京都大学防災研究所年報 第60号 Aへ
To DPRI Annuals, No. 60 A
京都大学防災研究所年報 第60号 B
DPRI Annuals, No. 60 B
表紙 | |||||||
目次 | |||||||
Folk Performance Usage in Disaster-affected Communities - Re-thinking the Notion of Authenticity - | 327 | ||||||
Florence LAHOURNAT | |||||||
![]() | living heritage, folk performance, community, authenticity, disaster | ||||||
Risk and Uncertainty: A Side-Effect of a Natech Event on Residents in Japan | 335 | ||||||
Giuseppe ALIPERTI, Ana Maria CRUZ, Francesco RIZZI and Marco FREY | |||||||
![]() | Risk, Uncertainty, Natech, Seafood consumption, Consumer behavior | ||||||
Understanding Women's Vulnerability Factors to Natural Hazards in Afghanistan | 343 | ||||||
Marina HAMIDZADA and Ana Maria CRUZ | |||||||
![]() | Women in Disasters, women’s role in Disaster Management, Focused Group Discussions | ||||||
2016年鳥取県中部の地震における鳥取大学の強震観測記録 ―鳥取県湯梨浜町高辻の記録― A Strong Motion Record Due to the 2016 Central Tottori Earthquake Observed by Tottori University - A Record at Takatsuji site, Yurihama Town, Tottori Prefecture - | 350 | ||||||
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香川敬生・野口竜也・吉田昌平・山本真二 Takao KAGAWA, Tatsuya NOGUCHI, Shohei YOSHIDA and Shinji YAMAMOTO | |||||||
![]() | 2016年鳥取県中部の地震, 強震動, 独自観測記録 the 2016 Central Tottori earthquake, strong ground motion, original record | ||||||
Issues and Challenges in Seismic Risk Evaluation and its Uncertainty Reduction for the Nankai Trough Earthquake | 354 | ||||||
Seung Han LEE, Kazuyoshi NISHIJIMA, Shinichi MATSUSHIMA, Masatoshi MIYAZAWA, Kimihiro MOCHIZUKI, Takashi IIDAKA, Kyohei UEDA, Hiroshi KAWASE and Norio MAKI | |||||||
![]() | Seismic risk evaluation, Uncertainty reduction, Nankai trough earthquake | ||||||
エチオピア・アファール凹地プレート拡大軸での磁気異常探査 Geomagnetic Anomaly Survey at the Divergent Plate Boundary in Afar Depression, Ethiopia | 366 | ||||||
石川尚人・吉村令慧・Tesfaye Kidane・望月伸竜・加々島慎一・小木曽哲・東野伸一郎・乙藤洋一郎 Naoto ISHIKAWA, Ryokei YOSHIMURA, Tesfaye KIDANE, Nobutatsu MOCHIZUKI, Shinichi KAGASHIMA, Tetsu KOGISO, Shin-ichirou HIGASHINO and Yo-ichirou OTOFUJI | |||||||
![]() | 磁気異常, 海洋底拡大, プレート拡大境界 magnetic anomaly, sea-floor spreading, divergent plate boundary | ||||||
特異な位相応答の理解に向けたMT観測 MT Observation for Understanding Anomalous Phase Responses | 370 | ||||||
岡﨑智久・吉村令慧・山﨑健一・小松信太郎・大志万直人 Tomohisa OKAZAKI, Ryokei YOSHIMURA, Ken'ichi YAMAZAKI, Shintaro KOMATSU and Naoto OSHIMAN | |||||||
![]() | MT観測, 応答関数, 異常位相 MT observation, Response function, Anomalous phase | ||||||
円筒形媒質に対する電位分布数値解析手法の開発 Potential Modeling for Cylindrical Shaped Structures | 373 | ||||||
鈴木健士・吉村令慧・山崎健一・大志万直人 Takeshi SUZUKI, Ryokei YOSHIMURA, Kenichi YAMAZAKI and Naoto OSHIMAN | |||||||
