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Evidence for Evolution

Evidence for Evolution. Evidence for Evolution. Darwin argued that living things have been evolving on Earth for millions of years. Evidence for this process could be found: In the geographical distribution of living species In the homologous structures of living organisms

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Evidence for Evolution

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  1. Evidence for Evolution

  2. Evidence for Evolution • Darwin argued that living things have been evolving on Earth for millions of years. Evidence for this process could be found: • In the geographical distribution of living species • In the homologous structures of living organisms • In the similarities in early development • In the fossil record

  3. The fossil record Geographic distribution of living species Homologous body structures Similaritiesin early development Physical remains of organisms Common ancestral species Similar genes Similar genes Evidence of Evolution Evidence of Evolution includes which is composed of which indicates which implies which implies

  4. Geographic Distribution of Living Species • Similar animals in different locations are the product of different lines of evolutionary descent • Because some animals on different continents live under similar ecological conditions, they are exposed to similar pressures of natural selection. Because of this, different animals evolve certain features in common even though each descended from different ancestors.

  5. Geographic Distribution of Living Species Beaver Beaver Muskrat Beaver andMuskrat Coypu Capybara Coypu andCapybara NORTH AMERICA Muskrat Capybara SOUTH AMERICA Coypu

  6. Homologous Structures of Living Species • Similarities among bones of different vertebrates, such as reptiles, birds, and mammals. Some limbs are arms, others are wings, legs, or flippers • Limbs differ greatly in form and function, yet are made from the same bones • Each of these limbs has adapted in ways that enable organisms to survive in different environments • Structures that have different mature forms, but develop from the same embryonic tissues are homologous structures

  7. Homologous Body Structures Turtle Alligator Bird Mammals Typical primitive fish

  8. Homologous Structures of Living Species (continued) • Not all homologous structures serve important functions. These organs are reduced in size and are traces of homologous organs of other species = vestigial organs. • They probably served a purpose a long time ago • Ex. Whales have a pelvis (hip bone), but obviously don’t have legs = at one point, they probably walked • Ex. Humans have a tail bone, but obviously no tail = at one point, they probably had a tail • Ex. Humans have an appendix (part of the digestive tract) that doesn’t do anything = at one point, it probably did

  9. Similarities in Early Development • Early stages (embryos) of many animals with backbones are so similar they can be hard to tell apart • Embryonic cells develop in similar order = homologous structures

  10. Fossil Record and Evidence • Fossil – remains of ancient life • Different layers of rock form at different times in Earth’s history • Fossils that had formed in the different layers of rock were evidence of gradual change over time • Fossil record – provides evidence about the history of life on Earth. It also shows how different groups of organisms have changed over time • 99% of all species that ever lived on Earth have become extinct

  11. How Fossils Form • Not all organisms that die become fossils • 1) Organism dies and is buried in sediment • 2) Soft tissues of the organism decay • 3) Sediment becomes new rock Water carries small rock particles to lakes and seas. Dead organisms are buried by layers of sediment, which forms new rock. The preserved remains may later be discovered and studied.

  12. Interpreting Fossil Evidence • Paleontologists determine the age of fossils using two techniques • Relative dating • Radioactive dating (aka absolute dating)

  13. Relative Dating • Average age of fossil is determined by comparing its placement with that of fossils in other layers of rock • Rock layers form in order by age – oldest layers on the bottom and more recent layers on top. What does this mean about the fossils found there? • Index fossils used to compare the relative ages of fossils. Index fossils are organisms that are easily recognized, existed for a short period, and had a wide geographic range • ****Relative dating provides NO information about a fossil’s exact age in years**** A trilobite – an index fossil – it lived everywhere about 540 mya

  14. Radioactive Dating (aka Absolute Dating) • ****Used to assign exact ages to rocks and fossils**** • Radioactive elements in rocks decay at a steady rate measured in a unit called half-life • Half-life – length of time required for half of the radioactive atoms in a sample to decay • In radioactive dating, scientists calculate the age of a sample based on the amount of remaining radioactive isotopes it contains • Different radioactive elements have different half-lives and therefore provide natural clocks that “tick” at different, but constant rates

  15. Age of fossil with respect to another rock or fossil (that is, older or younger) Age of a fossil in years Comparing depth of a fossil’s source stratum to the position of a reference fossil or rock Determining the relative amounts of a radioactive isotope and nonradioactive isotope in a specimen Imprecision and limitations of age data Difficulty of radioassay laboratory methods Comparing Relative and Absolute Dating of Fossils Relative Dating Absolute Dating Can determine Is performed by Drawbacks

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