Session Details
[33]Poster Session
Sun. Jul 20, 2025 3:30 PM - 5:00 PM JST
Sun. Jul 20, 2025 6:30 AM - 8:00 AM UTC
Sun. Jul 20, 2025 6:30 AM - 8:00 AM UTC
Multiple Hall (Ito International Research Center)(Multiple Hall (Ito International Research Center))
[33-01]Trade-offs of Water Non-Market and Market-based Management Instruments using Multiobjective Analysis : A Case Study during a Scarcity Crisis at a Sucroenergetic Production Area in Brazil.
*Marcia Maria Guedes Alcoforado de Moraes1, Gerald Norbert Souza da Silva2, Marcelo Pereira da Cunha3, Nilena Dias4 (1. Federal University of Pernambuco (UFPE) (Brazil), 2. Federal University of Paraíba (UFPB) (Brazil), 3. State University of Campinas (UNICAMP) (Brazil), 4. State University of Campinas (Brazil))
[33-02]Seeking a pathway towards a more sustainable human-water relationship by coupled model – From a perspective of socio-hydrology
Jingyu Lyu1,2, *Shuhong Mo1,2, Kaixin Jiang1,2, Siyu Yan1,2 (1. Xi'an University of Technology (China), 2. State Key Laboratory of Eco-Hydraulics in Northwest Arid Region (China))
[33-03]Quantifying Flood Reduction Efficiency of Paddy Field Dams in Upper Citarum River Basin, Indonesia
*Akbar Rizaldi1, Shuichi Kure1 (1. Toyama Prefectural University (Japan))
[33-04]Developing a High-Resolution Crop Yield Dataset for Assessing Drought Impacts on Indonesian Rice Farming Communities: A Comparative Study of Dam and Community-based Water Resources
*Amalia Nafisah Rahmani Irawan1, Daisuke Komori1 (1. Tohoku University (Japan))
[33-05]Impact of Flood-Induced Population Migration on Future Flood Damage in Japan
*Hayata Yanagihara1, So Kazama1, Kei Gomi2 (1. Department of Civil and Environmental Engineering, Graduate School of Engineering, Tohoku University (Japan), 2. Regional Environmental Renovation Section, Fukushima Regional Collaborative Research Center, National Institute for Environmental Studies (Japan))
[33-06]Global High-resolution Levee Detection from Digital Elevation Models Using Google Earth Engine
*Do Ngoc Khanh1, Yugo Tsumura2, Orie Sasaki3, Kazuma Shiraishi1, Daiki Akimoto1, Dai Yamazaki4, Gang Zhao3, Yukiko Hirabayashi1 (1. Shibaura Institute of Technology, Tokyo (Japan), 2. Fukuoka Branch office, Nippon Koei Co., Ltd, Fukuoka (Japan), 3. Institute of Science Tokyo, Tokyo (Japan), 4. The University of Tokyo, Tokyo (Japan))
[33-07]Integrating cascading effects in a method for the prioritization of small mountain weirs renovation.