![]() | 数値計算, 室内実験, 電気比抵抗 numerical simulations, laboratory experiments, electrical resistivity | ||||||
鳥取県西部地域における満点地震観測 Manten Seismic Observation in the Western Tottori Prefecture Region | 382 | ||||||
飯尾能久・米田 格・澤田麻沙代・伊藤喜宏・片尾 浩・冨坂和秀・長岡愛理・ 松本 聡・宮崎真大・酒井慎一・加藤愛太郎・林 能成・山品匡史・ 大久保慎人・野口竜也・香川敬生 Yoshihisa IIO, Itaru YONODA, Masayo SAWADA, Yoshihiro ITO, Hiroshi KATAO, Kazuhide, TOMISAKA, Airi NAGAOKA, Satoshi MATSUMOTO, Masahiro MIYAZAKI, Shin-ichi SAKAI, Aitaro KATO, Yoshinari HAYASHI, Tadashi YAMASHINA, Makoto OKUBO, Tatsuya NOGUCHI and Takao KAGAWA | |||||||
![]() | 稠密多点地震観測, 鳥取県西部地震, 応力場, 地震メカニズム解 dense seismic observation, Western Tottori prefecture earthquake, stress field, focal mechanism | ||||||
海洋プレート内地震の発生頻度と海底年代の関係およびその発生メカニズムの考察 Relation of Seismicity to Ocean Floor Age within Stable Plates and Its Implication for the Mechanism of Intraplate Earthquakes | 389 | ||||||
上山和也・深畑幸俊 Kazuya UEYAMA and Yukitoshi FUKAHATA | |||||||
![]() | 熱応力, プレート内地震, 海洋底年代, 地震活動度 Thermal stress, Intraplate earthquake, Ocean floor age, Seismicity | ||||||
2015年8月桜島群発地震の振幅を用いた震源推定 Hypocenter Distribution of an Earthquake Swarm that Occurred on August 2015 Beneath Sakurajima Volcano Using Seismic Amplitudes | 396 | ||||||
中島治久・井口正人・為栗健 Haruhisa NAKAMICHI, Masato IGUCHI and Takeshi TAMEGURI | |||||||
![]() | 桜島火山, 群発地震, 震源, 地震振幅 Sakurajima Volcano, earthquake swarm, hypocenter, seismic amplitude | ||||||
飛騨山脈焼岳火山の研究監視観測網の現状 Implementation of the Volcanic Activity Monitoring Network around the Yakedake Volcano, Hida mountain range, Central Japan | 402 | ||||||
大見士朗・井口正人・飯尾能久 Shiro OHMI, Masato IGUCHI and Yoshihisa IIO | |||||||
![]() | 焼岳火山, 研究監視観測網, 地震計, 傾斜計, 温度計 Yakedake volcano, monitoring network, seismometer, tiltmeter, thermometer | ||||||
霧島火山群硫黄山周辺の地熱活動の変化 Variation of Geothermal Activity around Iwo-Yama, Kirishima Volcanic Group | 408 | ||||||
鍵山恒臣・吉川慎・大沢信二・三島壮智・黄有志 Tsuneomi KAGIYAMA, Shin YOSHIKAWA , Shinji OHSAWA, Taketomo MISHIMA and Yu-chih HUANG | |||||||
![]() | 霧島火山群硫黄山, 地熱活動, 微小噴火 Iwo-yama Kirishima Volcanic Group, geothermal activity, minor eruption | ||||||
1923年関東地震による震生湖地すべりの地質構造とその意義 Geological Structure of the Shinseiko Landslide Induced by the 1923 Kanto Earthquake and its Significance | 417 | ||||||
千木良雅弘・笠間友博・鈴木毅彦・古木宏和 Masahiro CHIGIRA, Tomohiro KASAMA, Takehiko SUZUKI and Hirokazu FURUKI | |||||||
![]() | 関東地震, 震生湖, 地すべりダム, 地質構造, 東京軽石層 Kanto earthquake, Shinseiko, landslide dam, geological structure, Tokyo Pumice | ||||||
2016年熊本地震により発生した阿蘇カルデラ西部における斜面崩壊の地形・地質的特徴 Topographic and Geological Features of Landslides Induced by the 2016 Kumamoto Earthquake in the Western Part of the Aso Caldera | 431 | ||||||
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佐藤達樹・千木良雅弘・松四雄騎 Tatsuki SATO, Masahiro CHIGIRA and Yuki MATSUSHI | |||||||
