Diff Geo Unit 2

1. Diff Geo Unit 2 Chapters 21, 22, 23, and 24

2. CHAPTER 21

3. Geologic Time • Geologists use the rock record to see what happened during earth’s past • Time is divided up into units starting at 4.6 billion years ago to today • The bottom of the geologic time scale is the oldest • Eons, eras, periods, epochs • Eons- longest • Epochs- shortest

4. Eras we need to know • Precambrian (oldest and longest) • Paleozoic • Mesozoic • Cenozoic • Don’t worry about the periods or epochs • Throughout these time periods paleontologists see an evolution of body structures & adaptations to changes in environment.

5. Relative Dating • Relative dating allows scientists to have an idea of how old rocks are, in comparison to others • They use principles and laws to guide them

6. Principle of Uniformatarianism • Processes that are taking place today in the natural environment were also happening long ago • Erosion • Earthquakes • Volcano eruptions • Etc.

7. Law of original horizontality • Sedimentary rocks left undisturbed will be deposited in layers

8. Law of superposition • In an undisturbed sequence of rock, the oldest layers will be at the bottom and younger rocks as you travel upward toward the surface

9. Law of cross-cutting relationships • An intrusion or fault must be younger than the rock it cuts through • The cheese has to be there before you can cut it 

10. Unconformities • A break in the rock record • Disconformities- sed over sed rock (da same kind of rock) • Nonconformity- sed over non-sed rock (not da same kind of rock) • Angular unconformity- layers are at an angle and have been eroded

11. Correlation • Using similar rock outcrops from different areas means they are similar ages • Usually contain index fossils • Organisms that lived for a small time over a wide geographic range

12. Absolute dating • Radioactive dating • Using radioactive isotopes whose half lives are known to calculate the exact age of the rock • Half life- time it takes for half the element to decay • Organic less than 50,000 yrs uses Carbon-14 • Inorganic uses Uranium and other elements

13. Radioactive Decay Problem • A rock contains 75% of lead-206 for every g of uranium-238. The half-life decay for uranium to turn into lead is 45,000 yrs. How old is the rock? • Hint: Start by figuring out the amount of Uranium remaining.

14. Dendrochronology- counting annual growth rings in trees to get exact age • Seasonal changes causes an alternation in sediment deposits called varves.

15. Types of fossils • Original preservation (insects in amber) • All the soft and hard parts remain

16. Altered hard parts (petrified wood) • Minerals replace hard parts • Soft parts are gone

17. Molds • Outline of what once lived • Casts • Filled in mold • 3D model

18. CHAPTER 22PAGES 577-588 ONLY

19. Precambrian era • Zircon found from meteorites that impacted early earth are used to date the planet (4.6by) • It is a radioactive element

20. Earth’s heat sources • 1. Radioactive decay in the core • 2. Previous impact from asteroids and meteorites so size and temp of Earth increased • 3. Gravitational contraction

21. Earth’s layers differentiated based on density • Densest went to the core (iron) • Lightest to the crust (granite) • Formed the plates, which have moved throughout time due to convection currents in the mantle

22. The Precambrian atmosphere • Initially lots of hydrogen and helium • With continual out gassing of volcanoes increased water vapor, carbon dioxide, and nitrogen emitted • Cooling of air caused the water vapor to condense, form clouds, and precipitate • Meteorite impacts • All this filled the oceans

23. Oxygen was emitted by uni-cellular cyanobacteria that underwent photosynthesis to create their own food • Fossilized mats of cyanobacteria called stromatolites are evidence • Iron-banded formations containing iron oxide called red beds also are evidence

24. Later in the Precambrian • During the Proterozoic • Unicellular (prokaryotes) began to engulf each other • Gave rise to multi-cellular (eukaryotes) • Previously soft bodied organisms • Difficult to preserve • Eventually appearance of Organisms with hard parts

25. CHAPTER 23

26. Paleozoic Era • Continents moving from the original land masses to different arrangements • Changes in sea level • Evidence of this shown in transgressions and regressions in the rock record • Produced most likely by glaciers melting and refreezing

27. Transgression • Sea level rises • Shore moves inland • Regression • Sea level falls • Shore moves out seaward

28. Early Paleozoic life found in Burgess Shale • Small, wild looking sea creatures • Middle Paleozoic saw the rise of vascular plants which allowed nutrients to flow through stems and leaves • Between the middle and late Paleozoic, there was a mass extinction of marine life due to global cooling

29. Mountain building occurred • Large plates combined in different ways • Coal deposits formed in swampy areas • Coral reefs formed

30. In Late Paleozoic • Sharks and ray finned fish • Lobe finned fish like lungfish • Ferns and seed bearing plants on land • Amphibians in coal swamps • Reptiles evolved amniotic egg which allowed them to live farther from water • Mass extinction due to loss of seas

31. CHAPTER 24

32. Mesozoic Era • Pangaea broke up and formed the Atlantic Ocean as well as the Mid-Atlantic Ridge • Mountains formed in North America • North America developed arid climates • Universal warmer climate

33. Mesozoic known as the age of reptiles (ecotherms- cold blooded) • Also first small mammals, birds, and flowering plants • Phytoplankton in the oceans creates oxygen during photosynthesis • Ammonites are index fossils of this time • Angiosperms are seed bearing plants with flowers

34. Small mammals were endotherms (warm blooded) • Lots of large dinosaurs • Even flying dinosaurs!

35. Saurischia • Lizard hipped dinosaurs • Plant eaters and meat eaters • Brontosaurus • Tyrannosaurus Rex • Ornithischia • Bird hipped dinosaurs • Plant eaters • Stegosaurs • Ankylosaurs

36. Mass extinction at the end of the Mesozoic Era • We think it was a huge meteorite that crashed into the (now) Gulf of Mexico • Evidence • Iridium found in the layer of clay that was deposited around this time period • Radiometrically dated to 65 million years ago

37. Cenozoic Era • Climate change caused by position of the continents • Change in ocean circulation caused ice ages • Mountain building occurred

38. Cenozoic era is the age of mammals • Small and later larger mammals • Saber tooth cats • Wooly mammoths • Primates • Humans

39. Hominoid • Larger group including the hominids • Includes great apes • Hominid • Bipedal • Walk upright • Homo sapiens