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Download 8.4 Plate Movement and Continental Growth
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Transcript
8.4 Plate Movement and Continental Growth Objectives: At the end of this lesson we should be able to: 1. Explain how Earth’s land masses have changed positions over the past 200 million years. 2. We understand and explain the roles of plate tectonics, igneous activity, and deposition in the formation of continental land masses. Key Ideas: The movement of tectonic plates have caused Earth’s continents to change their positions on the globe over time. New material has been added to the continents as a result of plate tectonics. Reconstructing the Past There is a vast body of scientific evidence showing that the continents have changed dramatically along the geological time. Some of the evidence is presented below: Evidence of Change over Time Distribution of old mountain ranges show that in the geological past two older plates collided to form these mountains. Such examples are Ural Mountains, which “welds” Europe with Asia, Appalachian Mountains in SE of the United States, The Great Dividing Range in Eastern Australia, etc. Evidence of Change over Time - Ages of rocks which form the ocean basins show that in the proximity of the mid ocean ridge there are young rocks, which formed recently from the magma which was spewed through the rift. As we move further, towards the seduction zones, we find older and older oceanic crust. For example, the oldest oceanic crust is about 200 million years old. Evidence of Change over Time Fossils offer some of the most reliable evidence about movement of continents. Imagine this: on the top of Himalaya Mountains scientist have found fossils of aquatic organisms, which means that layers of rocks which are now on mountain tops were once on the bottom of the sea. Evidence of Change over Time Evidence of Change over Time The presence of coal in now cold areas, without vegetation, show clearly that these areas had once a warm and humid climate, which means that they migrated in cold areas over time. Coals were found in Antarctica, and Greenland, to mention only a couple. Pangaea Scientific evidence shows that all continents were once united in a super continent which they called Pangaea. Breakup of Pangaea First, Pangaea broke into two landmasses: In the past 200 million years the continents moved continuously until they reached today’s configuration. Plate Tectonics and Continental Growth In millions of years the continents changed not only their location but also shape, and size! Every continent has a core of the old Pangaea. This old crust is called craton. The North part of Canada and the neighboring islands are part of an old, old piece of crust called the Canadian Shield. Here we find some of the oldest rocks on Earth. They are over two billion years old! Continental Growth The ancestors of most continents were smaller. Processes associated with plate movements have added rock materials to the margins of the ancient continent cores. Sources of growth material are: -deep-sea sediments -igneous rocks -river sediments -terranes Deep Sea Sediments The brown layer in the image are sediments which accumulate in the planetary ocean Deep-Sea Sediments A thick layer of sediments accumulates on the bottom of the planetary ocean. These sediments consist of dead organisms, debris carried from the surface of the continents by major rivers, or loose material carried by air currents from continents (dust particles, volcanic ashes, etc.) This material will be scraped off at subduction zones, and added to the edges of continents as new mountain ranges. Igneous Rocks Volcanoes bring to the surface huge amounts of new material which is deposited on the continents . River Sediments River Sediments All rivers carry debris that is eroded along their course. This material is deposited along the banks, if the slope of the terrain is very small or horizontal. Some rivers form a delta at their mouth. A good example is Mississippi River, which builds new land rapidly, filling the Gulf of Mexico. New Land: Mississippi Delta formed by accumulation of sediments carried by the river Terranes A terrane is a large block of a lithosphere plate that has been moved, often over distances of thousands of kilometers and attached to the edge of a continent. Terranes are: -bounded on all sides by major faults -the rocks and fossils do not match with the neighboring land masses -the magnetism of the rocks is different than the surrounding land masses. All these show that a terrane formed elsewhere and was attached to another land mass.
