global circulation - homepageshomepages.abdn.ac.uk/nph120/meteo/metoh10.pdf · 2009. 11. 1. ·...
TRANSCRIPT
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Global Circulation
Local weather doesn’t come from all directions equallyEveryone’s weather is part of the global circulation pattern
Wind rose shows % frequencyof winds around the compass
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Global Circulation Models
The only way forward for understanding our climate is to set up computational general circulation models
globalcirculationrepresents the averagewinds aroundthe world
Island of Eigg on Scottish W. coast: photo JSR
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Digression: Lewis Fry Richardson (1881 – 1953)
Numerical forecasting using the laws of physics isn’t a new ideaL F Richardson outlined the method in his book Weather Prediction by Numerical Process, published in 1922
he realised that you need weather data from a grid of weather stations, not clumps near population centreshe realised that you need upper atmosphere readings and he pioneered methods of balloon borne data collectionhe tried putting the ideas into practice but hadn’t adequate computational technology
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Figure 1.2
Courtesy: IPCC 2007
Late 1980s Mid 1990s
Late 1990s Mod 2000s
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Geographic resolution of
climate models
Courtesy: IPCC 2007
First Assessment Report 1990
Second Assessment Report 1996
Third Assessment Report 2001
Fourth Assessment Report 2007
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The Hadley Cellspherical Earth no difference between land and seaSun over the equatorno influence of Coriolis force
Hot equator and cold poles create a pressure difference that drives surface air from pole to equatorWinds aloft flow in the opposite direction, to
complete the cell [fig. 11.1/10.1], as expectedThis model is too simple to predict the observed
circulation
Tropic of Cancer
Tropic of Capricorn
Equator
South Pole
North Pole
WarmWarm
Cold
Cold
Airrises
Air
rises
Air sinks
Air sinks
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Six-cell Model
Earth's rotation makesa big difference to the very simple model
equatorial lowsubtropical high ('Azores' in Atlantic)subpolar lowpolar high
[Fig. 11.2/10.2]
Surface flows
ITCZ low
30°
60°
Polar high
HighHadley cell
Ferrelcell
Polar cell
Low
The greater number of cells in Jupiter’s atmosphere shows conspicuously →
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Influence of the Coriolis ForceThe upper level circulation from the warm equator is expected to be polewardsCoriolis force bends the flow to the rightA geostrophic balance occurs around latitudes 30°, limiting the Hadley cellIf the Earth rotated faster, or the insolation was less, this limit would be nearer the equator
Upper air flows
ITCZ low
30° HighHadley cell
Upper atmospheric flow
Regions of sub-tropical jets
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Global Winds
3 cells per hemisphere definea broad pictureof surface winds in moderately goodagreement with observed windsNotice the importance of the Coriolis force in determining the direction of the windsThe Intertropical Convergence Zone (ITCZ) is where the trades run together into the doldrums
ITCZ lowNE trades
Westerlies
Polar high
High
Doldrums
Polar easterlies
Polar easterlies
SE trades
Westerlies
Low
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Global View
The ITCZ is characterized by warm, rising air, plenty of clouds and rainThe trade wind belts are comparatively cloud freeThe ITCZ is clearly seen on geostationary satellite images
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The World Today
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Winds from
Satellite Measure-
ments
Winds at different heights can be derived from observing the speed at which features seen in different wavelength bands move
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Ocean Surface Winds
Quikscat radar reflection remote sensing gives surface winds at 10 m height over the oceans
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Real World Winds
The interaction of landand sea introduces semi-permanent highs and lows around the world
January [next slide]: notice the lows in S. hemisphere over Australasia, S. America and Central Africa →
our weather is dominated by the Icelandic low
July [second slide on]: weaker Icelandic low; central Asian low has replaced the Siberian high →→
our weather is influenced by the Azores high moving northward at irregular intervals. Long-term tendency is known as the North Atlantic Oscillation (NAO)
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January Winds
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July Winds
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Global Precipitation
Precipitation is associated with warm, rising air fed with ocean moisture [p. 279/262]. See also appendix GThe general circulation features move about 10°to 15° in latitude following the Sun's movement
Incipient rain at Portmahomack: photo JSR
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Wind Aloft
A lot of weathertends to come down on us from above
