京都大学防災研究所年報 第62号 Aへ
To DPRI Annuals, No. 62 A
京都大学防災研究所年報 第62号 B
DPRI Annuals, No. 62 B
| 表紙 | |||||||
| 目次 | |||||||
| 観測情報に基づく建物倒壊確率を考慮した津波避難シミュレーション Tsunami Evacuation Simulation Considering the Building Collapse Probability based on the Observed Data | 246 | ||||||
| 伊藤恵理・川瀬 博・畑山満則・長嶋史明 Eri ITO, Hiroshi KAWASE, Michinori HATAYAMA and Fumiaki NAGASHIMA | |||||||
 | 強震動予測, 耐震化, 建物被害, 津波避難シミュレーション, エージェントベースシミュレーション, 避難計画 strong motion estimation, earthquake-resistant building, building damage, tsunami evacuation, agent-based simulation, evacuation planning | ||||||
| 押込み時における杭先端地盤の密度変化と支持層厚の関係-X線マイクロCTと間隙率マッピングを適用して- Relationship Between Density Changes in Pile Tip Groundand Bearing Layer Thicknesses UnderLoading:Applications of an X-ray Micro Tomography and a Porosity Mapping Analysis  |
254 | ||||||
| 末澤理希・木戸隆之祐・澤村康生・木村 亮 Riki SUEZAWA, Ryunosuke KIDO, Yasuo SAWAMURA and Makoto KIMURA | |||||||
| 薄層, 支持杭, X線マイクロCT, 間隙率マッピング thin layer, bearing pile, x-ray micro tomography, porosity mapping | ||||||
| 大規模噴火による航空交通網制御の危機対応に関する基礎的考察 ―桜島大噴火を事例としてー Preliminary Study on the Emergency Response of Air Traffic Network Control under Large-Scale Eruption - Case of Mt. Sakurajima - | 264 | ||||||
| 大西正光・藏原これはる Masamitsu ONISHI and Koreharu KURAHARA | |||||||
| 大規模噴火, 航空交通, 危機管理, 噴火予知情報 large-scale eruption, air traffic, emergency management, eruption prediction information | ||||||
| 2017年9月3日北朝鮮における人工地震の地震波形解析 Seismic Waveforms Associated with September 3, 2017 Explosion in the Democratic People’s Republic of Korea | 269 | ||||||
| 山田真澄・前田拓人・Jim MORI Masumi YAMADA, Takuto MAEDA and Jim MORI | |||||||
| 北朝鮮, 核実験, 地震波, T波 Democratic People’s Republic of Korea, Nuclear test, Seismic Waves, T-phase | ||||||
| 地震学的手法による南九州下のフィリピン海スラブとその周辺域の構造の推定 Estimation of the Structure of the Philippine Sea Slab and its Surrounding Area Beneath Southern Kyushu by Seismological Methods | 279 | ||||||
| 澁谷拓郎・寺石眞弘・小松信太郎・山﨑健一・山下裕亮・大倉敬宏・吉川 慎・井口正人・為栗 健・園田忠臣 Takuo SHIBUTANI, Masahiro TERAISHI, Shintaro KOMATSU, Kenichi YAMAZAKI, Yusuke YAMASHITA, Takahiro OHKURA, Shin YOSHIKAWA, Masato IGUCHI, Takeshi TAMEGURI and Tadaomi SONODA | |||||||
| レシーバ関数, トモグラフィ, 地震学的構造, フィリピン海スラブ, 南九州 receiver function, seismic tomography, seismic structure, Philippine Sea slab, southern Kyushu | ||||||
| Re-examination of GNSS Data Before the 2004 Chuetsu and the 2007 Chuetsu-oki Earthquakes | 288 | ||||||
| Angela MENESES-GUTIERREZ and Takuya NISHIMURA | |||||||
| Crustal deformation, The 2004 Chuetsu earthquake, The 2007 Chuetsu-oki earthquake, aseismic slip | ||||||
| SAR が見えたもの見えなかったもの:大阪北部地震と北海道胆振東部地震 What SAR Could See and Could Not See: Northern Osaka and Eastern Iburi, Hokkaido Earthquakes | 296 | ||||||
| 橋本 学 Manabu HASHIMOTO | |||||||
| 合成開口レーダー, ALOS-2, Sentinel-1, 大阪府北部地震, 北海道胆振東部地震 Synthetic Aperture Radar, ALOS-2, Sentinel-1, Northern Osaka Prefeture earthquake, Eastern Iburi Hokkaido earthquake | ||||||
