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Coastal Storms offers students and professionals in the field a comprehensive overview and groundbreaking text that is specifically devoted to the analysis of coastal storms. Based on the most recent knowledge and contributions from leading researchers, the text examines coastal storms' processes and characteristics, the main hazards (such as overwash, inundation and flooding, erosion, structures overtopping), and how to monitor and model storms. The authors include information on the most advanced innovations in forecasting, prediction, and early warning, which serves as a foundation for accurate risk evaluation and developing adequate coastal indicators and management options.
In addition, structural overtopping and damage are explained, taking into account the involved hydrodynamic and morphodynamic processes. The monitoring methods of coastal storms are analyzed based on recent results from research projects in Europe and the United States. Methods for vulnerability and risk evaluation are detailed, storm impact indicators are suggested for different hazards and coastal management procedures analyzed. This important resource includes:
- Comprehensive coverage of storms and associated impacts, including meteorological coastal storm definitions and related potential consequences
- A state-of-the-art reference for advanced students, professionals and researchers in the field
- Chapters on monitoring methods of coastal storms, their prediction, early warning systems, and modeling of consequences
- Explorations of methods for vulnerability and risk evaluation and suggestions for storm impact indicators for different hazards and coastal management procedures
Coastal Storms is a compilation of scientific and policy-related knowledge related to climate-related extreme events. The authors are internationally recognized experts and their work reflects the most recent science and policy advances in the field.
List of Contributors xi
Series Foreword xv
Introduction xvii
Acknowledgments xix
1 Coastal Storm Definition 1 / Mitchell Harley
2 Hydrodynamics Under Storm Conditions 23 / Xavier Bertin, Maitane Olabarrieta and Robert McCall
3 Sediment Transport Under Storm Conditions on Sandy Beaches 45 / Troels Aagaard and Aart Kroon
4 Examples of Storm Impacts on Barrier Islands 65 / Nathaniel Plant, Kara Doran and Hilary Stockdon
5 Storm Impacts on the Morphology and Sedimentology of Open-coast Tidal Flats 81 / Ping Wang and Jun Cheng
6 Storm Impacts on Cliffed Coastlines 99 / Sue Brooks and Tom Spencer
7 Storms in Coral Reefs 127 / Ana Vila-Concejo and Paul Kench
8 Storm Clustering and Beach Response 151 / Nadia Senechal, Bruno Castelle and Karin R. Bryan
9 Overwash Processes: Lessons from Fieldwork and Laboratory Experiments 175 / Ana Matias and Gerhard Masselink
10 Modeling the Morphological Impacts of Coastal Storms 195 / Ap van Dongeren, Dano Roelvink, Robert McCall, Kees Nederhoff and Arnold van Rooijen
11 Preparing for the Impact of Coastal Storms: A Coastal Manager-oriented Approach 217 / Jose Jimenez, Clara Armaroli and Eva Bosom
12 Assessing Storm Erosion Hazards 241 / Roshanka Ranasinghe and David Callaghan
Conclusions and Future Perspectives 257
Index 259
Paolo Ciavola is an Associate Professor of Geomorphology at the University of Ferrara, where he teaches courses of geomorphology and coastal risk. He holds an MSc in Geology from the University of Bologna (Italy) and a PhD in Marine Sciences from the University of Algarve (Portugal). He has an interest in coastal processes and risk from extreme storms.
Giovanni Coco is an Associate Professor in the School of Environment at the University of Auckland, where he teaches courses on modelling environmental systems. He holds a PhD in Marine Studies from the University of Plymouth (UK). His interests range from coastal processes to machine learning and pattern formation.
