The ecological world view
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| Format: | Buch |
| Sprache: | English |
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Wallingford [u.a.]
CABI
2008
Collingwood Csiro Publ. |
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| 020 | |a 9780643093805 |9 978-0-643-09380-5 | ||
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| 100 | 1 | |a Krebs, Charles J. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a The ecological world view |c Charles Krebs |
| 264 | 1 | |a Wallingford [u.a.] |b CABI |c 2008 | |
| 264 | 1 | |a Collingwood |b Csiro Publ. | |
| 300 | |a XVIII, 574 S. |b zahlr. Ill., graph. Darst., Kt. | ||
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Datensatz im Suchindex
| _version_ | 1819769724956835840 |
|---|---|
| adam_text | CONTENTS
Preface xvii
Chapter 1 An Introduction to Ecology 1
1.1 Interactions Between Species Determine Where Organisms Live and How Many Live There 2
Ecology and Environmentalism 2
Ecological Systems 4
1.2 Ecology s Foundation in Natural History Goes Back More Than 2000 Years 4
The Balance of Nature 4
Applied Ecology 5
1.3 Ecologists Study Biological Interactions from the Level of the Individual to the Entire Biosphere 6
1.4 Like other Scientists, Ecologists Make Observations, Form Hypotheses, and Test Predictions 7
Predictions and Experiments 8
Complexity in Ecology 9
Ecological Truth 10
1.5 Lyme Disease Illustrates the Complex Interactions in Ecosystems 11
Interaction Webs 11
Complex Interactions in Lyme Disease 12
1.6 Ross River Fever Illustrates How Humans and Ecosystems are Interconnected 14
Summary 15
Chapter 2 Geographic Ecology 19
2.1 All Species Have a Limited Geographic Range 21
Biogeographical Realms 21
Biomes and Floristic Regions 22
Spatial Scales 24
2.2 Geographic Ranges Can Be Very Small or Very Large 25
Hollow Curve Pattern 25
Rapoport s Rule 25
Abundance Within Geographic Ranges 31
2.3 A Sequence of Hypotheses Guides an Ecologist s Analysis of What Limits Ranges 34
Liebig s Law of the Minimum 35
Shelford s Law of Tolerance 36
Summary 37
Chapter 3 What Limits Geographic Distribution? 41
3.1 Dispersal Often Limits Ranges on a Global Scale 44
Types of Dispersal 44
The Spread of the Gypsy Moth, an Introduced Pest 44
The Ecological World View
Aquatic Invasions 4^
Tree Recolonization at the End of the Ice Age 47
Island Colonization 48
3.2 Physical or Chemical Factors Usually Limit Ranges on Regional and Continental Scales 49
Range Extension via Adaptation 52
Impacts of Rapid Climate Change 55
3.3 Predators, Diseases, Parasites, and Competition Can Limit Ranges on a Local Scale 58
Limitation by Predators 58
Limitation by Diseases 59
Summary * 0
Chapter 4 Behavioral Ecology: Evolution in Action 65
4.1 Behavioral Ecologists Analyze the Ecological and Evolutionary Contexts of Behaviors 66
Adaptation Through Natural Selection 67
Behavioral Changes via Natural Selection 69
Adaptive Behavior 70
4.2 All Behaviors Have Costs and Benefits 71
Territorial Defense 71
Optimal Foraging 72
4.3 Natural Selection Favors Group Living in Some Species 74
Benefits of Group Living 74
Costs of Group Living 77
Group Living in African Lions 80
Summary 82
Chapter 5 Population dynamics—Abundance in Space 87
5.1 To Analyze Populations, We Must Measure Abundance 88
Quadrat Counts 88
Mark-recapture 90
Other Methods for Comparing Population Sizes 92
5.2 Good and Poor Habitats Are Defined by Resource Levels 93
Abundance in Relation to Body Size 93
Abundance in Relation to Limiting Environmental Factors 94
5.3 Populations Are not Continuously Distributed in Space 102
Populations and Metapopulations 102
Habitat Suitability Models 104
Summary 108
Chapter 6 Population Dynamics—Abundance in Time 111
6.1 No Population Can Increase Without Limit 113
Geometric Population Growth 113
A Model for a Regulated Population 114
Contents
6.2 Natural Populations are Rarely Stable 116
Desert Locust Plagues 118
The Yellowstone Elk Population 121
Water Fleas 122
6.3 Human Population Growth Must Also Be Limited 124
Demographic Transition 124
Carrying Capacity of Earth 125
Summary 128
Chapter 7 Negative Species Interactions—Predation, Herbivory and Competition 131
7.1 Interactions Between Species Can be Negative or Positive 132
7.2 Predation is the Primary Factor Limiting the Abundance of Many Populations 133