| 2018年大阪府北部の地震がもたらした防災意識の変化 The Effect of the 2018 Osaka Earthquake on Public Awareness of Disaster Prevention
| 306 | ||||||
| 山村紀香・三宅雄紀・坂上 啓・片尾 浩 Norika YAMAMURA, Yuki MIYAKE, Hiromu SAKAUE and Hiroshi KATAO | |||||||
| 大阪府北部の地震, 防災意識, 大きな地震の経験, 阿武山観測所 Osaka earthquake, Public awareness of disaster prevention, Experience of major earthquake, Abuyama seismic observatory | ||||||
| 2018年11月下旬以降の焼岳火山近傍の地震活動について Intense Earthquake Swarm Activity in the Vicinity of Yake-dake Volcano, Hida mountain range, Central Japan, Started in November 2018 | 310 | ||||||
| 大見士朗 Shiro OHMI | |||||||
| 焼岳火山, 群発地震, 発震機構, 火山活動 Yake-dake volcano, swarm activity, focal mechanism, volcanic activity | ||||||
| 桜島火山における繰り返し相対重力測定(2018年5月~2019年2月) Repeated Relative Gravity Measurements in Sakurajima Volcano (May 2018-February 2019) | 318 | ||||||
| 風間卓仁・山本圭吾・大島弘光・岡田和見・大柳 諒・園田忠臣・井口正人 Takahito KAZAMA, Keigo YAMAMOTO, Hiromitsu OSHIMA, Kazumi OKADA, Ryo OYANAGI, Tadaomi SONODA and Masato IGUCHI | |||||||
|
桜島火山,相対重力,質量移動,地殻変動,陸水擾乱
Sakurajima Volcano, relative gravity, mass redistribution, crustal deformation, hydrological disturbance | ||||||
|
| |||||||
| 初期構造異方性を考慮したひずみ空間多重せん断モデルによる応力誘導ファブリックの表現 Evolution of Stress-induced Fabric in a Strain Space Multiple Mechanism Model Accounting for Inherent Fabric Anisotropy | 325 | ||||||
| 上田恭平・中原知洋 Kyohei UEDA and Tomohiro NAKAHARA | |||||||
| 初期構造異方性, 構成式, ひずみ/応力空間ファブリック, 粒状体, 微視的力学 inherent anisotropy, constitutive equation, strain/stress space fabric, granular material, micromechanics | ||||||
| 壁面の分割構造を模擬した帯鋼補強土壁に関する動的遠心模型実験 Dynamic Centrifuge Tests on Reinforced Earth Wall with Segmental Wall Panels | 338 | ||||||
| 宮﨑祐輔・伊東丈太郎・澤村康生・木村 亮 Yusuke MIYAZAKI, Jotaro ITOU, Yasuo SAWAMURA and Makoto KIMURA | |||||||
| 動的遠心模型実験, 帯鋼補強土壁, 分割型壁面構造 dynamic centrifuge test, reinforced earth wall, segmental wall structure | ||||||
| 2018年胆振東部地震による降下火砕物の崩壊:特に火砕物の風化状況について Landslides of Pyroclastic Fall Deposits Induced by the 2018 Eastern Iburi Earthquake with Special Reference to the Weathering of Pyroclastics | 348 | ||||||
| 千木良雅弘・田近 淳・石丸 聡 Masahiro CHIGIRA, Jun TAJIKA and Satoshi ISHIMARU | |||||||
| 2018北海道胆振東部地震, 斜面崩壊, 降下火砕堆積物, 軽石, 風化, ハロイサイト 2018 Eastern Iburi earthquake, landslide, pyroclastic fall deposits, pumice, weathering, halloysite | ||||||
| 平成30年7月豪雨をもたらした梅雨前線強化 ―Qベクトルを用いた解析― Q-vector Analysis of the Baiu Frontogenesis Leading to the Heavy Rainfall Event in July 2018 | 357 | ||||||
| 榎本 剛 Takeshi ENOMOTO | |||||||
| 梅雨, 前線形成, 台風, オメガ方程式 baiu, frontogenesis, typhoon, omega equation | ||||||
| TCCON観測点におけるGOSAT XCO2データのバイアスに関する解析 Analysis of the Bias of GOSAT XCO2 Data at TCCON Observation Sites | 362 | ||||||
| 井口敬雄 Takao IGUCHI | |||||||
|
二酸化炭素, GOSAT(いぶき), TCCON, XCO2, バイアス
CO2, GOSAT, TCCON, XCO2, bias |
||||||
