Ocean Currents - PowerPoint PPT Presentation
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Title: Ocean Currents
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Bell work
Given the average yearly temperatures for the
Sicily Isles in England and Newfoundland in
Canada, can you explain why the two locations
have very different year-round temperatures? Note
their locations on a globe/map, and use what you
know about the movement of ocean currents to
support your answer.
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Objectives for today!
- Describe surface currents.
- List the three factors that control surface
currents. - Describe deep currents.
- Identify the three factors that form deep
currents. - Investigate the relationship between currents
and oceanic temperature differences. - Explain how currents affect climate.
- Describe the effects of El Niño.
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Ocean Currents
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What is a current?
- A current is the movement of water that follows a
regular pattern. - Ocean water contains streamlike movements of
water called ocean currents. - There are two types of currents, surface currents
and deep currents.
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Surface currents
- There are three causes of surface currents.
- Continental deflection
- Global winds
- Coriolis Effect
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What do you think continental deflection is?
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Continental deflection
- If the Earth was made up of only water, than the
oceans would move in a uniform pattern. - However the continents cause the currents to
change directions when the current meets land.
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How do you think winds control currents?
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Global winds
- This is where the winds above the oceans surface
push on the water causing it to move.
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What do you think the Coriolis Effect is?
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Coriolis effect
- The Coriolis effect is the apparent curving of
the path of a moving object from an otherwise
straight path due to the earths rotation.
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The Coriolis Effect
Visual Concept
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All three in action!
- When you combine all three factors they form the
pattern of surface currents on Earth.
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Surface Currents, continued
- Taking Temperature Currents are also affected
by the temperature of the water in which they
form. - The next slide shows Earths surface currents.
Warm-water currents are shown as red arrows, and
cold-water currents are shown as blue arrows.
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- Warm-water currents begin near the equator and
carry warm water to other parts of the ocean. - Cold-water currents begin closer to the poles and
carry cool water to other parts of the ocean.
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Objectives for today!
- Describe surface currents.
- List the three factors that control surface
currents. - Describe deep currents.
- Identify the three factors that form deep
currents. - Investigate the relationship between currents
and oceanic temperature differences. - Explain how currents affect climate.
- Describe the effects of El Niño.
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Deep Currents
- Deep currents are the stream like movements of
water far below the surface of the water. - Density-the amount of matter in a given space
- Salinity- measure of the amount of dissolved
solids or salts in a liquid.
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Deep Currents
- Deep currents are not controlled by wind.
- Deep currents form in parts of the ocean where
water density increases. The density of the ocean
is affected by temperature and salinity.
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Deep currents
- There are three ways to increase density of ocean
water - Decrease temperature
- Increase salinity through freezing
- Increase salinity through evaporation
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Decreasing Temperature
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Increasing Salinity through Freezing
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Increasing Salinity through evaporation
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Deep Currents, continued
- Formation and Movement of Deep Currents
Differences in water density cause variations in
the movement of deep currents.
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Objectives for today!
- Describe surface currents.
- List the three factors that control surface
currents. - Describe deep currents.
- Identify the three factors that form deep
currents. - Investigate the relationship between currents
and oceanic temperature differences. - Explain how currents affect climate.
- Describe the effects of El Niño.
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Ocean Atmosphere Circulation
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Equatorial to polar heat transport and water flow
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How do you think currents affect coastal
tempuratures?
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Surface Currents and Climate
- Warm-Water Currents and Climate Warm-water
currents create warmer climates in coastal areas
that would otherwise be much cooler. - Why?
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Surface Currents and Climate, continued
- Cold-Water Currents and Climate Cold-water
currents keep climates along a coast cooler than
the inland climate year-round. - Why?
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Surface Currents and Climate, continued
- Upwelling is the movement of deep, cold, and
nutrient-rich water to the surface of the ocean. - The nutrients that are brought to the surface
support the growth of plankton. Plankton support
larger organisms, such as fish and seabirds. - Upwelling is shown on the next slide.
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Upwelling
- This brings nutrient rich waters up to the
surface. - Many organisms depend on these nutrient rich
waters to survive.
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Surface Currents and Climate, continued
- El Niño is a change in the water temperature in
the Pacific Ocean that produces a warm current. - Effects of El Niño El Niño alters weather
patterns enough to cause disasters, including
flash floods, mudslides, and droughts. El Niño
also prevents upwelling off the coast of South
America.
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Surface Currents and Climate, continued
- Studying and Predicting El Niño Learning as
much as possible about El Niño is important
because of its effects on organisms and land. - One way scientists use technology to predict an
El Niño is with a network of buoys operated by
the National Oceanic and Atmospheric
Administration (NOAA). - The buoys are located along the Earths equator
record data about surface temperature, air
temperature, currents, and winds.
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Objectives for today!
- Describe surface currents.
- List the three factors that control surface
currents. - Describe deep currents.
- Identify the three factors that form deep
currents. - Investigate the relationship between currents
and oceanic temperature differences. - Explain how currents affect climate.
- Describe the effects of El Niño.
