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This Festschrift containing sixteen invited essays and papers is a tribute to the distinguished Irish hydrologist James Dooge on the occasion of his 70th birthday. His former students, colleagues and friends in fourteen countries, have provided a varied selection on his favourite topics: flow in open channels and unsaturated soil, and also from his major interest of recent years, large scale hydrology and global change. The book has three sections. The first section on hydrological processes contains six papers. The second section on large scale hydrology has four papers. Six historical, reflective and philosophical essays on the past and future of the hydrological sciences form the third section of the book.
Hydrology: Advances in Theory and Practice, brings together contributions to both the theory and practice of hydrology, including chapters on (amongst other topics) flood estimation methods and hydrological modelling. The book also looks forward with a global hydrology research agenda fit for the 2030s, and explores how to make advances in hydrological modelling – based on almost 50 years of modelling experience. In Focus – a book series that showcases the latest accomplishments in water research. Each book focuses on a specialist area with papers from top experts in the field. It aims to be a vehicle for in-depth understanding and inspire further conversations in the sector.
Advanced-level view of the tools of random processes and field theory as applied to the analysis and synthesis of hydrologic phenomena. Topics include time-series analysis, optimal estimation, optimal interpolation (Kriging), frequency-domain analysis of signals, and linear systems theory. Techniques and examples chosen to illustrate the latest advances in hydrologic signal analysis. Useable as graduate-level text in water resource systems, stochastic hydrology, random processes and signal analysis. 202 illustrations.
This reference and guide for those interested in modern infiltration theory presents the theoretical and mathematical basis of physically- based infiltration functions and tells how to apply theory to various hydrologic problems. It is assumed that the reader has an understanding of mathematics including basics of partial differential equations; however, mathematical complexities, especially lengthy derivations, are avoided when not needed. Emphasis is on one- dimensional, vertical infiltration such as for the rainfall-on-soil condition. Robust equations are supplied which can be applied in hydrologic models at a variety of scales for different objectives. Annotation copyrighted by Book News, Inc., Portland, OR.
Advances in Hydroscience, Volume 8, provides an overview of the state of knowledge in hydroscience. The book contains six chapters and opens with a study on seiches—a phenomenon that frequently occurs in large enclosed bodies of water and that can result in serious destruction of shore structures and bring sudden death to innocent swimmers. This phenomenon bears certain resemblances to the tsunamis and storm surges over the open sea. Subsequent chapters deal with the basic principles underlying the techniques in isotope hydrology; statistical models for ocean waves and wave forces; fluvial sediment transport; impulsive waves; and channel networks. This contribution will prove particularly useful to hydrologists, since most work in this field has been done by physicists or other non-hydrologists.
Advances in Hydroscience, Volume 11 -1978 covers topics on the progressive development in water science, including stochastic hydrology, the numerical analysis for hydrodynamic modeling, solid-state hydrology, and subsurface waters. The book presents topics on the theory and examples to model lumped quasi-stochastic and stochastic watershed systems; the progress made in the area of multidimensional numerical modeling of hydrodynamic and water-quality processes in estuary and coastal sea systems; and the physical principles governing the flow of water through snow. The text also includes articles on the state of the art of the finite-element modeling techniques in surface and subsurface hydraulic problems; the developments in the area of rainfall-runoff relations and physically-based stochastic hydrologic analysis; as well as well hydraulics in heterogeneous aquifer formations. Hydrologists, ocean engineers, hydraulic engineers, and subsurface engineers will find the book invaluable.
This volume investigates how the physical characteristics and productivity of forest communities are related to the climates and soils in which they are found. It will provide fascinating reading for graduate-level students and research scientists working in ecohydrology, hydroclimatology, forest ecology, and surface water hydrology.
Hydrologic science, an important, interdisciplinary science dealing with the occurrence, distribution, and properties of water on Earth, is key to understanding and resolving many contemporary, large-scale environmental issues. The Water Science and Technology Board used the opportunity of its 1997 Abel Wolman Distinguished Lecture to assess the vitality of the hydrologic sciences by the hydrologic community. The format included focus by lecturer Thomas Dunne on the intellectual vitality of the hydrologic sciences, followed by a symposium featuring several invited papers and discussions. Hydrologic Sciences is a compilation of the Wolman Lecture and the papers, preceded by a summarizing overview. The volume stresses a number of needs for furtherance of hydrologic science, including development of a coherent body of transferable theory and an intellectual center for the science, communication across multiple geo- and environmental science disciplines, appropriate measurements and observations, and provision of central guidance for the field.