The contributions to this book cover a wide range of subjects from a variety of coastrelated fields, from coastal regions in Europe and beyond. They are mainly aimed at identifying urgent problems within the coastal zones of these regions and at making a contribution to their solution. Future climate-depending risks for coastal areas (e.g. erosion, flooding), their conservation and protection make up a central part of these issues of concern. With respect to the program structure a division was made according to the overall list of proposed topics into both thematic and regional topical sessions.
This book offers an up-to-date overview of the latest scientific findings in regional climate research on the Baltic Sea basin. This includes climate changes in the recent past, climate projections up until 2100 using the most sophisticated regional climate models available, and an assessment of climate change impacts on terrestrial, freshwater and marine ecosystems. The authors demonstrate that the regional climate has already started to change, and will continue to do so.
From February 2004 until December 2007 the ComCoast project (Combined Fu- tions in Coastal Defence Zones) was carried out within the Interreg IIIB framework. The objective of this project was to investigate and to test the options for spatial coastal protection concepts. The mission statement of the project over its entire duration was: A wider approach in coastal thinking. I was glad to be part of this project and would like to thank all my European colleagues for the constructive and cooperative atmosphere. Firstly, I would like to express my thanks to Prof. Dr. Horst Sterr and Prof. Dr. Hans Kunz who assisted me over these years with their thorough guidance and comprehensive expertise and for many in-depth discussions on the focus of this dissertation. Secondly, I would like to thank my colleague Dr. Jur ̈ gen Meyerdirks, who acted as my key scienti c sparring partner over the last two years, and who continuously demonstrated his ability to bring me back to earth. Additionally, I would like to thank my colleague Dr. Thomas Klenke, who gave me the chance to be part of a challenging European project consortium and who supported me with his expertise on the project and the dissertation. Furthermore, I would like to express my special thanks to Gerard McGovern, who thoroughly improved my English.
This new Encyclopedia of Coastal Science stands as the latest authoritative source in the field of coastal studies, making it the standard reference work for specialists and the interested lay person. Unique in its interdisciplinary approach. This Encyclopedia features contributions by 245 well-known international specialists in their respective fields and is abundantly illustrated with line-drawings and photographs. Not only does this volume offer an extensive number of entries, it also includes various appendices, an illustrated glossary of coastal morphology and extensive bibliographic listings.
Geographical Information is defined as the collection of data on real virtual objects which have a fixed place above, on, in or beneath the surface of the earth. Geographical information involves all information on buildings, roads, pipelines, cabling, etc. as well as boundaries, air corridors, topography and postcode areas, the information can be administrative and geometric. Changes in social and economic interests have caused the emphasis to shift over the years. Virtual objects (areas, postcode areas) in particular have attracted more interest in recent years. This is closely related to the increased desirability of analysing and presenting policy information within certain spatial limits, in which the introduction of Geographical Information Systems (GIS) and systems like GIS has played a significant role. Geographical Information cannot be regarded as the informational side of one policy area. Geographical information is not only necessary for the layout and management of space, but also for such things as taxation, environmental policy, water management, maintenance and protection of pipeline systems and making maps. The volumes address the latest developments with respect to technological innovation, scientific progress and advanced professional application in the field of geographical information. In addition, articles dealing with the state of the art and coming innovations with respect to major fields of GI research and application are included. The books cover the following areas of specific interest topics with the current scope of geographical information research: geographical information technolgy; geographical information and environment; geographical information planning; geographical information in urban and regional government; geographical information inutilities, telecom and private enterprise; geographical information education and awareness; geographical information in Spain.
The outline of the aeolian and adhesion morphodynamics and phytoecology in recent coastal and inland sand and snow flats and dunes includes examples from the North Sea coast (Netherlands, Germany and Denmark), Baltic Sea coast (Germany, Poland, Russia and Lithuania), snow flats on ice plates covering frozen inland lakes (Germany), Great Sand Dunes aeolian dune field and Medano Creek sand flat (Colorado/USA), Red River sand flat (Texas and Oklahoma/USA); and Mars, Venus, Titan, Triton and other bodies in the solar system of planets and satellites. The actual geological, geomorphological and physical geographical study of modern dune fields and fluvial or marine sand flats permits also the comparative palaeoenvironmental interpretation of ancient dune fields and sand flats in fluvial basins in Buntsandstein (Lower Triassic), Rotliegend (Lower Permian) and Keuper (Upper Triassic). Lists of References, Key Words and Illustrations. More than 10,000 References.
