An Introduction to Population Genetics Theory |
Contents
INTRODUCTION | 1 |
RANDOMLY MATING POPULATIONS | 31 |
INBREEDING | 61 |
Copyright | |
15 other sections not shown
Other editions - View all
Common terms and phrases
A₁ A₂ allele frequencies approximately assortative mating assume average fitness Biol chromosome consanguinity consider constant correlation decrease derived deviation diploid distribution dominance dominance variance effective number effective population number epistasis epistatic equal equation equilibrium evolution example expected females Figure finite population Fisher fixation formula fraction gene frequency gene frequency change genic variance genotype frequencies given Haldane Hardy-Weinberg Hardy-Weinberg principle heterozygotes heterozygous homozygotes homozygous inbred inbreeding coefficient inbreeding effective increase individual Kimura lethal linkage load loci males Malthusian parameters matrix mean measured multiple alleles mutant gene mutation rate N₁ natural selection number of alleles obtain overdominance P₁ parent phenotype polymorphism population genetics probability progeny proportion quantity r₁ random mating random-mating rate of change ratio recessive gene recombination Section self-fertilization sexes single locus subpopulation Substituting Table tion trait V₁ variability Wright zygote