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Plate Tectonics Theory ! Plate: large, rigid slab of rock ! Tectonics: “to build” ! Theory of Plate Tectonics: refers to how the Earth's surface is built of a dozen or more large and small plates. The plates are moving relative to one another as they ride atop hotter, more mobile material Lithosphere: the uppermost mantle and overlying crust behave as this strong rigid layer. ! -oceanic lithosphere is thinnest in the oceans (5-10 km thick). ! -continental lithosphere is thickest (>200 km thick) Earth’s major lithospheric plates 15 Solid Plates "float" on an Asthenosphere, of underlying rock that is under such high pressure and high temperature conditions as to permit slight flows of movement Plate Boundaries and relative motion at each ! ! ! Convergent Boundaries ! Convergent: two plates move together, a. oceanic lithosphere being reabsorbed into the mantle -orb. possibly collide with two continental blocks to create a mountain system. ! Oceanic-oceanic convergence: • Deep ocean trenches are a product as oceanic lithosphere descends into the mantle (also called subduction zones). ! • 1 oceanic + 1 oceanic plates (produce volcanic island arcs; mostly in Pacific like Japan, Indonesia, Phillipines) Convergent Boundaries Oceanic-continental convergence: • 1 oceanic + 1 continental plates (produce volcanic mountains like Mount St. Helens) ! Continental-Continental convergence: • 2 continental plates (produce spectacular mountain ranges like Alps, Appalachians, Himalayas). Oceanic-continental convergence Divergent Boundaries Divergent: two plates move apart, resulting in upwelling of hot material to create new seafloor; associated with • oceanic ridges and volcanism • seafloor spreading • continental rifting (landmass may split apart separated by an ocean basin). Transform Boundaries Transform: two plates grind past each other without the production or destruction of lithosphere. Forces that Drive Plate Motion Plate-Mantle Convection - driven by 3 processes 1. heating at the bottom by heat loss from Earth’s core 2. heating from within by the decay of radioactive isotopes 3. cooling from the top that creates thick, cold lithospheric slabs that sink into the mantle. Forces that Drive Plate Motion (cont.) ! • slab pull - as cold, dense slabs sink into asthenosphere, they “pull” the trailing plate along ! • ridge push - due to gravity, the slabs of lithosphere “slide” down the flanks of the ridge. • “mantle drag” - when flow in the asthenosphere is moving faster than that of the plate. Which contributes more to plate motion? Slab pull or ridge push? Slab pull. Fast-moving plate are being sub ducted along a larger percentage of their margins than slow-moving plates
