論文等の名称 |
執筆者名 |
発表年 |
掲載誌 |
Does a Kuznets curve apply to flood fatality? A holistic study for China and Japan |
Guangwei Huang |
2014 |
Natural Hazards, 71(3), p.2029–2042 |
山梨県における動学CGE モデルを用いた洪水被害に着目した地球温暖化の影響評価 |
西鶴誠希・武藤慎一 |
2017 |
土木学会論文集G(環境), 73(6), p.II_391-II_402 |
グローバルな水リスクと日本への影響 |
沖大幹 |
2019 |
用水と廃水, pp.80, 【p.62-67】 |
平成27 年9 月関東・東北豪雨による常総市内の事業所の被災特性に関する調査研究 |
大原 美保・南雲 直子・澤野 久弥 |
2016 |
土木学会論文集B1(水工学), 74,(4), p.I_1159-I_1164 |
ASSESSMENT OF FUTURE WATER RESOURCES IN THE TONE RIVER BASIN USING A COMBINED DYNAMICAL-STATISTICAL DOWNSCALING APPROACH |
Mohamed Rasmy, Toshio Koike, Peter Lawford, Masayuki Hara, Mikiko Fujita, Fujio Kimura |
2015 |
Journal of Japan Society of Civil Engineers, Ser. B1 (Hydraulic Engineering), 7(4), p.I_73-I_78 |
アンサンブル気候変動予測データベースd4PDFを用いた長良川流域における洪水流出解析 |
原田守啓・丸谷靖幸・児島利治 |
2017 |
水文・水資源学会研究発表会要旨集, 30, p.62-63 |
超多数アンサンブル気候予測実験データを用いた極値河川流量の将来変化の分析 |
立川康人・宮脇航平・田中智大・萬和明・加藤雅也・市川温・キムスンミン |
2017 |
土木学会論文集B1(水工学), 73(3), p.77-90 |
擬似温暖化手法による複数の確率年降雨に基づく氾濫解析と期待浸水深推定の試み |
谷口健司・渋尾欣弘 |
2018 |
土木学会論文集B1(水工学), 74(5), p.I_1405-I_1410 |
超過洪水による氾濫被害を軽減するための治水施設の総合的な効果分析手法の研究 |
沖岳大・中津川誠 |
2017 |
土木学会論文集B1(水工学), 73(4), p.I_367-I_372 |
Estimating insured residential losses from large flood scenarios on the Tone River, Japan – a data integration approach |
T. Okada, K. J. McAneney, K. Chen |
2011 |
Natural Hazards and Earth System Sciences, 11, p.3373–3382 |
鶴見川流域を対象とした既往大雨事例に基づく降水及び河川流量の将来変化 |
谷口健司・渋尾欣弘・吉村耕平 |
2017 |
土木学会論文集B1(水工学), 73(4), p.I_181-I_186 |
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論文等の名称 |
執筆者名 |
発表年 |
掲載誌 |
Climate change impacts on wave characteristics along the coast of Japan from 1986 to 2012 |
Duan W, He B, Takara K, Luo P, Hu M, Alias N.E, Ishihara M, Wang Y |
2014 |
Journal of Coastal Research, 68, p.97-104 |
2014年12月の爆弾低気圧による北海道東部における高潮・波浪の再現計算 |
熊谷健蔵・金洙列・辻尾大樹・間瀬肇・辻貴仁 |
2017 |
土木学会論文集B2(海岸工学), 73(2), p.I_193-I_198 |
2017 Typhoon Lan Reconnaissance Field Survey in Coasts of Kanto Region, Japan |
Md. Rezuanul Islam, Hiroshi Takagi, Le Tuan Anh, Atsuhei Takahashi, Ke Bowei |
2018 |
Journal of Japan Society of Civil Engineers, Ser.
