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Global Tectonics II-Origin of an Idea
• Divergent Plate Boundaries– Plates moving apart
• Convergent Plate Boundaries– Plates moving toward one another
• Transform Plate Boundaries– Plates move laterally past each other
Cascadia Suduction Zone-local Plate Tectonics
Continental Drift
• Predecessor to modern plate tectonics
• Shape and “fit” of the continents was the initial evidence– Snider-Pelligrini (1858)
– Taylor (1908)
– Wegner (1915)
Continental drift maps by Wegner (1915)
Continental Drift
• Alfred Wegener (1880-1930)– Proposed all of the continents were once
part of a large supercontinent - Pangaea
– Based on:• Similarities in shorelines • Distinctive rock and fossil groups found in
Africa & South America
Evidence for Continental Drift
• Paleontological– Similarity of fossils on opposite sides of
the Atlantic and Indian Oceans
Paleontological evidence
Evidence for Continental Drift
• Rock type & structures– Distinct rock type and geologic structures
on both sides of the Atlantic Ocean
Rock type & structure evidence
Evidence for Continental Drift
• Glaciation– Late Paleozoic glaciation
• Covered large portions of the southern continents
• Distinct glacial deposit
Reconstruction from glacial deposits
Evidence for Continental Drift
• Paleoclimate– Evidence of extreme changes in climate
as compared to the present
Paleoclimate evidence
Development of Plate Tectonic Theory
• Original evidence for continental drift was from continental rocks
• Technological advances in the 1950’s and 1960’s allowed investigation of the sea floor
• Geophysics & paleomagnetism provided new data
Geology of the Ocean Floor
• Topography of the ocean basins– Basins are divided by a large ridge
system
– Ridge system continuous around the entire globe
– Central rift valley within the ridge
• Paleomagnetism– Fe rich minerals magnetized by Earth’s
magnetic field present at time of formation.
• Polar wandering– Earth’s north magnetic pole has
(apparently) moved through time
Reconstruction from paleomagnetic data
• Magnetic reversals– Earth’s magnetic field polarity has
reversed through time
• Magnetic polarity stripes in ocean crust parallel ridges– Symmetrical on either side of the ridge
– Polarity chrons give age of seafloor• Increases away from ridge• Rates of plate motion may be calculated
Patterns of magnetic reversals
Age of the sea floor
Global Distribution of Earthquakes
Major tectonic boundaries
• Divergent Plate Boundaries– Plates moving apart
• Convergent Plate Boundaries– Plates moving toward one another
• Transform Plate Boundaries– Plates move laterally past each other
Divergent plate margins
Convergent plate boundaries
Rates of Plate Motion• Two ways to look at plate motion
– Relative velocity – the movement of one plate relative to another
– Absolute velocity – compares plate movement to a fixed position
• Rates vary from 1 to 20 cm/yr
Rates of plate motion around the world
Tectonic Mechanisms
• Convection of heat from the core and mantle drives tectonics– Convection cells bring new material to
the surface
– Old crust is pushed away from ridges
– Subduction carries cool crust back into the mantle
Models of plate tectonic motion
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