Scaling in ecology with a model system:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Princeton, New Jersey
Princeton University Press
2021
|
| Schriftenreihe: | Monographs in population biology
64 |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXII, 310 Seiten Illustrationen, Diagramme |
| ISBN: | 9780691222776 9780691172705 |
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| 245 | 1 | 0 | |a Scaling in ecology with a model system |c Aaron M. Ellison, Nicholas J. Gotelli |
| 264 | 1 | |a Princeton, New Jersey |b Princeton University Press |c 2021 | |
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Datensatz im Suchindex
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| adam_text | Contents xiii xxi Preface Abbreviations 1. Introduction: Why Scale? 1 Time and Space Genes to Ecosystems Modeling: Metabolic Theory and Macroecology Mechanisms at Scales Organisms as Model Systems Summary 2 3 5 6 7 8 Part I Ecophysiology, Nutrient Limitation, and Stoichiometry 11 1.1 1.2 1.3 1.4 1.5 1.6 2. Context: Nutrient Limitation, the Evolution of Botanical Carnivory, and Environmental Change 2.1 Background 2.1.1 Nutrient Acquisition, Plant Traits, and the Evolution of Botanical Carnivory 2.1.2 Anthropogenic Activities Alter Resource Availability and Fluxes 14 2.2 Next Steps 3. The Small World: Stoichiometry and Nutrient Limitation in Pitcher Plants and Other Phytotelmata Stoichiometric Manipulations of Sarracenia 3.1.1 Effects of Soluble N from Atmospheric Sources 3.1.2 Effects of Nutrient Inputs from Supplemental Prey 3.1.3 Synthesis of Supplemental Feeding Experiments 3.2 Nutrient Additions in Other Phytotelmata 3.3 Summary 3.1 13 14 14 18 20 21 21 23 26 26 29
ѵш CONTENTS 4. Scaling Up: Stoichiometry, Traits, and the Place of Sarracenia in Global Spectra of Plant Traits 31 Global Plant Trait Spectra 4.1.1 Traits 4.1.2 Trait Data 4.2 Carnivorous Plants in Global Trait Spectra 4.2.1 Nutrient Concentrations 4.2.2 Nutrient Stoichiometry 4.2.3 Stoichiometric Effects ofSupplemental Prey on Carnivorous Plants 4.2.4 Stoichiometric Effects of AddingInorganic Nutrients to Carnivorous Plants 4.2.5 Photosynthesis and Construction Costs 4.3 Synthesis 31 32 32 33 33 37 4.1 Part II Demography, Global Change, and Species Distribution Models 37 42 47 48 51 5. Context: Demography, Global Change, and the Changing Distributions of Species 53 5.1 5.2 Background SDMs, Demography, and Anthropogenic Drivers: Moving Beyond Temperature 5.2.1 Weak Responses to Temperature 5.2.2 Nutrient Enrichment as Another Global-Change Driver 5.2.3 The Importance of Demographic Effects 5.3 Next Steps 6. The Small World: Demography of a Long-Lived Perennial Carnivorous Plant Demographic Models of Sarracenia purpurea 6.1.1 A Deterministic, Stage-Based Demographic Model for Sarracenia purpurea 59 6.1.2 Stochastic Stage-Based Models 6.2 Experimental Demography 6.3 Demography in a Changing World 6.3.1 Forecasting Nitrogen Deposition 6.3.2 Linking N-Deposition Rates to Stage-Transition Matrices 6.1 54 54 55 56 57 57 59 59 63 67 70 70 71
CONTENTS IX Modeling Population Growth The Future Is Now: Nitrogen Deposition and Extinction Risk in 2020 77 6.4 Summary 74 6.3.3 6.3.4 7. Scaling Up: Incorporating Demography and Extinction Risk into Species Distribution Models 7.1 7.2 7.3 7.4 7.5 80 82 82 82 83 83 83 86 88 91 91 Available Data 7.1.1 Sarracenia purupurea Occurrence Data 7.1.2 Environmental and Climatic Data Continental Scaling of Demographic Models 7.2.1 Challenges and Simplifying Assumptions 7.2.2 Including P Introduced AdditionalComplexity 7.2.3 Continental Forecasts for S , purpurea Persistence Forecasting the Future Distribution of Sarracenia purpurea 7.3.1 A MaxEnt Model for Sarracenia purpurea 7.3.2 Comparison of Forecasts of Demographic and MaxEnt Models 91 Additional Forecasting Scenarios,Past and Future Synthesis 93 95 Part III Ecology of the SarraceniaCommunity 8. Context: Community Ecology, Community Ecologies, and Communities of Ecologists 8.1 Background 8.1.1 What Is an Ecological Community? 