| 冬季極東域における寒暖で分類したEl Niño 発生時の中高緯度大気の応答 The Mid-latitude Responses Categorized by the Winter Climate in the Far East during El Niño | 379 | ||||||
| 塩崎公大・榎本 剛・高谷康太郎 Masahiro SHIOZAKI, Takeshi ENOMOTO and Kotaro TAKAYA | |||||||
| El Niño, 年々変動, テレコネクション, 冬季気候 El Niño, Annual variability, Teleconnection, Winter climate | ||||||
| 2018年台風21号による暴風の解析 Analysis of Severe Winds due to Typhoon Jebi (2018) | 386 | ||||||
| 竹見哲也・石川裕彦 Tetsuya TAKEMI and Hirohiko ISHIKAWA | |||||||
| 2018年台風21号, 暴風, 突風, 乱流, ラージエディシミュレーション Typhoon Jebi (2018), severe winds, gust, turbulence, large-eddy simulation | ||||||
| 京都市近郊における2018年夏季・秋季における気象観測結果 Results of Meteorological Observations in the Suburbs of Kyoto City in Summer and Autumn Seasons of 2018 | 393 | ||||||
| 堀口光章 Mitsuaki HORIGUCHI | |||||||
| 豪雨, 猛暑, 台風 heavy rain, intense heat, typhoon | ||||||
| Kaバンド雲レーダー等のマルチセンサーで捉えた積乱雲の生成・発達過程 A Study of Cumulonimbus in Generating and Developing Stage Observed by Ka-Band Cloud Radar and Multi-sensor
| 399 | ||||||
| 中北英一・新保友啓・大東忠保・山口弘誠 Eiichi NAKAKITA, Tomohiro NIIBO, Tadayasu OHIGASHI and Kosei YAMAGUCHI | |||||||
| Kaバンド雲レーダー, 渦度, 渦管, 発達過程, マルチセンサー観測 Ka-band cloud radar, Vorticity, Vortex tube, Developing process, Multisensor observation | ||||||
| フェーズドアレイレーダを用いたゲリラ豪雨発達初期の積乱雲詳細解析 Detailed Analysis on Cumulus Cloud In Early Developing Stage by Using Phased Array Radar | 432 | ||||||
| 中北英一・高尾充政・新保友啓・山口弘誠・中川勝広 Eiichi NAKAKITA, Mitsumasa TAKAO, Tomohiro NIIBO, Kosei YAMAGUCHI and Katsuhiro NAKAGAWA | |||||||
| ゲリラ豪雨, フェーズドアレイレーダ, 渦度 Guerilla-Heavy Rain, Phased-Array-Radar, Vorticity | ||||||
| 積乱雲発達初期の雲情報データ同化によるゲリラ豪雨予測 Prediction Experiment of Guerrilla Heavy Rainfall by Assimilation of Cloud Data at Early Stage of Cumulonimbus Development | 441 | ||||||
| 山口弘誠・上嶋一樹・堀池洋祐・中北英一 Kosei YAMAGUCHI, Kazuki UESHIMA, Yosuke HORIIKE and Eiichi NAKAKITA | |||||||
| ゲリラ豪雨, ひまわり8 号, Kaバンドレーダー, 雲情報 Guerilla Heavy Rain, Himawari-8, Ka Band Radar, Cloud Information | ||||||
| 都市気象LESモデルを用いた渦管形成とその起源となる熱的上昇流の解析 Analysis of the Formation of Vortex Tube and Thermals Above Urban Area by Urban Meteorological Model Based on Large Eddy Simulation | 468 | ||||||
| 山口弘誠・土橋知紘・中北英一 Kosei YAMAGUCHI, Tomohiro TSUCHIHASHI and Eiichi NAKAKITA | |||||||
| 渦管, LESモデル, 上昇流, 都市の熱的効果 vortex tubes, LES model, updraft, urban heat effect | ||||||
| 都市気象LESモデルを用いた大気境界層を突破する熱的上昇流の発見と渦管解析 Study of Thermals and Vortex Tubes Breaking through Atmospheric Boundary Layer by Urban Meteorological Model Based on Large Eddy Simulation | 493 | ||||||
| 山口弘誠・小西 大・土橋知紘・中北英一 Kosei YAMAGUCHI, Dai KONISHI, Tomohiro TSUCHIHASHI and Eiichi NAKAKITA | |||||||
| 都市気象LES, 渦管, 大気境界層 urban meteorology based on LES model, vortex tube, atomospheric boundary layer | ||||||
| 線状降水帯豪雨予測に向けた水蒸気のアンサンブル予測情報の更新履歴解析 A New Ensemble Simulation Analysis Considering Water Vapor Update History for Line-Shaped Rainband Heavy Rainfall Forecasting | 533 | ||||||
