1. History of Biological Diversity Evolution: Darwin’s travel

2. Darwin’s Theory of Evolution by Natural Selection Copyright © McGraw-Hill Education Developing the Theory of Evolution The Galápagos Islands Darwin noticed that the different islands all seemed to have their own, slightly different varieties of animals. Somewhat similar species that suited their particular environment.

3. Origin of Species: Darwin’s Book  In 1859 On the Origin of Species presented evidence and proposed a mechanism for evolution that he called natural selection.

4. Darwin’s Theory of Evolution by Natural Selection Copyright © McGraw-Hill Education Today, scientists use evolution to mean cumulative change in a group of organisms through time. Natural selection is not synonymous with evolution – it is a mechanism by which evolution occurs.

5. Peppered Moth: Natural Selection The light colored form was the predominant form in England prior to the Industrial Revolution. Around the middle of the 19 th century the darker form began to appear. It was first reported in 1848. By 1895 98% of the moths in Manchester were the dark variety. In recent years, the burning of cleaner fuels and Clean Air regulations has reduced the pollution there and the lighter colored moths have increased in numbers. First 5 minutes https://www.youtube.com/watch?v=aTftyFboC_M

6. Types of Selection: a. Artificial Selection – humans select for variations in plants and animals that they find useful. b. Natural Selection – also means “Survival of the Fittest”. - Fitness in this sense does not mean strongest. - Fitness in Darwin terms means reproduction. The one who survives long enough to reproduce the most is the one with the highest fitness.

7. Types of Natural Selection -Evolution acts on the phenotype of the individual, not the genotype. - There are 4 types of selection that can occur on a population. 1. Directional Selection – when individuals at one end of the curve have a higher fitness than individuals in the middle or at the other end of the curve.

8.  2. Stabilizing Selection  – when individuals near the center of the curve have higher fitness than individuals at either end of the curve, narrowing of the graph.

9.  3. Disruptive Selection  – when individuals at either end have a higher fitness and individual near the middle of the curve are selected against. - Over time with enough selection a population can go through genetic drift. a. genetic drift – random change in allele frequency.

10. 4. Sexual Selection: the ability to attract a mate

11. Worksheet PAP and Academic

12. Evidence of Evolution Copyright © McGraw-Hill Education Support for Evolution Evidence for evolution comes from: 1. The fossil record: remains in layers of rock 2. Comparative anatomy a. Analogous structures b. Homologous Structures c. Vestigial Structures 3. Comparative embryology: 4. Comparative biochemistry 5. Geographic distribution

13. 1. Support of Evolution: Fossil Record Fossil Record – Fossils are the remains of ancient organisms found in layers of rock in the Earth.

14. Support of Evolution The layers of rock tell the history of the Earth, while the fossils found within the rock tell a history of life. The fossils are thought to be the same age as the rock they are found in.

15. Evidence of Evolution Copyright © McGraw-Hill Education Support for Evolution: The fossil Record Researchers consider two major classes of traits when studying transitional fossils: Derived traits are newly evolved features, such as feathers, that do not appear in the fossils of common ancestors. Ancestral traits are more primitive features, such as teeth and tails, that do appear in ancestral forms.

16. Evidence of Evolution Copyright © McGraw-Hill Education 2. Support for Evolution: Comparative Anatomy A. Homologous structures are anatomically similar structures inherited from a common ancestor. Similar structures with different function (similar bones) (common ancestor)

17. Evidence of Evolution Copyright © McGraw-Hill Education Support for Evolution Comparative anatomy B. Analogous structures can be used for the same purpose and be superficially similar in construction, but are not inherited from a common ancestor. Structures are different but have similar function

18. Evidence of Evolution Copyright © McGraw-Hill Education Support for Evolution Comparative anatomy C. Vestigial structures are structures that are the reduced forms of functional structures in other organisms. Evolutionary theory predicts that features of ancestors that no longer have a function for that species will become smaller over time until they are lost. snake pelvis human appendix

19. 3. Support for Evolution: Comparative embryology Embryos of many animals with back-bones are very similar.

