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Evolution as Genetic Change in Populations. Learning Objectives  Explain how natural selection affects single-gene and polygenic traits.  Describe genetic.

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Presentation on theme: "Evolution as Genetic Change in Populations. Learning Objectives  Explain how natural selection affects single-gene and polygenic traits.  Describe genetic."— Presentation transcript:

1 Evolution as Genetic Change in Populations

2 Learning Objectives  Explain how natural selection affects single-gene and polygenic traits.  Describe genetic drift.  Explain how different factors affect genetic equilibrium.

3 How Natural Selection Works An is any genetically controlled trait that increases an individual’s fitness. evolutionary adaptation

4 Natural Selection on Single-Gene Traits Natural selection on single-gene traits can produce changes in allele frequencies that may be reflected by simple changes in phenotype frequencies.

5 Natural Selection on Polygenic Traits Natural selection on polygenic traits can produce three types of selection: directional selection stabilizing selection disruptive selection

6 Directional Selection Individuals at one end of the curve have higher fitness than individuals in the middle or at the other end.

7 Stabilizing Selection Individuals near the center of the curve have higher fitness than individuals at either end.

8 Disruptive Selection Phenotypes at the upper and lower ends of the curve have higher fitness than individuals near the middle.

9 Genetic Drift Genetic drift is a random change in allele frequency. Genetic bottlenecks The founder effect Founding populations Descendants

10 Evolution Versus Genetic Equilibrium If a population is not evolving, the population is in genetic equilibrium. Sexual reproduction Hardy – Weinberg principle

11 If p = 0.40 and q = 0.60: Probability of genotype aa: If p = 0.40 and q = 0.60: Probability of genotype aa: If p = 0.40 and q = 0.60: Probability of genotype Aa: If p = 0.40 and q = 0.60: Probability of genotype Aa: If p = 0.40 and q = 0.60: Probability of genotype AA: Hardy–Weinberg Principle and In words, this is stated: (frequency of AA) + (frequency of Aa) + (frequency of aa) = 100% and (frequency of A) + (frequency of a) = 100% 16%36% 48%

12 Hardy–Weinberg Principle Nonrandom mating Small population size Gene flow from immigration or emigration Mutations Natural selection

13 Student Worksheet Answers

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