Plate Tectonics PDF

Summary

This document discusses the theory of plate tectonics, including the movement of tectonic plates and evidence supporting this theory. It also explores concepts such as continental drift and matching fossil evidence.

Full Transcript

Plate Tectonics

Have you ever wondered how mountains form? What
about forces of nature such as volcanoes or
earthquakes? The answers to these questions are found
in the layers of Earth and the concept of plate tectonics!

The crust is the top layer of Earth’s surface, and the core
is the center layer. A thick layer of molten rock can be
found between the crust and core. This layer of molten
rock is known as the mantle. The lithosphere is made
up of Earth’s crust and the uppermost part of the mantle.
Cool and rigid, the lithosphere is the outermost layer of lithosphere – consists of the crust
Earth and is broken into large, thick pieces called (light brown) and upper mantle
tectonic plates. These tectonic plates contain different (dark brown)
kinds of crust, oceanic and continental. Both are less molten – melted; liquefied
dense than the mantle, but oceanic crust is denser than
continental crust. This is one reason why continents are tectonic plates – the broken pieces
higher than the ocean floor. However, some continental of the lithosphere that move on the
plates are submerged in the ocean, and some oceanic asthenosphere
plates, such as the entirety of Iceland, are above the
ocean.

Scientists have given names to Earth’s tectonic plates. This map shows the current major tectonic
plates. Many of these plates are named for the continents or oceans they support. Maps of ancient
land and water patterns show how Earth’s plates have moved great distances, collided, and
spread apart.

Earth’s major tectonic
plates include the
African Plate, Antarctic
Plate, Eurasian Plate,
Indian Plate,
Australian Plate, North
American Plate, South
American Plate, and
Pacific Plate.

1
 Plate Tectonics

How did scientists discover that the tectonic plates moved? Was that movement related to
geological structures such as mountains or valleys? Was it related to earthquakes or volcanoes?

Look at the world map and notice the shapes of the continents. Do you see how some continents
appear to fit together like the pieces of a jigsaw puzzle? Why do you think this is? Is it just a
coincidence, or do you think it suggests something important about the history of our planet?

Continental Drift
If you noticed the continents appear to fit together like a jigsaw puzzle, you are not alone. In the
early 20th century, a German scientist named Alfred Wegener noticed this phenomenon. Wegener
hypothesized that at one or more points in Earth’s history, the continents were connected.
Wegener looked for further evidence that the continents may have been connected and moved
over time.

Evidence of Continental Movement
Wegener noticed evidence of matching geologic structures. He looked for connections between
the matching coastlines. Where coastlines appeared to fit together, Wegener noticed that certain
geologic formations also appeared to fit together. For example, a mountain range on one coastline
appeared to connect with a mountain chain on the opposite coastline. Several deposits of
sediments left behind by glaciers also lined up along the matching coastlines of continents.

2
 Plate Tectonics

In addition to geologic evidence, Wegener found matching fossil evidence that supported his
theory that the continents may once have been connected.

Fossils of a freshwater reptile called Mesosaurus were found on both the eastern coast of South
America and the western coast of South Africa. It is highly unlikely these freshwater animals
swam across the entire Atlantic Ocean while they were alive.

Fossils of a land reptile called Lystrosaurus were also found along matching coasts of eastern
Africa, central India, and Antarctica. These land animals also could not have crossed the oceans
separating these continents. Equally unlikely is the possibility that the same species evolved
independently on multiple continents. Instead, Wegener reasoned the continents must have been
joined at one time. As the continents moved apart, they took Mesosaurus and Lystrosaurus
fossils with them.

3
 Plate Tectonics

Wegener concluded from his findings that the
continents must have moved over time. Scientists gave
the process its more familiar name, continental drift. At
least once in Earth’s history, the continents were
connected in large landmasses, or supercontinents.
Around 250 million years ago, all the continents were
connected in one giant supercontinent. Wegener
named this supercontinent Pangaea, which means “all
the Earth.” Over millions of years, the continents
moved apart to their present-day positions.

Despite the evidence Wegener collected, he could not provide a
theory explaining how the continents moved over time. Partly for
this reason, his hypothesis was initially rejected by the scientific
community.

Then, in the 1940s, scientists discovered new evidence about
seafloor spreading that suggested how continents drift.
Wegener on an Unfortunately, Wegener did not live to see his work validated. He
expedition in Greenland, froze to death on an expedition across the Greenland ice cap,
trying to prove his trying to prove his hypothesis.
hypothesis.

4