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出版年代 Paper | 2002 | $61.00 / £41.95 400 pp. | 5 x 8 | 58 line illus.
Most of the earth's terrestrial species live in the soil. These organisms, which include many thousands of species of fungi and nematodes, shape aboveground plant and animal life as well as our climate and atmosphere. Indeed, all terrestrial ecosystems consist of interdependent aboveground and belowground compartments. Despite this, aboveground and belowground ecology have been conducted largely in isolation. This book represents the first major synthesis to focus explicitly on the connections between aboveground and belowground subsystems--and their importance for community structure and ecosystem functioning.
David Wardle integrates a vast body of literature from numerous fields--including population ecology, ecosystem ecology, ecophysiology, ecological theory, soil science, and global-change biology--to explain the key conceptual issues relating to how aboveground and belowground communities affect one another and the processes that each component carries out. He then applies these concepts to a host of critical questions, including the regulation and function of biodiversity as well as the consequences of human-induced global change in the form of biological invasions, extinctions, atmospheric carbon-dioxide enrichment, nitrogen deposition, land-use change, and global warming.
Through ambitious theoretical synthesis and a tremendous range of examples, Wardle shows that the key biotic drivers of community and ecosystem properties involve linkages between aboveground and belowground food webs, biotic interaction, the spatial and temporal dynamics of component organisms, and, ultimately, the ecophysiological traits of those organisms that emerge as ecological drivers. His conclusions will propel theoretical and empirical work throughout ecology.
"Highly recommended for all ecologists."--Choice
"I suspect that this book, if for nothing else than for the sheer weight of its intellectual synthesis, will be among [the] classics for many years to come."--Patrick Bohlen, Ecology
Endorsements:
"After a long phase of specialization and splinter, ecologists are again converging on the ecosystem. In this book, David Wardle shows that he is qualified by experience and instinct to play a leading role in this exciting quest."--J. P. Grime, University of Sheffield
"Over much of the twentieth century, there has been a disconnect between studies of above-ground and below-ground organisms at both the community and ecosystem levels. Many of the below-ground studies proceeded in relative isolation or were treated by ecologists at a 'black box' level. David Wardle's new book is truly a quantum leap forward in uniting studies of terrestrial ecosystems. It explains the concepts and mechanisms of community and ecosystem processes within the framework of a masterful review and synthesis of the world literature--leading us toward an ecological 'unified field theory' (pun intended)."--David C. Coleman, University of Georgia
"This book is a benchmark and bellwether for a large volume of science that is being and will be conducted in this decade. It will be of value to both those scientists with casual interests in the topic and to the experts, because it provides short summaries and syntheses of findings as well as an in-depth analysis of available data."--Timothy Seastedt, University of Colorado
图书内容
TABLE OF CONTENTS:
Acknowledgments vii
Chapter 1: Introduction 1
Chapter 2: The Soil Food Web: Biotic Interactions and Regulators 7
Controls: Top Down, Bottom Up, and Productivity 9
Regulation by Resources and Predation in Soil Food Webs 16
Litter Transformers, Ecosystem Engineers, and Mutualisms 37
The Functionality of Soil Food Webs 43
Stability and Temporal Variability 48
Synthesis 53
Chapter 3: Plant Species Control of Soil Biota and Processes 56
Plant Species Effects on Soil Biota 57
Links among Plant Species, Soil Biota, and Soil Processes 68
Temporal and Spatial Variability 73
Plant Traits, Strategies, and Ecophysiological Constraints 83
Soil Biotic Responses to Vegetation Succession 97
Synthesis 103
Chapter 4: Belowground Consequences of Aboveground Food Web Interactions 105
Individual Plant Effects 106
Dung and Urine Return 114
Effects of Palatability Differences among Plant Species 117
Spatial and Temporal Variability 130
Consequences of Predation of Herbivores 132
Transport of Resources by Aboveground Consumers 134
Synthesis 136
Chapter 5: Completing the Circle: How Soil Food Web Effects Are Manifested Aboveground 138
The Decomposer Food Web 140
Nitrogen Transformations 152
Microbial Associates of Plant Roots 157
Root Herbivores 169
Physical Effects of Soil Biota 173
Soil Biotic Effects on Aboveground Food Webs 175
Synthesis 181
Chapter 6: The Regulation and Function of Biological Diversity 183
Assessment of Soil Diversity 184
Stress and Disturbance as Controls of Soil Diversity 187
Biotic Controls of Diversity 194
The Enigma of Soil Diversity 203
Diversity of Soil Organisms over Larger Spatial Scales 205
Biodiversity and Ecosystem Function 209
Synthesis 236
Chapter 7: Global Change Phenomena in an Aboveground-Belowground Context 239
Species Losses and Gains 240
Land Use Changes 253
Carbon Dioxide Enrichment and Nitrogen Deposition 265
Global Climate Change 281
Synthesis 292
Chapter 8: Underlying Themes 295
References 309
Index 387
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