Description

Book Synopsis
Population Genetics and Microevolutionary Theory Explore the fundamentals of the biological implications ofpopulation genetic theoryIn the newly revised Second Edition of Population Genetics and Microevolutionary Theory, accomplished researcher and author Alan R. Templeton delivers a fulsome discussion of population genetics with coverage of exciting new developments in the field, including new discoveries in epigenetics and genome-wide studies. The book prepares students to successfully apply population genetics analytical tools by providing a solid foundation in microevolutionary theory. The book emphasizes that population structure forms the underlying template upon which quantitative genetics and natural selection operate and is a must-read for future population and evolutionary geneticists and those who wish to work in genetic epidemiology or conservation biology. You'll learn about a wide array of topics, including quantitative genetics, the interactions of natural selection with other evolutionary forces, and selection in heterogeneous environments and age-structured populations. Appendices that cover genetic survey techniques and probability and statistics conclude the book. Readers will also benefit from the inclusion of:A thorough introduction to population genetics, including the scope of the subject, its premises, and the Hardy-Weinberg Model of MicroevolutionAn exploration of systems of mating, including a treatment of the use of runs of homozygosity to show pedigree inbreeding in distant ancestorsA practical discussion of genetic drift, including the use of effective sizes in conservation biology (with a discussion of African rhinos as an example)A concise examination of coalescence, including a treatment of the infinite sites modelPerfect for graduate students in genetics and evolutionary biology programs and advanced undergraduate biology majors, Population Genetics and Microevolutionary Theory will also earn a place in the libraries of students taking courses in conservation biology, human genetics, bioinformatics, and genomics.