20. Evidence of Evolution Copyright © McGraw-Hill Education 4. Support for Evolution: Comparative Biochemistry Common ancestry can be seen in the complex metabolic molecules that many different organisms share. The more closely related species are to each other, the greater the biochemical similarity. Similarities in DNA and protein sequences suggest relatedness.

21. Evidence of Evolution Copyright © McGraw-Hill Education 5. Support for Evolution: Geographic distribution The distribution of plants and animals that Darwin were what first suggested evolution to him. The distribution of plants and animals around the world is studied in the field of biogeography. Evolution is linked to migration patterns, climate, and geological forces (such as plate tectonics).

22. PAP Activity

23. Academic Activity

24. Evidence of Evolution Copyright © McGraw-Hill Education Adaptation - an inherited trait that increases a population’s chance of survival and reproduction in a particular environment Fitness is a measure of the relative contribution an individual trait makes to the next generation. The better an organism is adapted to its environment, the greater its chances of survival and reproductive success.

25. Bird Beak Lab: ALL

26. PAP Webquest

27. Academic Webquest

28. Through adaptations, populations often become suited to a specific job called a niche. 1. niche – the role a population plays in a habitat - job, profession, role 2. Competition arises when 2 populations occupy the same niche.

29. Evidence of Evolution Copyright © McGraw-Hill Education Adaptation Types of adaptations Camouflage is a suite of morphological adaptations that allow an organism to blend into its environment. Mimicry is a type of morphological adaptation where a species evolves to resemble another species. Antimicrobial resistance develops in some bacteria in response to sub- lethal exposure to antibiotics. Camouflage Mimicry http://twentytwowords.com/can-you-find-the-hidden- animals-in-these-20-wildlife-photos/

30. Hide and Seek: ALL

31. Population Genetics - study of the traits in a population A. Population – a group of interbreeding organisms (a species) living in a given area B. Gene Pool – combined genetic material of all the members of a population C. Gene Flow-the transfer of allele or genes from one population to another D. Genetic Drift- any change in the allelic frequency in a population that results from chance

32. E. Allele – forms that a gene can take F. Allele Frequency – the number of each allele for a trait 2. This “changing of the gene pool” (allele frequency) has a name —› Evolution. 3. Evolution – the changes in the gene pool of a population over time.

33. Speciation – formation of a new species Reproductive Isolation - 2 or more species can not interbreed Prezygotic: Its happens before fertilization: different reproductive times and different mating songs. Postzygotic: Its happens after fertilization: fertilization has occurred but results in sterile offspring (Mule) Horse 60 chromosomes--------gametes 30 Donkey 62 Chromsomes--------gametes 31 Combination 61 can’t divide

34. 1. Behavioral Isolation/Temporal Isolation - occurs when 2 populations are capable of interbreeding but have differences in courting rituals or breed at different times

35. 2. Geographic /Allopatric Isolation - 2 populations are separated by geographic barriers ●examples: rivers, mountains, bodies of water

36. Types of Evolution Convergent Evolution: less alike to more alike Divergent Evolution=Adaptive Radiation: more alike to less alike Coevolution: evolve together Punctuated equilibrium: happens in short period of time

37. Convergent Evolution: Occurs when different organisms that live in similar environments become more alike in appearance and behavior. Less alike to more alike Examples: - Bird wings/insect wings - Shark fins/dolphin fins Draw the diagram in Notes

38. Divergent Evolution=Adaptive Radiation One species give rise to many species More alike to less alike Also known as adaptive radiation. Examples: - Darwin’s Finches. - Brown bears and polar bears Draw this diagram in notes

39. Coevolution Add to notes Co-evolution occurs when, two or more organisms evolve together.

40. Punctuated equilibrium predicts that a lot of evolutionary change takes place in short periods of time tied to speciation events. Gradual equilibrium Predicts that little of evolutionary change takes place in small gradual steps

41. Types of Evolution; ALL

42. Teddy Graham Lab: PAP (If time permits)