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Deep Currents

Deep Currents. Deep currents make up 90% of the water in the ocean. Deep ocean currents are driven by density and temperature gradients. An underwater current circles the globe with a force 16 times as strong as all the world's rivers combined. Deep Currents.

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Deep Currents

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  1. Deep Currents

  2. Deep currents make up 90% of the water in the ocean. Deep ocean currents are driven by density and temperature gradients. An underwater current circles the globe with a force 16 times as strong as all the world's rivers combined. Deep Currents

  3. Deep currents are also known as thermohaline currents. Water movements driven by differences in density are also known as thermohaline currents because water density depends on its temperature (thermo) and salinity (haline). Thermohaline Currents

  4. A major influence on deep currents is density. Density refers to an object's mass per unit volume, or how compact it is. Density = mass ÷ volume Density

  5. A heavy, compact bowling ball is obviously going to be denser than an air-filled beach ball. With water, colder and saltier equals denser.

  6. Density of ocean water is influenced by several properties: • Temperature • Salinity • Pressure Influences on Density

  7. Increased heat causes increased molecular motion. Warm water is less dense and tends to rise or float Cold water more dense tends to sink Temperature

  8. Defined as the total amount of dissolved salt (NaCl) in parts per thousand. • NaCl is very soluble in water; dissolved in rain runoff from continents and concentrated in oceans by evaporation • Salinity is measured by electrical conductivity • its ability to transmit an electric current and dependent upon concentration of ions (charged ions) • Hydrometer or refractometer Salinity

  9. Salinity refractometer This instrument determines salinity by measuring how light is refracted through a drop of water.

  10. Evaporation- as freshwater evaporates, salt is concentrated (at surface). Precipitation- salt is diluted at surface Freezing of Ice- ice is mostly freshwater, thus salt is concentrated Thawing of Ice- salt is diluted Factors Influencing Salinity

  11. Increased depth----Increased pressure • In Arctic and Antarctic Regions • Low temperatures causes ice formation and increased salinity • High salinity coupled with very low temperature produces very dense water, which plunges down • These bottom currents move slowly across ocean toward the equator Pressure

  12. Driven by Density Differences; causes stratification (or layering) of water • More dense water tends to stay on the bottom (colder, saltier, high pressure) • Less dense water tends to stay on top (warmer, less salty, less pressure) Movement of Bottom Current

  13. At the earth's poles, when water freezes, the salt doesn't necessarily freeze. A large volume of dense cold, salt water is left behind. When this dense water sinks to the ocean floor, more water moves in to replace it, creating a current. The Earth’s Poles

  14. The new water also gets cold and sinks, continuing the cycle. Incredibly, this process drives a current of water around the globe.

  15. This deep-water current is known as the global conveyor belt and is driven by density differences in the water. Global Conveyor Belt

  16. The global conveyor belt begins with the cold water near the North Pole and heads south between South America and Africa toward Antarctica, partly directed by the landmasses it encounters. In Antarctica, it gets recharged with more cold water and then splits in two directions -- one section heads to the Indian Ocean and the other to the Pacific Ocean.

  17. As the two sections near the equator, they warm up and rise to the surface in what you may remember as upwelling. When they can't go any farther, the two sections loop back to the South Atlantic Ocean and finally back to the North Atlantic Ocean, where the cycle starts again.

  18. The global conveyor belt moves much more slowly than surface currents -- a few centimeters per second, compared to tens or hundreds of centimeters per second. Scientists estimate that it takes one section of the belt 1,000 years to complete one full circuit of the globe. However slow it is, though, it moves a vast amount of water -- more than 100 times the flow of the Amazon River. Global Conveyor Belt Movement

  19. The global conveyor belt is crucial to the base of the world's food chain. As it transports water around the globe, it enriches carbon dioxide-poor, nutrient-depleted surface waters by carrying them through the ocean's deeper layers where those elements are abundant. Importance on Food Chain

  20. The nutrients and carbon dioxide from the bottom layers that are distributed through the upper layers enable the growth of algae and seaweed that ultimately support all forms of life. The belt also helps to regulate temperatures. Nutrients and Temperature

  21. Many scientists fear that global warming could affect the global conveyor belt. If global warming leads to increased rain, as some believe it might, the added fresh water could decrease the salinity levels at the poles. Global Warming

  22. Melting ice, another possibility of global warming, would also decrease salinity levels. Regardless of the means, the end scenario is the same: ** Warmer, less dense water won't be dense enough to sink. ** The global conveyor belt could stop – having far-reaching and devastating consequences.

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