*Victor Maxime CARRE POUSSIN1, Akiyuki KAWASAKI1 (1. The University of Tokyo (Japan))
[33-08]Investigating the link between drought index and reported impact in Japan
*Aulia Febianda Anwar Tinumbang1, Yasuto Tachikawa1 (1. Kyoto University (Japan))
[33-09]Evaluating Enhanced Weathering in Local Agronomic Systems: A model-Based Analysis of Costs and Benefits
Lorenzo Gianni1,2, Claudio Arena1, *Leonardo V. Noto1 (1. Università di Palermo (Italy), 2. IUSS Pavia (Italy))
[33-10]Assessing Sustainable Drainage Systems for Pollution Mitigation in Lake Maggiore: A Lumped Modeling Approach
*Enrico Gambini1, Claudia Dresti2, Umberto Sanfilippo1, Gianfranco Becciu1, Carmelo Cammalleri1 (1. Politecnico di Milano, Department of Civil and Environmental Engineering (DICA) (Italy), 2. National Research Council, Water Research Institute (CNR-IRSA) (Italy))
[33-11]Levee-Integrated Flood Hazard Assessment Using Simulated Flood Volumes
*Muhammad Hasnain Aslam1, Yukiko Hirabayashi1, Dai Yamazaki 2, Gang Zhao3, Yuki Kita2 (1. Shibaura Institute of Technology Tokyo (Japan), 2. The University of Tokyo (Japan), 3. Institute of Science Tokyo (Japan))
[33-12]Transformative actions for relieving future water stress in the Yellow River Basin
*Lu Yu1, Shuai Wang1 (1. Beijing Normal Univ., State Key Laboratory of Earth Surface Processes and Hazards Risk Governance (China))
[33-13]Cyber-Socio-Hydrological Interactions in the Floodplains of Dying Rivers
*Abubakr Muhammad1, Khansa Tariq1 (1. Lahore University of Management Sciences (Pakistan))
[33-14]Assessing the Integration of Microeconomic and Macroeconomic Benefits in Flood Protection Investment (FPI): A Literature Review
*Leon Vin1, Akiyuki Kawasaki1,2 (1. Department of Civil Engineering, The University of Tokyo (Japan), 2. Institute of Future Initiatives, The University of Tokyo (Japan))
[33-15]Proposal of Non-stationarity Evaluation Method Based on Confidence Intervalsand Application to Extreme Hydrological Time Series
*Shoon Motoki1, Keita Shimizu2, Tomohito J. Yamada2 (1. Graduate School of Engineering, Hokkaido University (Japan), 2. Faculty of Engineering, Hokkaido University (Japan))
[33-16]System Dynamics model analysis on agricultural sector impact by tourism industry in southern Bali region - Scenario analysis on Alternative Wetting and Drying and Payments for Ecosystem Services -
*Ayumi Asakura1,2, Kana Kurihara1, Tasuku Kato1 (1. Tokyo University of Agriculture and Technology (Japan), 2. Sanyu Consultants Inc. (Japan))
[33-17]Balancing Agricultural Production and Environmental Sustainability: A Socio-Hydrological Study of the Arjo-Dhidhessa Dam, Ethiopia
*Meseret Dawit Teweldebrihan1,2, Megersa Olumana Dinka2 (1. Institute of Technology, School of Water Resource and Environmental Engineering, Haramaya University, P.O.Box138, Dire Dawa, Ethiopia (Ethiopia), 2. Department of Civil Engineering Sciences, Faculty of Engineering and the Built Environment, University of Johannesburg APK Campus, P. O. Box 524, Auckland Park 2006, Johannesburg, South Africa (South Africa))
[33-18]Efficiency of Cordia africana leaf-based activated carbon in removing hexavalent chromium (Cr (VI)) from aqueous solutions
*Megersa Olumana Dinka1, Meseret Dawit Teweldebrihan1,2, Mikiyas Abewaa Gnaro3 (1. Faculty of Engineering and the Built Environment, University of Johannesburg APK Campus, P. O. Box 524, Auckland Park 2006, Johannesburg, South Africa (South Africa), 2. Institute of Technology, School of Water Resource and Environmental Engineering, Haramaya University, P.O.Box138, Dire Dawa, Ethiopia (Ethiopia), 3. Department of Chemical Engineering, College of Engineering and Technology, Wachemo University, P.O.BOX 667, Hossana, Ethiopia (Ethiopia))
