1. Topic 2: Intro to Evolution by Natural Selection

2. Important vocabulary: Hypothesis Theory Adaptation Evolution Microevolution Macroevolution Explanation based on observations Summarizes a hypothesis or hypotheses that have been supported with repeated testing. Valid until disproven. Inherited trait that helps an organism survive. Living species are descendants of ancestral species that were different from present day; “descent with modification” Change in allele frequencies in a population. Speciation; often described as patterns over geologic time scales.

3. B.D. (before Charles Darwin) Earth is very old, still changing All organisms may be related by common ancestry Extinctions have occurred Thomas Malthus…populations Lamarck

4. Lamarckian evolution: main ideas Organisms arise spontaneously in simple forms “Use and disuse” “Inheritance of acquired characteristics”

5. Voyage of the Beagle: 1831-1836

6. Fossils in South America

7. Galapagos Islands Volcanic islands Oldest: Isla San Cristóbal (4 my) Youngest: Isla Fernandina (<1 my)

8. Endemic Fauna of the Galapagos Endemic = organisms that are native to a geographic area and are found no where else in the world.

9. The long argument: the years after the voyage of the Beagle Observations of specimens collected on the different Galapagos Islands Pigeon breeding Barnacles: 8 years, “homologies” Experiments on seed survival in salt water

10. Darwin’s 5 Big Observations (and related inferences) 1. All species have such great reproductive potential that their population size would increase exponentially if all individuals that are born reproduce successfully. 2. Populations tend to remain stable in size, except for seasonal fluctuations. 3. Environmental resources are limited. Inference #1: Because more offspring are produced than can be supported by the available resources and populations are stable over time, there must be a struggle for existence amongst individuals. This leads to only a fraction surviving to reproduce.

11. Darwin’s 5 Big Observations (and related inferences) 4. Individuals of a population vary in their characteristics. 5. Much of this variation is heritable (passed on from parents to offspring). Inference #2: Survival is not random. Individual survival depends on the characteristics that are inherited. Unequal survival results from a process of natural selection that favors individuals best suited for their environments. Inference #3: Over generations, this process will lead to continuing gradual changes in populations (evolution) as those individuals that survive will reproduce, passing their genes onto the next generation.

12. Alfred Russell Wallace 1858 “On the Tendency of Species to Form Varieties; And On the Perpetuation of Varieties and Species by Natural Means of Selection” (Published with an abbreviated essay of Darwin’s)

13. Selection “Struggle for existence” “Survival of the fittest” “Descent with modification”

14. Evolution by Natural Selection Overpopulation may lead to Competition for… Predation affects both… Selection due to… Variation Due to… Is it always stronger or faster? Reproduction (differential) Speciation due to…

15. Key points Individuals do not evolve…what does? Natural selection can amplify or diminish only inherited traits Evolution is not goal-directed!

16. Evidence Peppered moths Galapagos finches Divergent evolution Convergent evolution Artificial selection (breeding) Antibiotic resistance in bacteria

17. Peppered moth (Biston betularia) Early 1800s population: B. betularia typica 98% B. betularia carbonaria 2% Late 1800s population: B. betularia typica 2% B. betularia carbonaria 98%

18. Galapagos finches

19. p. 6

20. Finch diets and beaks

22. “…adaptive radiation…refers to more or less simultaneous divergence of numerous lines all from much the same ancestral adaptive type into different, also diverging adaptive zones.” Simpson 1953 From Petren et al. 1999 Adaptive Radiation Seeds Bark & Crevice Insects Buds Nectar and gleaned insects Evolution of many species from one common ancestor in response to variations in available environments and resources.

24. Convergent Evolution The evolution of similar characteristics in unrelated (or extremely far removed) species as a result of similar ecological opportunities and environments Analogous structures are due to similar selection pressures

25. Convergent evolution

26. Artificial selection

27. Artificial selection: wild mustard

28. Selective breeding: domestic dogs

29. How antibiotics work Antibiotics are chemicals that disrupt bacterial processes, some… Inhibit cell wall construction Inhibit protein synthesis (cell dies) Inhibit DNA replication so that cells can’t divide

30. Mechanisms of Resistance Resistant (mutant) bacteria can: 1. Modify or destroy the antibiotic. 2. Flush out antibiotic. 3. Alter the target. Essential Bacterial Protein Essential Bacterial Protein

31. Antibiotic Resistance

32. Sexual selection The selection of individuals for secondary sex characteristics eg bird coloration, elk horns Can be intrasexual or intersexual Male-male competition Female choice Often appears at odds with natural selection

33. Pea fowl

34. Birds of paradise