potential, in the case of the Tone river basin, 45%.

著者

畔柳 剛 甲山 治 佐山 敬洋 馬籠 純 松尾 奈緒子 芳村 圭

出版者

水文・水資源学会

雑誌

水文・水資源学会研究発表会要旨集

巻号頁・発行日

vol.19, pp.149, 2006

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広範かつ複雑に絡み合う現実社会の問題を解決するには,分野を越えた知識・経験が必要であるが,専門化された研究体制の中でそれを得るのは難しい.そこで本グループは異分野交流の場を提供し,枠にとらわれない問題解決へのアプローチができる資質を得ること,社会への還元をより意識した研究活動に取り組む姿勢を共有すること等を目指して2003年に結成された(通称カンピオーネ).時間的・社会的制約が少ない若手の特権を生かし,失敗を恐れない実験的な活動を積極的に行うことで,現実社会にとって本当に必要とされている新たな学問分野の開拓を試みる.本稿では2005年度に行った活動概要を報告する.

著者

馬籠 純 竹内 邦良 金丸 茂男 石平 博

出版者

公益社団法人 土木学会

雑誌

水工学論文集 (ISSN:09167374)

巻号頁・発行日

no.46, pp.295-300, 2002

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The purpose of this study is to understand the potential impact of reservoir induced water storage on the basin scale water cycle. In this study, the increase of the basin scale residence time of river water is used as the index of the effect of reservoir on water cycle, and its spatial and temporal distribution in Japan are demonstrated. The results of analysis show that the potential increase of residence time by dam reservoirs in Japan has gradually increased from 1960's and reached to 14.5 days in 1995. The actual residence time increase is also estimated in the Tone river basin where operation and seasonal variation of river discharge are taken into account. It is shown that the estimated actual residence time is much smaller than the potential, in the case of the Tone river basin, 45%.

著者

平野 順子 馬籠 純 石平 博 竹内 邦良

出版者

公益社団法人 土木学会

雑誌

水工学論文集 (ISSN:09167374)

巻号頁・発行日

vol.49, pp.385-390, 2005

被引用文献数

1

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A geo-referenced global dam reservoir database is constructed by assembling several published dam inventories and latitude/longitude coordinates that are digital obtained or decided from printed maps. This database is designed for hydrological applications on river basin scale to the global scale, and 15, 317 dams with 29 dam reservoir attributes are registered in it. A shoreline polygon data of the reservoir/lake is also provided for 4, 204 dams. The total storage capacity of the registered dams is 5, 594km<SUP>3</SUP>, which is equivalent to the 70% of total storage capacity of all reservoirs and lakes over the world (7, 000 km<SUP>3</SUP>). Since geo-referenced reservoir database which covers whole global area is rarely available, the database will greatly contribute for global scale water resources analysis and impact assessment of reservoirs on the freshwater systems.