[33-19]Future Flood Exposure in the Flatland and Mountainous Rivers in Sri Lanka – Case Study in the Gin and Nilwala River Basins
*Miyuru Jayapadma1, Kazuyoshi Souma1, Thushara Navodani Wickramaarachchi2, Jun Magome1, Hiroshi Ishidaira1 (1. University of Yamanashi (Japan), 2. University of Ruhuna (Sri Lanka))
[33-20]Examining the Impact of Flood Disasters on Population Decline
*Masafumi YAMADA1, Yuta ITSUMI2, Ena HIGOTANI2, Satoshi WATANABE2 (1. DPRI, Kyoto Univ. (Japan), 2. Kyushu Univ. (Japan))
[33-21]A New Framework of Cost-Benefit Analysis of flood control measures toward considering spatiotemporal patterns and uncertainty of rainfall using large ensemble climate projection dataset
*Soji Ueno1 (1. Hokkaido University Graduate School of Engineering (Japan))
[33-22]Statistical Analysis of Concurrent Weather Fronts and Typhoons and Their Influence on Heavy Rainfall Events in the Tokachi Basin, Hokkaido, Japan
*Yiwen Mao1, Maki Miyamoto1, Tomohito J Yamada1 (1. Hokkaido University (Japan))
[33-23]Creation of Time-Continuous Ensemble Climate Information Contributing to Adaptation Strategies
*Keita Shimizu1, Tomohito J Yamada1 (1. Hokkaido University (Japan))
[33-24]Toward sustainable groundwater use in the Western Desert, Egypt
*Erina Iwasaki1, Mikiko Sugiura1, Shuichiro Yoshida2, Masaru Mizoguchi2, Kazuhiro Nishida2, Akira Hama3 (1. Sophia Univ. (Japan), 2. Tokyo Univ. (Japan), 3. Chiba Univ. (Japan))
[33-25]Perceptions and emotions of false alarms in flood warnings and their impact on protective actions: An empirical analysis of the Kyushu region, Japan
*Mai Watanabe1, Hitomu Kotani1, Ryota Yagi2, Yohei Sawada2, Takuya Kawabata3 (1. Institute of Science Tokyo (Japan), 2. The University of Tokyo (Japan), 3. Japan Meteorological Agency (Japan))
[33-26]Practical hydrologic and water quality monitoring to promote citizen participation toward social consensus building to solve water problem in Low and Middle Income Countries.
*Takahiro Otsuka1, Takashi Nedachi1, Masahiko Ikemoto2, Kenji Nagata1 (1. Japan International Cooperation Agency (Japan), 2. Kokusai Kogyo Co., Ltd (Japan))
[33-27]The Historical Transformation of Systems and Governance in River Zone Utilization in Japan
*Koki Horie1, Shinichiro Nakamura1 (1. Department of Civil and Environmental Engineering, Nagoya University, Japan (Japan))
[33-28]The future of Japanese local communities with long-term flood prediction technology
*Hiroyoshi Morita1, Shinichiro Nakamura2, Nakai Fuko3, Kensuke Otsuyama4, Ryuma Shineha5, Miki Namba6, Masaomi Kimura7, Tsuyoshi Takano1, Anh Cao4, Misako Kachi8, Kei Hiroi9, Kei Yoshimura4 (1. Dia Nippon Engineering Consultants Co., Ltd. (Japan), 2. Nagoya University (Japan), 3. Nagoya Institute of Technology (Japan), 4. The University of Tokyo (Japan), 5. Keio University (Japan), 6. Kagoshima University (Japan), 7. Kindai University (Japan), 8. Japan Aerospace Exploration Agency (Japan), 9. Kyoto University (Japan))
[33-29]Small-Scale Urban Rainwater Management: Cases of Participatory Practices in Sumida, Tokyo
*Michiru Sasagawa1, Takeshi Kinoshita2, Asako Takahashi1, Sanae Shiba1, Yukimasa Ogawa1, Shigemoto Sahara1, Masaki Matsumoto1, Takatsugu Ozaki1 (1. People for Rainwater (NPO) (Japan), 2. Chiba University (Japan))
[33-30]Contribution of nitrogen pollution sources to stream runoff using hydrograph separation
*SungHyen Cho1, Dongguen Lee1, Woo -Jin Shin2, Kwang -Sik Lee2 (1. National Instrumentation Center for Environmental Management(NICEM), Seoul national university (Korea), 2. Korea Basic Science Institute (Korea))