| 山口弘誠・黒田奈那・中北英一 Kosei YAMAGUCHI, Nana KURODA and Eiichi NAKAKITA | |||||||
| アンサンブル予測, 降水予測, 線状降水帯豪雨, 予測精度, 平成29年7月九州北部豪雨 ensemble forecast, rainfall forecast, line-shaped rainband, prediction accuracy, northern Kyusyu heavy rainfall occurred in 2017 | ||||||
| Landslide Hazard Assessment in Western Japan Using Logistic Regression Analysis with Hydrometeorological Factors | 545 | ||||||
| Ying-Hsin WU and Eiichi NAKAKITA | |||||||
| landslide, logistic regression, XRAIN, lithology, hydrometeorology, heavy rainfall disasters | ||||||
| The Utilization of Rapid Scan Observation Data through Rapid Development Cumulus Area Index to Estimate Updraft | 554 | ||||||
| Wendi HARJUPA, Eiichi NAKAKITA, Yasuhiko SUMIDA and Aritoshi MASUDA | |||||||
| Himawari-8, RSO, XRAIN, Updraft, ZDR | ||||||
| 2018年7月豪雨の異常さと地球温暖化による影響評価 The Abnormality of the Heavy Rainfall Event in July 2018 and the Impact Assessment of Global Warming on It | 560 | ||||||
| 小坂田ゆかり・中北英一 Yukari OSAKADA and Eiichi NAKAKITA | |||||||
| 平成30年7月豪雨, 長時間, 広域, 気候変動, 災害 the event in July 2018, long-lasting, widespread, climate change, disaster | ||||||
| 大潟海岸・四ッ屋浜の観測桟橋跡周辺の海底地形と海底底質の粒度組成 ―主に弧状沿岸砂州において― Field Observations on Both the Profile and the Grain Size Composition of the Sediment on the Sea Bottom, Around the Vestige of Observatory Pier, in Yotsuyahama, Ogata Coast. ― As for the Crescent-shaped Bar, Principally ― | 569 | ||||||
| 内山 清 Kiyoshi UCHIYAMA | |||||||
| 弧状沿岸砂州中心部, 弧状沿岸砂州接合部, トラフ, バー, 極深部, 極浅部 central region of a Crescent-shaped bar, jointed region of a Crescent-shaped bar, trough, bar, extremely deep region, extremely shallow region | ||||||
| Numerical Study on the Hydro-Morphological and Bank Erosion Characteristics of Uji River, Japan | 598 | ||||||
| Saroj KARKI, Hajime NAKAGAWA, Kenji KAWAIKE and Masakazu HASHIMOTO | |||||||
| alluvial meanders, Uji River, bank erosion, numerical simulation, telemac-2d | ||||||
| Informing and Involving the Flood Exposed Community in Fulcharri Upazila at Ghaibandha District Bangladesh on Flood Risks and Mitigation | 611 | ||||||
| Reazul AHSAN, Hajime NAKAGAWA, Kenji KAWAIKE, Masakazu HASHIMOTO, Md. Munsur RAHMAN, Mashfiqus SALEHIN, Shammi HAQUE and KM Nabiul ISLAM | |||||||
| Top-down and Bottom-up approach, Community Workshop, Flood disaster, Risks and mitigation | ||||||
| 田辺中島高潮観測塔において2018年夏期に観測された強風,高波浪について Strong Winds and High Waves Observed at Tanabe-Nakashima Observation Tower in the Summer of 2018 | 621 | ||||||
| 馬場康之・久保輝広 Yasuyuki BABA and Teruhiro KUBO | |||||||
| 現地観測, 台風, 強風, 高波浪 field observation, typhoon, severe wind, high wave | ||||||
| Development an Integrated Sediment Disaster Simulator and Application to Sediment Disaster Mitigation and Reservoir Sedimentation Management in the Brantas River Basin, Indonesia | 626 | ||||||
| Dian SISINGGIH, Masaharu FUJITA and Kazuki YAMANOI | |||||||
| reservoir, sediment, disaster, volcanic, mitigation, management | ||||||
