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Transcript
Core Mantle Lithosphere • Inner Core (solid Fe and Ni) • Outer Core (liquid Fe and Ni) • Lower Mantle (solid) • Asthenosphere (hot, taffy-like part; the “plates” move on it when driven by convection currents • Upper Mantle (solid) • CRUST: 2 types: Oceanic (more dense) or Continental (less dense) Continental Crust Oceanic Crust Rock Type Granite Basalt Color Light Dark Composition High Si, Low Fe Low Si, High Fe Density Low High Average Thickness 40 km, avg. 6-7 km, avg. Depth (general) Floats higher in the mantle Floats lower in the mantle – form basins that fill with water Hypothesis proposed by Alfred Wegner, a German Scientist, in 1912 A theory that at one time all the continents were joined as one supercontinent called Pangaea (Greek word meaning “all the earth”), and over time have been drifting apart. Continental Drift gave an explanation to finding similar organisms, rock types and past glacial activity on several different continents – in Wegener’s time and today. Wegener thought the continents were pushing through a stationary ocean floor but he couldn’t prove it, so many people rejected his theory. THEN NOW http://www.scotese.com/pangeanim.htm In the early 1900s most people, including scientists, believed that the ocean floor was flat. Advances in technology in the 1940s and 1950s proved this theory to be wrong. Sonar, a type of echo sounding device that uses sound waves to measure water depth, is one advance that allowed scientists to study the ocean floor in detail. Another advance was the magnetometer, a device that can detect small changes in magnetic fields. This is a great tool because the ocean crust has a lot of iron in it. Maps were made using sonar and magnetometer data and showed scientists that the ocean floor had different landforms like they saw on Earth’s surface. Topographic maps were made from sonar and magnetometer data that helped to discover vast, underwater mountain chains called mid-ocean ridges, and underwater ditches called deep-sea trenches. The longest mountain chain in the world is the Mid-Atlantic Ridge, found in the Atlantic Ocean. The deepest trench is the Marianas Trench, found in the Pacific Ocean . Scientists found that rock samples taken from areas near ocean ridges were younger than samples taken from areas near deep-sea trenches. This was indicated on their maps using lines called isochrons, or lines on a map that connect points (of sediments) that have the same age. Using sonar, topographic and age information from the new technology, American Scientist Harry Hess proposed Seafloor Spreading in the mid-1900s. His theory states that new ocean crust is formed at ocean ridges and destroyed at deep-sea trenches. **Note: Seafloor Spreading was the missing link needed by Wegener to complete his model of continental drift. (A) Yellow is new (seafloor ) crust created at the ocean ridge (where magma breaks through the ocean floor) (B) Red is new crust; older crust (yellow) has been moved away (C) Yellow is new crust; older crust continues to move away from the ocean ridge
