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Transcript
Plate Tectonics Earth’s Layers The Earth's rocky outer crust solidified billions of years ago, soon after the Earth formed. This crust is not a solid shell; it is broken up into huge, thick plates that drift atop the soft, underlying mantle. The Crust • Outermost layer • 5 – 100 km thick • Made of Oxygen, Silicon, Aluminum The Mantle • Layer of Earth between the crust and the core • Contains most of the Earth’s mass • Has more magnesium and less aluminum and silicon than the crust • Is denser than the crust The Core • Below the mantle and to the center of the Earth • Believed to be mostly Iron, smaller amounts of Nickel, almost no Oxygen, Silicon, Aluminum, or Magnesium Tectonic Plates Plate Tectonics • Greek – “tektonikos” of a builder • Pieces of the lithosphere that move around • Each plate has a name • Fit together like jigsaw puzzles • Float on top of mantle similar to ice cubes in a bowl of water The Keys Features of Plate Tectonics (1) The Earth’s crust is constantly being created and destroyed (recycled). (2) Ocean crust, formed at divergent margins, is mafic and dense. (3) As ocean crust ages and cools, its great density relative to the continents results in subduction as plates converge. [As a result, old ocean crust cannot persist, whereas old parts of the buoyant continents can survive for eons.] (4) The other kind of plate margins, transforms, are parallel to the current motion of the plates. How Plates Move http://pubs.usgs.gov/gip/dynamic/unanswered.html Mechanisms of Plate Tectonics: 1 RidgePush 2 3 Mantle drag convective flow of mantle Mechanisms of Plate Tectonics: 4 PlumeDriven A Divergent •plates are moving apart •new crust is created •Magma is coming to the surface B Convergent •plates are coming together •crust is returning to the mantle C Transform •plates are slipping past each other •crust is not created or destroyed A Divergent Continental crust rift valley B Convergent 2 continental plates mountain range C Transform Plates move against each other Stress builds up Oceanic crust midocean ridge 2 oceanic plates or oceanic + continental subduction Stress is released earthquake Different Types of Boundaries http://pubs.usgs.gov/gip/dynamic/understanding.html Divergent Boundary – Arabian and African Plates Divergent Boundary – Iceland http://pubs.usgs.gov/gip/dynamic/understanding.html Divergent Boundary - Oceanic http://www.geology.com Divergent Boundary - Continental http://www.geology.com Convergent Boundary – Indian and Eurasian Plates Convergent Boundary – Oceanic & Continental http://pubs.usgs.gov/gip/dynamic/understanding.html & http://www.geology.com Convergent Boundary – Oceanic & Oceanic http://pubs.usgs.gov/gip/dynamic/understanding.html & http://www.geology.com Convergent Boundaries - Continental http://pubs.usgs.gov/gip/dynamic/understanding.html & http://www.geology.com Transform Boundary – San Andreas Fault www.geology.com Ridge Segment Divergent and transform boundaries can occur together at mid-ocean ridges Scripps Classroom Connection