[33-31]Exploring Social Scenarios for the Establishment of Lateral Levees through the Application of Game Theory
*Mizuki Kataoka1, Shinichiro Nakamura1 (1. Graduate School of Civil Engineering, Nagoya University (Japan))
[33-32]Effect of antecedent soil moisture conditions on flood impact after a heavy precipitation event
*Julie André1, Tomohito Yamada1 (1. Hokkaido University (Japan))
[33-33]Behavioral Factors in Post-Flood Waterborne Infectious Disease Incidence: A Case Study of the 2020 Floods in West Jakarta
*Kaho Tajima1, Anisa Muslicha2, Satoru Okonogi1, Kosuke Mizuno2, Koshi Yoshida1 (1. The University of Tokyo (Japan), 2. Universitas Indonesia (Indonesia))
[33-34]Development of Statistically Downscaled Climate Scenarios for South Korea using Hybrid Delta with Multi-GCMs from CMIP6
*Yookyung Jeong1, Nahyeon Cho2, Kyuhyun Byun1 (1. Incheon National University (Korea), 2. National Institute of Environmental Research (Korea))
[33-35]Identifying pathways in human-water systems in the context of 2020-2023 drought in Kenya, using drought exposure, temperature and precipitation data, and nationally representative water access and nutritional data among children under five
*Lauren Broyles1, Brian Thiede1, Asher Rosinger1 (1. The Pennsylvania State University (United States of America))
[33-36]Socio-Hydrological Insights into Water Scarcity-Driven Conflicts in Sri Lanka: Implications for Effective Water Resources Management
*Tharuka Punchihewa1,2, Chamal Perera1 (1. Department of Civil Engineering, University of Moratuwa (Sri Lanka), 2. Lanka Hydraulic Institute Ltd (Sri Lanka))
[33-37]A Socio-Economic Approach to Developing Agricultural Drought Warning Criteria: A Case Study of South Korea
*Hyochan Kim1, Hoyoung Cha1, Kihong Park1, Jongjin Baik1, Jeongwoo Han1, Changhyun Jun1 (1. Korea Univ. (Korea))
[33-38]Identifying Water Security Hotspots Across Oregon, USA
*Citlalli Madrigal1, Melissa Haeffner1, Heejun Chang1 (1. Portland State University (United States of America))
[33-39]Analyzing the Impact of Urbanization on Flood Vulnerability through Recent Floods and Socio-Economic Data
*Sunmin Kim1, Takuya Sato1, Yasuto Tachikawa1 (1. Kyoto University (Japan))
[33-40]Stretching Water Availability: Hydrosolidarity in Drought-Prone Regions
*Fajr Fradi1, Eduardo Sávio Passos Rodrigues Martins3, Rafaela da Silva Alves3, Samiramisthaís Souza Linhares3, Letícia de Freitas Vieira2 (1. Department of Hydraulic and Environmental Engineering, Federal University of Ceará, Fortaleza, 60020-181, Brazil (Brazil), 2. Department of Geography, Federal University of Ceará, Fortaleza, 60020-181, Brazil (Brazil), 3. Research Institute for Meteorology and Water resources (FUNCEME), Fortaleza, 60.115-221, Brazil (Brazil))
[33-41]Exploring the Nexus Between Energy Use by Pumping and Land Deformation for Assessing Water Security in Urban Sociohydrological Systems
*Martin Maranon1,2,3, Alfredo Durán2, Rigel Rocha2, Fernando Jaramillo1 (1. Stockholm University (Sweden), 2. Centro Andino para la Gestión y Uso del Agua (Bolivia), 3. Centro de Planificación y Gestión (Bolivia))
[33-42]The Standardized Precipitation-Evapotranspiration Index form 851-2000
*Aki Yanagawa1, Shuntaro Kurosawa3, Kei Yoshimura2 (1. Meisei Univ. (Japan), 2. Tokyo Univ. (Japan), 3. Seria Job Co.,Ltd. (Japan))
[33-43]A System Dynamics Model to Evaluate Historical Trend and Future Projections of Water Scarcity in Beijing
Xizhu He1, *Qing He2, Taikan Oki2 (1. National University of Singapore (Singapore), 2. The University of Tokyo (Japan))
[33-44]Changes in social concern related the risks of waterfront activities using newspaper article analysis in Japan
*Yuki Ohno1, Shinichiro Nakamura1 (1. Nagoya University (Japan))
