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Conservation of Wildlife Populations (2nd Ed.) Demography, Genetics, and Management

Langue : Anglais

Auteur :

Couverture de l’ouvrage Conservation of Wildlife Populations

Population ecology has matured to a sophisticated science with astonishing potential for contributing solutions to wildlife conservation and management challenges.  And yet, much of the applied power of wildlife population ecology remains untapped because its broad sweep across disparate subfields has been isolated in specialized texts.  In this book, L. Scott Mills covers the full spectrum of applied wildlife population ecology, including genomic tools for non-invasive genetic sampling, predation, population projections, climate change and invasive species, harvest modeling, viability analysis, focal species concepts, and analyses of connectivity in fragmented landscapes. With a readable style, analytical rigor, and hundreds of examples drawn from around the world, Conservation of Wildlife Populations (2nd ed) provides the conceptual basis for applying population ecology to wildlife conservation decision-making.  Although targeting primarily undergraduates and beginning graduate students with some basic training in basic ecology and statistics (in majors that could include wildlife biology, conservation biology, ecology, environmental studies, and biology), the book will also be useful for practitioners in the field who want to find - in one place and with plenty of applied examples - the latest advances in the genetic and demographic aspects of population ecology.

Additional resources for this book can be found at: www.wiley.com/go/mills/wildlifepopulations.

List of boxes ix

Preface to second edition xi

Preface to first edition xii

List of symbols xiv

Acknowledgments for second edition xv

Acknowledgments for first edition xvi

Part I Background To Applied Population Biology 1

1 The Big Picture: Human Population Dynamics Meet Applied Population Biology 3

Introduction 3

Population Ecology of Humans 4

Extinction Rates of Other Species 8

Humans and Sustainable Harvest 12

The Big Picture 13

Further Reading 13

2 Designing Studies and Interpreting Population Biology Data: How Do We Know What We Know? 14

Introduction 14

Obtaining Reliable Facts Through Sampling 15

Linking Observed Facts to Ideasmind Leads to Understanding 19

Ethics and the Wildlife Population Biologist 29

Summary 31

Further Reading 32

3 Genetic Concepts and Tools To Support Wildlife Population Biology 33

Introduction 33

What Is Genetic Variation? 33

Genetic Markers Used in Wildlife Population Biology 35

Insights into Wildlife Population Biology Using Genetic Tools 43

Summary 52

Further Reading 53

4 Estimating Population Vital Rates 54

Introduction 54

Estimating Abundance and Density 54

Survival Estimation 67

Estimation of Reproduction 70

Sex Ratio 71

Summary 74

Further Reading 75

Part II Population Processes: The Basis For Management 77

5 The Simplest Way To Describe And Project Population Growth: Exponential or Geometric Change 79

Introduction 79

Fundamentals of Geometric or Exponential Growth 80

Causes and Consequences of Variation in Population Growth 84

Quantifying Exponential Population Growth in a Stochastic Environment 91

Summary 96

Further Reading 97

6 All Stage Classes Are Not Equal In Their Effects On Population Growth: Structured Population-Projection Models 98

Introduction 98

Anatomy of a Population-Projection Matrix 99

How Timing of Sampling Affects the Matrix 100

Projecting a Matrix Through Time Leads to Transient and Asymptotic Dynamics 103

All Vital Rates are not Created Equal: Analytical Sensitivities and Elasticities 108

Stochasticity in Age and Stage-Structured Populations 109

Sensitivity Analysis in the Broad Sense to Help Evaluate Management Actions 113

Fitness is Lambda, Selection is Management 116

Case Studies Using Matrix Models to Guide Conservation Decision-Making 118

Summary 124

Further Reading 125

7 Density-Dependent Population Change 126

Introduction 126

Negative Density Dependence 126

The Logistic: One Simple Model of Negative Density-Dependent Population Growth 128

