1 / 21

Forces that Shape Earth and Geological Time!

Forces that Shape Earth and Geological Time!. CGC1D- Canadian Geography. Planet Earth. Geologic History Cenozoic (66 mya – present) Mesozoic (245 -66 mya) Dinosaurs Paleozoic (570 -245 mya) Ancient Life Precambrian (4600 -570 mya) Earliest Life Landforms Rock Cycle. Earth’s Interior.

tokala
Télécharger la présentation

Forces that Shape Earth and Geological Time!

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Forces that Shape Earth and Geological Time! CGC1D- Canadian Geography

  2. Planet Earth • Geologic History • Cenozoic (66 mya – present) • Mesozoic (245 -66 mya) Dinosaurs • Paleozoic (570 -245 mya) Ancient Life • Precambrian (4600 -570 mya) Earliest Life • Landforms • Rock Cycle

  3. Earth’s Interior HYDROSPHERE ATMOSPHERE Air Water • Crust/Asthenosphere • - 8-64 km thick • - cold & fragile • Granite and • Basalt Land LITHOSPHERE Mantle - 1800 km thick - hot & molten - Magnesium and Silicon Outer Core - 2000 km thick - 3 - 4000°C - liquid Nickel and Iron Inner Core - 1400 km thick - 5 - 6000°C - solid Nickel and Iron

  4. Geologic History • Precambrian Era (Canadian Shield) Vulcanism Fault Ancient Sea Igneous Rock

  5. 1. Precambrian Canada • #1 -TheCanadian (also called the Precambrian) Shield • the geologic core of the country • ancient (4 billion years in some places), hard igneous rock from which all the other areas were created • used to be a huge mountain range

  6. Precambriam • Extensive volcanic activity folding/faulting and erosion • Intrusive / extrusive igneous rock • Cooling, creates Canadian Shield • Foundation of Canada’s landmass • Heat/Pressure (metamorphism) creates storehouse of Canada’s metallic mineral wealth • Surrounded by ancient sea

  7. Geologic History • Paleozoic Era (Shallow seas) Erosion Erosion Sediments Sediments Igneous Rock

  8. #2 -Thesurrounding series of plains or lowlands • made of sedimentary rock • most of the sediments were eroded from the ancient Precambrian Shield • includes the Great Lakes - St. Lawrence Lowlands, the Interior Plains, the Hudson Bay Lowlands, and the Arctic Lowlands Erosion Transportation Transportation Deposition Deposition

  9. Paleozoic con’t • Extensive erosion, transportation (rivers), deposition of sediments from the Shield into adjacent seas • Compression of sediments in ancient seas create sedimentary rock • Today these sedimentary rocks form the bedrock for parts of every province • Organisms in seas form basis of oil/gas deposits in west • Swamps (tropical climate) create coal beds in east

  10. Geologic History • Late Paleozoic/ Early Mesozoic Era (Appalachians formed!) Erosion Sediments Sediments Igneous Rock Mountains Forming

  11. Late Paleozoic, early Mesozoic! • Creation of super-continent Pangaea folds/faults/uplifts Appalachian mountains in the east • NA is very tropical! • Sediments keep on building up • Breakup of Pangaea as NA Plate moves West colliding with the Pacific Plate

  12. Finally, Cenozoic era creates today’s mountain ranges… • #3 - The mountainous rim • also made up of, in part sediments from the ancient Shield, also with metamorphic rock • unlike the flat lowland areas, the mountainous rim rocks have been uplifted by tectonic forces • there are three main mountain areas that make up the mountainous rim

  13. the Appalachian Mountains (the oldest and hence the lowest due to longer erosion) • the Innuitian Mountains of the very far north • the Western Cordillera (the youngest, and highest, is actually a series of several different ranges dominated by the famous Rocky Mountains, the most easterly of the Cordilleran ranges)

  14. Geologic History • Cenozoic Era (last 65 million years!) Sedimentary Mountains Eroding 4. 2. Mountains Forming Sedimentary Plains 1. APPALACHIAN MOUNTAINS PACIFIC OCEAN ROCKY MOUNTAINS Igneous Rock ATLANTIC OCEAN INTERIOR PLAINS 3. CANADIAN SHIELD

  15. 3. Mesozoic Canada Plate Collision 4. Cenozoic Canada Western Cordillera Appalachians Canadian Shield Great Lakes - St. Lawrence Lowlands Interior Plains Glaciers!!! – ended about 20 000 years ago Landforms not seen (in the back) - Hudson Bay Lowlands, - Arctic Lowlands, - Innuitian Mountains

  16. Intrusive Volcanic / tectonic activity begin to uplift the Coastal Range • Tectonic forces uplift the Rockies/and as the plate rotates NW the Innuitian Mountains. (Arctic) • Dinosaurs roamed inland sea west of the Rockies (Red Deer Alberta) until extinction @ end of Mesosoic • Cenozoic: Rockies/Coastal Mntns. continue to form • Volcanic Activity create plateaus between Rockies and Coastal Ranges

  17. Rock Cycle Videos • http://www.youtube.com/watch?v=K8dDq3el_tQ&feature=related • http://www.youtube.com/watch?v=EcfstbQyrzU

  18. Rock Cycle MAGMA Heats and melts Cools and hardens IGNEOUS METAMORPHIC Weathers, erodes, and deposits Stresses or heats SEDIMENTARY

More Related