Description

Book Synopsis

A fully updated guide to the increasingly prevalent use of molecular data in ecological studies

Molecular ecology is concerned with how molecular biology and population genetics may help us to better understand aspects of ecology and evolution including local adaptation, dispersal across landscapes, phylogeography, behavioral ecology, and conservation biology. As the technology driving genetic science has advanced, so too has this fast-moving and innovative discipline, providing important insights into virtually all taxonomic groups. This third edition of Molecular Ecology takes account of the breakthroughs achieved in recent years to give readers a thorough and up-to-date account of the field as it is today.

New topics covered in this book include next-generation sequencing, metabarcoding, environmental DNA (eDNA) assays, and epigenetics. As one of molecular ecology's leading figures, author Joanna Freeland also provides those new to the area with a ful

Table of Contents

About the Companion Website Page xiii

1 Molecular Genetics in Ecology 1

What is Molecular Ecology? 1

DNA, RNA, and Protein 2

Allozymes 5

DNA: An Unlimited Source of Data 7

Mutation and Recombination 8

Epigenetic Marks 10

Genomes 12

Mitochondrial DNA (mtDNA) 13

Chloroplast DNA (cpDNA) 13

Haploid Chromosomes 16

Polymerase Chain Reaction 16

Quantitative PCR 19

Sources of DNA 21

Getting Data from PCR 22

Fragment Sizes 22

DNA Sequencing 25

High Throughput Sequencing 26

Overview 28

Chapter Summary 29

References 29

2 Molecular Markers in Ecology 35

Understanding Molecular Markers 35

Neutral Versus Adaptive Markers 35

Genomes 36

Animal Mitochondrial DNA (mtDNA) 36

Plant Mitochondrial DNA (mtDNA) 39

Chloroplast DNA (cpDNA) 39

Haploid Chromosomes 42

Uniparental Markers: Some Final Considerations 43

Molecular Markers 44

Early Developments in Molecular Markers 45

Allozymes 46

PCR‐RFLPs 46

Random Amplified Polymorphic DNA (RAPDs) 47

Inter Simple Sequence Repeats (ISSRs) 48

Amplified Length Fragment Polymorphisms (AFLPs) 49

Modified AFLPs: Methylation‐Sensitive Amplified Polymorphisms (MSAPs) 50

Microsatellites 51

DNA Sequencing 56

Sequencing a Single Region of DNA 56

Single Nucleotide Polymorphisms (SNPs) 59

High Throughput Sequencing (HTS) 61

RAD Sequencing 62

Genotyping‐by‐Sequencing (GBS) 63

Targeted Sequence Capture 63

Whole‐Genome Sequencing 64

Overview 65

Chapter Summary 65

References 66

3 Species 71

Species Concepts 71

DNA Barcoding 73

Barcoding Applications 76

Barcoding Limitations 79

Metabarcoding 81

Metagenomics 84

Barcoding and Metabarcoding Environmental DNA (eDNA) 87

Overview 91

Chapter Summary 91

References 92

4 Phylogeography 101

What is Phylogeography? 101

The Evolution of Phylogeographic Data Sets 102

Molecular Clocks 104

Bifurcating Trees 109

The Coalescent 115

Networks 117

Model‐Based Phylogeographic Inference 120

Long‐Term Climatic Fluctuations 121

Glacial–Interglacial Cycles 121

Marine Refugia 123

Far‐Reaching Effects of Glaciation 125

Dispersal and Vicariance 125

Lineage Sorting 127

Hybridization 130

Applied Phylogeography: Biological Invasions 133

Overview 136

Chapter Summary 136

References 137

5 Genetic Analysis of Single Populations 149

Why Study Single Populations? 149

What is a Population? 149

Quantifying Genetic Diversity 151

Hardy–Weinberg Equilibrium 152

Estimates of Genetic Diversity 157

Haploid Diversity 160

Choice of Marker and Genome 162

What Influences Genetic Diversity? 163

Genetic Drift 163

What is Effective Population Size? 164

Census Population Size (Nc) 165

Effective Number of Breeders (Nb) 165

Estimating Ne from Demographic Data 165

Estimating Ne from Genetic Data 166

Estimating Ne: A Cautionary Note 170

Ne, Genetic Drift, and Genetic Diversity 173

Population Bottlenecks and Founder Effects 174

