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Oceans Moderate Climate

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Deep Water Currents--Thermohaline Circulation 90% of the ocean ... Role of Water Masses Water masses help to transfer oxygen from the atmosphere into the deep ocean. – PowerPoint PPT presentation

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Title: Oceans Moderate Climate


1
Oceans Moderate Climate
  • By Suzanne A. McKeon
  • AKA Sammie

2
Heating the ocean
  • Earth is a complex and dynamic system with a
    surface that is more ocean than land. The ocean
    interacts continually with the atmosphere, by
    exchanging, storing, and transporting matter and
    energy.
  • Water bodies have a much higher heat capacity
    than land and intercept more incoming sunlight
    than land surfaces because of its greater
    transparency.

3
Heat Transfer
  • Wherever the Sun is perpendicular to Earth's
    surface, the most heat absorption takes place.
    Equatorial and tropical regions have a net gain
    of heat, whereas polar regions experience a net
    loss. Both air and water currents re-distribute
    heat over Earth. The Sun warms the surface of the
    ocean and land, which in turn warm the atmosphere
    from the bottom up. Wherever the atmosphere
    contacts warm water, evaporation occurs and water
    vapor and energy are transferred to the air mass.

4
Heat Energy
  • Ocean surface waters can store tremendous
    amounts of heat energy. This heat evaporates
    large quantities of water and warms the overlying
    atmosphere. Winds then distribute this heat
    around the globe.
  • The direction of air movements and the
    temperature of the ocean water determine the
    direction storm fronts take as well as their
    intensity.

5
Oceans Effects on Weather
  • About 70 of the world is covered by water. 97
    of this water is in the oceans and seas. Ocean
    water moves a lot! Tides, waves, surface
    currents, and deep water circulation are all
    types of ocean water movement. The oceans have a
    major effect on the weather, and they moderate
    the world's climate.

6
The Water Cycle
http//ga.water.usgs.gov/edu/watercycle.html
7
The Water Cycle cont
  • The Earth's water is always in circulation. It
    has been recycled for the last 3 billion years.
    This process is called the water cycle.

http//www.windows.ucar.edu/tour/link/earth/Water
/water_cycle.html
http//www.windows.ucar.edu/tour/link/earth/clima
te/images/seasons_cycle_big_gif_image.html
8
Water Cycle
  • The cycle starts when the sun's heat evaporates
    water from the oceans into the atmosphere to form
    clouds. When the conditions are just right, the
    clouds release water as rain or snow. Most of the
    rain falls in the oceans, but the rest falls onto
    land. Rivers and streams collect water from the
    ground and return it to the ocean so the whole
    cycle can start all over again. The water cycle
    never ends because the salty ocean water
    constantly supplies fresh water to the
    continents.

9
The Evaporation Stage
http//www.windows.ucar.edu/tour/link/life/images
/coast_jpg_image.html
  • One process which transfers water from the
    ground back to the atmosphere is evaporation.
    Evaporation is when water passes from a liquid
    phase to a gas phase. Rates of evaporation of
    water depend on things like the temperature,
    humidity, and wind.
  • Water that is held in lakes and rivers
    evaporates directly into the atmosphere. Some of
    the water in the ground may also be returned to
    the atmosphere by way of evaporation through the
    soil surface. Of course, the ocean is the
    greatest source for water evaporated into the
    atmosphere.

10
The Transpiration Stage
  • Transpiration is the process by which plants
    return water to the atmosphere. After absorbing
    water from the ground, plants release water
    through their leaves. Transpiration helps plants
    stay cool, in the same way perspiration keeps
    humans and animals cool.

http//www.windows.ucar.edu/tour/link/life/images
/rosebush_Pristine_jpg_image.html
11
The Carbon Cycle
  • Carbon is an element. It is part of oceans, air,
    rocks, soil and all living things. Carbon doesnt
    stay in one place. It is always on the move!
  • Carbon moves from the atmosphere to the oceans.
    The oceans, and other bodies of water, soak up
    some carbon from the atmosphere. Animals that
    live in the ocean use the carbon to build their
    skeletons and shells.

http//www.windows.ucar.edu/tour/link/earth/clima
te/images/carboncycle_jpg_image.html
12
Circulation of the Oceans Surface water
Warm currents are noted in the color red and cold
currents are noted in the color blue.
http//www.windows.ucar.edu/tour/link/earth/Water
/images/Surface_currents_jpg_image.html
13
Oceans Currents
  • Two Types of Ocean Currents
  • 1. Surface Currents--Surface Circulation
  • 10 of all the water in the ocean.
  • these waters are the upper 400 meters of the
    ocean.
  • 2. Deep Water Currents--Thermohaline
    Circulation
  • 90 of the ocean