| 用水路・側溝での水難事故発生の危険性に関する研究 Study on Drowning Accident Risk at Irrigation Channel and Side Ditch | 632 | ||||||
| 戸田圭一・岡本隆明・岡 宗佑・當麻泰史 Keiichi TODA, Takaaki OKAMOTO, Sosuke OKA and Yasufumi TOUMA | |||||||
| 抗力係数, 座位, 側溝, 堰上げ水深, 静水圧, 水難事故危険性の増大 drag force coefficient, sitting position, side ditch, effect of backwater rise, hydrostatic pressure, increase of drowning accident risk | ||||||
| Revisiting Flood Management Process in Transboundary Koshi River in Nepal and India | 640 | ||||||
| Suchana ACHARYA and Tomoharu HORI | |||||||
| Koshi River, Floods, Flood Management, Institutional mechanism | ||||||
| 多波長センサーによるアラル海流域における灌漑実態の広域モニタリング Satellite Remote Sensing of Irrigation in the Aral Sea Basin using Multi-Spectral Sensors | 650 | ||||||
| 峠 嘉哉・Mbugua Jacqueline MUTHONI・田中賢治・Temur KHUJANAZAROV Yoshiya TOUGE, Mbugua Jacqueline MUTHONI, Kenji TANAKA and Temur KHUJANAZAROV | |||||||
| 灌漑, MODIS, 陸面過程モデル, アラル海流域 Irrigation, MODIS, Land surface model, Aral Sea Basin | ||||||
| 高解像度日降水グリッドデータAPHRO_JPの極端降水再現性に対する気候値の効果 Effect of Climatology on Reproducibility of Extreme Precipitation on APHRO_JP, Highly Resolved Daily Gridded Precipitation | 656 | ||||||
| 安富奈津子・田中賢治・田中茂信 Natsuko YASUTOMI, Kenji TANAKA and Shigenobu TANAKA | |||||||
| 極端降水, 地形性降水, 気候値, 日降水量グリッドデータセット extreme precipitation, topographic precipitation, climatology, daily gridded precipitation dataset | ||||||
| 亀岡盆地の流出・氾濫解析に基づく日吉ダムの治水操作手法の検討 Study on Flood Control Operation Method of Hiyoshi Dam Based on Runoff Inundation Analysis in Kameoka Basin | 663 | ||||||
| 岩本麻紀・竹門康弘・野原大督・小柴孝太・角 哲也 Maki IWAMOTO, Yasuhiro TAKEMON, Daisuke NOHARA, Takahiro KOSHIBA and Tetsuya SUMI | |||||||
| 貯水池操作, 氾濫解析, 洪水調節, RRIモデル, 超過洪水 reservoir operation, inundation analysis, flood control, RRI model, extreme event | ||||||
| ダム常用洪水吐ゲートの機能低下に伴う洪水リスク評価に関する検討 Study on Flood Risk Assessment Caused by Functional Deterioration of Dam Flood Control Gates | 671 | ||||||
| 高田翔也・角 哲也 Shoya TAKATA and Tetsuya SUMI | |||||||
| ダム堆砂, ゲート閉塞, n-1 rule, ダムリスクマネジメント reservoir sedimentation, clogging of outlets, n-1 rule, dam risk management | ||||||
| 河道外貯留ダムの類型化とその河川の土砂連続性への影響に関する研究 Classification of Off-Stream Dams and Their Effects on Riverine Sediment Continuity | 679 | ||||||
| 石塚淳也・小林草平・竹門康弘・角 哲也 Junya ISHIZUKA, Sohei KOBAYASHI, Yasuhiro TAKEMON and Tetsuya SUMI | |||||||
| ダム, 河道外貯留, ダムインパクト, 土砂連続性, 底生動物 dam, off-stream reservoir, dam impact, sediment continuity, benthos | ||||||
| Reservoir Sedimentation at Wadi System: Challenges and Management Strategies | 689 | ||||||
| Mohamed SABER, Sameh KANTOUSH, Tetsuya SUMI, Yusuke OGISO and Tahani ALHARRASI | |||||||
| Wadi Flash Floods, field survey, sedimentation, infiltration, sediment transport modeling, arid regions | ||||||
| 天竜川における出水履歴が河床の水質機能に及ぼす影響 Effects of Previous Floods on Riverbed Function for Water Purification in the Tenryu River | 700 | ||||||