[33-45]A sociohydrological database to analyze historical changes in water balance in Tokyo (1950s-2020s)
*Kosuke Shimizu1, Shinichiro Nakamura1 (1. Land and Infrastructure Design Lab., Nagoya University (Japan))
[33-46]HISTORICAL TRANSFORMATION OF FLOOD CONTROL STRATEGIES IN KUMAMOTO CASTLE TOWN, FOCUSING ON COEVOLUTION OF URBAN AND RIVER
*Naoya Nakajima2, Kentaro Imani3, Yuji Hoshino1 (1. Kumamoto University (Japan), 2. Nikken Sekkei (Japan), 3. Oriental Consultants Global (Japan))
[33-47]Investigation of hydrological change from centennial analysis of net natural inflow to Lake Bracciano, Central Italy
*Aldo Fiori1, Antonio Zarlenga1, Elena Volpi1, Irene Pomarico1, Stefania Passaretti2, Anna Varriale2, Claudio Mineo2 (1. Roma Tre University (Italy), 2. Acea Ato2 SpA (Italy))
[33-48]Classifying social-ecological systems for targeted ecosystem services management in China’s Loess Plateau
*Haoyu Zhang1, Xutong Wu1, Shuai Wang1, Ting Li2 (1. Beijing Normal University (China), 2. Xi'an University of Science and Technology (China))
[33-49]Spatial and temporal socio-economic shifts under dynamic flood hazard context
*Konstantinos Karagiorgos1,2,3, Tonje Grahn1,3, Lars Nyberg1,2,3 (1. Risk and Environmental Studies, Karlstad University, Sweden (Sweden), 2. Centre of Natural Hazards and Disaster Science (CNDS), Uppsala, Sweden (Sweden), 3. Centre for Societal Risk Research (CSR), Karlstad University, Sweden (Sweden))
[33-50]Global environmental injustice and its social-natural determinants in 11530 urban centers
*Kunshu Yang1, Yongping Wei1 (1. The University of Queensland (Australia))
[33-51]Analysis of the Impact of Sea Level Rise on Riverine Inundation Areas in Coastal Cities
*Taisei Nishii1, Yukiko Hirabayashi1 (1. Shibaura Institute of Technology (Japan))
[33-52]Lessons in Risk and Resilience of Water Supply Systems to Climate Hazards: A Compilation of Flood and Drought Impacts in Sweden.
*Jeanne Fernandez1,2, Giuliano Di Baldassarre1,2, Claudia Teutschbein1,2, Johanna Mård1,2 (1. Uppsala University (Sweden), 2. Centre of Natural Hazards and Disaster Science (Sweden))
[33-53]FACTORS INFLUENCING POST-FLOOD DEMOGRAPHICS IN JAPAN
*Taisei Hamaguchi1, Taichi Sano1, Masashi Kiguchi1, Keigo Noda1, Shinichiro Nakamura2, Kensuke Otsuyama1, Taikan Oki1 (1. The University of Tokyo (Japan), 2. Nagoya University (Japan))
[33-54]Applying Initial Conditions in Socio-Hydrological Modeling: Assessing Flood Memory in Nagoya City
*Muthiah Sadidah1,2, Daisuke Komori1,2,3 (1. Graduate School of Environmental Studies, Tohoku University, Sendai 980-8572 (Japan), 2. Green Goals Initiative Laboratory, Tohoku University, Sendai 980-8572 (Japan), 3. International Research Institute of Disaster Science, Tohoku University, Sendai 980-8572 (Japan))
[33-55]Water Governance by Local Initiatives and Interdisciplinary Collaboration: A Case Study of Groundwork Mishima
*Hiroyuki Ota1, Yoh Sakaki2 (1. Kawata Construction Co., Ltd. (Japan), 2. Professor, Dept. of Civil and Environmental Engineering, Waseda Univ. (Japan))
[33-56]Reevaluating Historical Flood Damage through the HRRI Model: A Comparative Analysis of the 1931 and 1954 Yangtze River Floods
*Chang Liu1, Akiyuki Kawasaki1, Tomoko Shiroyama1 (1. the University of Tokyo (Japan))
[33-57]Wise operation for the integrated river basin management - Case study in Toyama, Japan
*Masashi Kiguchi1, Taikan Oki1 (1. Graduate School of Engineering, the University of Tokyo (Japan))
[33-58]From Crisis to Sustainability: A Policy Analysis of Post-Conflict Water Infrastructure Reconstruction in Ukraine in the Context of Climate Change
*Joshua Weatherill-Frow1 (1. Newcastle University (UK))