| Oceanic Crust |
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Oceanic crust is the part of Earth's Lithosphere that surfaces in the Ocean basins. Oceanic crust is primarily composed of Mafic rocks, or Sima . It is thinner than continental crust, or Sial , generally less than 10 kilometers thick, however it is more dense, having a mean density of about 3.3 Grams per Cubic Centimeter . COMPOSITION Although a complete section of oceanic crust has not yet been drilled, there are estimations of composition based on analyses of Ophiolite s, comparison of seismic structure of the oceanic crust with laboratory determinations of seismic velocities in known rock types, and samples recovered from the ocean floor by Submersible s, dredging (especially from ridge crests and fracture zones) and drilling. Oceanic crust is significantly simpler than Continental Crust and generally it can be divided in three layers.
Geochemistry The most voluminous eruptive rocks composing ocean floor are mid-ocean ridge basalts (MORBs), which are derived from low- Potassium tholeiitic magmas. These rocks have low concentrations of large ion litophile elements (LILE), light rare earth elements (LREE), volatile elements and other highly Incompatible Element s (Th, U, Nb, Ta and Pb). There can be found MORBs enriched with incompatible elements, but they are rare and associated with mid-ocean ridge Hot Spot s such as surroundings of Galapagos Islands , the Azores and Iceland . Clare P. Marshall, Rhodes W. Fairbridge (1999) ''Encyclopedia of Geochemistry'', Kluwer Academic Publishers ISBN: 0-412-75500-9 LIFE CYCLE Oceanic crust generally does not last longer than 200 million years. It is continuously being created at oceanic ridges. At these ridges, hot Magma rises into the crust and cools, pushing the crust apart at the ridge. The continuous formation of new oceanic crust pushes the older crust away from the mid-ocean ridge. As it moves away from the ridge, the crust becomes cooler and denser, while the sediment may build on top of it. The oceanic crust Subducts toward the mantle at what are known as Convergent Boundaries . These boundaries can exist between two oceanic plates or between an oceanic and a continental plate. At oceanic plate-continental plate boundaries, the oceanic plate always subducts because the continental crust is less dense. The subduction process is why oceanic crust lasts a maximum of 200 million years. Plate Tectonics is the study of these processes. MAGNETIC LINES See Also: Seafloor spreading The oceanic crust displays an interesting pattern of parallel magnetic lines, parallel to the ocean ridges, frozen in the basalt. In the 1950’s, scientists mapped the magnetic field generated by rocks on the ocean floor. They noticed a symmetrical pattern of positive and negative magnetic lines as they moved along the ocean floor, and the line of symmetry was at the mid ocean ridge. The fact that the anomalies were symmetrical at the mid-ocean ridge was explained by the hypothesis that new rock was being formed by magma at the mid-ocean ridges, and the ocean floor was spreading out from this point. When the magma cooled to form rock, it aligned itself with the current position of the north magnetic pole of the Earth ( Which Has Reversed Many Times In Its Past ) at the time of its cooling. New magma forced the older cooled magma away from the ridge. Approximately half of the new rock was formed on one side of the ridge and half on the other. REFERENCES
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