Synopses & Reviews
This book is a valuable resource on the various aspects of modelling the response of vegetation to global climate change. Integrating current knowledge and setting a precedent for governmental policies, these models are prefaced by an introduction that reviews the history of global climate change and atmospheric carbon dioxide measurements. Students and professionals in ecology, environmental science, biomathematics, forestry, and the earth sciences will be intrigued by the sophisticated mathematical and computational tools used to predict the rate of change in the world's forests. A review of biotic responses to global change is followed by discussions of how global climate change may be measured and of modeling vegetation response to this change. Within these topics, the authors elaborate upon specific relevant issues and describe tools and databases available for research at global scales, while remaining consistent with the overall focus of the response and future distribution of vegetation under a changed climate and increased atmospheric carbon dioxide.
Review
This text will be of interest to ecologists, environmental scientists, foresters, earth scientists and students of global climate change...valuable for the reconstruction of forest vegetation - Biological Abstracts; Overall, the editors are to be commended on producing a book that is well balanced in its coverage of this broad subject. Most chapters have a summary, the book is indexed, and it is remarkable free of errors. The low price and scope of the book will surely mean that it is already on shelves in many offices as well as libraries - Forest Ecology and Management; This text will be of interest to ecologists, environmental scientists, foresters, earth scientists and students of global climate change...valuable for the reconstruction of forest vegetation - Biological Abstracts; Overall, the editors are to be commended on producing a book that is well balanced in its coverage of this broad subject. Most chapters have a summary, the book is indexed, and it is remarkable free of errors. The low price and scope of the book will surely mean that it is already on shelves in many offices as well as libraries - Forest Ecology and Management; This text will be of interest to ecologists, environmental scientists, foresters, earth scientists and students of global climate change...valuable for the reconstruction of forest vegetation - Biological Abstracts; Overall, the editors are to be commended on producing a book that is well balanced in its coverage of this broad subject. Most chapters have a summary, the book is indexed, and it is remarkable free of errors. The low price and scope of the book will surely mean that it is already on shelves in many offices as well as libraries - Forest Ecology and Management
Synopsis
During the summer of 1987, a series of discussions I was held at the International Institute for Applied Systems Analysis (nASA) in Laxenburg, Austria, to plan a study of global vegetation change. The work was aimed at promoting the Interna tional Geosphere-Biosphere Programme (IGBP), sponsored by the International Council of Scientific Unions (lCSU), of which nASA is a member. Our study was designed to provide initial guidance in the choice of approaches, data sets and objectives for constructing global models of the terrestrial biosphere. We hoped to provide substantive and concrete assistance in formulating the working plans of IGBP by involving program planners in the development and application of models which were assembled from available data sets and modeling ap proaches. Recent acceptance of the "nASA model" as the starting point for endeavors of the Global Change and Terrestrial Ecosystems Core Project of the IGBP suggests we were successful in that aim. The objective was implemented by our initiation of a mathematical model of global vegetation, including agriculture, as defined by the forces which control and change vegetation. The model was to illustrate the geographical consequences to vegetation structure and functioning of changing climate and land use, based on plant responses to environmental variables. The completed model was also expected to be useful for examining international environmental policy responses to global change, as well as for studying the validity of IIASA's experimental approaches to environmental policy development."
Table of Contents
Contributors. Preface. Part I: Introduction: Global change-- Herman H. Shugart; Biotic responses to global environmental change: Biospheric implications of global environmental change-- Allen M. Solomon and Wolfgang P. Cramer; CO2 fertilization: the great uncertainty in future vegetation development-- Christian Korner; Leaf responses to the environment and extrapolation to larger scales-- F. I. Woodward; The prediction and physiological significance of tree height-- A. D. Friend; Uncertainties in the terrestrial carbon cycle-- W. M. Post; Coupling of the atmosphere with vegetation-- Philippe Martin; Part III: Measuring global vegetation change: Monitoring vegetation change using satellite data-- B. N. Rock, D. L. Skole and B. J. Choudhury; Global geographic information systems and databases for vegetation change studies-- David L. Skole, Berrien Moore III and Walter H. Chomentowski; Assessing impacts of climate change on vegetation using climate classification systems-- Wolfgang P. Cramer and Rik Leemans; Vegetation diversity and classification systems-- G. Grabherr and S. Kojima; Part IV: Modeling global vegetation change: Modeling large-scale vegetation dynamics-- I. Colin Prentice, Robert A. Monserud, Thomas M. Smith and William R. Emanuel; Rapid simulations of vegetation stand dynamics with mixed life-forms-- Mark R. Fulton; Plant functional types-- T. M. Smith, H. H. Shugart, F. I. Woodward and P. J. Burton; Vegetation functional classification systems as approaches to predicting and quantifying global vegetation change-- J. P. Grime; Modeling crop responses to environmental change-- Cynthia Rosenzwieg; Concluding comments; Index.