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Evolution: Part 1 The driver of the diversity and unity of life.

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Presentation on theme: "Evolution: Part 1 The driver of the diversity and unity of life."— Presentation transcript:

1 Evolution: Part 1 The driver of the diversity and unity of life

2 Lamarck vs. Darwin Theory of Use and Disuse Acquired Transmission Increasing Complexity No Extinction Heritability Selective Pressure

3 Lamarck vs. Darwin Theory of Use and Disuse Acquired Transmission Increasing Complexity No Extinction Heritability Selective Pressure Theory of Natural Selection Variations Extinction (or Species Creation) Heritability Selective Pressure

4 _______________ do not evolve, ________________ evolve. Individuals Populations

5 Evidence for Evolution  Scientific observation and documentation  Homology  Fossil Record  Biogeography

6 Homology

7 Homologous Structures

8 Analogous Structures

9 Homologous Anatomical similarity, possibly different function Occurs because of evolution and inheritance Analogous Little to no anatomical similarity, similar function of structures Occurs because of convergent evolution

10 Vestigial Structures

11 Structures that were once useful to an ancestor but have lost their usefulness and have decreased in size over many generations

12 Biogeography  https://youtu.be/cC8k2Sb1oQ8?t=2m53s https://youtu.be/cC8k2Sb1oQ8?t=2m53s

13 Can evolution occur if a population is operating under the Hardy-Weinberg principle?

14 Hardy-Weinberg Principle  The frequency of alleles and genotypes in a population will remain constant from generation to generation.

15 5 Conditions for Hardy-Weinberg 1. No mutations 2. Random mating 3. No natural selection 4. Extremely large population size 5. No gene flow

16 Evolution: Part 2 Hardy Weinberg continued, changes in allele frequencies

17 Hardy Weinberg warm-up  A very large population of randomly-mating laboratory mice contains 35% white mice. White coloring is caused by the double recessive genotype, "aa". Calculate allelic and genotypic frequencies for this population.

18 Changes in Allelic Frequencies Genetic Drift Natural Selection Gene Flow

19 Genetic Drift Activity  http://www.biology.arizona.edu/evolution/ act/drift/frame.html

20 Why is having a large population beneficial in terms of allele fixation?

21 Why is allele fixation usually detrimental evolutionarily?

22 Changes in Allelic Frequencies Genetic Drift Founder effect Bottleneck effect Natural Selection Gene Flow

23 Genetic Drift – Founder Effect  Sudden isolation of a small population from a larger population in which the smaller population establishes a new population.  Would the smaller population look the same as the larger population 500 generations down the line?

24 Genetic Drift – Bottleneck Effect  A severe drop in population size due to a sudden change in the environment  Does natural selection play a role in this?

25 Changes in Allelic Frequencies Genetic Drift Natural Selection Gene Flow

26 Natural Selection  https://www.youtube.com/watch?v=sjeSEngKGrg&feature=youtu.be https://www.youtube.com/watch?v=sjeSEngKGrg&feature=youtu.be

27 Changes in Allelic Frequencies Genetic Drift Natural Selection Directional Disruptive Stabilizing Gene Flow

28 DirectionalStabilizing Disruptive

29 What type of selection occurred in the pocket mice?

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