Plate Tectonics

Plate Tectonics

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Lecture Outline  

Lithospheric plates Plate boundaries   



Divergent Convergent Transform

Plate interiors

(This will take ~ 2 classes) The Sinai Peninsula: a fragment of continental crust rifted away from Africa and Arabia.

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 Lithospheric plates  ~13 major plates

Fig. 4.3

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 Lithospheric plates  ~13 major plates; plate boundaries defined by zones of seismic activity

Fig. 4.5

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 Relationship between plate boundaries and continental margins 

two types of continental margins:  

active margins - correspond with plate boundaries passive margins - do not correspond with plate boundaries

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Passive continental margin

Mohorovicic discontinuity

Fig. 4.4

Georgia: located on a passive margin CUMBERLAND PLATEAU

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BLUE RIDGE

BLUE RIDGE VALLEY AND RIDGE

Atlanta

PIEDMONT

(ign + met) GEORGIA COASTAL PLAIN

(sedimentary)

Coastal Plain sediments continue onto the continental shelf, and are underlain by thinned basement rocks similar to those in the Georgia Piedmont.

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 Plate boundaries  Geologically active  

earthquakes volcanism

Fig. 4.6

 Three types   

divergent convergent transform

Let’s make this more fun…

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TRANSFORM DIVERGENT

CONVERGENT

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Plate tectonics on a Hawaiian lava lake!!

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 Divergent plate boundaries  

constructive - crust (lithosphere) is being formed by seafloor spreading geologic activity  



voluminous volcanism earthquakes: shallow and not particularly intense

two settings of divergent tectonics  

mid-ocean ridges continental rifts

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Mid-ocean ridges

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Mid-ocean ridges

Fig. 4.8

Pillow lava (basalt)

Eruption of pillow lava

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Hydrothermal vents (“black smokers�) Fig. 4.10

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Mid-ocean ridges

Fig. 4.8 Upwelling of solid asthenospheric mantle

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Example of a mid-ocean rift:

Thingvellir Rift

Iceland

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Example of a continental rift:

Fig. 4.25

East Africa

Mount Kilimanjaro

Continental rifts and the formation of oceans

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Fig. 4.24

What happens to oceanic lithosphere as it ages? Fig. 4.12

Answer: it cools, thickens, and sinks

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 Convergent plate boundaries  

destructive - crust (lithosphere) is being returned to the mantle by subduction geologic activity  

volcanism - less voluminous than at MOR’s, but more of a threat to humans earthquakes - intense, some deep

Subduction zone

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Fig. 4.14 a

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

various types, depending on the types of crust (lithosphere) involved:   

continental crust vs. oceanic crust → oceanic crust is subducted oceanic crust vs. oceanic crust → older (more dense) oceanic crust is subducted continental crust vs. continental crust → neither is subducted; large mountains form

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Subduction along a continental margin Fig. 4.15 a

~100 km

introduction of H2O into the mantle lowers its melting temperature, making basaltic magma

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Example of a continental volcanic arc (modern):

Cascades

Mount St. Helens

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Example of a continental volcanic arc (ancient): vo acc

fo r

arc n n ic asi sm lc a cb p ri ear ary io n re t

California

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Example of a continental volcanic arc (modern):

Andes Machu Pichu, Peru Nazca Plate

Subduction along an oceanic island arc

South American Plate

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Better than Fig. 4.15b

Examples of oceanic island arcs: Aleutians, Japan, and Phillippines

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Mount Fuji

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The Pacific “Ring of Fire”

Continental Collision

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Fig. 4.27

Continental Collision

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Fig. 4.27

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An ancient suture in the Appalachians

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ancient pillow basalts Fig. 3.6 b

Suture formed by closure of Iapetus Ocean (proto-Atlantic) when Pangea was forming

Example of a continental collision:

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Himalayas

Mount Everest

Example of a continental collision:

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Himalayas

Mount Everest

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 Transform plate boundaries  

neither constructive or destructive geologic activity  

 

intense earthquakes generally no volcanic activity

on the continents, they are long faults in the oceans, they segment the oceanic ridges

Example of a transform plate boundary:

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San Andreas Fault

Example of a transform plate boundary:

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Fig. 4.19

San Andreas Fault

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Oceanic fracture zones European Plate North American Plate African Plate

South American Plate

An old idea about fracture zones

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R EJ

! D E EC T Ridge

Ridge

Similar to Fig. 4.17 a-d

A newer idea about fracture zones

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Ridge

Similar to Fig. 4.17 a-d active transform faulting here no active faulting

Ridge

no active faulting

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