8.1.2 Substituting Space for Time, and Vice Versa 8.1.3 The Importance of Networks 8.2 Next Steps 9. The Small World: Structure and Dynamics of Inquiline Food Webs in Sarracenia purpurea 9.1 9.2 97 99 100 100 100 103 103 104 Composition and Structure of the Sarracenia purpurea Food Web 104 9.1.1 The Inquilines 104 9.1.2 Network Structure of the Sarracenia purpurea Food Web 105 Co-occurrence Analysis of Sarracenia purpurea Inquilines 107 9.2.1 Quantifying and Testing Inquiline Co-occurrence 107
x CONTENTS Succession of the Inquiline Food Web Dynamics of the Sarracenia purpurea Food Web 9.4.1 Temporal Changes in Food-Web Structure 9.4.2 A Model of Food-Web Temporal Dynamics Summary 114 117 117 118 123 10. Scaling Up: The Generality of the Sarracenia Food Web and Its Value as a Model Experimental System 124 9.3 9.4 9.5 10.1 The Sarracenia Food Web and Other Container Webs Are “Normal” Food Webs 125 10.1.1 Food-Web Data 10.1.2 Food-Web Structure 10.2 Spatial Scaling of the Sarracenia purpurea Food Web 10.3 The Sarracenia purpurea Food Web as a Model Experimental System for Understanding and Managing Food Webs 10.3.1 Fishing Down the Sarracenia Food Web 10.3.2 Is Wyeomyia smithii a Keystone Predator? 10.3.3 Dynamic Food Webs in Dynamic Habitats 10.4 Synthesis 125 126 126 132 135 136 137 143 Part ГѴ Tempests in Teapots 145 11. Context: Tipping Points and Regime Shifts 147 11.1 Background 11.1.1 Examples of RegimeShifts and Alternative States 11.1.2 Linking Empirical Data with Mathematical Models of Alternative States 11.2 A Potential Need for Interventions 11.3 Next Steps 12. The Small World: Tipping Points and Regime Shifts in the Sarracenia Microecosystem 12.1 State Changes in the Sarracenia Microecosystem 12.1.1 Temporal Dynamics of Aerobic and Anaerobic Conditions in Sarracenia purpurea Pitchers 12.1.2 An Alternative Approach 12.2 Summary 148 149 150 151 151 153 153 154 157 161
CONTENTS 13. Scaling Up: Using *omics to Identify Ecosystem States and Transitions XI 162 13.1 Protein Surveys of the Sarracenia Microecosystem 162 13.2 Proteomics of Sarracenia Fed Supplemental Prey 163 13.3 The Cybernetics and Information Content of the S. purpurea Proteome 166 13.4 Early Warning Indicators, Hysteresis, and the Twisted Path of Funded Research 168 13.4.1 Hysteresis, Environmental Tracking, and Anti-hysteresis in the Sarracenia Microecosystem 170 13.5 Synthesis 173 14. Conclusion: Whither Sarracenia? 14.1 14.2 14.3 14.4 Resources, Nutrients, and Stoichiometry Demography and Species Distributions Food Webs and Other Networks Tipping Points, Regime Shifts, and Alternative States 175 176 177 178 180 Appendices 183 Appendix A: The Natural History of Sarracenia and Its Microecosystem 185 Appendix B: The Basics of Resource Limitation 212 Appendix C: Deterministic Stage-Based Models 215 Appendix D: The Basics of Species Distribution Models 218 Appendix E: A Brief History and Précis of Methods for Analyzing Ecological Communities 221 Appendix F: On Tipping Points and Regime Shifts 238 Appendix G: On Biodiversity, Ecosystem Function, and *omics 249 Notes 255 References 259 Subject Index 303 Taxonomic Index 309
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| adam_txt |
