Stable Isotope Geochemistry is an introduction to the use of stable isotopes in the geosciences. For students and scientists alike the book will be a primary source of information with regard to how and where stable isotopes can be used to solve geological problems. It is subdivided into three parts: i) theoretical and experimental principles, ii) fractionation processes of light and heavy elements, iii) the natural variations of geologically important reservoirs. In the last decade, major advances in multicollector-ICP-mass-spectrometry enable the precise determination of a wide range of transition and heavy elements. Progress in analysing the rare isotopes of certain elements allows the distinction between mass-dependent and mass-independent fractionations. These major advances in analytical techniques make an extended new edition necessary. Special emphasis has been given to the growing field of “non-traditional” isotope systems. Many new references have been added, which will enable quick access to recent literature.
Stable Isotope Geochemistry is an introduction to the use of stable isotopes in the geosciences. The three parts treat theoretical and experimental principles; fractionation mechanisms of light and heavy elements; and the natural variations of geologically important reservoirs. The fifth edition has been revised and extended and now includes a new chapter on palaeoclimatology. Special emphasis has been given to the growing field of "heavy" elements, while many new references have been added. For students and scientists alike, the book will be a primary source of information with regard to how and where stable isotopes can be used to solve geological problems.
With 79 Tables ; EWC '98 ; [this Volume is the Result of the International IDNDR-Conference on Early Warning Systems for the Reduction of Natural Disasters, Held at the Geo-Forschungszentrum in Potsdam, Germany from 7-11 September 1998.]
With 79 Tables ; EWC '98 ; [this Volume is the Result of the International IDNDR-Conference on Early Warning Systems for the Reduction of Natural Disasters, Held at the Geo-Forschungszentrum in Potsdam, Germany from 7-11 September 1998.]
Written for a broad audience this book offers a comprehensive account of early warning systems for hydro meteorological disasters such as floods and storms, and for geological disasters such as earthquakes. One major theme is the increasingly important role in early warning systems played by the rapidly evolving fields of space and information technology. The authors, all experts in their respective fields, offer a comprehensive and in-depth insight into the current and future perspectives for early warning systems. The text is aimed at decision-makers in the political arena, scientists, engineers and those responsible for public communication and dissemination of warnings.
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