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What makes volcanoes erupt? - Steven Anderson

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    In February of 1942,
    Mexican farmer Dionisio Pulido
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    thought he heard thunder
    coming from his cornfield.
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    However, the sound wasn’t coming
    from the sky.
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    The source was a large, smoking crack
    emitting gas and ejecting rocks.
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    This fissure would come to be known as
    the volcano Paricutin,
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    and over the next 9 years, its lava
    and ash would cover over 200 square km.
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    But where did this new volcano come from,
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    and what triggered
    its unpredictable eruption?
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    The story of any volcano
    begins with magma.
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    Often, this molten rock forms
    in areas where ocean water
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    is able to slip into the Earth’s mantle
    and lower the layer’s melting point.
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    The resulting magma typically remains
    under the Earth’s surface
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    thanks to the delicate balance
    of three geological factors.
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    The first is lithostatic pressure.
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    This is the weight of the Earth’s crust
    pushing down on the magma below.
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    Magma pushes back with the second factor,
    magmastatic pressure.
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    The battle between these forces
    strains the third factor:
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    the rock strength of the Earth’s crust.
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    Usually, the rock is strong enough
    and heavy enough
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    to keep the magma in place.
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    But when this equilibrium is thrown off,
    the consequences can be explosive.
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    One of the most common causes
    of an eruption
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    is an increase
    in magmastatic pressure.
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    Magma contains various elements
    and compounds,
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    many of which are dissolved
    in the molten rock.
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    At high enough concentrations, compounds
    like water or sulfur no longer dissolve,
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    and instead form
    high-pressure gas bubbles.
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    When these bubbles reach the surface,
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    they can burst with the force
    of a gunshot.
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    And when millions of bubbles
    explode simultaneously,
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    the energy can send plumes of ash
    into the stratosphere.
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    But before they pop, they act
    like bubbles of C02 in a shaken soda.
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    Their presence lowers
    the magma’s density,
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    and increases the buoyant force
    pushing upward through the crust.
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    Many geologists believe this process
    was behind the Paricutin eruption
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    in Mexico.
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    There are two known natural causes
    for these buoyant bubbles.
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    Sometimes, new magma
    from deeper underground
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    brings additional gassy compounds
    into the mix.
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    But bubbles can also form
    when magma begins to cool.
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    In its molten state, magma is a mixture
    of dissolved gases and melted minerals.
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    As the molten rock hardens, some of those
    minerals solidify into crystals.
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    This process doesn’t incorporate
    many of the dissolved gasses,
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    resulting in a higher concentration
    of the compounds
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    that form explosive bubbles.
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    Not all eruptions are due
    to rising magmastatic pressure—
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    sometimes the weight of the rock
    above can become dangerously low.
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    Landslides can remove massive quantities
    of rock from atop a magma chamber,
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    dropping the lithostatic pressure
    and instantly triggering an eruption.
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    This process is known as “unloading”
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    and it’s been responsible
    for numerous eruptions,
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    including the sudden explosion
    of Mount St. Helens in 1980.
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    But unloading can also happen
    over longer periods of time
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    due to erosion or melting glaciers.
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    In fact, many geologists
    are worried that glacial melt
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    caused by climate change
    could increase volcanic activity.
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    Finally, eruptions can occur when
    the rock layer is no longer strong enough
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    to hold back the magma below.
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    Acidic gases and heat escaping from magma
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    can corrode rock through a process
    called hydrothermal alteration,
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    gradually turning hard stone
    into soft clay.
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    The rock layer could also be weakened
    by tectonic activity.
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    Earthquakes can create fissures
    allowing magma to escape to the surface,
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    and the Earth’s crust
    can be stretched thin
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    as continental plates
    shift away from each other.
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    Unfortunately, knowing
    what causes eruptions
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    doesn’t make them easy to predict.
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    While scientists can roughly determine
    the strength and weight
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    of the Earth’s crust,
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    the depth and heat of magma chambers
    makes measuring changes
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    in magmastatic pressure very difficult.
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    But volcanologists are constantly
    exploring new technology
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    to conquer this rocky terrain.
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    Advances in thermal imaging
    have allowed scientists
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    to detect subterranean hotspots.
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    Spectrometers can analyze
    gases escaping magma.
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    And lasers can precisely track the impact
    of rising magma on a volcano’s shape.
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    Hopefully, these tools will help us better
    understand these volatile vents
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    and their explosive eruptions.
Title:
What makes volcanoes erupt? - Steven Anderson
Speaker:
Steven Anderson
Description:

View full lesson: https://ed.ted.com/lessons/what-makes-volcanoes-erupt-steven-anderson

In February of 1942, Mexican farmer Dionisio Pulido thought he heard thunder coming from his cornfield. However, the sound wasn’t coming from the sky. The source was a large, smoking crack emitting gas and ejecting rocks, and would come to be known as the volcano Paricutin. Where do new volcanoes like this come from, and what triggers their unpredictable eruption? Steven Anderson investigates.

Lesson by Steven Anderson, directed by Cabong Studios.
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Video Language:
English
Team:
closed TED
Project:
TED-Ed
Duration:
05:10
Elise Haadsma approved English subtitles for What makes volcanoes erupt?
Elise Haadsma accepted English subtitles for What makes volcanoes erupt?
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