NH51C:
Hydrological, Geomorphological, and Climate-Related Hazards in Coastal Regions: Risk, Impact, and Adaptation II Posters
NH51C:
Hydrological, Geomorphological, and Climate-Related Hazards in Coastal Regions: Risk, Impact, and Adaptation II Posters
Hydrological, Geomorphological, and Climate-Related Hazards in Coastal Regions: Risk, Impact, and Adaptation II Posters
Session ID#: 8716
Session Description:
Developing rapidly, coastal communities are also becoming increasingly vulnerable to adverse impacts posed by climate and environmental changes. This session aims to bring together research communities interested in hydrological, geomorphological and climate-related hazards in coastal regions and focuses on recent developments in quantifying the risk, evaluating the impact, and strategizing the adaptation. We encourage submissions pertaining to all aspects of hydrological, geomorphological and climate-related hazards and risks in various coastal regions, including islands. Topics may include, but are not limited to:
- new modelling techniques (e.g., multi-model coupling, process-based modelling, scenario-based approach) to derive physical characteristics of individual or multiple hazards (e.g., storm surge, hurricanes, coastal inundation, coastal erosion);
- evidence- or modelling-based approach to evaluate risks and impacts (e.g., social-economic, environmental and ecological); cascading impacts of individual or multi-hazards (e.g., on critical infrastructure); novel approaches to risk quantification; and
- novel methods or frameworks for risk adaptation (e.g., stakeholder engagement, risk-based adaptation).
Primary Convener: Dapeng Yu, Loughborough University, Centre for Hydrological and Ecosystem Science, Department of Geography, Loughborough, United Kingdom
Conveners: Robert Wilby, Loughborough University, Centre for Hydrological and Ecosystem Science, Department of Geography, Loughborough, United Kingdom, Ning Lin, Princeton University, Civil and Environmental Engineering, Princeton, NJ, United States and Jie Yin, Zhejiang Gongshang University, School of Tourism and City Administration, Hangzhou, China
Chairs: Dapeng Yu, Loughborough University, Centre for Hydrological and Ecosystem Science, Department of Geography, Loughborough, United Kingdom, Robert Wilby, University of Loughborough, Loughborough, United Kingdom, Ning Lin, Princeton University, Department of Civil and Environmental Engineering, Princeton, United States and Jie Yin, Zhejiang Gongshang University, School of Tourism and City Administration, Hangzhou, China
OSPA Liaison: Jie Yin, Zhejiang Gongshang University, School of Tourism and City Administration, Hangzhou, China
Co-Organized
with:
Natural Hazards, Earth and Planetary Surface Processes, and Hydrology
Natural Hazards, Earth and Planetary Surface Processes, and Hydrology
Cross-Listed:
- EP - Earth and Planetary Surface Processes
- GC - Global Environmental Change
- H - Hydrology
Co-Sponsor(s):
- IGBP: International Geosphere-Biosphere Programme -
Index Terms:
1630 Impacts of global change [GLOBAL CHANGE]
4306 Multihazards [NATURAL HAZARDS]
4321 Climate impact [NATURAL HAZARDS]
4333 Disaster risk analysis and assessment [NATURAL HAZARDS]
Abstracts Submitted to this Session:
Study on Typhoon Hazard Integrated Scale Model, Taking Zhanjiang City, Guangdong Province as Example (60735)
Dynamical Downscaling of Typhoon Vera (1959) and related Storm Surge based on JRA-55 Reanalysis (78333)
Inverse modeling of storm intensity based on grain-size analysis of hurricane-induced event beds (82724)
Inner shelf circulation patterns driven by synoptic weather systems on the South Carolina Coast (83696)
See more of: Natural Hazards