![]() | 平成28年(2016年)熊本地震, 斜面崩壊, 草千里ヶ浜軽石(Kpfa), 火山灰土, ハロイサイト, 下部切断 The 2016 Kumamoto earthquake, Landslide, Kusasenrigahama pumice, Volcanic soil, Halloysite, Undercut | ||||||
神奈川県・芦ノ湖の湖底調査 ―低価格サイドスキャンソナーによる水底調査の試み― Underwater Investigation for Lake Ashinoko, Kanagawa, Japan by Using a Low-cost Side-scan Sonar Imaging | 453 | ||||||
山崎新太郎・松四雄騎・片岡香子・山口直文 Shintaro YAMASAKI, Yuki MATSUSHI, Kyoko KATAOKA and Naofumi YAMAGUCHI | |||||||
![]() | 水中調査, 音響調査, サイドスキャンソナー, 水底地すべり, 湖 underwater investigation, acoustic investigation, side-scan sonar, subaqueous landslide, lake | ||||||
2007年3月に生じた成層圏惑星規模波下方伝播イベントの力学と予測可能性 -上部成層圏循環の安定性解析- Dynamics and Predictability of the Downward Propagation of Stratospheric Planetary Waves Occurred in March 2007: Stability Analysis of Upper Stratospheric Circulation | 461 | ||||||
向川 均・野口峻佑・黒田友二・水田亮・小寺邦彦 Hitoshi MUKOUGAWA, Shunsuke NOGUCHI, Yuhji KURODA, Ryo MIZUTA and Kunihiko KODERA | |||||||
![]() | 力学的安定性, 上層成層圏, 惑星規模波 dynamical stability, upper stratosphere, planetary wave | ||||||
大気大循環モデルを用いた2013年台風第3号Yagiの進路予報実験 Track Forecast Experiments of Typhoon Yagi 2013 with Atmospheric General Circulation Models | 466 | ||||||
榎本剛・吉田聡・山崎哲・中野満寿男・山根省三・山口宗彦・松枝未遠 Takeshi ENOMOTO, Akira KUWANO-YOSHIDA, Akira YAMAZAKI, Masuo NAKANO, Shozo YAMANE, Munehiko YAMAGUCHI and Mio MATSUEDA | |||||||
![]() | 台風, 予報誤差, 大気大循環モデル typhoon, forest error, atmospheric general circulation model | ||||||
GOSAT SWIRデータとTCCONデータにおけるCO2カラム濃度値(XCO2)の比較 Comparison of CO2 Column Fractions between GOSAT SWIR Data and TCCON Data | 470 | ||||||
井口敬雄 Takao IGUCHI | |||||||
![]() | CO2, GOSAT, TCCON, バイアス CO2, GOSAT, TCCON, bias | ||||||
弱コリオリ力におけるハリケーン強度のアンサンブル予報実験 Ensemble Experiments of the Hurricane Intensity under Weak Coriolis Force | 479 | ||||||
吉岡大秋・榎本剛 Hiroaki YOSHIOKA and Takeshi ENOMOTO | |||||||
![]() | 熱帯低気圧, ハリケーン, 強度, アンサンブルスプレッド, コリオリパラメータ Tropical Cyclone, Hurricane, Intensity, Ensemble spread, Coriolis parameter | ||||||
ENSO 時の熱帯海面水温偏差と日本の冬の天候 Tropical Sea Surface Temperature Anomaly and the Winter Climate of Japan during ENSO | 486 | ||||||
塩崎公大・榎本剛・高谷康太郎 Masahiro SHIOZAKI, Takeshi ENOMOTO and Kotaro TAKAYA | |||||||
![]() | エル・ニーニョ, 年々変動, テレコネクション, 冬季気候 El Nino, Annual variability, Teleconnection, Winter climate | ||||||
京都市近郊における大気境界層乱流 ―冬季集中観測結果― Turbulence in the Atmospheric Boundary Layer in the Suburbs of Kyoto City: Results of Intensive Observations in the Winter Season | 491 | ||||||
堀口光章・吉田敏哉・竹見哲也 Mitsuaki HORIGUCHI, Toshiya YOSHIDA and Tetsuya TAKEMI | |||||||
![]() | 大気境界層, 乱流, ドップラーライダー, 大規模乱流構造 atmospheric boundary layer, turbulence, Doppler lidar, large-scale turbulence structure | ||||||
