1. Plate Tectonics 1.1 Earth has several layers. 1.2
CHAPTER
Plate Tectonics
the BIG idea
The movement of tectonic plates causes geologic changes on Earth.
1.1
Earth has several layers.
1.2
Continents change position over time.
1.3
Plates move apart.
1.4
Plates converge or scrape past each other.
CHAPTER OUTLINE

2. Earth has several layers.
1.1
Earth has several layers.
inner core
lithosphere
outer core
crust
mantle
crust
mantle
lithosphere
asthenosphere
outer core
asthenosphere
inner core
tectonic plate
The lithosphere is made up of tectonic plates, which rest on the asthenosphere.
SECTION
OUTLINE

3. 1.1 inner core Earth has several layers.
outer core
A solid sphere of metal, mainly nickel and iron, at Earth’s center.
mantle
crust
lithosphere
asthenosphere
tectonic plate
KEY CONCEPT
SUMMARY

4. 1.1 outer core Earth has several layers.
inner core
outer core
outer core
A layer of molten metal, mainly nickel and iron, that surrounds Earth’s inner core.
mantle
crust
lithosphere
asthenosphere
tectonic plate
KEY CONCEPT
SUMMARY

5. 1.1 mantle Earth has several layers.
inner core
mantle
outer core
The layer of rock between Earth’s outer core and crust, in which most rock is hot enough to flow in convection currents; Earth’s thickest layer.
mantle
crust
lithosphere
asthenosphere
tectonic plate
KEY CONCEPT
SUMMARY

6. 1.1 crust Earth has several layers.
inner core
crust
outer core
A thin outer layer of rock above a planet’s mantle, including all dry land and ocean basins. Earth’s continental crust is 40 kilometers thick on average and oceanic crust is 7 kilometers thick on average.
mantle
crust
lithosphere
asthenosphere
tectonic plate
KEY CONCEPT
SUMMARY

7. 1.1 lithosphere Earth has several layers.
inner core
lithosphere
outer core
The layer of Earth made up of the crust and the rigid rock of the upper mantle, averaging about 40 kilometers thick and broken into tectonic plates.
mantle
crust
lithosphere
asthenosphere
tectonic plate
KEY CONCEPT
SUMMARY

8. 1.1 asthenosphere Earth has several layers.
inner core
asthenosphere
outer core
The layer in Earth’s upper mantle and directly under the lithosphere in which rock is soft and weak because it is close to melting.
mantle
crust
lithosphere
asthenosphere
tectonic plate
KEY CONCEPT
SUMMARY

9. 1.1 tectonic plate Earth has several layers.
inner core
tectonic plate
outer core
One of the large, moving pieces into which Earth’s lithosphere is broken and which commonly carries both oceanic and continental crust.
mantle
crust
lithosphere
asthenosphere
tectonic plate
KEY CONCEPT
SUMMARY

10. Continents change position over time.
1.2
Continents change position over time.
Gravity and motions in the asthenosphere move tectonic plates over Earth’s surface.
continental drift
Pangaea
Earth’s tectonic plates. Arrows indicatethe direction of movement.
mid-ocean ridge
convection
convection current
theory of plate tectonics
SECTION
OUTLINE

11. 1.2 continental drift Continents change position over time.
Pangaea
The hypothesis that Earth’s continents move on Earth’s surface.
mid-ocean ridge
convection
convection current
theory of plate tectonics
KEY CONCEPT
SUMMARY

12. 1.2 Pangaea Continents change position over time.
continental drift
Pangaea
Pangaea
A hypothetical supercontinent that included all of the landmasses on Earth. It began breaking apart about 200 million years ago.
mid-ocean ridge
convection
convection current
theory of plate tectonics
KEY CONCEPT
SUMMARY

13. 1.2 mid-ocean ridge Continents change position over time.
continental drift
mid-ocean ridge
Pangaea
A long line of sea-floor mountains where new ocean crust is formed by volcanic activity along a divergent boundary.
mid-ocean ridge
convection
convection current
theory of plate tectonics
KEY CONCEPT
SUMMARY

14. 1.2 convection Continents change position over time.
continental drift
convection
Pangaea
A process by which energy is transferred in gases and liquids, occurring when a warmer, less dense area of gas or liquid is pushed up by a cooler, more dense area of the gas or liquid.
mid-ocean ridge
convection
convection current
theory of plate tectonics
KEY CONCEPT
SUMMARY

15. 1.2 convection current Continents change position over time.
continental drift
convection current
Pangaea
A circulation pattern in which material is heated and rises in one area, then cools and sinks in another area, flowing in a continuous loop.
mid-ocean ridge
convection
convection current
theory of plate tectonics
KEY CONCEPT
SUMMARY

16. theory of plate tectonics
1.2
Continents change position over time.
continental drift
theory of plate tectonics
Pangaea
A theory stating that Earth’s lithosphere is broken into huge plates that move and change in size over time.
mid-ocean ridge
convection
convection current
theory of plate tectonics
KEY CONCEPT
SUMMARY

17. 1.3
Plates move apart.
New crust is formed at divergent boundaries. Features include:
divergent boundary
• mid-ocean ridges
convergent boundary
transform boundary
rift valley
magnetic reversal
hot spot
SECTION
OUTLINE

18. 1.3
Plates move apart.
New crust is formed at divergent boundaries. Features include:
divergent boundary
• mid-ocean ridges
• records of magnetic reversals
convergent boundary
transform boundary
rift valley
magnetic reversal
hot spot
SECTION
OUTLINE

19. 1.3
Plates move apart.
New crust is formed at divergent boundaries. Features include:
divergent boundary
• mid-ocean ridges
• records of magnetic reversals
convergent boundary
• rift valleys
transform boundary
rift valley
magnetic reversal
hot spot
SECTION
OUTLINE

