1. Plate Tectonics and the Dynamic Earth
Plate Tectonics
- What is it?
- How does it work?
Plate Boundaries – Convergent, Divergent, Transform
Reading:
4th Ed., Ch 3 Sec 6, 16, 17, 19-23
5th Ed., Ch 3 Sec 13, 17, 18, 20-24
Graphics: The convergence of the Nazca and South American Plates has deformed
and pushed up marine limestone strata to form towering peaks of the Andes, as
seen here in the Pachapaqui mining area in Peru. George Ericksen, photographer.
Courtesy of USGS.
2. From Seafloor Spreading to Plate Tectonics
If New Seafloor Forms at Mid-Ocean Ridges…
Some of the Earth’s crust must be destroyed elsewhere,
But where…
Earthquakes provided the clue
Graphic: Garrison 4th Ed. Fig. 3.11, pg 69, 5th Ed. Fig. 3.11, pg 64.
3. Plate Tectonics: A New View of the Earth
Earth's surface is divided into rigid plates
Earth dynamics depends on plate motion – as plates move, new lithosphere forms
and old lithosphere is destroyed
Graphic: Garrison, 4th Ed. Figs. 3.14, pg 72 and 3.11, pg 69, 5th Ed. Figs.
3.15, pg 68 and 3.11, pg 64.
4. Major Lithospheric Plates
There are about 14 major lithospheric plates
Plates are classified as "continental" or "oceanic", but a single plate can
contain both continental and oceanic material
Graphic: (top) Garrison 4th Ed. Fig. 3.11, pg 69, 5th Ed., Fig. 3.11, pg 64
(bottom) Map by J.F. Vigil, courtesy of USGS, Smithsonian Institution and US NRL.
5. Lithospheric Plates
Lithospheric plates are composed of rigid sections of crust and the cool part of
the upper mantle
Lithospheric plates move on top of the hotter, flowing asthenosphere
Graphic: Garrison, 4th Ed., Fig. 3.2, inset, pg 60, 5th Ed. Fig. 3.5, pg 59.
6. How Does Plate Tectonics Work?
Plates move relative to one another, with continental parts of plates being
lighter (more likely to “float”) than oceanic parts
Lithosphere is generated where plates pull apart and destroyed where plates come
together at subduction zones
Graphic: Garrison, 4th Ed. Fig. 3.13, pg 71, 5th Ed. Fig. 3.14, pg 67.
7. Earth's Internal Heat – Driving Plate Motion
Radioactive decay in the crust and upper mantle generates heat, keeping the
asthenosphere pliable and the lithosphere in motion
This internal heating sets up convection currents in the mantle
Plates are pushed or pulled in response to mantle convection and gravity
Graphics: (left) Sketch showing convection cells commonly seen in boiling water,
Garrison 5th Ed. Fig. 3.13a, pg 67 (right) Conceptual drawing of assumed
convection cells in the mantle, Garrison 5th Ed. Fig. 3.13b pg 67. (animation)
8. What Does the Theory of Plate Tectonics Explain?
Earthquakes
Mountain ranges
Mid-ocean ridges
Island chains
Volcanoes
Deep ocean trenches
Geothermal areas
The age of the seafloor
Ocean sediments
Fossils and rocks
Graphic: The Hawaiian Islands, as viewed by the MODIS Terra Satellite, courtesy
of NASA.
9. Plate Tectonics Affects Life on Earth Every Day
Eruption of Mount Etna, Italy, Oct-Nov 2002. (top left) Agence France-Presse
photo, (bottom left) Associated Press, (right) BBC News.
10. Plate Tectonics in Action
Tectonic events are common:
- at plate boundaries, e.g., volcanoes in Iceland, earthquakes in Japan
- where new plates are forming, e.g., volcanoes in East Africa where the African
plate is splitting in two
Graphic: Lava fountains from the 1980 eruption of the Krafla volcano, Iceland.
Photo by G.E. Sigvaldason. Courtesy of USGS.
11. Types of Plate Boundaries
Convergent - plates come together (lithosphere destroyed)
Divergent - plates move apart (lithosphere generated)
Transform - plates slide by each other (lithosphere not generated or destroyed)
Graphic: Garrison, 4th Ed., Fig. 3.14, pg. 72, 5th Ed. Fig. 3.15 pg 68.
