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Explore plate tectonics to understand how Earth's plates shape its surface, from mountains to ocean basins. Discover divergent, convergent, and conservative plate boundaries creating geological features. Witness the ocean floor's mountain chains and the impact of plate movement.
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Lesson 14: Plate Tectonics II Geological Oceanography
Last class we learned about Earth’s plates • The Earth’s surface is a mosaic of rigid plates all moving with respect to each other • These movements result in many of the structural features we see on Earth, like mountains, trenches and ocean basins • Plate movement also shapes continents, for example leading to formation of mountains like the Himalayas
Today we’ll learn more about plate movement or plate tectonics • As plates moves, they always interact with other plates • The ways that plates interact along their boundaries shape geological features of Earth’s surface and the terrain • The terrain of the seafloor includes seafloor (abyssal) hills, mountain chains (ridges, islands and seamounts), trenches and great platforms, all formed by tectonic processes
Map of the ocean floor This map shows that the ocean floor has underwater mountain chains (shown by the tan lines) Photo: NOAA-OE/WHOI
There are three types of plate boundaries • Divergent Boundary: Two plates move apart, called Spreading Centers • Convergent Boundary: Two plates collide, called Subduction Zones • Conservative Boundary: Two plates slide past one another, called Transform Faults
Divergent boundary • Two plates move away from each other, pulling crust apart • As crust pulls apart, magma (molten rock) rises up to form new crust and seafloor, a process called seafloor spreading • The spreading center is raised because of the heat of the magma and sometimes has a central rift valley, as in the mid-Atlantic Ridge • Most spreading centers are found within the new seafloor they are forming Spreading center Plate 1 Plate 2 Magma
Divergent boundaries and mid-ocean ridges • Mid-ocean ridges are continuous mountain chains found in all the world’s ocean basins • Mid-ocean ridges occur along divergent boundaries (spreading centers) • The entire mid-ocean ridge system is the longest continuous mountain chain on earth! • (Over 40,000 miles long and found primarily below 2000 m) • Examples of mid-ocean ridges: • Mid-Atlantic Ridge: runs down center of Atlantic Ocean basin • East Pacific Rise: runs down Pacific Ocean basin, parallel to South and Central America
This image shows a mid-ocean ridge mountain chain called the East Pacific Rise Photo: NOAA-OE/WHOI Close-up of ocean ridge
Convergent boundary Two plates collide with each other • Oceanic-Oceanic plates: Can form trenches or island arcs like the Aleutian Islands • Oceanic-continental plates: Oceanic plate gets subducted, pushed beneath, the continental plate • Forms oceanic trenches and volcanic mountains on land, like the Cascade Mountains and the Andes Mountains • Continental-continental plates: Form mountains as crust folds together, like the Himalayas
This map shows the location of the Aleutian Islands, which were created as a resulted of oceanic-oceanic plate convergence Photo: NOAA A recent NOAA voyage to the Aleutian Island area uncovered rarely seen Subarctic oceanic life, like this snailfish Aleutian Islands: A result of plate tectonics
Conservative boundary • Two plates slide past one another in opposite directions, parallel to, and along a transform boundary, also known as a transform fault • This results in earthquakes, like those in California along the San Andreas Fault (the boundary between the Pacific and North American plates) Plate 1 Plate 2
Viewing the global terrain • The plate movement you learned about results in the geological terrain that makes up our planet • Examples include mountains, trenches, valleys and volcanoes • We’ll get a global view of these features during the student activity, when we take a trip to space