Doomed Surplus Concept 133
Predator Control 134
Introduced Predators 136
Escape from Predation 137
7.3 Plants have Defenses that Reduce Herbivory 137
Secondary Plant Substances 137
Inducible Plant Defenses 139
7.4 Competition Occurs When Species Have Similar Resource Requirements and Resources
Are in Short Supply 141
Ecological Niches 143
Evolution and Competition 145
r-selection and JC-selection 145
C-S-R Model of Plant Strategies 147
Summary 149
Chapter 8 Negative Species Interactions—Infection and Parasitism 151
8.1 Pathogens and Parasites Have Negative Impacts on Species 153
8.2 Compartment Models Are Useful for Analyzing How Diseases Affect Populations 153
Parameters of Compartment Models 154
Epidemics 155
8.3 Pathogens and Parasites Affect Individual Organisms by Reducing Reproductive Output
and Increasing Mortality 156
Effects on Reproduction 156
Effects on Mortality 156
8.4 Diseases Can Reduce Populations 159
Brucellosis in Ungulates 159
Rabies in Wild Mammals 161
Myxomatosis in the European Rabbit 164
8.5 Pathogens Can Become More or Less Virulent Through Evolution, and Their Hosts
Can Evolve Resistance 167
IX
The Ecological World View
Evolution of Virulence 167
Coevolution in Disease Systems 167
Summary 168
Chapter 9 Positive Interaction Between Species—Mutualism and Commensalism 171
9.1 Positive Interactions Between Species Can Benefit One or Both of the Species Involved 173
9.2 Mutualistic Interactions Occur When Animals Pollinate and Defend Plants 173
Bees and Coffee 175
Ants and Acacias 176
9.3 Foundation Species Provide Shelter for Other Species 178
Balancing Positive and Negative Interactions 179
Nurse Plants 180
9.4 Plant-Animal Interactions Can Be a Cost or a Benefit to Plants 182
Overcompensation Hypothesis for Grazing 182
Seed Dispersal and Defense of Fruits 184
Whitebark Pine and Clark s Nutcracker 185
Summary 186
Chapter 10 Population Regulation and the Balance of Nature 189
10.1 Population Dynamics Analyzes Population Growth and Average Abundance 192
Temporal Variation in Abundance 193
Spatial Variation in Abundance 194
10.2 Populations Are Regulated by Density Related Changes in Births, Deaths, or Movements 195
Populations and Metapopulations 197
Allee Effects 199
Analyzing Population Dynamics 199
Plant Population Regulation 204
10.3 Populations May Act as Source Populations or as Sink Populations 204
Fragmentation of Source Populations 204
Delimiting Sources and Sinks 205
10.4 Evolutionary Changes in Populations Can Affect the Interactions That Limit Abundance 206
Genetic Changes Affecting Abundance 207
Intrinsic Population Regulation 207
Summary 208
Chapter 11 Community Dynamics—Succession 213
11.1 Communities Do Not Remain Constant But Change Slowly or Rapidly 215
Types of Community Change 215
Primary Succession on Mount St. Helens 216
11.2 Three Models of Succession Depend on Whether the Initial Species Help, Hinder or Ignore
Subsequent Colonizers 219
Contents
The Facilitation Model 219
The Inhibition Model 220
The Tolerance Model 221
11.3 The Major Ecological Mechanism Driving Succession is Competition for Limiting Resources 221
A Simple Mechanistic Model of Succession 221
Glacial Moraine Succession in South-eastern Alaska 224
Lake Michigan Sand-Dune Succession 228
Abandoned Farmland in North Carolina 230
11.4 Succession Proceeds to a Climax Stage, Which is Relatively Stable Over Ecological Time 233
Monoclimax Theory 233
Polyclimax Theory 233
Climax-pattern Hypothesis 233
11.5 Small Patches May be Changing in a Regeneration Cycle Within a Climax Landscape 237
Cyclical Vegetation Changes 237
Gap Dynamics in Forests 239
Summary 241
Chapter 12 Community Dynamics—Biodiversity 245
12.1 Biodiversity Describes the Variety and Number of Species in Communities 247
Measurement of Biodiversity 247
How Many Species Exist at Present? 249
12.2 The Major Global Pattern for Biodiversity Is a Gradient from the Tropics to the Polar Regions 250
Tropical Biodiversity 250
Hotspots of Biodiversity 253
12.3 Differences in Biodiversity May be Produced By Six Causal Factors 257
Evolutionary Speed Hypothesis 257
Geographical Area Hypothesis 258
Interspecific Interactions Hypothesis 259
Ambient Energy Hypothesis 264
Productivity Hypothesis 266
Intermediate Disturbance Hypothesis 267
12.4 Communities Could Be Saturated With Species Through Evolution But They
Appear Unsaturated 270
