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SEA-FLOOR SPREADING. In the mid-1900’s, scientists realized that the ocean floor had many mountain ranges similar to those on the continents. These underwater mountain ranges are called mid-ocean ridges.
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SEA-FLOOR SPREADING
In the mid-1900’s, scientists realized that the ocean floor had many mountain ranges similar to those on the continents. These underwater mountain ranges are calledmid-ocean ridges.
Sonar is a device that determines the distance of an object under water by recording echoes of sound waves. Scientists used sonar to map these mid-ocean ridges.
Mid-ocean ridges were discovered under all of Earth’s oceans! Most are underwater, but a few can be seen above the surface. Look at the map on the next slide. Can you find a place where a ridge rises above the surface of the ocean?
In 1960, an American geologist namedHarry Hess suggested that new material is constantly being added to the ocean floor. He called this processsea-floor spreading.
Along the ridge, molten material that forms several kilometers beneath the surface rises and erupts. As the molten material cools, it forms a strip of solid rock in the center of the ridge. This pushes the older rock outward away from the ridge. This is what happens in sea-floor spreading: At each mid-ocean ridge, there is a crack in the oceanic crust.
EVIDENCE • Evidence of the presence of molten material was found. • The rock that makes up the ocean floor lies in a pattern of magnetized stripes.
EVIDENCE • Evidence of the presence of molten material was found. • The rock that makes up the ocean floor lies in a pattern of magnetized stripes. • Rock samples found farther away from ridges are older than rock samples found close to the ridges.
Hmm… This evidence led scientists to take another look at Wegener’s hypothesis of continental drift!
But if new ocean floor is constantly being produced, why don’t the oceans keep getting wider and wider?
As new ocean floor is being produced at mid-ocean ridges, other parts of the ocean floor are sinking back into the mantle. This happens atdeep-ocean trenches. This process is called subduction.
Eventually, gravity pulls the older, denser crust down beneath the trench. New oceanic crust is very hot. As it cools, it becomes more dense.
Sea-floor spreading and subduction work together to move the ocean floor as if it were on a huge conveyor belt.
The Pacific Ocean is full of trenches. It is almost completely surrounded by them! Because of this, oceanic crust is being subducted faster than it is being produced.
The Atlantic Ocean has very few trenches. Because of this, the ocean floor has almost nowhere to go. As the ocean floor spreads, the continents along its edges also move making the ocean wider.
Why can't we feel all of this? The sea floor and the continents generally move at rates of only a few centimeters each year. It takes about 200 million years for new rock to form at a mid-ocean ridge, move across the ocean, and sink into a deep-ocean trench.