Flood Forecasting: A Global Perspective describes flood forecast systems and operations as they currently exist at national and regional centers around the globe, focusing on the technical aspects of flood forecast systems. This book includes the details of data flow, what data is used, quality control, the hydrologic and hydraulic models used, and the unique problems of each country or system, such as glacial dam failures, ice jams, sparse data, and ephemeral streams and rivers. Each chapter describes the system, including details about its strengths and weaknesses, and covers lessons learned. This helpful resource facilitates sharing knowledge that will lead to improvements of existing systems and provides a valuable reference to those wishing to develop new forecast systems by drawing on best practices.
- Covers global systems allowing readers to see a worldwide perspective with different approaches used by existing flood forecast systems
- Provides historical coverage allowing readers to understand why forecast systems have developed as they have and to see how specific systems have dealt with common problems encountered
- Presents a vision of what appears to be the future of hydrologic forecasting and difficulties facing hydrologic forecasting
- Provides a helpful resource to facilitate improvements to existing systems based on a best practices approach
Primary: meteorologists, Hydrometeorologists, watershed scientists, hydrologists, natural resource/water managers. Secondary: Environmental Engineers; coastal engineers.
(1) National and Regional Flood Forecasting Systems
Flood Forecasting at the Australian Bureau of Meteorology (Australia)
Hydrological Forecasting Practices in Brazil (Brazil)
The development and recent advances of flood forecasting activities in China (Peoples Republic of China)
A Diagnostic Analysis of Flood Forecasting Systems for the Congo River Basin (Congo)
Flood forecasting in Germany – Challenges of a federal structure and transboundary cooperation (Germany)
Flood Forecasting in India (India) — D.P. Mathuria and Pramod Narayan
Romania National Flood Forecasting and Warning System (Romania)
Operational hydrological forecast systems in Russia (Russia)
Flood Forecasting Tool and Early Warning System using Satellite-based Rainfall Estimates and HEC Tools (Sudan)
Flood Forecast — Britain (United Kingdom)
Flood Forecasting in the United States NOAA/National Weather Service (United States)
(2) Continental Modeling and Monitoring —the future?
Global flood calculations in real-time
European Flood Awareness System (EFAS)
Flood Forecasting in the Blue Nile basin in Sudan (Africa)
Developing Flood Forecasting Capabilities in Columbia (South America)
(3) Challenges facing flood forecasting
River gauging issues in the U.S. and internationally
Implementation of flood forecasting systems in developing countries
(4) Forecast dissemination issues
Exploring How the Question Influences the Decision that is Made on the Basis of Ensemble Flood Forecasts
Flood Forecasting Needs In a Changing World
- No. of pages:
- © Academic Press 2016
- 27th April 2016
- Academic Press
- eBook ISBN:
- Paperback ISBN:
Thomas E. Adams, III, Hydrologist/AWIPS Software Testing , Fairfield Technologies, Inc., Silver Spring, MD, USA
Visiting Scientist, NOAA/NWS National Water Center in Tuscaloosa, AL, USA
Thomas E. Adams, III, has twenty years of real-time operational hydrologic forecasting experience at the NOAA/National Weather Service (NWS), Ohio River Forecast Center (OHRFC), including model parameter estimation, hydrologic and hydraulic modeling and model calibration. His experience includes development and implementation of the Ohio River Community HEC-RAS Model, operational probabilistic/ensemble hydrologic forecasting, precipitation estimation and analysis, land surface/atmosphere interaction, and impact of global climate change on water resources.
He is currently involved with Advanced Weather Interactive Processing System (AWIPS) software development and testing for the NWS and served as flash flood forecasting expert in Beijing, China. He is a member of the American Geophysical Union, American Meteorological Society, American Society of Civil Engineers, and the Soil Science Society of America.
University Corporation for Atmospheric Research, Boulder, CO, USA
The unifying theme of Dr. Thomas Pagano's career has been using operational river forecasts to bring the benefits of science to the public. He studied Hydrology and Water Resources at the University of Arizona, Tucson, USA and obtained his doctorate under the supervision of Professor Soroosh Sorooshian in 2004. He then worked as an operational river forecaster with the USDA Natural Resources Conservation Service National Water and Climate Center in Portland, Oregon, forecasting the Colorado River, Rio Grande, Arkansas River and for Alaska. In 2008 he joined the Australian Commonwealth Scientific and Industrial Research Organisation to lead a research program in flood forecasting. He has been the leader of the national flood modelling group within the Hazards Warnings and Forecasts division of the Australian Bureau of Meteorology since 2013.
Australian Bureau of Meteorology, Melbourne, Australia