Geologic Time

1. Geologic Time “Nothing hurries geology” - Mark Twain

2. What is Time? • Time is how we sense and record • changes in the environment. • It is our sense of one thing happening after another. • We need standards of time for the convenience of everyday life.

3. Units of time • As humans we think of time related to personal experience. • Seconds • Minutes • Hours • Month • Years • Decades • Centuries • Millenia However, you will see that when we talk about Earth history, even using a millennium isn’t sufficient because of Earth’s vast age.

4. Deep Time • When we study history 200, 1,000 or even 2,000 years seems like a long time. • Geology involves vastly greater amounts of time • This is referred to as deep time.

5. Geologic Processes • Most are slow but relentless • Reflecting the pace at which the heat engines work • It’s unlikely that a mountain will visibly change shape or height during a human lifetime

6. Geologic Processes • In a geologic time frame • Most mountains are probably eroding “rapidly” Uluru is a great block of uptilted sandstone in the heart of Australia's Outback. This region may be the world's best-developed peneplain, and Uluru its best-known monadnock.

7. To a geologist . . . • “Rapidly” may mean within a few million years. • A “fast” process • Started and completed within a few million years. • For example . . .

8. Rate of Plate Motion • At a mid ocean ridge • 1 cm/yr movement • 100,000 years for the seafloor to move 1,000 km (100,000 cm in one km)

9. Some geologic processes do occur quickly Mt. St. Helens

10. Landslides Occur Quickly • Tully Valley landslide on April 27, 1993 • Occurred after heavy precipitation of • 190 mm (7.5 in) during April in conjunction • with melting of a winter snowpack

11. Processes of Change Through time

12. Spatial Scales of Observation • Geologists study all of Earth’s materials from: • The spatial scale of atoms • To the scale of our planet (global scale)

13. Spatial Scales of Observation • Geologists study all of Earth’s materials from: • The spatial scale of atoms

14. Spatial Scales of Observation • Geologists study all of Earth’s materials from: • The spatial scale of atoms

15. Spatial Scales of Observation • Geologists study all of Earth’s materials from: • The spatial scale of atoms • To the scale of our planet (global scale)

16. Global Perspective of Earth

17. Thickness on the model is calculated using a proportion. 119 mm X 6371 km 16 km (6371 km) X = (119 mm)(16 km) X = (119 mm)(16 km) 6371 km X = 0.3 mm • On this scale: • Mt. Everest (8.8 km or 5.5. mi.) • would be 0.16 mm high. • Deepest location in the ocean • (Mariana Trench – 10.9 km or • 6.8 mi) would be 0.2 mm deep

18. The Geologic Time Scale • Earth history is subdivided into time units based on: • The fossil record • Extinctions

19. Geologic Time Scale – Temporal Scales of Observation • Like in a book, events and relationships are grouped into • Paragraphs • Sections • Parts • These are the geologic time scale’s • Eons • Eras • Periods • Epochs • The “calendar” into which geologic events are placed. Phanerozoic

20. Temporal Scales of Observation • Grand Canyon, AZ • Exposed rocks at the bottom of the canyon are more than a billion years old • Sediments in the Colorado River • May have formed just seconds ago

21. Scale Model of Earth History