Characterization of Monthly Precipitation over Indochina Region to Evaluate CMIP5 Historical Runs | 502 | ||||||
Rattana CHHIN, Hoang-Hai BUI and Shigeo YODEN | |||||||
![]() | APHRODITE, CMIP5, GCM, EOF, ENSO, IOD | ||||||
飛散物の動的空力特性の直接計測システムの試作 Trial Manufacture of a System for Aerodynamic Characteristics Measurement of Flying Debris | 523 | ||||||
丸山 敬・松居健人・西村宏昭・野田 博・西嶋一欽 Takashi MARUYAMA, Kento MATSUI, Hiroaki NISHIMURA, Hiroshi NODA and Kazuyoshi NISHIJIMA | |||||||
![]() | 飛散物, 空力特性, ブラフボディ, 計測システム, 強風災害 flying debris, aerodynamic characteristics, bluff body, measuring system, strong wind disaster | ||||||
数値シミュレーション結果に基づいた車両走行時の降雨強度推定手法の開発 Development of a Method for Estimating Rain Rates Considering Vehicle Speed Based on Numerical Simulation Results | 531 | ||||||
東俊孝・山口弘誠・中北英一 Toshitaka AZUMA, Kosei YAMAGUCHI and Eiichi NAKAKITA | |||||||
![]() | 数値シミュレーション, XRAIN, 降雨強度, 相対速度 numerical simulation, XRAIN, rain rate, relative velocity | ||||||
ゲリラ豪雨予測の高精度化に向けた積乱雲の鉛直渦管生成メカニズムに関する研究 Studies on Formation Mechanism of Vertical Vortex Tube inside Cumulonimbus Cloud for Accuracy Improvement of Guerrilla-heavy Rainfall Prediction | 539 | ||||||
中北英一・佐藤悠人・山口弘誠 Eiichi NAKAKITA, Hiroto SATO and Kosei YAMAGUCHI | |||||||
![]() | ゲリラ豪雨, 渦度, 渦管, 上昇流, 水平風の鉛直シア Guerrilla-Heavy Rainfall, Vorticity, Vortex tube, Updraft, Vertical shear of horizontal wind | ||||||
Kaバンド偏波レーダによるマルチパラメータ情報を利用した積乱雲発生の基礎的解析 Preliminary Analysis of Cumulonimbus Cloud Structure Using Multi Parameter Information of Ka-band Polarimetric Doppler Radar | 559 | ||||||
中北英一・新保友啓・佐藤悠人・山口弘誠・大東忠保・篠田太郎・坪木和久 Eiichi NAKAKITA, Tomohiro NIIBO, Hiroto SATO, Kosei YAMAGUCHI, Tadayasu OHIGASHI, Taro SHINODA and Kazuhisa TSUBOKI | |||||||
![]() | ゲリラ豪雨, 早期探知, Kaバンド偏波レーダ, LCL, 渦度 Guerilla heavy rainfall, Early detection, Ka-band polarimetric radar, LCL, Vorticity | ||||||
Preliminary Investigation of Generation of Guerilla-Heavy Rainfall Using Himawari-8 and XRAIN Information in Kinki Region | 576 | ||||||
Wendi HARJUPA, Eiichi NAKAKITA, Yasuhiko SUMIDA and Kosei YAMAGUCHI | |||||||
![]() | RDCA, GHR, baby rain cell, Himawari-8, XRAIN, parallax | ||||||
都市気象LES モデルを用いたゲリラ豪雨の種の解析 Analysis of Convection Genesis by urban Meteorological Model Based on Large Eddy Simulation | 584 | ||||||
山口弘誠・土橋知紘・中北英一・高見和弥 Kosei YAMAGUCHI, Tomohiro TSUCHIHASHI, Eiichi NAKAKITA and Kazuya TAKAMI | |||||||
![]() | ゲリラ豪雨, 水平渦管, 鉛直渦管, 上昇流 Torrential rainfall,Horizontal vortex tube,Vertical vortex tube,Updraft | ||||||
ひまわり8号などのマルチセンサー観測のデータ同化によるゲリラ豪雨予測 Guerrilla-Heavy Rainfall Prediction by Assimilation of Observation Data from Multi-Sensors Including Hamawari-8 | 599 | ||||||
