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Plate Tectonics II: How it works Continental Crust versus Oceanic Crust Mantle Convection The Asthenosphere Boundaries Convergent Divergent Transform Continental Crust Oceanic Crust felsic and low density “light and fluffy” thick and buoyant does not subduct mafic and high density “dark and dense” thin and sinks does subduct Mid-Ocean Ridge Aesthenosphere Subducting Slab old crust destroyed Mantle Upwelling Magma new crust added Tectonic plates “float” on the higher density mantle. Tectonic plates “float” on the higher density mantle. The plates “float” on the asthenosphere, which is a thin boundary layer incorporating parts of the uppermost mantle and the base of the crust. The asthenosphere is “mooshy” (can be sheared relatively easily) allowing the plates above the slide along. The driving mechanism of plate tectonics is mantle convection. Hot mantle material rises at ridges and cooler mantle material sinks at subduction zones. Plate Movement Major Tectonic Plates There are several large tectonic plates and a number of much smaller plates. The Earth’s continents sit on plates composed of both oceanic and continental crust. The huge Pacific plate is composed almost entirely of oceanic crust, and is being subducted around almost its entire western boundary. Eurasian North American Pacific Phillipine Caribbean Pacific African Nazca South American Antarctic Australian-Indian The contacts along which plates meet are called boundaries. Individual plates move relative to each other in one of three ways: Convergent - moving toward each other. Divergent - moving away from each other Transform - moving past each other Plate Boundaries convergent divergent transform The different kinds of boundaries have different properties: Convergent – old oceanic crust destroyed through subduction Divergent – new oceanic crust accreted at mid-ocean ridges Transform – crust neither created or destroyed convergent divergent transform Convergent Boundaries It is impossible for plates to move toward each other unless crust is “moved out of the way” - usually by subduction and destruction of oceanic crust at trenches. Convergent Boundaries It is impossible for plates to move toward each other unless crust is “moved out of the way” - usually by subduction and destruction of oceanic crust at trenches. Convergent Boundaries Benioff Zone Western Pacific Trenches form where oceanic crust is subducted down into the mantle. Benioff Zones - zones of earthquake foci that increase in depth with distance from the trench in the direction of subduction http://wwwneic.cr.usgs.gov/ Convergent Boundaries Descending Slab Western Pacific http://wwwrses.anu.edu.au/ Convergent Boundaries http://wwwneic.cr.usgs.gov/ The western Pacific Ocean is surrounded almost completely by trenches, which subduct the giant Pacific Plate and several smaller plates. The volcanic activity along the Pacific Rim inspired the nickname “Ring of Fire.” Convergent Boundaries Oceanic-Continental http://geo.lsa.umich.edu/~crlb/COURSES/270/ Subduction leads to orogeny A sinking slab of oceanic crust will partially melt as it heats up, creating pockets of magma that rise through the crust, forming volcanoes. Convergent Boundaries Edge of North American Plate http://geo.lsa.umich.edu/~crlb/COURSES/270/ A sinking slab of oceanic crust will partially melt as it heats up, creating pockets of magma that rise through the crust, forming volcanoes. October 1, 2004 http://vulcan.wr.usgs.gov/ October 1, 2004 http://vulcan.wr.usgs.gov/ October 4, 2004 Volcanologists install new equipment in the crater. http://vulcan.wr.usgs.gov/ October 4, 2004 Mount St. Helens lets out some more steam http://vulcan.wr.usgs.gov/ Mount St. Helens Convergent Boundaries Oceanic-Oceanic http://geo.lsa.umich.edu/~crlb/COURSES/270/ When oceanic crust converges with oceanic crust, the denser plate (usually the oldest and coldest) generally subducts. An arc of volcanic islands forms from upwelling magma. Oceanic-Oceanic Convergent Boundaries http://geo.lsa.umich.edu/~crlb/COURSES/270/ Convergent Boundaries Island Arcs Lesser Antilles http://www.geology.pomona.edu/PETRO/IAMAP.GIF http://www.sabapark.com/research_activities/volcano_monitoring/volcanic_info.htm Convergent Boundaries Video Interlude © Montserrat Volcano Observatory Montserrat is a very small island with a very big problem. Uninhabitable zone. http://www.volcano.si.edu/ Convergent Boundaries Continental-Continental http://geo.lsa.umich.edu/~crlb/COURSES/270/ Since continental crust is buoyant, it does not subduct easily. While the edge of a plate can be dragged under by the weight of attached oceanic crust, it does not go far. Convergent Boundaries The massive compressive stresses caused by the collision causes huge low-angle reverse faults to form, stacking crust on crust. The crust also thickenes through ductile compression. http://pubs.usgs.gov http://www.high-altitude-medicine.com/photos-mountain.html Divergent Boundaries When plates move away from each other, mantle material wells up into the space (called a rift), generally creating new oceanic crust. The great oceanic mid-ocean ridges are formed of this upwelling, basaltic magma. Divergent Boundaries Divergent Boundaries Mid-Ocean Ridges Mid-ocean ridges are long mountains formed parallel to oceanic rifts. The plates on either side of the ridge grow as new crustal material is added at the spreading center. Rifts are characterized by relatively shallow earthquake foci along the length of the rift. http://wwwneic.cr.usgs.gov/ Divergent Boundaries Pillow Basalts - lava extruded into ice-cold ocean water forms weird-looking structures that resemble pillows. http://geo.lsa.umich.edu/~crlb/COURSES/270/ Divergent Boundaries Spreading Centers http://geo.lsa.umich.edu/~crlb/COURSES/270/ upwelling magma causes bulge Divergent Boundaries Spreading Centers http://geo.lsa.umich.edu/~crlb/COURSES/270/ upwelling magma causes bulge rift valley forms as plates pull apart Divergent Boundaries Spreading Centers http://geo.lsa.umich.edu/~crlb/COURSES/270/ upwelling magma causes bulge rift valley forms as plates pull apart oceanic crust accretes to continental crust as ridge forms Divergent Boundaries Spreading Centers http://geo.lsa.umich.edu/~crlb/COURSES/270/ upwelling magma causes bulge rift valley forms as plates pull apart oceanic crust accretes to continental crust as ridge forms continents continue to move apart, opening ocean Divergent Boundaries http://pubs.usgs.gov Transform Boundaries Most transform boundaries are associated with mid-ocean ridges (they form perpendicular to the rifts). One of the few major continental crustcontinental crust transform boundaries runs up the west coast of North America. Transform Boundaries Most transform boundaries are associated with mid-ocean ridges (they form perpendicular to the rifts). This movement resolves stresses caused by different rates of spreading along the divergent boundary. Transform Boundaries Transform Boundaries The San Andreas fault system is part of a system of strike-slip faults caused by the relative motion of the North American and Pacific plates. http://pubs.usgs.gov http://www.ingv.it/~roma/cultura/ingescuola/terremotopagina/SanAndreas.html http://wwwneic.cr.usgs.gov/ Boundary Type Volcanoes Mountains Earthquakes Convergent yes yes shallow-deep Divergent yes yes shallow Transform no no varies