B3 (Ocean Engineering), 74(2), p.I_593-I_598 |
Post-Disaster Survey of Storm Surge and Waves Along the Coast of Batanes, the Philippines, Caused by Super Typhoon Meranti/Ferdie |
Yoshimitsu Tajima, John Phillip Lapidez, Jeane Camelo, Mizuka Saito, Yoshinao Matsuba, Takenori Shimozono, Dominic Bautista, Marjorie Turiano, Eric Cruz |
2017 |
Coastal Engineering Journal, 59(1) |
確率台風モデルと観測台風資料を組み合わせた高潮イベントアトリビューション-八代海を対象とした最悪台風経路の基礎的検討- |
中條壮大・金洙列・森信人・安田誠宏・間瀬肇・山田文彦 |
2013 |
土木学会論文集B2(海岸工学), 69(2), p.I_366-I_370 |
気候変動を考慮した沿岸浸水リスクの不確実性および感度分析 |
辻尾大樹・Paul Bates |
2017 |
土木学会論文集B2(海岸工学), 73(2), p.I_1423-I_1428 |
Effect of Sea Level Rise and Increase in Typhoon Intensity on Coastal. Structures in Tokyo Bay |
Sayaka Hoshino, Miguel Esteban, Takahito Mikami, Tomoyuki Takabatake, Tomoya Shibayama |
2011 |
Coastal Structures Conference, September 2011. |
将来気候データにおける台風中心気圧のバイアス補正手法に関する検討 |
井手喜彦・一色勇志・児玉充由・橋本典明・山城賢 |
2017 |
土木学会論文集B2(海岸工学),73(2), p.I_1417-I_1422 |
Estimation of Climate Change Impact on Storm Surges: Application to Korean Peninsula |
Sooyoul Kim, Jihee Oh, Kyung-Duck Suh, Hajime Mase |
2017 |
Coastal Engineering Journal, 59(2) |
Estimation of increase in storm surge damage due to climate change and sea level rise in the Greater Tokyo area |
Sayaka Hoshino, Miguel Esteban, Takahito Mikami, Hiroshi Takagi, Tomoya Shibayama |
2016 |
Natural Hazards, 80, p.539–565 |
Analysis of Climate Change Effects on Seawall Reliability |
Hajime Mase, Takashi Tamada, Tomohiro Yasuda, Harshinie Karunarathna, Dominic E. Reeve |
2015 |
Coastal Engineering Journal, 57(3) |
Assessment of future stability of breakwaters under climate change |
Hiroshi Takagi, Miguel Esteban |
2011 |
Coastal Engineering Journal, 53(1), p.21–39 |
A new index for evaluation of risk of complex disaster due to typhoons |
Tomokazu Murakami, Shinya Shimokawa |
2015 |
Natural Hazards, 79(1), p.29–44 |
台風1330号と台風0918号の強度に関する将来変化と不確実性の相互比較 |
豊田将也・吉野純・小林智尚 |
2017 |
土木学会論文集B2(海岸工学), 73(2), p.I_217-I_222 |
A new typhoon bogussing scheme to obtain the possible maximum typhoon and its application for assessment of impacts of the possible maximum storm surges in Ise and Tokyo Bays in Japan |
Shinya Shimokawa, Tomokazu Murakami, Satoshi Iizuka, Jun Yoshino, Takashi Yasuda |
2014 |
Natural Hazards, 74(3), p.2037–2052 |
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論文等の名称 |
執筆者名 |
発表年 |
掲載誌 |
気象・海象変化に伴うサロマ湖沿岸域の地形変化特性 |
時沢武史・中村雅博・橋本孝治・酒向章哲・山下俊彦 |
2017 |
土木学会論文集B2(海岸工学), 73(2), p.I_775-I_780 |
サロマ湖第二湖口周辺の漂砂特性への気象変化の影響 |
山下俊彦・押田亮祐・冨沢進一・佐藤誠・時沢武史・山上佳範 |
2014 |
土木学会論文集B2(海岸工学), 70(2), p.I_606-I_610 |
Regime shifts in the multi-annual evolution of a sandy beach profile |
Yoshiaki Kuriyama, Shinichi Yanagishima |
2018 |
Earth Surface Processes and Landforms |
The Future Prediction of the One-Dimensional Topography of the Estuary Delta of the Shirakawa River |
Sota Nakajo, Kohei Nakanishi, Hikaru Ota |
2017 |
Coastal Engineering Journal, 59(2) |