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, データ同化 Guerilla Heavy Rain, Himawari-8, Ka Band Radar, Cloud Information, Data Assimilation | ||||||
XRAIN のアンサンブル同化によるメソ対流系発生時における大気中下層の解析 Using Ensemble Assimilation of XRAIN data for Analyzing Generation of the Mesoscale Convective System in Middle-Low Levels | 615 | ||||||
山口弘誠・堀池洋祐・中北英一 Kosei YAMAGUCHI, Yosuke HORIIKE and Eiichi NAKAKITA | |||||||
![]() | Xバンドレーダー, 短時間降水予測, データ同化, 降水粒子判別, 低温域 X-band radar, Short lead time rainfall prediction, Hydrometer classification, Data assimilation, Low-temperature area | ||||||
SOMマップの組み合わせによる梅雨期集中豪雨をもたらす大気場の発生頻度の将来変化解析 Analyses on the Future Change of the Occurrence Frequency of Atmosphere Causing Heavy Rainfall in Baiu Season by Combining SOM Maps | 622 | ||||||
中北英一・小坂田ゆかり Eiichi NAKAKITA and Yukari OSAKADA | |||||||
![]() | 気候変動, 梅雨豪雨, 大気場, SOM climate change, Baiu-heavy rainfall, atmospheric pattern, SOM | ||||||
熱帯泥炭湿地林域の地下水環境へ及ぼす気候変動の影響評価と排水路管理方策の検討 Impact Assessment of Groundwater Level in a Tropical Peat Swamp Forest Area by Climate Change and Rehabilitation of Agricultural Drainage Canal | 638 | ||||||
神田亜希子・城戸由能・中北英一・峠嘉哉・平野高司 Akiko KANDA, Yoshinobu KIDO, Eiichi NAKAKITA, Yoshiya TOUGE and Takashi HIRANO | |||||||
![]() | 中央カリマンタン, 熱帯泥炭湿地林, 地下水流動解析, 陸面過程モデル, 気候変動 Central Kalimantan in Indonesia, tropical peat swamp forest, groundwater flow analysis, land surface model, climate change | ||||||
A New Method of Stress Analysis in Hillslopes Considering Vegetation Effects Using Poroelasticity | 654 | ||||||
Ying-Hsin WU and Eiichi NAKAKITA | |||||||
![]() | vegetation, poroelasticity, Mohr-Coulomb theory, finite element analysis, stress field, slope stability | ||||||
田辺中島高潮観測塔における2016年夏季観測結果 Field Measurements at Tanabe-Nakashima Observation Tower in the Summer of 2016 | 664 | ||||||
馬場康之・水谷英朗・久保輝広・内山雄介・森信人・渡部靖憲・山田朋人・猿渡亜由未・大塚淳一 ・二宮順一 Yasuyuki BABA, Hideaki MIZUTANI, Teruhiro KUBO, Yusuke UCHIYAMA, Nobuhito MORI, Yasunori WATANABE, Tomohito YAMADA, Ayumi SARUWATARI, Junichi OTSUKA and Junichi NINOMIYA | |||||||
![]() | 現地観測, 台風, 海水温および塩分濃度の変動 Field observation, Typhoon, Variations of water temperature and salinity | ||||||
2016年田辺湾における水温・塩分濃度観測 Field Observations on Water Temperature and Salinity Fields in Tanabe Bay in 2016 | 672 | ||||||
水谷英朗・馬場康之・久保輝広 Hideaki MIZUTANI, Yasuyuki BABA and Teruhiro KUBO | |||||||
![]() | 現地観測, 田辺湾, 水温塩分濃度観測 Field observation, Tanabe bay, CTD measurements | ||||||
田辺湾近隣河川における河床設置型河川水温計測 Water Temperature Measurements by Small-Sized Thermometers Installed on Riverbed in Neighboring Rivers of Tanabe Bay | 685 | ||||||
久保輝広・水谷英朗・武藤裕則 Teruhiro KUBO, Hideaki MIZUTANI and Yasunori MUTO | |||||||
