Evolution

1. Evolution

2. The History of Life

3. Early history of Earth • Earth is thought to have formed about 4.6 billion years ago. • It began as a hot ball of rock. • Meteorites bombarded its surface. • Volcanoes shook the planet & shot out gases that formed an atmosphere.

4. Early history of Earth About 3.9 billion years ago, the Earth cooled enough for water vapor to condense. Violent rainstorms occurred & the oceans formed. About 3.5 billion years ago, the first living organisms appeared.

5. Early history of Earth

6. Fossils • Oldest rocks are about 3.9 billions years old. • Fossils • Any evidence of an organism that lived long ago.

7. Paleontologists • Scientists who study ancient life

8. Relative dating technique • Based on the premise that the deeper an organism is buried in sediment, the older it is.

9. Relative dating technique

10. Radiometric dating technique • Involves using radioactive isotopes that give off radiation and form a different element. • Scientists determine the ages of rocks/fossils by comparing the amount of the original radioactive element to the amount of the new element formed from decay.

11. Radiometric dating technique

12. Radiometric dating technique • Example: K-40 (potassium-40) decays to form Are-40 (Argon-40) in 1.3 billion years.

13. Geologic time scale • A type of calendar that allows scientists to communicate about events that have occurred since Earth was formed. • Based on the different types of living organisms that have appeared during Earth’s history.

14. Geologic time scale • The scale is divided into 4 eras: • Precambrian • Paleozoic • Mesozoic • Cenozoic • These 4 eras are then subdivided into periods.

16. Precambrian era • Contains the oldest evidence of life (around 3.5 billion years old). • Prokaryotes & simple eukaryotic organisms (algae, sponges & jellyfish).

17. Precambrian era

18. Paleozoic era • Invertebrates (worms & primitive arthropods) • Fishes (earliest vertebrates) • Plants • Amphibians • Reptiles

19. Paleozoic era

20. Mesozoic era • Dinosaurs • Mammals • Flowering plants

21. Cenozoic era • Mammals flourished. • Primates evolved.

22. Spontaneous generation • The idea that life was produced from nonliving matter.

23. Francisco Reid • In 1668, he disproved the theory of spontaneous generation of larger organisms. • People still believed that microorganisms arose spontaneously from a vital force in the air (“air theory”).

24. Louis Pasteur • In the mid-1800s, he disproved the “air theory” and established the concept of biogenesis.

25. Biogenesis • The idea that living organisms come only from other living organisms.

26. Alexander Oaring • In the 1930s, he hypothesized that life began in the early oceans. • He suggested that energy from the sun and lightning triggered chemical reactions with the primitive atmosphere. The products rained down into the oceans to form “primordial soup.”

27. Oparin’s molecules

28. Evolution of cells • First forms of life were anaerobic, heterotrophic prokaryotes, which probably evolved from some type of protocell. • Competition for nutrients by heterotrophic prokaryotes led to the evolution of the first autotrophs (similar to archaebacteria).

29. Evolution of cells • Photosynthesizing prokaryotes evolved next, which increased the oxygen concentration in Earth’s atmosphere. • Aerobic respiration evolved with the increase of oxygen.

31. The Theory of Evolution

32. Charles Darwin • English scientist who is considered the founder of modern evolutionary theory. • In 1831, he sailed on the HMS Beagle to South America & the South Pacific. • On the Galapagos Islands, Darwin studied & compared the anatomy of many organisms.

33. Charles Darwin • Darwin used his theory of natural selection to explain how organisms evolve.

34. Natural selection • A mechanism for change in populations that occurs when organisms with favorable variations for a particular environment survive, reproduce and pass these variations on to the next generation.

35. Natural selection • Those with less favorable variations are less likely to survive and pass on traits to the next generation. • Each new generation is largely made up of offspring from parents with the most favorable variations.

36. Natural selection • Natural selection is also known as “the survival of the fittest.”

37. Evidence for evolution • The following provide evidence for evolution: • Fossils • Anatomical studies • Embryological development • Biochemistry

38. Fossil evidence • Scientists use fossil records to understand the general pathway of evolution. A model of evolution from small-toed to one-toed horses.

39. Anatomical studies • A homologous structure is a modified structure that is seen among different groups of descendents.

40. Anatomical studies • An analogous structure is any body part that is similar in function but different in structure. • Example: Insect and bird wings have the same function but are not similar in structure (bird wings are made up of a set of bones while insect wings are mainly made of chitin).

41. Anatomical studies • A vestigial structure is any body structure that is reduced in function in a living organism but may have been used in an ancestor. Pelvic bones of a baleen whale.

42. Embryological development • In the earliest stage of embryological development in a fish, reptile, bird and mammal, a tail and gill slits can be seen in all species. • As development continues, the embryos become more & more distinct, & in the stages before birth, they attain their distinctive forms.

44. Biochemistry • Scientists use DNA, RNA and proteins to determine levels of relationships among species within major taxonomic groups.

45. The Evolution of Species

46. Types of selection • Natural selection acts upon the variation in populations. • There are 3 types of selection: • Stabilizing selection • Directional selection • Disruptive selection

47. Stabilizing selection • The type of natural selection that favors average individuals in a population. • Large spiders are at a disadvantage b/c they can be seen & captured more easily. • Small spiders might not be able to catch enough prey to survive & reproduce. • Average-size spiders are “just right.”

48. Directional selection • When one of the extreme forms of a trait is favored by natural selection. • Woodpeckers feed by pecking holes in trees to get insects that live under the bark. • One year, the trees are invaded by a species of insect that lives deep within the trees. • Woodpeckers with long beaks have the selective advantage over those with short or average-size beaks.

49. Disruptive selection • Individuals with either of 2 extreme forms of a trait are at a selective advantage. • Limpets are shell-covered marine organisms that live attached to rocks. • On light-colored rocks, white-shelled limpets are able to blend in with the rock. • On dark-colored rocks, dark-colored limpets are able to blend in with the rock. • Tan-colored limpets, the intermediate forms, are easily spotted on either color rock.

50. Speciation • It is the process by which a new species is formed. • This can only occur when either interbreeding or the production of fertile offspring is somehow prevented. • Isolation can cause speciation.