Contents xiii xxi Preface Abbreviations 1. Introduction: Why Scale? 1 Time and Space Genes to Ecosystems Modeling: Metabolic Theory and Macroecology Mechanisms at Scales Organisms as Model Systems Summary 2 3 5 6 7 8 Part I Ecophysiology, Nutrient Limitation, and Stoichiometry 11 1.1 1.2 1.3 1.4 1.5 1.6 2. Context: Nutrient Limitation, the Evolution of Botanical Carnivory, and Environmental Change 2.1 Background 2.1.1 Nutrient Acquisition, Plant Traits, and the Evolution of Botanical Carnivory 2.1.2 Anthropogenic Activities Alter Resource Availability and Fluxes 14 2.2 Next Steps 3. The Small World: Stoichiometry and Nutrient Limitation in Pitcher Plants and Other Phytotelmata Stoichiometric Manipulations of Sarracenia 3.1.1 Effects of Soluble N from Atmospheric Sources 3.1.2 Effects of Nutrient Inputs from Supplemental Prey 3.1.3 Synthesis of Supplemental Feeding Experiments 3.2 Nutrient Additions in Other Phytotelmata 3.3 Summary 3.1 13 14 14 18 20 21 21 23 26 26 29
ѵш CONTENTS 4. Scaling Up: Stoichiometry, Traits, and the Place of Sarracenia in Global Spectra of Plant Traits 31 Global Plant Trait Spectra 4.1.1 Traits 4.1.2 Trait Data 4.2 Carnivorous Plants in Global Trait Spectra 4.2.1 Nutrient Concentrations 4.2.2 Nutrient Stoichiometry 4.2.3 Stoichiometric Effects ofSupplemental Prey on Carnivorous Plants 4.2.4 Stoichiometric Effects of AddingInorganic Nutrients to Carnivorous Plants 4.2.5 Photosynthesis and Construction Costs 4.3 Synthesis 31 32 32 33 33 37 4.1 Part II Demography, Global Change, and Species Distribution Models 37 42 47 48 51 5. Context: Demography, Global Change, and the Changing Distributions of Species 53 5.1 5.2 Background SDMs, Demography, and Anthropogenic Drivers: Moving Beyond Temperature 5.2.1 Weak Responses to Temperature 5.2.2 Nutrient Enrichment as Another Global-Change Driver 5.2.3 The Importance of Demographic Effects 5.3 Next Steps 6. The Small World: Demography of a Long-Lived Perennial Carnivorous Plant Demographic Models of Sarracenia purpurea 6.1.1 A Deterministic, Stage-Based Demographic Model for Sarracenia purpurea 59 6.1.2 Stochastic Stage-Based Models 6.2 Experimental Demography 6.3 Demography in a Changing World 6.3.1 Forecasting Nitrogen Deposition 6.3.2 Linking N-Deposition Rates to Stage-Transition Matrices 6.1 54 54 55 56 57 57 59 59 63 67 70 70 71
CONTENTS IX Modeling Population Growth The Future Is Now: Nitrogen Deposition and Extinction Risk in 2020 77 6.4 Summary 74 6.3.3 6.3.4 7. Scaling Up: Incorporating Demography and Extinction Risk into Species Distribution Models 7.1 7.2 7.3 7.4 7.5 80 82 82 82 83 83 83 86 88 91 91 Available Data 7.1.1 Sarracenia purupurea Occurrence Data 7.1.2 Environmental and Climatic Data Continental Scaling of Demographic Models 7.2.1 Challenges and Simplifying Assumptions 7.2.2 Including P Introduced AdditionalComplexity 7.2.3 Continental Forecasts for S', purpurea Persistence Forecasting the Future Distribution of Sarracenia purpurea 7.3.1 A MaxEnt Model for Sarracenia purpurea 7.3.2 Comparison of Forecasts of Demographic and MaxEnt Models 91 Additional Forecasting Scenarios,Past and Future Synthesis 93 95 Part III Ecology of the SarraceniaCommunity 8. Context: Community Ecology, Community Ecologies, and Communities of Ecologists 8.1 Background 8.1.1 What Is an Ecological Community? 8.1.2 Substituting Space for Time, and Vice Versa 8.1.3 The Importance of Networks 8.2 Next Steps 9. The Small World: Structure and Dynamics of Inquiline Food Webs in Sarracenia purpurea 9.1 9.2 97 99 100 100 100 103 103 104 Composition and Structure of the Sarracenia purpurea Food Web 104 9.1.1 The Inquilines 104 9.1.2 Network Structure of the Sarracenia purpurea Food Web 105 Co-occurrence Analysis of Sarracenia purpurea Inquilines 107 9.2.1 Quantifying and Testing Inquiline Co-occurrence 107
