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If you've ever floated on an ocean swell,
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you'll know that the sea moves constantly.
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Zoom out, and you'll see the larger picture:
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our Earth, covered by 71 percent water,
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moving in one enormous current around the planet.
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This intimidating global conveyor belt
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has many complicated drivers,
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but behind it all is a simple pump
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that moves water all over the earth.
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The process is called thermohaline circulation,
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and it's driven by a basic concept:
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the concentration gradient.
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Let's leave the ocean for one moment
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and imagine we're in an empty room
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with lots of Roombas sardined together
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in one corner.
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Turn them all on at once
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and the machines glide outwards
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bumping into and away from each other
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until the room is filled with an evenly spaced distribution.
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The machines have moved randomly
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towards equilibrium,
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a place where the concentration of a substance
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is equally spread out.
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That's what happens along a concentration gradient,
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as substances shift passively from a high,
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or squashed, concentration,
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to a lower, more comfortable one.
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How does this relate to ocean currents and thermohaline circulation?
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Thermo means temperature,
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and haline means salt
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because in the real world scenario of the sea,
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temperature and salinity drive the shift
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from high to low concentrations.
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Let's put you back in the ocean
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to see how this works.
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Snap!
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You're transformed into a molecule of surface water,
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off the temperate coast of New York
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surrounded by a zillion rowdy others.
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Here, the sun's rays act as an energizer
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that set you and the other water molecules
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jostling about, bouncing off each other
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like the Roombas did.
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The more you spread out,
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the less concentrated the water molecules
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at the surface become.
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Through this passive motion,
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you move from a high to a lower concentration.
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Let's suspend the laws of physics for a moment,
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and pretend that your molecular self
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can plunge deep down into the water column.
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In these colder depths,
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the comparative lack of solar warmth
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makes water molecules sluggish,
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meaning they can sit quite still at high concentrations.
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No jostling here.
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But seeking relief
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from the cramped conditions they're in,
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they soon start moving upwards
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towards the roomier situation at the surface.
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This is how temperature
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drives a shift of water molecules
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from high to low concentrations,
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towards equilibrium.
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But sea water is made up of more than just H2O.
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There are a great deal of salt ions in it as well.
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And like you, these guys have a similar desire
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for spacious real estate.
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As the sun warms the sea,
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some of your fellow water molecules
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evaporate from the surface,
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increasing the ration of salt to H2O.
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The crowded salt ions left behind
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notice that lower down,
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salt molecules seem to be enjoying more space.
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And so an invasion begins,
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as they too move downwards in the water column.
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In the polar regions,
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we see how this small local process
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effects global movement.
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In the arctic and antarctic,
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where ice slabs decorate the water's surface,
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there's little temperature difference
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between surface and deeper waters.
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It's all pretty cold.
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But salinity differs,
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and in this scenario,
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that's what triggers the action.
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Here, the sun's rays melt surface ice,
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depositing a new load of water molecules
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into the sea.
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That not only increases the proximity
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between you and other water molecules,
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leaving you vying for space again,
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but it also conversely dilutes
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the concentration of salt ions.
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So, down you go,
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riding along the concentration gradient
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towards more comfortable conditions.
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For salt ions, however,
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their lower concentration at the surface,
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acts like an advertisement
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to the clamoring masses of salt molecules below
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who begin their assent.
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In both temperate and polar regions,
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this passive motion along a concentration gradient,
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can get a current going.
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And that is the starting point
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of the global conveyor
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called thermohaline circulation.
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This is how a simple concept
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becomes the mechanism underlying
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one of the largest
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and most important systems on our planet.
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And if you look around,
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you'll see it happening everywhere.
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Turn on a light, and it's there.
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Concentration gradients govern
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the flow of electricity,
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allowing electrons squashed together in one space
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to travel to an area of lower concentration
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when a channel is opened,
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which you do by flipping a switch.
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Right now, in fact, there's some gradient action going on
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inside you as you breath air into your lungs
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letting the concentrated oxygen in that air
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move passively out of your lungs
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and into your blood stream.
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We know that the world is filled
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with complex physical problems,
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but sometimes the first step
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towards understanding them can be simple.
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So when you confront the magnitude
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of the ocean's currents,
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or have to figure out how electricity works,
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remember not to panic.
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Understanding can be as simple as flipping a switch.
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