Projection of decrease in Japanese beaches due to climate change using a geographic database |
Nobuhito Mori, Sota Nakajo, Syohei Iwamura, Yoko Shibutani |
2018 |
Coastal Engineering Journal, 60(2), p.239-246 |
The dynamic effects of sea level rise on low-gradient coastal landscapes: A review |
Davina L. Passeri, Scott C. Hagen, Stephen C. Medeiros, Matthew V. Bilskie, Karim Alizad, Dingbao Wang |
2015 |
A review. Earth's Future, 3, p.159–181 |
Shoreline change caused by the increase in wave transmission over a submerged breakwater due to sea level rise and land subsidence |
Y. Kuriyama, M. Banno |
2016 |
Coastal Engineering, 112, p. 9-16 |
砂浜侵食に伴うレクリエーション価値の損失と適応政策の効果の推計 |
佐尾博志・供田豪・森龍太・森杉雅史・大野栄治・中嶌一憲・坂本直樹 |
2017 |
土木学会論文集G(環境), 73(5), p.I_191-I_199 |
気候変動による砂浜侵食の地域別被害計測並びに適応政策の検討 |
佐尾博志・森杉雅史・大野栄治・坂本直樹・中嶌一憲・森杉壽芳 |
2013 |
土木学会論文集G(環境), 69(5), p.I_249-I_257 |
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論文等の名称 |
執筆者名 |
発表年 |
掲載誌 |
2017年7月の九州北部豪雨による土砂災害 |
丸谷知己・海堀正博・地頭薗隆・水野秀明・大野宏之・清水収・久保田哲也・植 弘隆・金澤瑛・河野貴則・古賀省三・小林央宜・小林拓也・坂島俊彦・酒谷幸彦・相楽渉・篠原慶規・鈴木大和・高木将行・鳥田英司・中濃耕司・藤澤康弘・山口和也・山田勇智 |
2017 |
砂防学会誌, 70(4), p.31-42 |
流砂・流木を伴う洪水流の解析 ―2017年7月九州北部豪雨による赤谷川洪水を対象としてー |
原田 大輔・江頭 進治 |
2018 |
土木学会論文集B1(水工学), 74(4), .I_937-I_942 |
豪雨時における土砂流出量の推定法 |
山崎祐介・江頭進治・南雲直子 |
2018 |
土木学会論文集B1(水工学), 74(4), .I_931-I_936 |
Soil-Frost Depth Change in Eastern Hokkaido under +2 K-World Climate Scenarios |
Masaru Inatsu, Junpei Tominaga, Yuta Katsuyama, Tomoyoshi Hirota |
2016 |
SOLA, 1(12), p.153−158 |
Distributed specific sediment yield estimations in Japan attributed to extreme-rainfall-induced slope failures under a changing climate |
K. Ono, T. Akimoto, L. N. Gunawardhana, S. Kazama, S. Kawagoe |
2011 |
Hydrology and Earth System Sciences, 15, p.197-207 |
Future change of the potential landslide disasters as evaluated from precipitation data simulated by MRI‐AGCM3.1 |
Yuichiro Oku, Eiichi Nakakita |
2013 |
Hydrological Processes, 27(23), p.3332-3340 |
平成24年台風4号を対象とした和歌山県新宮川流域における擬似温暖化時の降雨と土壌雨量指数の評価 |
西岡誠悟・小林健一郎・奥勇一郎・江種伸之・田内裕人 |
2017 |
土木学会論文集B1(水工学), 73(4), p.I_187-I_192 |
2018年7月西日本豪雨災害調査報告書 |
公益社団法人 土木学会中国支部 |
2018 |
pp.515,【p.1】 |
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論文等の名称 |
執筆者名 |
発表年 |
掲載誌 |
Growing threat of intense tropical cyclones to East Asia over the period 1977–2010 |
Doo-Sun R Park, Chang-Hoi Ho, Joo-Hong Kim |
2014 |
Environmental Research Letters, 9 |
Simulations of the Present and Late-Twenty-First-Century Western North Pacific Tropical Cyclone Activity Using a Regional Model |
Liang Wu, Chia Chou, Cheng-Ta Chen, Ronghui Huan, Thomas R. knutson, Joseph J. Sirutis, Stephen T. Garner, Christopher Kerr, Chia-Jung Lee, Ya-Chien Feng |
2014 |
Journal of Climate, 27(9), p.3405-3424 |
Projection of future typhoons landing on Japan based on a stochastic typhoon model utilizing AGCM projections |
Tomohiro Yasuda, Hajime Mase, Nobuhito Mori |
2010 |
Hydrological Research Letters, 4, p.65-69 |