Population Size and Decline 176

Natural Selection 178

Reproduction 180

Inbreeding 182

Ecology and Life History 186

Overview 188

Chapter Summary 188

References 189

6 Dispersal, Gene Flow, and Landscape Genetics 197

Why Study Multiple Populations? 197

What is Gene Flow? 197

Why Do We Want to Quantify Gene Flow? 199

Quantifying Gene Flow Among Discrete Populations 200

F‐Statistics 201

Assignment Tests 204

Relatedness and Parentage Analysis 206

Non‐a Priori Identification of Populations 207

Landscape Genetics and Genomics 209

Data Analysis in Landscape Genetics 214

Isolation by Distance 216

Isolation by Resistance 217

Genotype–Environment Associations 218

Contemporary Versus Historical Influences on Gene Flow 221

Population Differentiation: Gene Flow, Genetic Drift, and Natural Selection 223

Gene Flow and Genetic Drift 223

Local Adaptation and Gene Flow 223

Drift Versus Selection 225

QST and FST 226

Overview 228

Chapter Summary 228

References 229

7 Behavioral Ecology 237

How Do Genetic Data Help Us Understand Behavior? 237

Mating Systems 238

Monogamy 239

Polygamy 239

Parentage Analysis 241

Extra‐Pair Fertilizations 244

EPFs and Male Fitness 244

EPFs from the Female Perspective: Adaptive Explanations 245

EPFs from the Female Perspective: Non‐adaptive Explanations 247

Social Breeding 252

Cooperative Breeding – Indirect Benefits 253

Cooperative Breeding – Direct Benefits 257

Eusociality 257

Sex‐Biased Dispersal 260

Sex‐Biased Dispersal: Population‐Level Analyses 262

Male Versus Female Genetic Differentiation 262

Markers with Different Modes of Inheritance 263

Relatedness 264

Sex‐Biased Dispersal: Individual‐Level Analyses 266

Assignment Indices 266

Spatial Autocorrelation 268

Parentage Analysis 268

Concordant Results 270

Foraging Ecology 271

Overview 276

Chapter Summary 276

References 277

8 Conservation Genetics 289

Taxonomy 292

Subspecies 294

Taxa Below Subspecies 297

Conservation Units and Adaptation 299

Genetic Diversity 300

Genetic Diversity and Evolutionary Potential 301

Transcriptomics and Epigenetics 303

Genetic Diversity and Inbreeding 307

Inbreeding Depression 310

Purging and Balancing Selection 312

Measuring and Inferring Inbreeding Depression 315

Genetic Differentiation and Genetic Rescue 317

Outbreeding Depression 320

Reintroductions 321

Hybridization 324

Community Genetics 326

Overview 330

Chapter Summary 330

References 331

Glossary 343

Index 359

Molecular Ecology

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    A Paperback / softback by Joanna R. Freeland

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      View other formats and editions of Molecular Ecology by Joanna R. Freeland

      Publisher: John Wiley & Sons Inc
      Publication Date: 02/01/2020
      ISBN13: 9781119426158, 978-1119426158
      ISBN10: 1119426154

      Description

      Book Synopsis

      A fully updated guide to the increasingly prevalent use of molecular data in ecological studies

      Molecular ecology is concerned with how molecular biology and population genetics may help us to better understand aspects of ecology and evolution including local adaptation, dispersal across landscapes, phylogeography, behavioral ecology, and conservation biology. As the technology driving genetic science has advanced, so too has this fast-moving and innovative discipline, providing important insights into virtually all taxonomic groups. This third edition of Molecular Ecology takes account of the breakthroughs achieved in recent years to give readers a thorough and up-to-date account of the field as it is today.

      New topics covered in this book include next-generation sequencing, metabarcoding, environmental DNA (eDNA) assays, and epigenetics. As one of molecular ecology's leading figures, author Joanna Freeland also provides those new to the area with a ful