14
Oceans Currents
  • North South Equatorial Current
  • Equatorial Counter Current
  • North Atlantic Drift
  • Surface water movement takes place in the form of
    currents. Currents move ocean water horizontally
    at the ocean's surface. Surface currents are
    driven mainly by the wind. Other forces such as
    the Coriolis effect and the location of land
    masses do affect surface current patterns. In
    fact, huge circular patterns called current gyres
    can be seen when looking at the world's ocean
    currents.
  • From the equator to middle latitudes, the
    circular motion is clockwise in the Northern
    Hemisphere and counterclockwise in the Southern
    hemisphere. Near the poles of the Earth, there is
    a tendency for the gyres to flow in the opposite
    direction. This circulation of water helps spread
    energy from the Sun. The Sun warms water at the
    equator and then water and heat are transported
    to higher latitudes.

15
Ocean currents are produced by many different
things.
  • Currents are made by the gravitational pull of
    the moon and sun, the prevailing winds blowing on
    the ocean surface and the unequal heating of the
    water by the rays of the sun.
  • The ocean currents are also affected by the
    rotation of the earth. The general movement of
    the currents is clockwise in the Northern
    Hemisphere and counterclockwise in the Southern
    Hemisphere.

16
Gravitational Pull
http//search.live.com/images/results.aspx?qgravi
tationalpullFORMBIRE
17
Why do currents flow?
  • Currents exist at all depths in the ocean in
    some regions, two or more currents flow in
    different directions at different depths.
    Although the current system is complex, ocean
    currents are driven by two forces the Sun and
    the rotation of the Earth.

18
Deep Currents
  • Currents in the deep ocean exist because of
    changes in the density of sea water occurring at
    the surface. These density changes give rise to
    specific water masses, which have well-defined
    temperature and salinity characteristics, and
    which can be traced for long distances in the
    ocean.

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es2Fcurrents.jpg
19
Role of Water Masses
  • Water masses help to transfer oxygen from the
    atmosphere into the deep ocean. The sinking water
    is very cold and contains high concentrations of
    dissolved oxygen acquired at the surface, because
    cold water can hold more oxygen than warm water.
  • During their flow, they mix with "older" water
    that has been away from the surface for a longer
    time, thus ensuring that the bottom waters of the
    ocean are supplied with oxygen.

20
Affects of the Sun
  • The Sun affects the ocean in two ways. First, it
    heats the atmosphere, creating winds and moving
    the sea surface through friction. This tends to
    drag the water surface along as the wind blows
    over it. Although the wind strongly affects the
    surface layer, its influence does not extend much
    below about 100 meters (325 feet) in depth.

21
Affects of the Sun cont
  • The second effect of the Sun is to alter the
    density of the ocean surface water directly by
    changing its temperature and/or its salinity. If
    water is cooled or becomes saltier through
    evaporation, it becomes denser. This can result
    in the water column becoming unstable, setting up
    density-dependent currents, also known as the
    thermohaline circulation.

22
Coriolis force
  • A parcel of water at the equator is moving at
    the same speed as the Earth. If it starts to move
    north, with no friction, it is then going faster
    than the Earth beneath it. To conserve momentum
    (the product of mass and velocity), it
    consequently moves more to the east as it gets
    farther from the equator. The Coriolis force
    therefore increases away from the equator.

23
Coriolis Force
  • This force causes water to move to the right in
    the Northern Hemisphere and to the left in the
    Southern Hemisphere. It exists because moving
    ocean water is affected by friction with the
    Earth only at the seafloor, and because the
    eastward linear velocity of the earth decreases
    from a maximum at the equator to zero at the
    poles (the rotational velocity, however, does not
    change).

24
Ekman's Theory.
  • The first reasonable theory of how the wind
    affects surface currents was derived by Swedish
    oceanographer and mathematician Valfrid Ekman in
    1890. Ekman considered an infinitely wide and
    deep ocean of constant density, divided into an
    infinite number of horizontal layers.
  • The top layer is affected by the wind and by
    friction with the layer below it. The second
    layer is also affected by friction at top and
    bottom, and so on. The Coriolis force also
    affects the layers because they are moving.

25
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