| Preface vii Introduction xvii Historical Background Biometricians, Saltationists and Mendelians The Hardy-Weinberg Law The Correlation Between Relatives Evolution The Deterministic Theory Non-Random-Mating Populations The Stochastic Theory Evolved Genetic Phenomena Modelling Overall Evolutionary Theories Technicalities and Generalizations Introduction Random Union of Gametes Dioecious Populations Multiple Alleles Frequency-Dependent Selection Fertility Selection Continuous-Time Models Non-Random-Mating Populations The Fundamental Theorem of Natural Selection Two Loci Genetic Loads Finite Markov Chains Discrete Stochastic Models Introduction Wright-Fisher Model: Two Alleles The Cannings(Exchangeable)Model: Two Alleles Moran Models: Two Alleles K-Allele Wright-Fisher Models Infinitely Many Alleles Models Introduction The Wright-Fisher Infinitely Many Alleles Model The Cannings Infinitely Many Alleles Model The Moran Infinitely Many Alleles Model The Effective Population Size Frequency-Dependent Selection Two Loci Diffusion Theory Introduction The Forward and Backward Kolmogorov Equations Fixation Probabilities Absorption Time Properties The Stationary Distribution Conditional Processes Diffusion Theory Multi-dimensional Processes Time Reversibility Expectations of Functions of Diffusion Variables Applications of Diffusion Theory Introduction No Selection or Mutation Selection Selection: Absorption Time Properties One-Way Mutation Two-Way Mutation Diffusion Approximations and Boundary Conditions Random Environments Time-Reversal and Age Properties Multi-Allele Diffusion Processes Two Loci Many Loci Further Considerations Molecular Population Genetics: Introduction Looking Backward in Time: The Coalescent Looking Backward: Testing the Neutral Theory Looking Backward in Time: Population and Species Comparisons Appendix A: Eigenvalue Calculations Appendix B: Significance Levels for F Appendix C: Means and Variances of F References Author Index Subject Index |
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