| 高橋真司・兵藤 誠・角 哲也・竹門康弘 Shinji TAKAHASHI, Makoto HYODO, Tetsuya SUMI and Yasuhiro TAKEMON | |||||||
| 砂州地形, 出水履歴, 水質浄化, 濾過効率 sandbar morphology, previous flood, water purification, filtering efficiency | ||||||
| 天竜川の砂州における湧水流路の形成過程と生息場機能 Formation Process and Habitat Function of Spring Flow Channels on the Sandy Bars in Tenryu River | 713 | ||||||
| 山﨑弘美・竹門康弘・鳥居高明・高橋真司・兵藤 誠・角 哲也 Hiromi YAMASAKI, Yasuhiro TAKEMON, Takaaki TORII, Shinji TAKAHASHI, Makoto HYODO and Tetsuya SUMI | |||||||
| 産卵床, アユ, 湧水流路, 河床変動, 生息場機能 spawning redds, Ayu-fish, spring flow channels, riverbed changes, habitat function | ||||||
| 河床攪乱指標を用いたダム建設影響の評価手法の提案 Proposal of Evaluation Method of Dam Construction Impact Using Riverbed Disturbance Indices | 721 | ||||||
| 波多野圭亮・竹門康弘・角 哲也 Keisuke HATANO, Yasuhiro TAKEMON and Tetsuya SUMI | |||||||
| ダム下流, 河床攪乱指標, フラッシュ放流, 土砂還元, 履歴的評価, 粗粒化ポテンシャル downstream of dams, riverbed disturbance indices, flush discharge, sediment supply, historical changes, potential coarsening of riverbed material | ||||||
| Use Constant-Head Injection Test for In-Situ Estimation of Hydraulic Conductivity in Gravel Bed Rivers | 727 | ||||||
| Enbang XIAO, Yasuhiro TAKEMON, Sohei KOBAYASHI and Tetsuya SUMI | |||||||
| CHIT, hydraulic conductivity, in-situ measurement | ||||||
| 木津川の河床地形管理における伝統的河川工法「聖牛」の活用 An Application of Traditional River Works "Seigyu" to River Bed Management in the Kizu River | 734 | ||||||
| 田住真史・竹門康弘・小林草平・角 哲也 Masafumi TAZUMI, Sohei KOBAYASHI, Tetsuya SUMI and Yasuhiro TAKEMON | |||||||
| 伝統的河川工法, 聖牛, 河床地形管理, 自然再生, 侵食, 堆積 Japanese traditional river works, crib spur, riverbed management, habitat restoration, erosion, deposition | ||||||
| トリニティ川におけるRFIDを用いた砂礫の追跡による土砂還元事業の評価 Evaluation of Gravel Augmentation by Tracing Gravel Using Radio Frequency Identification (RFID) in the Trinity River | 766 | ||||||
| 狩野幹太・David GAEUMAN・角 哲也・竹門康弘 Kanta KANO, David GAEUMAN, Tetsuya SUMI and Yasuhiro TAKEMON | |||||||
| PIT-tag, RFID, 土砂還元, トリニティ川再生プログラム PIT-tag, RFID, gravel augmentation, Trinity River Restoration Program | ||||||
| 2018年排砂バイパス運用による小渋ダム下流における河岸侵食と流路変化 Bank Erosion and Thalweg Change in the Downstream of Koshibu Dam Induced by Operation of Sediment Bypass Tunnel 2018 | 775 | ||||||
| 小林草平・小柴孝太・角 哲也・竹門康弘・カントゥッシュ サメ Sohei KOBAYASHI, Takahiro KOSHIBA, Tetsuya SUMI, Yasuhiro TAKEMON and Sameh KANTOUSH | |||||||
| 小渋ダム, 排砂バイパス, ダム下流, 河岸侵食, 砂州, 流路変動 Koshibu Dam, sediment bypass tunnel, downstream of dam, bank erosion, gravel bar, thalweg movement | ||||||
| 洪水防御に係る2017年ドイツ水管理法(Wasserhaushaltsgesetz)改正の一断面 A Few Sections of New German Federal Water Act 2017 about Flood Protection | 786 | ||||||
| 重本達哉 Tatsuya SHIGEMOTO | |||||||
| ドイツ法, 行政法, 水法, 洪水防御, 土地利用規制, 行為規制 German law, Administrative law, Water law, Flood protection, Land use regulation, Behavioral controls | ||||||
| 裏表紙 | |||||||