This pioneering book addresses the entirety of river flooding issues in the Upper Vistula Basin, where considerable flood generation potential exists. It analyses the factors influencing flood risk, investigates variations in observation records and discusses projections for the future and adaptation to changing risk. It serves the general interest in understanding the floods that cause massive destruction in Europe, with dozens of fatalities and tremendous material damages. This interdisciplinary book, which covers aspects of climatology, geomorphology, hydrology, and water and flood risk management, unveils the complexity of the current situation. Access to reliable and accurate information can help solve important practical problems related to flood risk reduction strategies, and is at the core of the EU Floods Directive. As such, the book offers a valuable resource for scientists, educators and practitioners involved in water management, natural disaster reduction and adaptation to climate change.

This book delivers a wealth of information on changes in flood risk in Europe, and considers causes for change. The temporal coverage is mostly focused on post-1900 events, reflecting the typical availability of data, but some information on earlier flood events is also included.

In Risk, Reliability, Uncertainty and Robustness of Water Resources Systems, thirty-five leading scientists provide state-of-the-art reviews of topical areas of research on water resources systems, including aspects of extreme hydrological events: floods and droughts, water quantity and quality, dams, reservoirs and hydraulic structures, evaluating sustainability and climate change impacts. As well as discussing essential challenges and research directions, the book will assist in applying theoretical methods to the solution of practical problems in water resources.

This pioneering book addresses the entirety of river flooding issues in the Upper Vistula Basin, where considerable flood generation potential exists. It analyses the factors influencing flood risk, investigates variations in observation records and discusses projections for the future and adaptation to changing risk. It serves the general interest in understanding the floods that cause massive destruction in Europe, with dozens of fatalities and tremendous material damages. This interdisciplinary book, which covers aspects of climatology, geomorphology, hydrology, and water and flood risk management, unveils the complexity of the current situation. Access to reliable and accurate information can help solve important practical problems related to flood risk reduction strategies, and is at the core of the EU Floods Directive. As such, the book offers a valuable resource for scientists, educators and practitioners involved in water management, natural disaster reduction and adaptation to climate change.

One of the greatest problems hydrology research faces is how to quantify uncertainty, which is inherent in every hydrological process. This overview of uncertainty emphasizes non-orthodox concepts, such as random fields, fractals and fuzziness. This book reviews alternative and conventional methods of risk and uncertainty representation in hydrology and water resources. The water-related applications discussed in the book pertain to areas of strong interest, such as multifractals and climate change impacts. The authors represent a variety of research backgrounds, achieving a broad subject coverage. The material covered provides an important insight into theories of uncertainty related to the field of hydrology. The book is international in its scope, and will be welcomed by researchers and graduate students of hydrology and water resources.

Risk, Reliability, Uncertainty, and Robustness of Water Resource Systems is based on the Third George Kovacs Colloquium organized by the International Hydrological Programme (UNESCO) and the International Association of Hydrological Sciences. Thirty-five leading scientists with international reputations provide reviews of topical areas of research on water resource systems, including aspects of extreme hydrological events: floods and droughts; water quantity and quality dams; reservoirs and hydraulic structures; evaluating sustainability and climate change impacts. As well as discussing essential challenges and research directions, the book will assist in applying theoretical methods to the solution of practical problems in water resources. The authors are multi-disciplinary, stemming from such areas as: hydrology, geography, civil, environmental and agricultural engineering, forestry, systems sciences, operations research, mathematics, physics and geophysics, ecology and atmospheric sciences. This review volume will be valuable for graduate students, scientists, consultants, administrators, and practising hydrologists and water managers.