Post Ecology of Climate Change

Preface: Purpose, Perspective, and Scope xiii

The Tension and Facilitation Hypotheses of Biotic Response to Climate Change xiv

Acknowledgments xxi

1. A Brief Overview of Recent Climate Change and Its Ecological Context 1

- Climate Change versus Global Warming 3

- Temperature Changes 3

- Precipitation Changes 9

- Changes in Snow and Ice Cover 11

- El Niño-Southern Oscillation 13

- Paleoclimatic Variation 15

- Studying the Ecological Effects of Climate Change 16

- The Study Site at Kangerlussuaq, Greenland 21

2. Pleistocene Warming and Extinctions 24

- The Pleistocene Environment As Indicated by Its Fauna 24

- Biogeography and Magnitude of Pleistocene Extinctions and Climate Change 29

- Case Studies of Pleistocene Megafaunal Extinctions 35

- Pleistocene Microfaunal Extinctions and Species Redistributions 44

- Spatial, Temporal, and Taxonomic Heterogeneity in

- Pleistocene Redistributions: Lessons to Be Learned 46

- Reconsidering the Megafaunal Extinctions: The Zimov Model 50

- Relevance to Contemporary Climate Change 52

3. Life History Variation and Phenology 54

- Geographic and Taxonomic Variation in Phenological Response to Climate Change 54

- Pattern and Scale in Phenological Dynamics 59

- Phenology and the Aggregate Life History Response to Climate Change 64

- Temporal Dependence and a Model of Phenological Dynamics 67

- The Iwasa-Levin Model and Its Relevance to Climate Change 75

- Modeling the Contribution of Phenology to Population Dynamics 86

- Trends and Statistical Considerations 88

- Empirical Examples Linking Climate, Phenology, and Abundance 91

- More Complex and Subtle Forms of Phenological Variation 92

4. Population Dynamics and Stability 96

- Establishing the Framework for Addressing Population Response to Climate Change 97

- Classic Treatments of Population Stability Viewed Afresh through the Lens of Climate Change 102

- Incorporation of Climate into Time Series Models 106

- Simultaneous Thresholds in Population-Intrinsic and Population-Extrinsic Factors 111

- Population Synchrony and Extinction Risk 119

- Erosion of Population Cycles 124

- Global Population Dynamics, Population Diversity, and the Portfolio Effect 128

5. The Niche Concept 132

- Grinnellian Niches and Climate Change 134

- Niche Vacancy 138

- Niche Evolution 139

- Phenotypic Plasticity and Evolutionary Response to Climate Change 144

- Niche Conservatism 146

- Modes of Niche Response to Climate Change 149

- Bioclimatic Envelope Modeling and Environmental Niche Models 155

6. Community Dynamics and Stability 163

- Communities Defined through Lateral and Vertical Structuring 164

- Regional versus Local Diversity and the Community Concept 165

- Exploitation and Interference Interactions 167

- Gleasonian and Clementsian Communities 169

- Non-analogues: The Community Is Dead-Long Live the Community 171

- The Role of Climate in Mediating Species Interactions versus the Role of Species Interactions in Mediating Community Response to Climate Change 176

- Phenology and the Ephemeral Nature of Communities 181

- The Green World Hypothesis, and Phenology As an Index of Resource Availability 186

- Asynchrony and Trophic Mismatch 187

- The Cafeteria Analogy of Trophic Mismatch in Time and Space 198

- Gleasonian Dynamics and Stability in Laterally Structured Communities 200

- Dynamics and Stability in Vertically Structured Communities 203

- Development of the Process-Oriented Model for Vertical Communities 205

- Derivation of the Predator-Level Statistical Model 207

- Derivation of the Herbivore-Level Statistical Model 208

- Derivation of the Vegetation-Level Statistical Model 210

- The Community Matrix and Its Stability Properties 211

- Trophic Interactions, Dynamic Complexity, and Stability in Vertical Communities 213

7. Biodiversity, Distributions, and Extinction 217

- Distributional Shifts in Species' Ranges 222

- Scale and Pattern in Distribution and Abundance 224

- Biodiversity Changes through Elevational Colonization and Extinction 226

- Amphibian Extinction and the Climate-Pathogen Hypothesis 230

- Biodiversity and Stability 233

- Tropical Deforestation and Climate Change 245

- Biodiversity, Climate Change, and Human Exploitation 248

8. Ecosystem Function and Dynamics 249

- Stability, Diversity, and Ecosystem Resilience 254

- Nutrient, Temperature, and CO2 Manipulations 257

- Carbon Dynamics and Projected Responses to Global Climate Change 265

- Tropical Deforestation, Carbon Turnover, and Model Projections of Changes in Carbon Dynamics 276

- Role of Animals in Ecosystems of Relevance to Climate Change 286

- Herbivores, Warming, and Ecosystem Carbon Dynamics 289

9. Brief Remarks on Some Especially Important Considerations 297

- Trends and Variability Revisited 297

- Community Response to Climate Change: Further Considerations 299

- The Scale-Invariant Nature of Non-analogues 300

- Lack of Detection Does Not Always Mean Lack of Response 300

- A Greater Emphasis on Phenology 301

- Direct versus Indirect Ecological Responses and the Thief in the Night 302

References 303

Index 359