Tectonic Plate Theory Understanding Basic Principles of Earth Science Related to Geology Earth’s Crust Earth’s crust is the outermost layer. The rigid crust “floats” on the molten part of the mantle called the asthenosphere. Pangea Pangea was the supercontinent from which all continents have split. In 1915 Wegener proposed Earth’s continents looked this way about 225 million years ago. The theory of continental drift was used to explain the current positions of the continents. Wegener could not come up with a mechanism for continental drift. Evidence that Pangea Existed Fit of the continents Fossil similarities Rock similarities Mountain chains *Paleoclimatic evidence *Paleomagnetism Theory of Plate Tectonics Fit of the Continents North and South America match almost perfectly with Africa and Europe Fossil Similarities *Mesosaurus, a reptile similar to an alligator once lived in the shallow waters of both South America and Africa. Rock Similarities Rocks of same age are found in locations of South America and Africa that were once joined in Pangea. Termination of Mountain Chains The map shows location of Pangean mountain chains (dark blue) that correspond with current mountain chains. Paleoclimatic Evidence Glacial deposits at the equator Coral reefs in Antarctica Therefore the landmasses must have been in different locations in the past. Magnetism Earth is a bar magnet Magnetic north and south poles These are not the same location as the geographic north and south poles Exact location varies year-to-year Paleomagnetism This is magnetism “frozen” in the rock at the time it was formed. Geologists can determine pole reversals by studying rock all over the globe. Sea Floor Spreading Surveys of the ocean basins showed a system of ridges and trenches. This led geologists to come up with the idea of Sea Floor Spreading. Symmetrical magnetic “stripes” were discovered on either side of the Atlantic Mid-ocean ridge. Sea Floor Spreading Magnetic Reversals along a Mid-Ocean Ridge (“stripes”) Youngest, newest rock is along the ridge. Oldest rock is farthest from ridge. Theory of Plate Tectonics A rigid piece of lithosphere (outer crust) is floating on a partially plastic (molten, soft) asthenosphere Seven Major Plates 3 types of Plate Boundaries Plate Boundaries *Divergent-Spreading CenterOcean ridges and seafloor spreading (Atlantic Ocean) *Convergent-Creates trenches and island arcs (Pacific Ocean) *Transform-Plates move past one another (San Andreas Fault in California) Divergent Boundaries Magma from deep within Earth forces its way between two plates, pushing them apart. The magma cools and forms new seafloor. More magma emerges and pushes apart the cooled rock. Seafloor Spreading/mid-oceanic ridges Rift Valley A rift valley forms when a continent is slowing splitting apart along a divergent boundary. The African Rift Valley is an example. Locations of Seafloor Spreading Convergent Plates move together Oceanic crust slides under continental crust. Subducting crust slides under. Andes Mountains Chain in South America is an example. Mountains formed from volcanoes along the convergent boundary. Convergent Boundaries The Pacific Ocean by several continental plates. The ocean basin is sliding under the continental plates along the plate boundaries. As a result, the Pacific Ocean is growing smaller. Why the Pacific is Shrinking and the Atlantic is Growing Hawaiian Islands are an island arc. More Examples of Convergent Boundaries Japanese Islands (Pacific Ocean) Cascade Mountains (Northwestern U.S.A.) Himalaya Mountains (Nepal-Asia) Transform Plate Boundary Plates move past one another along strike-slip faults What Drives the Tectonic Plates?? Convection Cells Hot Spots