Chapter 2 Key concepts: Continental drift Seafloor spreading Convergent plate boundary Divergent plate boundary Transform-fault plate boundary Why do plates.

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Chapter 2 Key concepts: Continental drift Seafloor spreading Convergent plate boundary Divergent plate boundary Transform-fault plate boundary Why do plates move? Magnetic anomalies Pangaea

Which force(s) create earthquakes and volcanoes? 1.Gravity 2.Electro- magnetism 3.Nuclear forces

Plate Tectonics The unifying theory of the Earth sciences The outer portion of the Earth is made up of about 20 distinct “plates” (~ 100 km thick), or lithosphere which move relative to each other This motion is what causes earthquakes and makes mountain ranges

Continental Drift The concept that large-scale horizontal movements of the outer portions of the Earth are responsible for the major topographical features such as mountains and ocean basins. Proposed by Alfred Wegner in 1912 based on his observation of drifting sheets of ice.

The topography of Mars by NASA and Venus from tes.asu.edu/images/SOL_SYST/VENUS/venus_to pography.gif Venus Mars

Moon topography (FROM oon_html/moon_exploer/images/Topography.jpg

Geographic Fit of the Continents One of the first pieces of evidence used to argue for continentaldrift Suggested that all continents were once together in a single supercontinent called Pangea Fig. 2.1

Geology and Paleontology Matches on Opposite Sides of the Atlantic Fig. 2.2

The Rejection and Acceptance of Continental Drift Rejected by most geologists. New data after WWII led to the “plate tectonic revolution” in 1960’s. Now embraced by essentially everybody. Today’s geology textbooks radically different than those 40 years ago.

Plate Tectonics Integrates evidence from many branches of science First suggested based on evidence from geology and paleontology Fully embraced after evidence from geophysics

Plate Tectonics Predicts Location of Earthquakes and Volcanoes Fig. 2.4

Evidence for Plate Tectonics Came from the Seafloor bathymetrybathymetry age of ocean crustage of ocean crust magnetic datamagnetic data Fig. 2.3

A Mosaic of Plates Fig. 2.5

Modern Plate Motions geology geology GPS measurements GPS measurements magnetic data magnetic data mm/year Fig. 2.5

ch?v=Npqx3WmNkv4 New Zealand Earthquake

Which of the following theories best explains the cause of movement of continents across the earth’s surface... 1.Plate Tectonics 2.Continental Drift

Driving Mechanism of Plate Tectonics 1.GRAVITY 2.Convection may have overturned asthenosphere 4–6 times.

Driving Mechanism of Plate Tectonics GRAVITY-- cooling lithosphere thickens with age and slides under its own weight down the top of the asthenosphere Convection may have overturned asthenosphere 4–6 times.

Key parts of Plate Tectonics Lithosphere or rigid lid that holds both crust and cold mantle together as one solid block (0-100km) asthenoshphere or plastic,ductile, layer also within the mantle (100km depth to 300 km depth??)

Two Models of Mantle Convection Fig. 2.17

Divergent Plate Boundary Usually start within continents— grows to become ocean basin Fig. 2.6

Compositional subdivisions of the earth Crust km thick cont. granite 2.7 g/cc oceanic- basaltic >2.8 g/cc mantle Mantle peridotite >3 g/cc down to 2900 km depth

Mechanical subdivisions of the upper earth asthenosphere lithosphere RIGID DUCTILE

Comparison of views earth structure crust mantle Mantle asthenosphere lithosphere RIGID DUCTILE

Plates Group of rocks all moving in the same direction Can have both oceanic and continental crust or just one kind.

Ridge Push and Trench Pull Fig. 2.16

Tectonic Plate movement is caused by 1.Ridge Pull and Trench Push 2.Ridge Push and Trench Pull 3.Slabduction forces 4.Convection Currents

Enter question text...

The Seafloor as a Magnetic Tape Recorder During and after WWII, it was noticed that the magnetic field near the ocean floor exhibited significant variation. Subsequent analysis shows that the changes in the rocks reflect changes in the Earth’s magnetic field over time.

The Seafloor as a Magnetic Tape Recorder When certain magnetic minerals cool below their Curie temperature of 573 degrees the magnetic domains in these minerals “freeze” in the direction of the current earth’s magnetic field until the sample is weathered away or reheated in the lab or by natural burial.

Fig. 2.11

Magnetic Reversals in a Single Volcano Fig. 2.11

The Magnetic Record Fig. 2.11

Magnetic Reversals at Mid-ocean Ridges Fig. 2.11

Magnetic Age of the Oceans Fig. 2.14

Three Types of Plate Boundaries Fig. 2.5 Transform Divergent Convergent

Divergent Plate Boundary Usually start within cotinents— grows to become ocean basin Fig. 2.6

Divergent Plate Boundary Fig. 2.7

Continental Rifts East Africa, Rio Grande rift Beginning of ocean formation although it may not get that far Rifting often begins at a triple junction (two spreading centers get together to form ocean basin, one left behind).

Fig. 2.15

Divergent Plate Boundary Fig. 2.6

Divergent Plate Boundaries Fig. 2.8

Convergent Boundaries Relative densities are important: continental crust 2.8 g/cm 3 oceanic crust 2.9 g/cm 3 mantle 3.3 g/cm 3

Is the Earth Expanding? New crust created at Mid-ocean ridge—old crust destroyed (recycled) at subduction zones The Earth is maintaining a constant diameter.

Convergent Boundaries Three types: ocean–ocean Japan ocean–continent Andes(South America) continent–continent Himalayas

Ocean–Ocean Island arcs: Tectonic belts of high seismicity High heat flow arc of active volcanoes Bordered by a submarine trench

Tectonics Predicts Location of Earthquakes and Volcanoes Fig. 2.4

Marianas Islands-Challenger Deep/Marianas Trench (10,924 m or ~ 7miles) arianas/marianaspic2.JPG

Convergent plate boundary Fig. 2.9

Ocean–Continent Continental arcs: Active volcanoes Often accompanied by compression of upper crust

Convergent Plate Boundary Fig. 2.9

Continent–Continent In ocean–continent boundaries, collision convergence is taken up by subduction In continent–continent boundaries, convergence is accommodated by deformation of the crust without subduction (both plates are too buoyant to be subducted)

Transform Plate Boundary Fig. 2.10

Hot-spot Volcanism Fig. 2.18

The International Ocean Drilling Project JOIDES Resolution Box 2.1 CHIKYU

Fig. 2.12

Modern Plate Motions Fig. 2.13

Rates of Plate Motion Mostly obtained from magnetic anomalies on seafloor. Fast spreading Fast spreading: 10 cm/year Slow spreading Slow spreading: 3 cm/year

Pangaea (“all lands”) The latest supercontinent Started to break apart at the start of the “Age of Reptiles”- the Mesozoic Era of the Earth’s history

When was the Gulf of Mexico Formed? Check out the following slides

Fig. 2.15