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Transcript
Seafloor Spreading Mapping the Ocean Floor • Before WWI in order to map the ocean floor a rope was lowered from a boat to the ocean floor and the depth was recorded at different locations. • The invention of sonar in which sound waves bounced off the ocean floor to determine depth made the mapping of the ocean floor much faster and accurate. • Researchers found underwater mountains and valleys. • Ridges containing long rift valleys where volcanoes erupted were found. • In the Atlantic, the Pacific, and in other oceans around the world, a system of ridges called the mid-ocean ridges, is present. • Scientist became curious as to what caused these ridges. The Sea Floor Moves • Harry Hess proposed a theory called seafloor spreading. • Hess proposed that hot, less dense material flows beneath the crust. Rising toward the surface at the mid-ocean ridges then flowing sideways, carrying the seafloor away from the ridges. Hess’s Seafloor Spreading Theory Cont. • As the seafloor spreads apart the hot magma fills the cracks. The magma cools forming new seafloor. As the cooler more dense material moves away from the midocean ridge it sinks helping to form a new ridge. Evidence of Spreading • The youngest rocks are obtained closer to the ridge and the farther away from the ridge the older the rocks become. • New seafloor features and life-forms also were discovered there. Exotic life forms are supported by the warm temps and chemicals from the molten lava material. Magnetic Clues • When the Earth’s magnetic field reverses itself it is recorded in the rocks forming the mid-ocean ridges. • The reversal of the magnetic field is recorded in the rocks containing iron-bearing minerals such as magnetite. • Using a magnetometer scientists can detect magnetic fields, the rocks on the ocean floor show many periods of magnetic reversal. Magnetic Time Scale • The magnetic alignment in the rocks reverse back and forth over time in strips parallel to the mid-ocean ridges. • A strong magnetic reading is recorded when the polarity of a rock is the same as the polarity of Earth’s magnetic field today. • The normal polarity show up as large peaks, thus providing strong support for the seafloor spreading theory. • The magnetic reversal showed that new rock was being formed at the mid-ocean ridges, helping to explain how the crust moves and supporting the continental drift theory.
