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The Theory of Evolution

The Theory of Evolution. The idea of CHANGE OVER TIME. I. The Beginning of Life. Origin of the Universe: Big Bang Theory > 15 billion yrs. ago. B. Earth’s Origin 1. 4.6 billion yrs. ago out of gases 2. Gases formed our atmosphere. C. Life’s Origin

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The Theory of Evolution

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  1. The Theory of Evolution The idea of CHANGE OVER TIME

  2. I. The Beginning of Life • Origin of the Universe: Big Bang Theory • > 15 billion yrs. ago B. Earth’s Origin 1. 4.6 billion yrs. ago out of gases 2. Gases formed our atmosphere C. Life’s Origin 1. first cells probably resembled anaerobic bacteria 2. Endosymbiotic Theory – Eukaryotic cells arose from prokaryotic organisms

  3. II. Theories of Evolution • Lamarck (French biologist) • 1. Evolution results from the use and disuse of • physical features. • e.g. Birds •  kept trying to use front limbs for flying • that they turned into wings •  If didn’t use wings, they would shrink & • disappear • 2. Traits are passed on to offspring 3. He was WRONG, but his ideas showed that living things change over time

  4. B. Malthus (English economist) • Stated that human population would increase • faster than food supply and living space • This idea would be applied to all species and • would influence Darwin’s theory

  5. C. Charles Darwin (British naturalist) • The modern theory of evolution has taken • shape due to his work • Development of his theory • a. He sailed around world studying different • organisms (Ex: Galapagos Islands - finches)

  6. Galapagos Islands Darwin’s route

  7. b. Combined what he saw with the ideas of Malthus and made one key association: • Individuals with traits better suited to an env’t are more likely to survive, reproduce, and pass on traits (survival of the fittest) Natural Selection

  8. 3. His Theory: NATURAL SELECTION  “Survival of the Fittest” - Individuals w/ the best traits are better suited for the env’t and will reproduce more often.  this theory incorporates 3 principle aspects: • Genetic Variation - differences exists within a • species (e.g. some cows produce more milk, • some plants bear larger fruit). Caused by: • 1. mutations (changes in base sequences) • 2. sexual reproduction combines genes from • diff. parents • 3. crossing-over during meiosis

  9. b. Competition – An interaction b/n two or more species that use the same scarce resources (e.g. food, water, shelter). Organisms produce more offspring than env’t can support (ex. carrying capacity). They compete for the same resources

  10. c. Requires Adaptation organisms respond to their env’t, undergo changes, & increase their chances of survival 2. Thus, evolution can be thought of as:  Descent with Modification “change over time”

  11. Example: Galapagos Island Finches  Beaks adapted to diff. seasons (i.e. wet/dry)  Diff. plants produce diff. seeds

  12. 4. Publication of his work (1859) • After years of further research & improvements, Darwin published his ideas in a book: “The Origin of Species by means of Natural Selection”

  13. D. Darwin’s Ideas Updated 1. Natural selection causes change in a pop. - the frequency of alleles increases/decreases over time - Genetic Drift – in small populations, a particular allele may become more common by chance (as compared to larger population) 2. Isolation of a population leads to species formation (i.e. speciation)  geographic: physical barrier; island/mountain  reproductive: members of 2 pops. can’t interbreed  behavioral: two pops. have different habits

  14. 3. When one species becomes extinct, it is replaced by another

  15. III. Evidence of Evolution Organisms have changed over time? • Fossil Record • 1. Fossil evidence • Fossil – the preserved remains of an • organism. Forms imprints/molds in rock • and mud. b. Radioactive dating - Use radioactive isotopes to determine age - decay rate of carbon-14 used to date young fossils

  16. 2. Interpreting fossils • Paleontologist – studies fossils • Geologist – uses fossils to explain earth’s • history • Anthropologist – studies human evolution

  17. 3. History of Life on Earth • Hadean Eon – 4.5 billion yrs. ago •  appearance of bacteria/cyanobacteria? • Paleozoic Era – 250 mil. yrs. ago •  plants, aquatic life, 1st land animals • Mesozoic Era – 66 mil. yrs. Ago •  age of reptiles (dinosaurs) • Cenozoic – present time •  age of mammals, flowering plants

  18. Important Note about the fossil record:  the fossil record is incomplete • Many species lived in unfavorable environments • that do not allow for fossil formation • Ex. Grasslands, mountains, deserts 2. Even though it is incomplete, the fossil record still presents us w/ strong evidence of evolution

  19. B. Other Evidence 1. Body structure • Homologous structures – Diff. organisms • have body parts w/ similar structure, but diff. • fxn (suggests a common ancestry)

  20. b. Analogous structures – Diff. organisms have body parts with a similar fxn, but not structure. Insect wing Bat wing Bird wing

  21. c. Vestigial Structures – body parts are reduced in size and appear to have no fxn (e.g. appendix, human tail bone, snake legs)

  22. 2. Compare embriology and biochemistry --similar embryos show a closer relationship lamprey turtle chicken cat human

  23. IV. Patterns of Evolution • Adaptive Radiation – diff. species evolve from • one ancestral species. Each has a diff. niche • Ex. Finches

  24. 2. Convergent Evolution – Natural selection produces similar adaptations in diff. organisms in response to similar envt’s. Ex: Sharks (fish), penguin (bird), dolphin (mammal)  Wings/flippers perform the same fxn

  25. 3. Divergent Evolution – When two species gradually become increasingly different. Can be linked to one species having a new habitat. ex. humans & apes polar bear & brown bear

  26. 4. Coevolution – Species that interact closely often adapt to one another. Ex. Hawk moth and Orchids

  27. 5. Punctuated Equilibrium/Gradualism a. Punctuated Equilibrium – organisms change rapidly, over a short period of time. There are also periods of no change b. Gradualism – change occurs slowly, over a long period of time

  28. Example: Giraffe necks

  29. Cladogram (a.k.a. phylogenic tree) • A diagram that depicts how organisms are related to one another by • showing how evolutionary lines evolved and branched off from • common ancestors over time •  Vocab: 1. Clade – a group of species that includes a single common ancestor and ALL descendents of that ancestor 1. A common ancestor of species E and C? 2. What two species are most closely related? a) A and B c) C and D b) B and C d) E and A 3. What are the three clades in this picture?

  30. Refer to Cladogram Practice Packet Cladogram #1

  31. Cladogram #3

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