Transcript Lecture 10

Lecture 9
• Conceptual model of the global circulation
– Conservation of angular momentum
• Subtropical jetstream
– ITCZ
– Hadley circulation
• Upper-air midlatitude westerlies
• Poleward transport of energy (in midlats)
• Seasonal variations
What are conceptual models
• A general description of a few important
atmospheric features
• Allows understanding of the system
• Not to be taken too seriously
• Remember u=(u,v,w) and u~10, v~1,
w~0.01 m/s.
• Atmospheric motions are dominated by
horizontal wind, especially u
Conceptual model should explain:
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General location of weather patterns
Wind belts and associated pressure distributions
Areas of precipitation, location of deserts
Jet streams, existence and location
Hadley circulation
– ITCZ, trades, horse latitudes
• Midlatitude westerlies
– Embedded low pressure systems
• Polar easterlies
Water covered Earth (no continents),
rotating Earth, spherical Earth
The simple conceptual model
• Upward vertical motion near equator (ITCZ)
• Low-level flow toward equator (trades)
– Deflected toward the west in NH (by Coriolis), the
North easterly trades in NH
• Upper-level flow away from equator
– Coriolis force acts on the N moving air, deflecting it
toward the E. At 30N flowing W to E, the subtropical
jet stream (westerly wind)
• Sinking motion near 30N, subtropical high
Conservation of angular momentum
mass x rotation velocity x distance to rot axis
The skater has to
Spin faster when
She folds her arms
A parcel of air moving N is at a decreased
distance to rotation axis compared to that at
Equator
Conceptual model (continued)
• As parcel of air moves away from the
equator at upper levels, it is cooled by
radiative cooling. Tends to sink in the
subtropical highs
• Sinking suppresses cloud development
and precipitation. Subtropical highs are
very dry (horse latitudes, deserts)
• The ITCZ is located where the trade winds
converge, upward motion, precipitation
Features of the global circulation
Clouds are shown in grey and white
14 Oct 1999. Notice the ITCZ
What is ITCZ breakdown?
GOES-10, VS, 19--30 SEP, 2000
Timescale ~ ½ —3 weeks
Air flowing N in the (upper branch of the Hadley
circulation) converges at ~30N. High pressure at
the surface
Summary on conceptual model of Hadley
circulation
• Hadley circulation is a direct circulation cell.
Rising motion in the ITCZ (rainy), southerly
motion at upper levels that gets turned toward
the right by the Coriolis force into subtropical jet.
Convergence at upper levels and sinking
therefore dry. Horse lat, desert regions on
continents, the subtropical highs (anticyclones).
Associated with calm winds, dry weather. The
return flow toward equator in trades that
converge into the ITCZ – doldrums.
POLAR CELLS: At the pole there is sinking, N flow at
surface = polar easterlies, polew of 60N. Eventually must
have rising motion and return flow at upper levels. Polar
cells are well developed in winter and over continents.
Conceptual model of global circulation (cont)
• Between the Hadley and polar cells, the
midlatitude westerlies flow.
• The midl westerlies encounter the polar
easterlies at the surface at the polar front,
involves rising motion and precip, weather
• At upper levels, this is where the polar jet
is located.
• Indirect circulation cell, sometimes called
the Ferrel cell.
Continents disturb the conceptual model just
described. Instead of W jets, get meandering jets
that have waves superposed on them
Troughs and ridges,
Rossby waves in the
westerlies
Waves in the westerlies, Rossby waves
geopotential height on 500mb surface
Note the differences between Jan and July
Zonal flow pattern, meridional flow pattern, split
flow pattern
Fig. 2.21
Poleward heat transport, total, atmospheric and
oceanic. The max in atm is due to eddies