Regional Species Saturation 270
Local Community Saturation 271
Summary 271
Chapter 13 Community Dynamics—Food Webs 275
13.1 Communities are Organized by a Network of Interactions That Involve Competition,
Predation, and Mutualism 278
Community Organization 278
Equilibrium Communities 279
XI
The Ecological World View
Non-equilibrium Communities 280
13.2 Who-eats-whom Determines the Basic Structure of a Community 281
Food Chains and Food Webs 281
Trophic Levels 281
Length of Food Chains 286
13.3 Functional Roles and Guilds help Define Community Organization 288
Guilds and Functional Groups 288
Keystone Species 289
Dominant Species 293
Size-Efficiency Hypothesis 295
13.4 Stability is a Critical Property of Ecological Communities 298
Biodiversity and Stability 298
Resilience of Communities 299
13.5 Restoration Ecology Applies Ecological Knowledge to Repair Damaged Communities 300
Summary 303
Chapter 14 Community Dynamics—Disturbance Ecology 307
14.1 Communities Are Not in Equilibrium If They Are Continually Subject to Disturbances 309
Patches and Disturbance 309
Landscape Patchiness 311
14.2 Disturbances are Highly Specific to Communities 316
Coral Reef Communities 316
Rocky Intertidal Communities 320
14.3 Theoretical Models Show What Ecological Processes Lead to Non-equilibrium Communities 321
Fluctuating Environment Models 322
Directional Changing Environment Models 322
Slow Competitive Displacement Models 322
14.4 Physical Disturbance, Predation and Competition are the Three Ecological Determinants of
Community Organization 323
Menge-Sutherland Model 323
Bottom-up and Top-down Models 325
14.5 Islands have Highlighted the Role of Area and Isolation in Structuring Communities 329
Species-area Curve 329
MacArthur-Wilson Theory of Island Biogeography 331
14.6 Communities Can Exist in Several Alternative Stable States 331
Summary 334
Chapter 15 Ecosystem Ecology—Energy Flows and Production 339
15.1 Solar Energy Fixed in Photosynthesis Sustains AH Trophic Levels 341
Ecosystem Metabolism 341
Materials and Energy as Currency 341
XII
Contents
15.2 Green Plants Process the Sun s Energy Under Limitations Imposed by Temperature,
Moisture and Nutrients 342
Measuring Primary Production 343
Efficiency of Primary Production 345
15.3 Light, Temperature, Rainfall and Nutrients Limit Primary Productivity 346
Marine Communities 346
Freshwater Communities 349
Terrestrial Communities 352
15.4 Energy Fixed by Green Plants Flows Either to Herbivores or to Detritus, or is Lost
in Respiration 355
Efficiency of Secondary Production 355
Productivity of Grazing Systems 358
Summary 362
Chapter 16 Ecosystem Ecology—Nutrient Recycling 365
16.1 Nutrients Cycle and Recycle in Ecosystems 368
Global Nutrient Cycles 369
Local Nutrient Cycles 371
16.2 Harvesting Affects Nutrient Cycles in Forests 371
Nutrient Pools in Forests 371
Hubbard Brook Experimental Forest 375
16.3 Nutrient Cycling Differs in Tropical and Temperate Forests 379
Nutrient Use Efficiency 379
Oligotrophic and Eutrophic Ecosystems 380
16.4 The Sulfur Cycle is Driven by Human Activity and Produces Acid Rain 380
Sources of Sulfur Emissions 380
Impact on Freshwater Ecosystems 384
16.5 The Nitrogen Cycle is Affected by Fertilizers Used in Agriculture 387
Nitrogen Emissions 387
Human Additions of Nitrogen to Ecosystems 387
Summary 390
Chapter 17 Landscape Ecology—Intermingled Ecosystems 395
17.1 Landscapes Include Several Ecosystems 398
Measurements of Landscape Attributes 399
Patches and Landscape Fragmentation 401
17.2 Habitat Edges Are Areas of Concentrated Ecological Interactions 405
Edge Effects in Wildlife Management 406
Rural Dieback in Australia 407
17.3 Corridors Connecting Patches of Suitable Habitat Facilitate the Movements of Organisms 408
Connectivity in Landscapes 408
Movements along Corridors 409
The Ecological World View
17.4 Threshold Effects Complicate Landscape Planning and Management 412
Impacts of Oil and Gas Exploration 413
Greenway Planning in Urban Environments 414
Summary 417
Chapter 18 Harvesting Populations—How to Fish Sustainably 421
18.1 Harvesting a Population Reduces its Abundance 424
A Simple Harvesting Model for Fisheries 425
Sigmoid Curve Theory 425
Over-fishing the Peruvian Anchovy 427
18.2 Maximum Sustainable Yield is the Harvesting Goal, But May Not Be Attainable 430
Economics of Harvesting 432
The Tragedy of the Commons 432
