Measurement, analysis and modeling of extreme precipitation events linked to floods is vital in understanding changing climate impacts and variability. Floods in a Changing Climate: Extreme Precipitation provides methods for assessment of the trends in these events and their impacts. It also provides a basis to develop procedures and guidelines for climate-adaptive hydrologic engineering. Academic researchers in the fields of hydrology, climate change, meteorology, environmental policy and risk assessment, and professionals and policy-makers working in hazard mitigation, water resources engineering and climate adaptation will find this an invaluable resource
Part I. Precipitation Processes and Measurement
1. Precipitation and climate change
2. Precipitation measurement
3. Spatial analysis of precipitation data
Part II. Extreme Precipitation, Floods and Climate Change
4. Extreme precipitation and floods
5. Precipitation modeling and climate change
Part III. Precipitation Variability, Teleconnections and Trends
6. Precipitation variability and teleconnections
7. Global precipitation trends and variability
Part IV. Hydrologic Modeling and Design in a Changing Climate
8. Hydrologic modeling and design
9. Future perspectives
References
Index
Ramesh S. V. Teegavarapu is an Assistant Professor in the Department of Civil, Environmental and Geomatics Engineering at Florida Atlantic University, and is leader of the Hydrosystems Research Laboratory in that department. His main area of specialization is water resources with focuses on climate change modelling, precipitation extremes and hydrological process. He is a member of the Water Resources Management Committee of the International Association for Hydro-Environment Engineering and Research (IAHR). Dr Teegavarapu currently serves on the editorial board of two international journals and has published over 100 articles in journals and conference proceedings. He has convened, chaired and moderated over 50 sessions at several international conferences and served as vice-chair for task committees related to radar rainfall and uncertainty analysis approaches under the Surface Water Hydrology Technical Committee (SWHTC) of the American Society of Civil Engineers (ASCE).