Determine whether evolution occurs by mechanisms other than selection.

1. Objectives • Determine whether evolution occurs by mechanisms other than selection. • Compare and contrast population outcomes resulting from selection versus random events.

2. Can evolution occur by mechanisms other than selection? Genetic drift; Gene flow. Campbell, Chapter 23, pp.475-485

3. Plant Scenario 1: Initial Population

4. Late Spring Freeze

5. Late Spring Freeze Who dies? . . .and therefore, does not reproduce.....

6. Clicker Q1 Consequence of Late Spring Freeze?

7. Survivors

8. Survivors Reproduce  All Blue Population

9. Plant Scenario 1: Genetic Drift • Change in allele frequencies in a population over time due to random (stochastic) events in environment

10. Plant Scenario 2: Initial Population Q: What ifblue was better able to survive the effects of a spring freeze?

11. LATE SPRING FREEZE Q: What ifblue was better able to survive the effects of a spring freeze?

12. LATE SPRING FREEZE Q: What ifblue was better able to survive the effects of a spring freeze? Who dies? . . .and therefore, does not reproduce...

13. Late Spring Freeze Q: What ifblue was better able to survive the effects of a spring freeze? Who dies? . . .and therefore, does not reproduce

14. Survivors

15. Survivors Reproduce The outcome is: All Blue Population. Same end result as Scenario 1. Is the mechanism the same?

16. Plant Scenario 3: Initial Population A squirrel drops a seed from a fruit it found across the road.

17. Immigration: “new” alleles are introduced into the population by interbreeding

18. What happens over time. . .

19. Gene Flow • Physical movement of alleles into or out of a population by immigration/emigration.

20. Summary: Mechanisms of Evolution • Selection (natural, sexual, artificial) • Genetic Drift (random events in environment) • Gene Flow (immigration/emigration)

21. Scales of Evolution Microevolution Macroevolution Small scale changes in allele frequencies Variability in population traits Large-scale changes Origin of new species

22. What is a species? • In your group, write down a definition of species.

23. What is a species? • Biological Species Concept: • Population of organisms capable of interbreeding AND producing viable and fertile offspring • Can you think of any exceptions to this definition? Campbell, Chapter 24, pp. 487-492

24. Could speciation happen here?

25. A road is built that prevents pollen exchange.

26. Resulting subpopulations can’t interbreed due to barrier

27. Divergence

28. Divergence • Accumulation of genetic change over time (due to drift, flow, different selective agents, random mutations)

29. can no longer interbreed with If then the 2 subpopulations have achieved reproductive isolation  new species!

30. Reminder: Scales of Evolution Microevolution Macroevolution Small scale changes in allele frequencies Variability in population traits Large-scale changes Origin of new species

31. Speciation • Origination of new species resulting from reproductive isolation of populations that have diverged