Principles of Population GeneticsDarwinian evolution in mendelian populations. Random genetic drift. Mutation and the neutral theory. Natural selection. Inbreeding and other forms of nonrandom mating. Population subdivision and migration. Molecular population genetics. Evolutionary genetics of quantitative characters. Ecological genetics and speciation. |
Contents
Mathematical Models in Population | xi |
CHAPTER | 61 |
CHAPTER FOUR | 147 |
Copyright | |
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Aa aa Acad allele frequency allozyme amino acid average Biol cell chromosome components correlation covariance demes distribution divergence DNA sequences dominant Drosophila melanogaster effects environment enzyme Equation equilibrium estimated Evol evolution evolutionary example expected F₁ fecundity females Figure fixation gametes genetic variation genome genotype frequencies genotypes AA haploid Hardy-Weinberg heritability heterozygotes heterozygous homozygotes homozygous human hybrid identical by descent inbreeding coefficient increase individuals lethal linkage disequilibrium loci locus males mean fitness meiotic drive melanic migration mimicry molecular mutation rate Natl natural populations natural selection neutral nucleotide nucleotide substitution number of genes observed occur offspring overdominance p₁ parameters phenotypic plants pleiotropy polymorphism population genetics probability Proc proportion protein quantitative genetics quantitative traits random genetic drift random mating recessive recombination reproductive isolation result sample sex ratio shows speciation species subpopulations theory tion types variance viability zygotes