Synopses & Reviews
This two-volume handbook is a comprehensive account of the rapidly emerging and vibrant science of the ecological restoration of habitats and species. Ecological restoration aims to achieve complete structural, functional, self-maintaining biological integrity following disturbance. In practice, any theoretical model is modified by a number of economic, social, and ecological constraints. Consequently, material that might be considered as rehabilitation, enhancement, re-construction, or re-creation is also included. Principles of Restoration defines the underlying principles of restoration ecology in relation to manipulations and management of the biological, geophysical, and chemical framework.
Review
"Comprehensive and current, this volume covers the science behind restoration of degraded ecosystems." Northeastern Naturalist
Synopsis
An essential handbook for anyone concerned with the restoration of aquatic or terrestrial ecosystems, worldwide.
Synopsis
The Handbook of Ecological Restoration comprises two volumes, Principles of Restoration and Restoration in Practice, providing a comprehensive account of the science of restoration ecology. Principles of Restoration defines the underlying principles of restoration ecology, in relation to manipulations and management of the biological, geophysical and chemical framework. It will be an invaluable resource to anyone concerned with the restoration, rehabilitation, enhancement or creation of habitats, anywhere in the world.
About the Author
Martin Perrow is an ecological consultant at ECON, based in the University of East Anglia.Anthony Davy is Head of Population and Conservation Biology in the School of Biological Sciences at the University of East Anglia.
Table of Contents
List of contributors; Foreword; Preface; Part I. The Background: 1. Introduction and philosophy Anthony D. Bradshaw; 2. Rationale for restoration John Cairns Jr; 3. The ecological context: a landscape perspective Richard J. Hobbs; 4. The ecological context: a species population perspective David W. MacDonald, Thomas P. Moorhouse and Jody W. Enck; 5. The evolutionary context: a species perspective Alan J. Gray; Part II. Manipulation of the Physical Environment: 6. Terrestrial systems Steve G. Whisenant; 7. Wetlands and still waters Jillian C. Labadz, David P. Butcher and Dennis Sinnott; 8. Running water: fluvial geomorphology and river restoration Malcolm D. Newson, John Pitlick and David A. Sear; Part III. Manipulation of the Chemical Environment: 9. Manipulating the chemical environment of the soil Robert H. Marrs; 10. Chemical treatment of water and sediments with special reference to lakes Martin Søndergaard, Klaus-Dieter Wolter and Wilhelm Ripl; 11. Atmospheric chemistry Peter Brimblecombe; Part IV. Manipulation of the Biota: 12. Establishment and manipulation of plant populations and communities in terrestrial systems Anthony J. Davy; 13. Ecology and management of plants in aquatic ecosystems Stefan E. B. Weisner and John A. Strand; 14. Micro-organisms Michael F. Allen, David A. Jasper and John C. Zak; 15. Terrestrial invertebrates Jonathan D. Majer, Karl E. C. Brennan and Lubomir Bisevac; 16. Aquatic invertebrates John S. Richardson and Michael J. Jackson; 17. Fish Martin R. Perrow, Mark L. Tomlinson and Luis Zambrano; 18. Reptiles and amphibians Carl G. Jones; 19. Birds José Maria Cardoso da Silva and Peter D. Vickery; 20. Mammals David W. MacDonald, Thomas P. Moorhouse, Jody W. Enck and Fran H. Tattersall; Part V. Monitoring and Appraisal: 21. Monitoring and appraisal Karen D. Holl and John Cairns Jr; Index.