![]() | 現地計測, 河川水温計測, 河床設置型, 洪水流水温 field measurement, measurement of river water temperature, riverbed setting type, flood water temperature | ||||||
ジオラマタイプのミニチュア模型を用いた水防災教育の実践 Education Activities on Water Related Disasters by Diorama Typed Miniature Model | 692 | ||||||
戸田圭一・石垣泰輔・安田誠宏・馬場康之・中島隆介 Keiichi TODA, Taisuke ISHIGAKI, Tomohiro YASUDA, Yasuyuki BABA and Ryusuke NAKAJIMA | |||||||
![]() | 水災害, ミニチュア模型, 防災減災教育, 小学校 water related disasters, miniature model, disaster prevention and reduction education, elementary school | ||||||
Social Background of Riverbank Erosion Areas in Bramaptra and Ganges Rivers: Implication for Japanese Hazard Mapping Technology in Bangladesh | 701 | ||||||
Kumiko FUJITA, Rajib SHAW and Hajime NAKAGAWA | |||||||
![]() | Flood, Erosion, Hazard map, Bangladesh, Social background | ||||||
Hydrodynamic Modeling of Air-Water 2-Phase Flow in Urban Sewer System: Turbulence Modelling of Stratified Flows | 711 | ||||||
Chong Soo HAN, Kenji KAWAIKE and Hajime NAKAGAWA | |||||||
![]() | 2-phase flow, 2-phase Interface, Turbulence Models | ||||||
Experimental and Numerical Study of Tidal Basin Management around Link Canal: A Case Study of Bangladesh | 719 | ||||||
Rocky TALCHABHADEL, Hajime NAKAGAWA, Kenji KAWAIKE and Kazuyuki OTA | |||||||
![]() | Tidal Basin Management, beel, tidal basin, Suspended Sediment Concentration, tidal movement, link canal | ||||||
Numerical Simulation of River Bed Deformation due to Unsteady Flow of Large Sand-Bed Braided River: Brahmaputra-Jamuna | 737 | ||||||
SHAMPA, Yuji HASEGAWA, Hajime NAKAGAWA, Hiroshi TAKEBAYASHI and Kenji KAWAIKE | |||||||
![]() | Braided River, bed deformation, bar dynamics, Delft3D, Migration rate | ||||||
A Study on the Humanitarian Aid Driven Cyclone Aila (2009) Recovery in Koyra Upazila of Bangladesh | 746 | ||||||
Md Shibly SADIK, Hajime NAKAGAWA, Rajib SHAW, Md Rezaur RAHMAN, Kenji KAWAIKE and Kumiko FUJITA | |||||||
![]() | Cyclone Aila, Humanitarian Aid, Recovery, vulnerability reduction | ||||||
d4PDFを用いた利根川流域降水量の極値評価 Frequency Analysis of Extreme Precipitation in the Tone River Basin using “d4PDF” | 757 | ||||||
田中茂信 Shigenobu TANAKA | |||||||
![]() | 気候変動, d4PDF, 利根川, 流域平均降水量, 極値 climate change, d4PDF, Tone river, catchment averaged precipitation, extreme value | ||||||
河川における土砂環境と砂州地形特性 ―排砂バイパスダムの上下流区間における調査事例― Sediment Conditions and Gravel-Bar Characteristics in River Channels: Field Surveys in Reaches of Dams with Sediment Bypass Tunnel | 765 | ||||||
小林草平・角哲也・竹門康弘 Sohei KOBAYASHI, Tetsuya SUMI and Yasuhiro TAKEMON | |||||||
![]() | ドローン, 写真測量, 瀬淵構造, 河床形状, 土砂 drone, stereo photogrammetry, pool-riffle, bed profile, sediment | ||||||