Table of Contents

Preface to the 2nd Edition ix

Chapter 1. The Scope and Basic Premises of Population Genetics 1-1

Basic Premises of Population Genetics 1-1

Population Genomics1-12

Section 1: Population Structure and History

Chapter 2. Modeling Evolution and the Hardy-Weinberg Law 2-1

How to Model Microevolution 2-1

The Hardy-Weinberg Model 2-4

Hardy-Weinberg for Two Loci2-19

Chapter 3. Systems of Mating 3-1

Inbreeding 3-1

Assortative Mating3-25

Disassortative Mating3-45

Chapter 4. Genetic Drift 4-1

Basic Evolutionary Properties of Genetic Drift 4-2

Founder and Bottleneck Effects 4-7

Genetic Drift and Disequilibrium4-11

Genetic Drfit, Disequilibrium, and System of Mating4-13

Effective Population Size4-18

Chapter 5. Genetic Drift in Large Populations and Coalescence 5-1

Newly Arisen Mutations 5-1

Neutral Alleles 5-3

The Coalescent5-22

Chapter 6. Gene Flow and Population Subdivision 6-1

Gene Flow Between Two Local Populations 6-1

The Balance of Gene Flow and Drift 6-6

An Example of the Balance of Drift and Gene Flow6-27

Factors Influencing The Amount and Patter of Gene Flow6-42

Total Effective Population Size in Subdivided Populations6-62

Multiple Modes of Inheritance and Population Structure6-71

Admixture6-76

Identifying Subpopulations and Population Structure6-81

A Final Warning6-96

Chapter 7. Population History 7-1

Inferring Historical Effective Population Sizes 7-6

Inferring Historical Gene Flow Patterns and Admixture 7-11

Using Haplotype Trees to Study Population History 7-19

Model Based Approaches to Phylogeographic Analysis 7-56

Direct Studies Over Space and Past Times 7-70

Historical Population Genetics and Macroevolution 7-75

Section 2: Genotype and Phenotype

Chapter 8. Basic Quantitative Genetic Definitions and Theory 8-1

“Simple” Mendelian Phenotypes 8-2

Nature Versus Nurture? 8-7

The Fisherian Model of Quantitative Genetics8-13

Chapter 9. Quantitative Genetics: Unmeasured Genotypes 9-1

Correlation Between Relatives 9-2

The Distinction Between Heritability and Inheritance9-17

Response to Selection9-19

The Problem of Between-Population Differences in Mean

Phenotype 9-21

Controlled Crosses for the Analysis of Between Population

Differences 9-30

The Balance Between Mutation, Drift, and Gene Flow Upon

Phenotypic Variance 9-36

Chapter 10. Quantitative Genetics: Measured Genotypes 10-1

Marker Association Studies 10-5

Candidate Loci10-35

Candidate Loci and Genetic Architecture10-51

Section 3: Natural Selection and Adaptation

Chapter 11. Natural Selection 11-1

The Fundamental Equation of Natural Selection: Measured

Genotypes 11-4

Sickle-Cell Anemia as an Example of Natural Selection 11-10

Adaptation as a Polygenic Process 11-24

The Fundamental Theorem of Natural Selection: Unmeasured

Genotypes 11-29

Some Implications of the Fundamental Equations of Natural

Selection 11-33

The Course of Adaptation and Natural Selection 11-47

Chapter 12. Interactions of Natural Selection with Other Evolutionary Forces

and the Detection of Natural Selection 12-1

The Interaction of Natural Selection with Mutation 12-3

The Interaction of Natural Selection with Mutation and System of

Mating 12-8

The Interaction of Natural Selection with Gene Flow 12-12

The Interaction of Natural Selection with Genetic Drift 12-21

The Interactions of Natural Selection, Genetic Drift, and

Gene Flow 12-28

The Interactions of Natural Selection, Genetic Drift, and Mutation 12-45

The Interactions of Natural Selection, Genetic Drift, Mutation, and

Recombination 12-65

Candidate Loci 12-71

Quantitative Genetic Approaches to Detecting Selection 12-75

The Neutralist/Selectionist Debate 12-80

Chapter 13. Units and Targets of Selection 13-1

The Unit of Selection 13-4

Targets of Selection Below the Level of the Individual 13-18

Targets of Selection Above the Level of the Individual 13-51

Chapter 14. Selection in Heterogeneous Environments 14-1

Coarse-Grained Spatial Heterogeneity 14-4

Coarse-Grained Temporal Heterogeneity 14-34

Fine-Grained Heterogeneity 14-56

Coevolution 14-74

Chapter 15. Selection in Age-Structured Populations 15-1

Life History and Fitness 15-3

The Evolution of Senescence 15-13

Abnormal Abdomen: An Example of Selection in an

Age-Structured Population 15-24

Overview 15-63

Appendices

Appendix 1. Genetic Survey Techniques A1-1

Appendix 2. Probability and Statistics A2-1

References R-1

Index

Population Genetics and Microevolutionary Theory

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      View other formats and editions of Population Genetics and Microevolutionary Theory by Alan R. Templeton

      Publisher: John Wiley and Sons Ltd
      Publication Date: Publication Date: 03/06/2021
      ISBN13: 9781118504239, 978-1118504239
      ISBN10: 1118504232

      Description

      Book Synopsis
      Population Genetics and Microevolutionary Theory Explore the fundamentals of the biological implications ofpopulation genetic theoryIn the newly revised Second Edition of Population Genetics and Microevolutionary Theory, accomplished researcher and author Alan R. Templeton delivers a fulsome discussion of population genetics with coverage of exciting new developments in the field, including new discoveries in epigenetics and genome-wide studies. The book prepares students to successfully apply population genetics analytical tools by providing a solid foundation in microevolutionary theory. The book emphasizes that population structure forms the underlying template upon which quantitative genetics and natural selection operate and is a must-read for future population and evolutionary geneticists and those who wish to work in genetic epidemiology or conservation biology. You'll learn about a wide array of topics, including quantitative genetics, the interactions of natural selection with other evolutionary forces, and selection in heterogeneous environments and age-structured populations. Appendices that cover genetic survey techniques and probability and statistics conclude the book. Readers will also benefit from the inclusion of:A thorough introduction to population genetics, including the scope of the subject, its premises, and the Hardy-Weinberg Model of MicroevolutionAn exploration of systems of mating, including a treatment of the use of runs of homozygosity to show pedigree inbreeding in distant ancestorsA practical discussion of genetic drift, including the use of effective sizes in conservation biology (with a discussion of African rhinos as an example)A concise examination of coalescence, including a treatment of the infinite sites modelPerfect for graduate students in genetics and evolutionary biology programs and advanced undergraduate biology majors, Population Genetics and Microevolutionary Theory will also earn a place in the libraries of students taking courses in conservation biology, human genetics, bioinformatics, and genomics.

