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Evolution as Genetic Change

Evolution as Genetic Change . Section 16–2 . Evolution as Genetic Change.

Samuel
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Evolution as Genetic Change

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  1. Evolution as Genetic Change Section 16–2

  2. Evolution as Genetic Change • This section explains how natural selection affects different types of traits. It also describes how populations can change genetically by chance as well as the conditions that prevent populations from changing genetically.

  3. Natural Selection on Single -Gene Traits • Is the following sentence true or false? • Natural selection on single-gene traits cannot lead to changes in allele frequencies. FALSE

  4. Evolution as Genetic Change • If a trait made an organism less likely to survive and reproduce, what would happen to the allele for that trait. • Fewer copies of the allele would pass to future generations, and the allele could even disappear from the gene pool completely.

  5. Evolution as Genetic Change • If a trait had no effect on an organism’s fitness, what would happen to the allele for that trait? • The allele would not be under pressure from natural selection, and its frequency might increase, decrease, or remain the same.

  6. Natural Selection on Polygenic Traits • List the three ways that natural selection can affect the distributions of phenotypes. • Directional selection • Disruptive selection • Stabilizing selection

  7. Match the type of selection with the situation in which it occurs. • Directional - Individuals at one end of the curve have higher fitness than individuals in the middle or at the other end. • Stabilizing - Individuals near the center of the curve have higher fitness than individuals at either end. • Disruptive - Individuals at the upper and lower ends of the curve have higher fitness than individuals near the middle.

  8. Evolution as Genetic Change • An increase in the average size of beaks in Galápagos finches is an example of __ selection. • directional

  9. Natural Selection • Is the following sentence true or false? • The weight of human infants at birth is under the influence of disruptive selection. • FALSE

  10. Draw the missing graph to show how disruptive selection affects beak size. • Genetic Drift

  11. Natural Selection • Is the following sentence true or false? Natural selection is the only source of evolutionary change. • FALSE

  12. Natural Selection • Random change in allele frequencies in small populations is called ____. • genetic drift

  13. Evolution as Genetic Change • A situation in which allele frequencies change as a result of the migration of a small subgroup of a population is known as the _____. • founder effect

  14. Evolution as Genetic Change • What is an example of the founder effect? • An example is the evolution of fruit flies on different Hawaiian islands.

  15. Evolution Versus Genetic Equilibrium • What does the Hardy-Weinberg principle state? • Allele frequencies in populations willremain constant unless one or more factors cause them to change.

  16. Evolution as Genetic Change • The situation in which allele frequencies remain constant is called ______. • genetic equilibrium

  17. Evolution as Genetic Change • List the five conditions required to maintain genetic equilibrium. • a. Random mating • d. No mutations • b. Very large population • e. No natural selection • c. No movement into or out of the population

  18. Evolution as Genetic Change Why is large population size important in maintaining genetic equilibrium? • Genetic drift has less effect on large populations.

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