高解像度台風モデルによる台風1330 号の強度に関する将来変化と不確実性の感度実験 |
吉野純・篠原賢一・豊田将也・小林智尚 |
2017 |
土木学会論文集B2(海岸工学), 73(2), p.I_1405-I_1410 |
海面水温の将来変化パターンによる近未来の台風特性の相違に関する研究 |
井手喜・中尾直幸・児玉充由・橋本典明・山城賢 |
2018 |
土木学会論文集B3(海洋開発), 74(2), p.I_587- I_592 |
Attribution of Projected Future Changes in Tropical Cyclone Passage Frequency over the Western North Pacific |
Satoru Yokoi, Yukari N. Takayabu, Hiroyuki Murakami |
2012 |
Journal of Climate, 26, p.4096-4111 |
Future projection using stochastic typhoon model under global climate change |
T. Yasuda, S. Nakajo, N. Mori, H. Mase |
2011 |
Applications of Statistics and Probability in Civil Engineering, p.479-480 |
Effects of global warming on the impacts of Typhoon Mireille (1991) in the Kyushu and Tohoku regions |
Tetsuya Takemi, Rui Ito, Osamu Arakawa |
2016 |
Hydrological Research Letters, 10(3), p.81-87 |
Changes in Potential Intensity of Tropical Cyclones Approaching Japan due to Anthropogenic Warming in Sea Surface and Upper-Air Temperatures |
Junichi Tsutsui |
2010 |
Journal of the Meteorological Society of Japan, 88(3), p.263-284 |
A Possible Reduction in the Severity of Typhoon Wind in the Northern Part of Japan under Global Warming: A Case Study |
Rui Ito, Tetsuya Takemi, Osamu Arakawa |
2016 |
SOLA, 12, p.100-105 |
A preliminary impact assessment of typhoon wind risk of residential buildings in Japan under future climate change |
Kazuyoshi Nishijima, Takashi Maruyama, Mathias Graf |
2012 |
Hydrological Research Letters, 6, p.23-28 |
Climate model-based probabilistic assessment of wind risk for residential buildings under projected future climate |
Shuoyun Zhang, Kazuyoshi Nishijima, Takashi Maruyama |
2014 |
Civil Engineering and Environmental Systems, 31(2), p.98-110 |
Wind damage risk estimation for strip cutting under current and future wind conditions based on moment observations in a coastal forest in Japan |
Satoru Suzuki, Tomoki Sakamoto, Hironori Noguchi |
2016 |
Journal of Forest Research, 21(5), p.223–234 |
Projection of impacts of climate change on windthrows and evaluation of potential adaptation measures in forest management: A case study from empirical modelling of windthrows in Hokkaido, Japan, by Typhoon Songda (2004) |
Kohei T. Takano, Kosuke Nakagawa, Masahiro Aiba, Michio Oguro, Junko Morimoto, Yasuto Furukawa, Yoshio Mishima, Kenta Ogawa, Rui Ito, Tetsuya Takemi |
2016 |
Hydrological Research Letters, 10 (4), p.132-138 |
The economic impact of future increase in tropical cyclones in Japan |
Christian Webersik, Miguel Esteban, Tomoya Shibayama |
2010 |
Natural Hazards, 55, p.233–250 |
Evaluation of the Productivity Decrease Risk Due to a Future Increase in Tropical Cyclone Intensity in Japan |
Miguel Esteban, Gorka Longarte-Galnares |
2010 |
Risk Analysis, 30(12), p.1789-1802 |
大規模アンサンブル気候予測データを用いた爆弾低気圧の将来変化 |
高裕也・二宮順一・森信人 |
2018 |
水工学論文集, 62, p.I_175-180 |
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