when an anticyclone dominates, the air within it is sinkingwhen a depression comes over, we experience a
sequence of clouds of decreasing heightWinds aloft tend to determine the direction that
storms move and how deeply they intensify [fig. 11.8/10.8]
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Jet Streams
The Polar front jet stream has an important influence on our weather
jet stream circles Earth in a huge wavy line a few hundred km wide, a few km thick, around height of tropopause, with central speeds typically 200 km hr-1 in direction West to Eastjet stream forms at the junction of cold, polar air to north and warm subtropical air to south [fig. 11.10/10.12]there is also a subtropical jet stream where the Hadley and Ferrel cells meet. See the next slide
Polar cell
Hadley cell
Polar jet
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Jet Stream Locations
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Origin of Jet Stream
Polar jet stream occurs at the junction of warm and cold air, where there is a sharp pressure change and a strong pressure gradient [fig. 11.12/10.12]
the faster winds occur near the highest altitude in the troposphere
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Role of Angular Momentum
Air moving round the earth with speed v and towards the pole must increase its speed to preserve its angular momentum, since its distance from the Earth's rotation axis is less [p. 287/268] r
mN
S
EarthAngular momentum mvr=
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Ocean CurrentsOcean currents are driven by 3 effects
atmospheric windstemperature and salinity gradients (‘thermo-haline’)hydraulic heads (height differences)
Gulf Stream is largely a wind driven current circulating water around the Sargasso seaNorth Atlantic drift drives current into the Arctic Sea with the help of a hydraulic headSalinity gradient drives cold water return south from Greenland
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Ocean currents transport energy
Ocean currents transport large amounts of energy to different latitudes
energy transport happens on a timescale measured in monthsocean currents extend to the ocean floor,
producing long-term movement of water around the globe on a timescale measured in centuries
Major feature of ocean currents are a sequence of loops called gyres [next slide] →
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Global Ocean Currents
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Ekman Spiral
Surface water moves at about 45° to the driving wind, due to the action of the Coriolis force
water below the surface moves at an angle to water on the surface that is driving it [fig. 11.17/10.17]
water further down moves at an angle to subsurface water that is driving it, and so on …...
The result is a spiral pattern of velocity, with an average movement about 90° to the wind
Wind
Surface water
Subsurface water
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El Niño
El Niño is an intermittent, warm surface ocean current from the West at equatorial latitudes that impinges on South and Central America, the result of a disturbed ocean-atmosphere systemEl Niño is accompanied by a reversal of normal atmospheric pressure systems over West and East Pacific
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Normal and El Niño
Circulation
Normal: wet weather to the West, cool sea on East PacificEl Niño: wet weather in the East and warm sea
Diagrams courtesy Canadian Institute of Ocean Sciences
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Monitoring the Atmosphere and Ocean
TAO the Tropical Atmosphere Ocean project of NOAA monitors sea temperatures and winds from an array of Pacific buoys
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The Atmospheric Connection
The atmospheric pressure reversal is called the Southern Oscillation
combined with El Niño: ENSO
http://tao.noaa.gov/tao/jsdisplay/index_ndbc.shtml
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El Niño and La Niña
Fig. 10.22 ↑
PDO →
20 – 30 year period
http://topex-www.jpl.nasa.gov/science/pdo.html
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Sea Surface Temperatures Recorded1997/98 was a strong El Niño year
El Niño occurs near the end of every year but usually lasts only a few weeksA strong El Niño lasts for many months, chokes
off the nutrient rich cold Peruvian current, with important knock-on economic effects (animation: http://www.cdc.noaa.gov/map/clim/sst_olr/sst_anim.shtml
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The Wider Effects of El Niño
El Niño isn't just about Peruvian fishermen loosing a living, or flooding of the coastal plains in Ecuador and California, or drought and bush fires in Australia
the extra, warm, tropical water injects large amounts of addition moisture and latent heat into the atmosphere, probably modifying subtropical jet streamscorrelated climate anomalies in terms of modified
rainfall and temperature patterns seem to occur in regions around the world [fig. 11.24/10.24 and next slide].
see the next slidetrying to understand these secondary effects is one of the goals
of today's meteorological research
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Graphical summary of impacts
Courtesy: http://www.pmel.noaa.gov/tao/proj_over/diagrams/gif/weatherpat.gif