x CONTENTS Succession of the Inquiline Food Web Dynamics of the Sarracenia purpurea Food Web 9.4.1 Temporal Changes in Food-Web Structure 9.4.2 A Model of Food-Web Temporal Dynamics Summary 114 117 117 118 123 10. Scaling Up: The Generality of the Sarracenia Food Web and Its Value as a Model Experimental System 124 9.3 9.4 9.5 10.1 The Sarracenia Food Web and Other Container Webs Are “Normal” Food Webs 125 10.1.1 Food-Web Data 10.1.2 Food-Web Structure 10.2 Spatial Scaling of the Sarracenia purpurea Food Web 10.3 The Sarracenia purpurea Food Web as a Model Experimental System for Understanding and Managing Food Webs 10.3.1 Fishing Down the Sarracenia Food Web 10.3.2 Is Wyeomyia smithii a Keystone Predator? 10.3.3 Dynamic Food Webs in Dynamic Habitats 10.4 Synthesis 125 126 126 132 135 136 137 143 Part ГѴ Tempests in Teapots 145 11. Context: Tipping Points and Regime Shifts 147 11.1 Background 11.1.1 Examples of RegimeShifts and Alternative States 11.1.2 Linking Empirical Data with Mathematical Models of Alternative States 11.2 A Potential Need for Interventions 11.3 Next Steps 12. The Small World: Tipping Points and Regime Shifts in the Sarracenia Microecosystem 12.1 State Changes in the Sarracenia Microecosystem 12.1.1 Temporal Dynamics of Aerobic and Anaerobic Conditions in Sarracenia purpurea Pitchers 12.1.2 An Alternative Approach 12.2 Summary 148 149 150 151 151 153 153 154 157 161
CONTENTS 13. Scaling Up: Using *omics to Identify Ecosystem States and Transitions XI 162 13.1 Protein Surveys of the Sarracenia Microecosystem 162 13.2 Proteomics of Sarracenia Fed Supplemental Prey 163 13.3 The Cybernetics and Information Content of the S. purpurea Proteome 166 13.4 Early Warning Indicators, Hysteresis, and the Twisted Path of Funded Research 168 13.4.1 Hysteresis, Environmental Tracking, and Anti-hysteresis in the Sarracenia Microecosystem 170 13.5 Synthesis 173 14. Conclusion: Whither Sarracenia? 14.1 14.2 14.3 14.4 Resources, Nutrients, and Stoichiometry Demography and Species Distributions Food Webs and Other Networks Tipping Points, Regime Shifts, and Alternative States 175 176 177 178 180 Appendices 183 Appendix A: The Natural History of Sarracenia and Its Microecosystem 185 Appendix B: The Basics of Resource Limitation 212 Appendix C: Deterministic Stage-Based Models 215 Appendix D: The Basics of Species Distribution Models 218 Appendix E: A Brief History and Précis of Methods for Analyzing Ecological Communities 221 Appendix F: On Tipping Points and Regime Shifts 238 Appendix G: On Biodiversity, Ecosystem Function, and *omics 249 Notes 255 References 259 Subject Index 303 Taxonomic Index 309 |
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| spelling | Ellison, Aaron M. 1960- Verfasser (DE-588)173704840 aut Scaling in ecology with a model system Aaron M. Ellison, Nicholas J. Gotelli Princeton, New Jersey Princeton University Press 2021 XXII, 310 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Monographs in population biology 64 Gotelli, Nicholas J. 1959- Verfasser (DE-588)136340539 aut Erscheint auch als Online-Ausgabe 9780691222783 Monographs in population biology 64 (DE-604)BV000002837 64 Digitalisierung UB Regensburg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032772431&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Ellison, Aaron M. 1960- Gotelli, Nicholas J. 1959- Scaling in ecology with a model system Monographs in population biology |
| title | Scaling in ecology with a model system |
| title_auth | Scaling in ecology with a model system |
| title_exact_search | Scaling in ecology with a model system |
| title_exact_search_txtP | Scaling in ecology with a model system |
| title_full | Scaling in ecology with a model system Aaron M. Ellison, Nicholas J. Gotelli |
| title_fullStr | Scaling in ecology with a model system Aaron M. Ellison, Nicholas J. Gotelli |
| title_full_unstemmed | Scaling in ecology with a model system Aaron M. Ellison, Nicholas J. Gotelli |
| title_short | Scaling in ecology with a model system |
| title_sort | scaling in ecology with a model system |
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