      Table of Contents

      About the Companion Website Page xiii

      1 Molecular Genetics in Ecology 1

      What is Molecular Ecology? 1

      DNA, RNA, and Protein 2

      Allozymes 5

      DNA: An Unlimited Source of Data 7

      Mutation and Recombination 8

      Epigenetic Marks 10

      Genomes 12

      Mitochondrial DNA (mtDNA) 13

      Chloroplast DNA (cpDNA) 13

      Haploid Chromosomes 16

      Polymerase Chain Reaction 16

      Quantitative PCR 19

      Sources of DNA 21

      Getting Data from PCR 22

      Fragment Sizes 22

      DNA Sequencing 25

      High Throughput Sequencing 26

      Overview 28

      Chapter Summary 29

      References 29

      2 Molecular Markers in Ecology 35

      Understanding Molecular Markers 35

      Neutral Versus Adaptive Markers 35

      Genomes 36

      Animal Mitochondrial DNA (mtDNA) 36

      Plant Mitochondrial DNA (mtDNA) 39

      Chloroplast DNA (cpDNA) 39

      Haploid Chromosomes 42

      Uniparental Markers: Some Final Considerations 43

      Molecular Markers 44

      Early Developments in Molecular Markers 45

      Allozymes 46

      PCR‐RFLPs 46

      Random Amplified Polymorphic DNA (RAPDs) 47

      Inter Simple Sequence Repeats (ISSRs) 48

      Amplified Length Fragment Polymorphisms (AFLPs) 49

      Modified AFLPs: Methylation‐Sensitive Amplified Polymorphisms (MSAPs) 50

      Microsatellites 51

      DNA Sequencing 56

      Sequencing a Single Region of DNA 56

      Single Nucleotide Polymorphisms (SNPs) 59

      High Throughput Sequencing (HTS) 61

      RAD Sequencing 62

      Genotyping‐by‐Sequencing (GBS) 63

      Targeted Sequence Capture 63

      Whole‐Genome Sequencing 64

      Overview 65

      Chapter Summary 65

      References 66

      3 Species 71

      Species Concepts 71

      DNA Barcoding 73

      Barcoding Applications 76

      Barcoding Limitations 79

      Metabarcoding 81

      Metagenomics 84

      Barcoding and Metabarcoding Environmental DNA (eDNA) 87

      Overview 91

      Chapter Summary 91

      References 92

      4 Phylogeography 101

      What is Phylogeography? 101

      The Evolution of Phylogeographic Data Sets 102

      Molecular Clocks 104

      Bifurcating Trees 109

      The Coalescent 115

      Networks 117

      Model‐Based Phylogeographic Inference 120

      Long‐Term Climatic Fluctuations 121

      Glacial–Interglacial Cycles 121

      Marine Refugia 123

      Far‐Reaching Effects of Glaciation 125

      Dispersal and Vicariance 125

      Lineage Sorting 127

      Hybridization 130

      Applied Phylogeography: Biological Invasions 133

      Overview 136

      Chapter Summary 136

      References 137

      5 Genetic Analysis of Single Populations 149

      Why Study Single Populations? 149

      What is a Population? 149

      Quantifying Genetic Diversity 151

      Hardy–Weinberg Equilibrium 152

      Estimates of Genetic Diversity 157

      Haploid Diversity 160

      Choice of Marker and Genome 162

      What Influences Genetic Diversity? 163

      Genetic Drift 163

      What is Effective Population Size? 164

      Census Population Size (Nc) 165

      Effective Number of Breeders (Nb) 165

      Estimating Ne from Demographic Data 165

      Estimating Ne from Genetic Data 166

      Estimating Ne: A Cautionary Note 170

      Ne, Genetic Drift, and Genetic Diversity 173

      Population Bottlenecks and Founder Effects 174

      Population Size and Decline 176

      Natural Selection 178

      Reproduction 180

      Inbreeding 182

      Ecology and Life History 186

      Overview 188

      Chapter Summary 188

      References 189

      6 Dispersal, Gene Flow, and Landscape Genetics 197

      Why Study Multiple Populations? 197

      What is Gene Flow? 197

      Why Do We Want to Quantify Gene Flow? 199

      Quantifying Gene Flow Among Discrete Populations 200

      F‐Statistics 201

      Assignment Tests 204

      Relatedness and Parentage Analysis 206

      Non‐a Priori Identification of Populations 207

      Landscape Genetics and Genomics 209

      Data Analysis in Landscape Genetics 214

      Isolation by Distance 216

      Isolation by Resistance 217

      Genotype–Environment Associations 218

      Contemporary Versus Historical Influences on Gene Flow 221

      Population Differentiation: Gene Flow, Genetic Drift, and Natural Selection 223

      Gene Flow and Genetic Drift 223

      Local Adaptation and Gene Flow 223

      Drift Versus Selection 225

      QST and FST 226

      Overview 228

      Chapter Summary 228

      References 229

      7 Behavioral Ecology 237

      How Do Genetic Data Help Us Understand Behavior? 237

      Mating Systems 238

      Monogamy 239

      Polygamy 239

      Parentage Analysis 241

      Extra‐Pair Fertilizations 244

      EPFs and Male Fitness 244

      EPFs from the Female Perspective: Adaptive Explanations 245

      EPFs from the Female Perspective: Non‐adaptive Explanations 247

      Social Breeding 252

      Cooperative Breeding – Indirect Benefits 253

      Cooperative Breeding – Direct Benefits 257

      Eusociality 257

      Sex‐Biased Dispersal 260

      Sex‐Biased Dispersal: Population‐Level Analyses 262

      Male Versus Female Genetic Differentiation 262

      Markers with Different Modes of Inheritance 263

      Relatedness 264

      Sex‐Biased Dispersal: Individual‐Level Analyses 266

      Assignment Indices 266

      Spatial Autocorrelation 268

      Parentage Analysis 268

      Concordant Results 270

      Foraging Ecology 271

      Overview 276

      Chapter Summary 276

      References 277

      8 Conservation Genetics 289

      Taxonomy 292

      Subspecies 294

      Taxa Below Subspecies 297

      Conservation Units and Adaptation 299

      Genetic Diversity 300

      Genetic Diversity and Evolutionary Potential 301

      Transcriptomics and Epigenetics 303

      Genetic Diversity and Inbreeding 307

      Inbreeding Depression 310

      Purging and Balancing Selection 312

      Measuring and Inferring Inbreeding Depression 315

      Genetic Differentiation and Genetic Rescue 317

      Outbreeding Depression 320

      Reintroductions 321

      Hybridization 324

      Community Genetics 326

      Overview 330

      Chapter Summary 330

      References 331

      Glossary 343

      Index 359

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