20. 1.3 divergent boundary Plates move apart.
convergent boundary
A boundary along which two tectonic plates move apart, characterized by either a mid- ocean ridge or a continental rift valley.
transform boundary
rift valley
magnetic reversal
hot spot
KEY CONCEPT
SUMMARY

21. 1.3 convergent boundary Plates move apart.
divergent boundary
convergent boundary
convergent boundary
A boundary along which two tectonic plates push together, characterized either by subduction or a continental collision.
transform boundary
rift valley
magnetic reversal
hot spot
KEY CONCEPT
SUMMARY

22. 1.3 transform boundary Plates move apart.
divergent boundary
transform boundary
convergent boundary
A boundary along which two tectonic plates scrape past each other, and crust is neither formed nor destroyed.
transform boundary
rift valley
magnetic reversal
hot spot
KEY CONCEPT
SUMMARY

23. 1.3 rift valley Plates move apart.
divergent boundary
rift valley
convergent boundary
A deep valley formed as tectonic plates move apart, such as along a mid-ocean ridge.
transform boundary
rift valley
magnetic reversal
hot spot
KEY CONCEPT
SUMMARY

24. 1.3 magnetic reversal Plates move apart.
divergent boundary
magnetic reversal
convergent boundary
A switch in the direction of Earth’s magnetic field so that the magnetic north pole becomes the magnetic south pole and the magnetic south pole becomes the magnetic north pole.
transform boundary
rift valley
magnetic reversal
hot spot
KEY CONCEPT
SUMMARY

25. 1.3 hot spot Plates move apart.
divergent boundary
hot spot
convergent boundary
An area where a column of hot material rises from deep within a planet’s mantle and heats the lithosphere above it, often causing volcanic activity at the surface.
transform boundary
rift valley
magnetic reversal
hot spot
KEY CONCEPT
SUMMARY

26. Plates converge or scrape past each other.
1.4
Plates converge or scrape past each other.
Crust is destroyed or folded at convergent boundaries.
• Subduction boundaries form island arcs, deep-ocean trenches, and coastal mountains.
subduction
continental-continental collision
• Collision boundaries can form mountains.
oceanic-oceanic subduction
oceanic-continental subduction
SECTION
OUTLINE

27. Plates converge or scrape past each other.
1.4
Plates converge or scrape past each other.
Crust is destroyed or folded at convergent boundaries.
• Subduction boundaries form island arcs, deep-ocean trenches, and coastal mountains.
subduction
continental-continental collision
• Collision boundaries can form mountains.
Crust is neither formed nor destroyed at transform boundaries.
oceanic-oceanic subduction
oceanic-continental subduction
SECTION
OUTLINE

28. 1.4 subduction Plates converge or scrape past each other.
continental-continental collision
The process by which an oceanic tectonic plate sinks under another plate into Earth’s mantle.
oceanic-oceanic subduction
oceanic-continental subduction
KEY CONCEPT
SUMMARY

29. continental-continental collision
1.4
Plates converge or scrape past each other.
subduction
continental-continental collision
continental-continental collision
A boundary along which two plates carrying continental crust push together.
oceanic-oceanic subduction
oceanic-continental subduction
KEY CONCEPT
SUMMARY

30. oceanic-oceanic subduction
1.4
Plates converge or scrape past each other.
subduction
oceanic-oceanic subduction
continental-continental collision
A boundary along which a plate carrying oceanic crust sinks beneath another plate with oceanic crust.
oceanic-oceanic subduction
oceanic-continental subduction
KEY CONCEPT
SUMMARY

31. oceanic-continental subduction
1.4
Plates converge or scrape past each other.
subduction
oceanic-continental subduction
continental-continental collision
A boundary along which a plate carrying oceanic crust sinks beneath a plate with continental crust.
oceanic-oceanic subduction
oceanic-continental subduction
KEY CONCEPT
SUMMARY

32. 1.1 Earth has several layers. I. Earth has several layers.
inner core
A. Earth is made up of materials with different densities.
outer core
mantle
B. Earth’s layers have different properties.
crust
1. Core, Mantle, Crust
lithosphere
C. The lithosphere is made up of many plates.
asthenosphere
tectonic plate
KEY CONCEPT
SUMMARY

33. Continents change position over time.
1.2
Continents change position over time.
II. Continents change position over time.
continental drift
A. Continents join together and split apart.
Pangaea
1. Evidence for Continental Drift
mid-ocean ridge
2. Pangaea and Continental Drift
convection
B. The theory of plate tectonics explains how plates and their continents move.
convection current
theory of plate tectonics
1. Evidence from the Sea Floor
2. Causes of Plate Movement
3. Putting the Theory Together
KEY CONCEPT
SUMMARY

34. 1.3 Plates move apart. III. Plates move apart.
divergent boundary
A. Tectonic plates have different boundaries.
B. The sea floor spreads apart at divergent boundaries.
convergent boundary
transform boundary
1. Mid-Ocean Ridges and Rift Valleys
2. Sea-Floor Rock and Magnetic Reversals
rift valley
C. Continents split apart at divergent boundaries.
magnetic reversal
D. Hot spots can be used to track plate movements.
hot spot
KEY CONCEPT
SUMMARY

35. Plates converge or scrape past each other.
1.4
Plates converge or scrape past each other.
IV. Plates converge or scrape past each other.
subduction
A. Tectonic plates push together at convergent boundaries.
continental-continental collision
1. Continental-Continental Collision
2. Oceanic-Oceanic Subduction
oceanic-oceanic subduction
3. Oceanic-Continental Subduction
oceanic-continental subduction
B. Tectonic plates scrape past each other at transform boundaries.
C. The theory of plate tectonics helps geologists today.
KEY CONCEPT
SUMMARY