Some Counterintuitive Dynamics: Limit Cycles and Chaos 133

Positive Density Dependence 135

Negative and Positive Density Dependence Operate Together 138

Component Versus Demographic Outcomes of Density Dependence 140

Summary 140

Further Reading 141

8 Predation and Wildlife Populations 142

Introduction 142

Does Predation Affect Prey Numbers? 143

Factor 1. Determining How Predation Affects Prey Numbers: Predation Rate 145

Factor 2. Determining How Predation Affects Prey Numbers: Compensation 150

Factor 3. Determining How Predation Affects Prey Numbers: Who Gets Killed 152

Summary 152

Further Reading 153

9 Genetic Variation and Fitness In Wildlife Populations 154

Introduction 154

Long-Term Benefits of Genetic Variation 154

What Determines Levels of Genetic Variation in Populations? 155

Quantifying the Loss of Heterozygosity: The Inbreeding Coefficient 161

When Does Inbreeding Due to Genetic Drift Lead to Inbreeding Depression? 162

Outbreeding Depression and the Loss of Local Adaptation 165

Genetic Rescue, Genetic Restoration, and Long-Term Population Recovery 167

Appropriate Levels of Genetic Connectivity 168

Case Studies Where Genetic Rescue Meets the Real World 169

Summary 173

Further Reading 174

10 Dynamics of Multiple Populations 175

Introduction 175

What Is Connectivity? 176

Consequences of Connectivity for Wildlife Populations 177

Measuring Connectivity Among Wildlife Populations 177

Multiple Populations are not All Equal 185

Options for Restoring Connectivity 194

Summary 197

Further Reading 198

Part III Applying Knowledge of Population Processes To Problems of Declining, Small, or Harvestable Populations 199

11 Human-Caused Stressors: Deterministic Factors Affecting Populations 201

Introduction 201

General Effects of Deterministic Stressors on Populations: Adapt, Move, or Die 201

Habitat Loss and Fragmentation 203

Introduced and Invasive Species 206

Pollution 212

Overharvest 214

Global Climate Change 215

Multiple Deterministic Stressors Occur Simultaneously 220

Summary 222

Further Reading 223

12 Predicting The Dynamics of Small and Declining Populations 224

Introduction 224

Ecological Characteristics Predicting Risk 224

The Extinction Vortex 226

Predicting Risks in Small Populations 226

Population Viability Analysis (PVA): Quantitative Methods of Assessing Viability 227

Other Approaches to Assessing Viability 239

Summary 242

Further Reading 243

13 Focal Species To Bridge From Populations To Ecosystems 244

Introduction 244

The Four Categories of Focal Species 245

Summary 249

Further Reading 250

14 Population Biology To Guide Sustainable Harvest 251

Introduction 251

Effects of Hunting on Population Dynamics 252

Long-Term Effects: Hunting as an Evolutionary Force 257

Models to Guide Sustainable Harvest 258

Waterfowl Harvest and Adaptive Harvest Management in the US 264

Management of Overabundant and Pest Populations 265

Summary 266

Further Reading 267

Epilogue 269

References 271

Index 301

L. Scott Mills is a Professor in the Wildlife Biology Program at The University of Montana. He was a 2009 John Simon Guggenheim Fellow, has received multiple NSF Awards, served on the Board of Governors for the North American Section of the Society for Conservation Biology, and has testified to Congress about the role of ethics in wildlife population biology research. Mills was an invited contributor to the 2007 Intergovernmental Panel on Climate Change Report (IPCC) report, and to the Western Governors� Association Climate Change Working Group. His research and teaching integrates field studies with population models and genetic analyses to understand effects of human perturbations on wildlife populations. Mills' research on wildlife around the world – from snowshoe hares to marmots, mice to coyotes, bighorn sheep to snow leopards and tigers - has been covered in media outlets including Newsweek, National Geographic, The New York Times, Discovery Channel Canada, Science News, National Public Radio, Nature, Science, and The Nature of Things with David Suzuki.

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