      Table of Contents

      Preface to the 2nd Edition ix

      Chapter 1. The Scope and Basic Premises of Population Genetics 1-1

      Basic Premises of Population Genetics 1-1

      Population Genomics1-12

      Section 1: Population Structure and History

      Chapter 2. Modeling Evolution and the Hardy-Weinberg Law 2-1

      How to Model Microevolution 2-1

      The Hardy-Weinberg Model 2-4

      Hardy-Weinberg for Two Loci2-19

      Chapter 3. Systems of Mating 3-1

      Inbreeding 3-1

      Assortative Mating3-25

      Disassortative Mating3-45

      Chapter 4. Genetic Drift 4-1

      Basic Evolutionary Properties of Genetic Drift 4-2

      Founder and Bottleneck Effects 4-7

      Genetic Drift and Disequilibrium4-11

      Genetic Drfit, Disequilibrium, and System of Mating4-13

      Effective Population Size4-18

      Chapter 5. Genetic Drift in Large Populations and Coalescence 5-1

      Newly Arisen Mutations 5-1

      Neutral Alleles 5-3

      The Coalescent5-22

      Chapter 6. Gene Flow and Population Subdivision 6-1

      Gene Flow Between Two Local Populations 6-1

      The Balance of Gene Flow and Drift 6-6

      An Example of the Balance of Drift and Gene Flow6-27

      Factors Influencing The Amount and Patter of Gene Flow6-42

      Total Effective Population Size in Subdivided Populations6-62

      Multiple Modes of Inheritance and Population Structure6-71

      Admixture6-76

      Identifying Subpopulations and Population Structure6-81

      A Final Warning6-96

      Chapter 7. Population History 7-1

      Inferring Historical Effective Population Sizes 7-6

      Inferring Historical Gene Flow Patterns and Admixture 7-11

      Using Haplotype Trees to Study Population History 7-19

      Model Based Approaches to Phylogeographic Analysis 7-56

      Direct Studies Over Space and Past Times 7-70

      Historical Population Genetics and Macroevolution 7-75

      Section 2: Genotype and Phenotype

      Chapter 8. Basic Quantitative Genetic Definitions and Theory 8-1

      “Simple” Mendelian Phenotypes 8-2

      Nature Versus Nurture? 8-7

      The Fisherian Model of Quantitative Genetics8-13

      Chapter 9. Quantitative Genetics: Unmeasured Genotypes 9-1

      Correlation Between Relatives 9-2

      The Distinction Between Heritability and Inheritance9-17

      Response to Selection9-19

      The Problem of Between-Population Differences in Mean

      Phenotype 9-21

      Controlled Crosses for the Analysis of Between Population

      Differences 9-30

      The Balance Between Mutation, Drift, and Gene Flow Upon

      Phenotypic Variance 9-36

      Chapter 10. Quantitative Genetics: Measured Genotypes 10-1

      Marker Association Studies 10-5

      Candidate Loci10-35

      Candidate Loci and Genetic Architecture10-51

      Section 3: Natural Selection and Adaptation

      Chapter 11. Natural Selection 11-1

      The Fundamental Equation of Natural Selection: Measured

      Genotypes 11-4

      Sickle-Cell Anemia as an Example of Natural Selection 11-10

      Adaptation as a Polygenic Process 11-24

      The Fundamental Theorem of Natural Selection: Unmeasured

      Genotypes 11-29

      Some Implications of the Fundamental Equations of Natural

      Selection 11-33

      The Course of Adaptation and Natural Selection 11-47

      Chapter 12. Interactions of Natural Selection with Other Evolutionary Forces

      and the Detection of Natural Selection 12-1

      The Interaction of Natural Selection with Mutation 12-3

      The Interaction of Natural Selection with Mutation and System of

      Mating 12-8

      The Interaction of Natural Selection with Gene Flow 12-12

      The Interaction of Natural Selection with Genetic Drift 12-21

      The Interactions of Natural Selection, Genetic Drift, and

      Gene Flow 12-28

      The Interactions of Natural Selection, Genetic Drift, and Mutation 12-45

      The Interactions of Natural Selection, Genetic Drift, Mutation, and

      Recombination 12-65

      Candidate Loci 12-71

      Quantitative Genetic Approaches to Detecting Selection 12-75

      The Neutralist/Selectionist Debate 12-80

      Chapter 13. Units and Targets of Selection 13-1

      The Unit of Selection 13-4

      Targets of Selection Below the Level of the Individual 13-18

      Targets of Selection Above the Level of the Individual 13-51

      Chapter 14. Selection in Heterogeneous Environments 14-1

      Coarse-Grained Spatial Heterogeneity 14-4

      Coarse-Grained Temporal Heterogeneity 14-34

      Fine-Grained Heterogeneity 14-56

      Coevolution 14-74

      Chapter 15. Selection in Age-Structured Populations 15-1

      Life History and Fitness 15-3

      The Evolution of Senescence 15-13

      Abnormal Abdomen: An Example of Selection in an

      Age-Structured Population 15-24

      Overview 15-63

      Appendices

      Appendix 1. Genetic Survey Techniques A1-1

      Appendix 2. Probability and Statistics A2-1

      References R-1

      Index

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