同一水系内ダム群の長期的な治水機能維持を目指した土砂マネジメント手法の検討 A Study on the Sediment Management Measures for Maintaining Long-term Flood Mitigation Function of Dam Reservoir Group in the Same River Basin | 775 | ||||||
倉橋 実・角 哲也 Makoto KURAHASHI and Tetsuya SUMI | |||||||
![]() | 貯水池堆砂, アセットマジメント, ダム群, 治水機能維持, 大淀川 reservoir sedimentation, asset management, dam reservoir group, flood mitigation, Oyodo River | ||||||
天竜川下流域における流下に伴う濁水の量的・質的変化と砂州地形特性の関係について Relationship Between Quantitative and Qualitative Change of the Turbid Water and Sandbar Characteristics in the Tenryu River | 782 | ||||||
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, 濁水, 流下微粒状有機物, 安定同位体比 sandbar, turbid water, suspended fine particulate organic matter, stable isotope ratio | ||||||
ダムによる流況平滑化指標と底生動物群集との応答 Response to Hydrologic Alteration of Benthic Animals in the Downstream Reaches of Reservoir Dams | 791 | ||||||
波多野圭亮・角哲也・竹門康弘 Keisuke HATANO, Tetsuya SUMI and Yasuhiro TAKEMON | |||||||
![]() | 貯水ダム, 底生動物群集, 流況平滑化 reservoir dams, benthic animals, hydrologic alteration | ||||||
置土から生じる土砂の波が下流河床に及ぼす効果の予測方法の提案 Evaluating Riverbed Improvement by Sediment Wave of Replenished Site | 795 | ||||||
宮川幸雄・角哲也・竹門康弘 Yukio MIYAGAWA, Tetsuya SUMI and Yasuhiro TAKEMON | |||||||
![]() | 土砂供給, 河床改善, 一次元河床変動, 掃流力 sediment-supply, improvement of riverbed, one-dimensional bedload variation, tractive force | ||||||
Study on the Impacts of River-damming and Climate Change on the Mekong Delta of Vietnam | 804 | ||||||
Doan Van BINH, Sameh KANTOUSH, Tetsuya SUMI, Nguyen T.P. MAI and La Vinh TRUNG | |||||||
![]() | Drought, Sea Level Rise, Hydropower dams, Salt Water Intrusion, VMD | ||||||
Study on Planning of a Small Hydropower Development under Consideration with the Basin Environment | 827 | ||||||
Kazuki TERADA, Tetsuya SUMI, Yasuhiro TAKEMON and Motoyuki INOUE | |||||||
![]() | small hydropower planning, flow volume, endangered species, biodiversity, waterfall landscape, environmental flow | ||||||
Estimation of the Suitable Sediment Load for Ayu Fish Habitat in the Kizu River | 841 | ||||||
Koji MISHIMA, Tetsuya SUMI, Yasuhiro TAKEMON and Sohei KOBAYASHI | |||||||
![]() | Sediment Transportation, Environmental Evaluation, Ayu Fish, Riverbed Geomorphology | ||||||
Assessing Flash Floods Prone Regions at Wadi basins in Aswan, Egypt | 853 | ||||||
Mohamed SABER, Sameh KANTOUSH, Mohamed ABDEL-FATTAH and Tetsuya SUMI | |||||||
![]() | Flash Floods, Wadi Basins, Rainfall-Runoff-Inundation Model, Nile River urbanized regions, Egypt | ||||||
Risk Assessment of Flash Floods in the Valley of the Kings, Egypt | 864 | ||||||
Yusuke OGISO, Tetsuya SUMI, Sameh KANTOUSH, Mohammed SABER and Mohammed ABDEL-FATTAH | |||||||
![]() | Flash floods, The Valley of the Kings, TELEMAC-2D, Mitigation measures | ||||||
裏表紙 | |||||||