18.3 Exploitation Rates May Be Raised to a Point Where They Cause Extinction of the Resource 433
The Collapse of the Northern Cod Fishery 433
Antarctic Whaling 437
18.4 Below a Certain Level of Exploitation, Populations are Resilient 440
Western Rock Lobster Fishery 441
Risk-aversive Management Strategies 443
18.5 Harvesting Can Be Genetically Selective and Result in Undesirable Evolutionary Changes 444
Summary 446
Chapter 19 Pest Control: Why We Cannot Eliminate Pests 449
19.1 Pest Control is Applied Ecology That Asks What Factors Limit the Average Density of a Pest 451
Economic Pests and Ecological Pests 451
Strategies for Pest Control 452
19.2 Successful Programs of Biological Control Point to Principles for Use in Future Attempts 455
Prickly Pear Cactus 455
Floating Fern 459
Successful Control Agents 461
19.3 Selecting for Crop Plants that are Resistant to Pests is Effective for Biological Control 461
Breeding Resistant Plant Varieties 462
Genetic Engineering for Resistance 462
19.4 The Fertility of Pests Can Be Reduced Through Sterilization and Immunocontraception 464
Sterilization 464
Immunocontraception 465
19.5 Integrated Pest Management Adopts a Systems Approach and Uses all Available
Control Methods 468
Cultural Control of Rice Blast Disease 468
Alfalfa Weevil Control 469
19.6 Ecologists Have a General Theory of Biological Control But Not a Theory Specific
Enough to Permit Prediction of Future Successes 471
Contents
Resource Concentration Hypothesis 472
19.7 Introduced Biological Control Agents May Themselves Become Pests 473
Summary 474
Chapter 20 Conservation Biology: Endangered Species and Ecosystems 479
20.1 Conservation Biology is the Applied Ecology of Endangered Species 481
20.2 Small Populations Can Suffer from Chance Events as well as Inbreeding Depression 482
Minimum Viable Populations 483
Inbreeding and Fitness 484
20.3 Declining Populations Need a Diagnosis of the Causes of Decline to Prevent Extinctions 486
Overkill as a Cause of Extinction 488
Habitat Destruction and Fragmentation 488
Impacts of Introduced Species 491
Chains of Extinctions 492
20.4 Parks and Reserves Can Help Preserve Species If they are Located Properly,
Large and Well Managed 492
Locating Reserves 493
Reserve Size 494
20.5 The Continued Loss of Habitat and the Human Population Increase are the Root
Causes Behind the Conservation Crisis 494
Furbish s Lousewort 494
The Northern Spotted Owl 498
Summary 502
Chapter 21 Ecosystem Health and Human Impacts 507
21.1 Problems with Human Impacts 509
21.2 Human Population Growth 510
Current Patterns of Population Growth 510
Carrying Capacity of the Earth 510
21.3 The Carbon Cycle and Climate Change 517
The Global Carbon Budget 517
Plant Community Responses to Rising CO2 519
Climate Change 521
21.4 Changes in Land Use 528
21.5 Biotic Invasions and Species Ranges 529
21.6 Ecosystem Services 531
Summary 533
References 537
Index 555
xv
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| id | DE-604.BV024627900 |
| illustrated | Illustrated |
| indexdate | 2024-12-23T22:41:39Z |
| institution | BVB |
| isbn | 9781845933760 9780643093805 9780520254794 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-018599586 |
| oclc_num | 253929329 |
| open_access_boolean | |
| owner | DE-83 |
| owner_facet | DE-83 |
| physical | XVIII, 574 S. zahlr. Ill., graph. Darst., Kt. |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | CABI Csiro Publ. |
| record_format | marc |
| spellingShingle | Krebs, Charles J. The ecological world view Populationsdynamik (DE-588)4046803-3 gnd Ökologie (DE-588)4043207-5 gnd |
| subject_GND | (DE-588)4046803-3 (DE-588)4043207-5 |
| title | The ecological world view |
| title_auth | The ecological world view |
| title_exact_search | The ecological world view |
| title_full | The ecological world view Charles Krebs |
| title_fullStr | The ecological world view Charles Krebs |
| title_full_unstemmed | The ecological world view Charles Krebs |
| title_short | The ecological world view |
| title_sort | the ecological world view |
| topic | Populationsdynamik (DE-588)4046803-3 gnd Ökologie (DE-588)4043207-5 gnd |
| topic_facet | Populationsdynamik Ökologie |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018599586&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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