How do ocean currents work? - Jennifer Verduin
-
0:07 - 0:08In 1992,
-
0:08 - 0:12a cargo ship carrying bath toys
got caught in a storm. -
0:12 - 0:15Shipping containers washed overboard,
-
0:15 - 0:21and the waves swept 28,000 rubber ducks
and other toys into the North Pacific. -
0:21 - 0:23But they didn’t stick together.
-
0:23 - 0:24Quite the opposite–
-
0:24 - 0:27the ducks have since washed up
all over the world, -
0:27 - 0:30and researchers have used their paths
-
0:30 - 0:34to chart a better understanding
of ocean currents. -
0:34 - 0:36Ocean currents are driven
by a range of sources: -
0:36 - 0:40the wind, tides, changes in water density,
-
0:40 - 0:43and the rotation of the Earth.
-
0:43 - 0:48The topography of the ocean floor
and the shoreline modifies those motions, -
0:48 - 0:49causing currents to speed up,
-
0:49 - 0:52slow down, or change direction.
-
0:52 - 0:55Ocean currents fall into
two main categories: -
0:55 - 0:58surface currents and deep ocean currents.
-
0:58 - 1:00Surface currents control the motion
-
1:00 - 1:03of the top 10 percent
of the ocean’s water, -
1:03 - 1:06while deep-ocean currents mobilize
the other 90 percent. -
1:06 - 1:08Though they have different causes,
-
1:08 - 1:11surface and deep ocean currents
influence each other -
1:11 - 1:15in an intricate dance that keeps
the entire ocean moving. -
1:15 - 1:16Near the shore,
-
1:16 - 1:20surface currents are driven
by both the wind and tides, -
1:20 - 1:25which draw water back and forth
as the water level falls and rises. -
1:25 - 1:30Meanwhile, in the open ocean, wind is the
major force behind surface currents. -
1:30 - 1:32As wind blows over the ocean,
-
1:32 - 1:35it drags the top layers
of water along with it. -
1:35 - 1:37That moving water pulls on
the layers underneath, -
1:37 - 1:40and those pull on the ones beneath them.
-
1:40 - 1:43In fact, water as deep as 400 meters
-
1:43 - 1:47is still affected by the wind
at the ocean’s surface. -
1:47 - 1:51If you zoom out to look at the patterns
of surface currents all over the earth, -
1:51 - 1:55you’ll see that they form
big loops called gyres, -
1:55 - 1:58which travel clockwise
in the northern hemisphere -
1:58 - 2:00and counter-clockwise
in the southern hemisphere. -
2:00 - 2:03That’s because of the way
the Earth’s rotation -
2:03 - 2:07affects the wind patterns that
give rise to these currents. -
2:07 - 2:08If the earth didn’t rotate,
-
2:08 - 2:11air and water would simply
move back and forth -
2:11 - 2:13between low pressure at the equator
-
2:13 - 2:15and high pressure at the poles.
-
2:15 - 2:16But as the earth spins,
-
2:16 - 2:21air moving from the equator to the
North Pole is deflected eastward, -
2:21 - 2:25and air moving back down
is deflected westward. -
2:25 - 2:27The mirror image happens
in the southern hemisphere, -
2:27 - 2:29so that the major streams of wind
-
2:29 - 2:33form loop-like patterns
around the ocean basins. -
2:33 - 2:36This is called the Coriolis Effect.
-
2:36 - 2:40The winds push the ocean beneath
them into the same rotating gyres. -
2:40 - 2:44And because water holds onto heat
more effectively than air, -
2:44 - 2:48these currents help redistribute
warmth around the globe. -
2:48 - 2:50Unlike surface currents,
-
2:50 - 2:55deep ocean currents are driven primarily
by changes in the density of seawater. -
2:55 - 2:57As water moves towards the North Pole,
-
2:57 - 2:58it gets colder.
-
2:58 - 3:01It also has a higher
concentration of salt, -
3:01 - 3:06because the ice crystals that form
trap water while leaving salt behind. -
3:06 - 3:09This cold, salty water is more dense,
-
3:09 - 3:10so it sinks,
-
3:10 - 3:13and warmer surface water takes its place,
-
3:13 - 3:17setting up a vertical current called
thermohaline circulation. -
3:17 - 3:22Thermohaline circulation of deep water
and wind-driven surface currents -
3:22 - 3:26combine to form a winding loop
called the Global Conveyor Belt. -
3:26 - 3:29As water moves from the depths of
the ocean to the surface, -
3:29 - 3:33it carries nutrients that nourish the
microorganisms -
3:33 - 3:36which form the base of many
ocean food chains. -
3:36 - 3:39The global conveyor belt is the
longest current in the world, -
3:39 - 3:41snaking all around the globe.
-
3:41 - 3:45But it only moves a few
centimeters per second. -
3:45 - 3:49It could take a drop of water
a thousand years to make the full trip. -
3:49 - 3:53However, rising sea temperatures are
causing the conveyor belt -
3:53 - 3:55to seemingly slow down.
-
3:55 - 3:58Models show this causing havoc with
weather systems -
3:58 - 4:00on both sides of the Atlantic,
-
4:00 - 4:03and no one knows what would happen if it
continues to slow -
4:03 - 4:05or if it stopped altogether.
-
4:05 - 4:09The only way we’ll be able to forecast
correctly and prepare accordingly -
4:09 - 4:14will be to continue to study currents
and the powerful forces that shape them.
- Title:
- How do ocean currents work? - Jennifer Verduin
- Speaker:
- Jennifer Verduin
- Description:
-
more » « less
In 1992, a cargo ship carrying bath toys got caught in a storm. Shipping containers washed overboard, and the waves swept 28,000 rubber ducks and other toys into the North Pacific. But they didn't stick together -- the ducks have since washed up all over the world. How did this happen? Jennifer Verduin dives into the science of ocean currents. [Directed by Cabong Studios, narrated by Addison Anderson, music by Matheus Wittmann].
- Video Language:
- English
- Team:
closed TED
- Project:
- TED-Ed
- Duration:
- 04:16
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lauren mcalpine edited English subtitles for How do ocean currents work? | |
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lauren mcalpine edited English subtitles for How do ocean currents work? | |
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Tara Ahmadinejad edited English subtitles for How do ocean currents work? | |
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Tara Ahmadinejad edited English subtitles for How do ocean currents work? |