1. Plate Tectonics

2. Plate Tectonics The Continental Drift Hypothesis
Plate Tectonics – Overview
Divergent Boundaries
Convergent Boundaries
Transform Boundaries

3. The Continental Drift Hypothesis
GEOL131: Plate Tectonics
The Continental Drift Hypothesis

4. Alfred Wegener (1880-1930) German paleoclimatologist
GEOL131: Plate Tectonics: Continental Drift
Alfred Wegener ( )
German paleoclimatologist
Studied evidence for ancient climates
Traveled extensively, collected thousands of samples
Published continental drift ideas in 1915
Died during expedition to Greenland in 1930

5. Pangaea “All lands” 200 million years ago
GEOL131: Plate Tectonics: Continental Drift
Pangaea
“All lands”
200 million years ago

6. Wegener’s Evidence The “continental jigsaw puzzle”
GEOL131: Plate Tectonics: Continental Drift
Wegener’s Evidence
The “continental jigsaw puzzle”
Trans-oceanic fossil matching
Trans-oceanic rock matching
Ancient climates

7. Wegener’s Evidence: Continental Jigsaw
GEOL131: Plate Tectonics: Continental Drift
Wegener’s Evidence: Continental Jigsaw

8. Wegener’s Evidence: Matching Fossils
GEOL131: Plate Tectonics: Continental Drift
Wegener’s Evidence: Matching Fossils

9. Wegener’s Evidence: Matching Rocks
GEOL131: Plate Tectonics: Continental Drift
Wegener’s Evidence: Matching Rocks
Pangaea
Present

10. Wegener’s Evidence: Ancient Climates
GEOL131: Plate Tectonics: Continental Drift
Wegener’s Evidence: Ancient Climates
Pangaea
Present

11. Reaction to Wegener’s Ideas
GEOL131: Plate Tectonics: Continental Drift
Reaction to Wegener’s Ideas
Other scientists were highly critical
Major problem: no good explanation for how continents could move
Wegener proposed
Moon’s gravity moved continents
Continents pushed through ocean crust like icebreaker ships

12. Reaction to Wegener’s Ideas
GEOL131: Plate Tectonics: Continental Drift
Reaction to Wegener’s Ideas
Moon’s gravity too weak
Ocean crust too dense and strong
Most scientists concluded continental drift was incorrect

13. Plate Tectonics: Overview
GEOL131: Plate Tectonics
Plate Tectonics: Overview

14. Earth’s Layers: Two schemes
GEOL131: Plate Tectonics: Plate Tectonics Overview
Earth’s Layers: Two schemes
Based on composition
Crust, mantle, core
Based on seismic wave behavior
Lithosphere, asthenosphere, mesosphere, outer core, inner core
Lithosphere, asthenosphere most important for plate tectonics

15. Earth’s Layers: Two schemes
GEOL131: Plate Tectonics: Plate Tectonics Overview
Earth’s Layers: Two schemes
Asthenosphere

16. Lithospheric Plates Rigid, brittle Continents are “embedded” in them
GEOL131: Plate Tectonics: Plate Tectonics Overview
Lithospheric Plates
Rigid, brittle
Continents are “embedded” in them

17. Why is plate tectonic theory successful?
GEOL131: Plate Tectonics: Plate Tectonics Overview
Why is plate tectonic theory successful?
Provides plausible explanation for how continents move
Doesn’t require them to “plow” through ocean crust

18. Two types of lithosphere
GEOL131: Plate Tectonics: Plate Tectonics Overview
Two types of lithosphere
Oceanic
Thin, dense, able to subduct into mantle
“asphalt”
Continental
Thick, low density, buoyant, does not subduct
“styrofoam”

19. GEOL131: Plate Tectonics: Plate Tectonics Overview
Plate Motion

20. Plate Boundaries: Divergent
GEOL131: Plate Tectonics
Plate Boundaries: Divergent

21. Plates separate at divergent boundaries
GEOL131: Plate Tectonics: Divergent Boundaries
Plates separate at divergent boundaries
New crust created by undersea volcanism

22. Seafloor eruption off coast of Oregon

23. Plate Boundaries: Convergent
GEOL131: Plate Tectonics
Plate Boundaries: Convergent

24. Plates come together at convergent boundaries
GEOL131: Plate Tectonics: Convergent Boundaries
Plates come together at convergent boundaries
Three types, based on lithosphere involved
Oceanic-oceanic
Oceanic-continental
Continental-continental

25. Oceanic-oceanic boundaries
GEOL131: Plate Tectonics: Convergent Boundaries
Oceanic-oceanic boundaries

26. Tsunami generation at subduction zones

27. Oceanic-continental boundaries
GEOL131: Plate Tectonics: Convergent Boundaries
Oceanic-continental boundaries

28. Continental-continental boundaries
GEOL131: Plate Tectonics: Convergent Boundaries
Continental-continental boundaries
A.k.a. “continental collision zones”
Example: India and Asia

29. Plate Boundaries: Transform
GEOL131: Plate Tectonics
Plate Boundaries: Transform

30. Plates slide past each other at transform boundaries
GEOL131: Plate Tectonics: Transform Boundaries
Plates slide past each other at transform boundaries

31. San Andreas Fault: A transform boundary
GEOL131: Plate Tectonics: Transform Boundaries
San Andreas Fault: A transform boundary
Los Angeles is moving northwest
San Francisco is moving southeast

32. San Andreas Fault: A transform boundary
GEOL131: Plate Tectonics: Transform Boundaries
San Andreas Fault: A transform boundary

33. GEOL131: Plate Tectonics
End of Chapter