12. Divergent Plate Boundaries: Birthplaces of Oceans
A rift forms where the lithosphere cracks
Plates separate, magma flows upward and hardens to form new rock
A new ocean basin forms
Examples: East Africa, Red Sea, Atlantic Ocean
Graphic: Garrison 4th Ed. Fig. 3.17a-d, pg 74, 5th Ed., Fig 3.18a-d, pg 70.
(animation)
13. East Africa - The Next New Ocean?
Left: Seismic activity in Africa, courtesy of Incorporated Research Institutions
for Seismology.
Top: Lava flows through the streets of Goma, Jan 20, 2002. Associated Press.
14. Mid-Ocean Ridges and Sea Floor Spreading
Newly formed rocks at divergent plate boundaries are hotter and less dense than
surrounding material
These seafloor rocks “sit” up higher than surrounding areas, forming long
mountain chains known as mid-ocean ridges
Graphics: (left) Age of the seafloor, courtesy of NOAA (red=young, blue=old).
(right) Topography along the East Pacific Rise, showing the higher elevations of
the mid-ocean ridge (red) and the lower elevations (blue) of the surrounding
terrain.
15. Motion Along Convergent Plate Boundaries
At convergent boundaries the motion depends on the densities of the colliding
plates
Continental crust (less dense)
Young oceanic crust (intermediate density)
Old oceanic crust (more dense)
Graphic: The Himalayas, PBS/NOVA.
16. Subduction Zones: Convergence of Oceanic and Continental Plates
The oceanic plate subducts below the less dense continental plate
Descent of the oceanic plate causes earthquakes
The subducting plate melts into the asthenosphere fueling volcanic activity
Example: West coast of South America
Graphic: Garrison, 4th Ed. Fig. 3.19, pg 76, 5th Ed. Fig. 3.20, pg 72
(animation)
17. Island Arcs: Convergence of Oceanic Plates
Island arcs form by volcanic activity caused by the subduction of one oceanic
plate under another
Example: Islands of Japan
Graphic: Garrison, 4th Ed., Fig. 3.21, pg 77, 5th Ed. Fig. 3.22, pg 73.
18. Mountain Building: Convergence of Continental Plates
Neither plate is dense enough to subduct
Mountain ranges form where the plates crumple together
Example: Himalayas
Graphic: Garrison, 4th Ed. Fig. 3.22, pg 77, 5th Ed. Fig. 3.23, pg 73.
(animation)
19. Motion Along Transform Plate Boundaries
Plates slide by each other at transform plate boundaries
This motion is also referred to as "shear" or "translation"
Graphic: Garrison, 4th Ed. Fig. 3.16b, pg 73, 5th Ed. Fig. 3.17g, pg 69.
20. Faults at Transform Plate Boundaries
Sliding motion causes elastic or brittle deformation
Brittle deformation causes earthquakes
Ex: San Andreas Fault, California
Graphics: (left) Garrison, 4th Ed. Fig. 3.24, pg 78, 5th Ed., Fig. 3.25, pg 74,
(right) Aerial view of San Andreas fault, R.E.Wallace, photographer, courtesy of
USGS.
21. Motion at Plate Boundaries - Summary
Divergent boundaries
- Rifting (splitting of a continental plate)
- Creation of new oceans (divergence of two oceanic plates)
Convergent boundaries
a) Subduction - Formation of continental volcanoes (convergence of an
oceanic and a continental plate) or Island arc formation (convergence of two
oceanic plates)
b) No subduction:
Formation of a non-volcanic continental mountain ranges (convergence of two
continental plates)
Transform boundaries
- Plates slide by each other, sometimes producing intense seismic activity
22. Preview of Next Lecture
Plate Tectonics and Ancient Oceans
Reading:
4th Ed. Ch 3 Sec 31, Ch 4 Secs 6, 8-9, 11, 18-19
5th Ed. Ch 3 Sec 31, Ch 4 Secs 6-9, 11, 17-18
Graphic: CNN, Jan 23, 2003. Photo by the Associated Press.