ISBN : 9780198830870
This is the second volume in a planned trilogy that summarises the modern field of quantitative genetics, informed by empirical observations from wide-ranging fields (agriculture, evolution, ecology, and human biology) as well as population genetics, statistical theory, mathematical modeling, genetics, and genomics.
Preface
I
Introduction
1 Changes in quantitative traits over time
II
Evolution at one and two loci
2 Neutral evolution in one- and two-locus systems
3 The genetic effective size of a population
4 The nonadaptive forces of evolution
5 The population genetics of selection
6 Theorems of natural selection: Results of Price, Fisher, and Robertson
7 Interaction of selection, mutation, and drift
8 Hitchhiking and selective sweeps
9 Using molecular data to detect selection: Signatures from recent single events
10 Using molecular data to detect selection: Signatures from multiple historical events
III
Drift and quantitative traits
11 Changes in genetic variance induced by drift
12 The neutral divergence of quantitative traits
IV
Short-term response on a single character
13 Short-term changes in the mean: 1. The breeder's equation
14 Short-term changes in the mean: 2. Truncation and threshold selection
15 Short-term changes in the mean: 3. Permanent versus transient response
16 Short-term changes in the variance: 1. Changes in the additive variance
17 Short-term changes in the variance: 2. Changes in environmental variance
18 Analysis of short-term selection experiments: 1. Least-squares approaches
19 Analysis of short-term selection experiments: 2. Mixed-model and bayesian approaches
20 Selection response in natural populations
V
Selection in structured populations
21 Family-based selection
22 Associative effects: Competition, social interactions, group and kin selection
23 Selection under inbreeding
VI
Population-genetic models of trait response
24 The infinitesimal model and its extensions
25 Long-term response: 1. Deterministic aspects
26 Long-term response: 2. Finite population size and mutation
27 Long-term response: 3. Adaptive walks
28 Maintenance of quantitative genetic variation
VII
Measuring selection on traits
29 Individual fitness and the measurement of univariate selecton
30 Measuring multivariate selection
VIII
Appendices
A1 Diffusion theory
A2 Introduction to Bayesian Analysis
A3 Markov Chain Monte Carlo and Gibbs sampling
A4 Multiple comparisons: Bonferroni corrections, false-discovery rates, and meta-analysis
A5 The geometry of vectors and matrices: Eigenvalues and eigenvectors
A6 Derivatives of vectors and vector-valued functions
Literature Cited
Author Index
Organism and Trait Index
Subject Index
