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METR 2413
5 April 2004
Air Masses and Fronts
Air Mass:
a large volume of air that has remained over a surface for a long enough
period of time to be modified by the surface
- relatively uniform horizontal temperature and moisture content
- relatively homogeneous temperature lapse rate above the
influence of the surface layer
Temperature of an air mass
is classified by the general
characteristics of its “source
region”
A = Arctic (or AA for
Antarctic)
P = Polar
T = Tropical
In addition, air masses are also defined by their moisture
characteristics:
m = maritime (ocean) surfaces
c = continental (land) surfaces
The combination of
temperature and
moisture gives us
five basic air mass
types:
Continental
Arctic (cA)
• extremely cold,
formed over poles
• very dry due to
extreme cold
• usually originate
north of the Arctic
Circle (in winter, 24
hours of dark allow
extreme cooling)
• break southward
across Canada and
USA during winter
• rarely seen at lower latitudes during
summer since summer warms region;
polar front and jet stream found at
higher latitudes
Continental Polar (cP)
 very cold, having developed over sub-polar regions (not as
cold as Arctic air masses)
 very dry, due to cold and developing over land
 form further south in the subpolar Canadian North and
Alaska
 common across continent during winter
 do form in summer,
but mostly only in
Canada and northern
USA
 typically bring clear
and pleasant weather
during the summer
Maritime Polar
(mP)
very cool and moist
 typically bring
cloudy, damp weather
 form over northern
Pacific and northern
Atlantic Oceans
 can form at any
time of year
Maritime Tropical (mT)
• very warm – develop in tropical and sub-tropical latitudes
• very humid
• originate over warm waters of southern Atlantic Ocean, and
Gulf of Mexico
• can form year around, but are most common in summer
• responsible
for hot,
humid days of summer
across much of the
eastern half of North
America
Continental Tropical (cP)
 very warm; develop in lower sub-tropical latitudes
 very dry because of formation over land
 form over the desert southwest and northern Mexico
during summer
 bring heat to the US Plains states and Mississippi Valley
during summer
 as air mass
moves eastward,
moisture is
evaporated into it,
making it more
mT
 these air
masses rarely
form in winter
Fronts
• narrow zone separating air
masses of differing characteristics
• typically only 50 to 100 km wide
• narrow enough that they can be
represented by lines on surface
analysis charts
• typically located in pressure
troughs
• fronts are characterized
according to the character of the
air mass moving
Passing of a cold front:
Variable
Before Passage
After Passage
Clouds
Towering cumulus; Cb;
stratocumulus
Fast – convection, rapid
clearing
Pressure tendency
Falling steadily
Rapid rise
Temperature
High, peaking near front
Falling – may be gradual or
rapid, depending on front
Dewpoint
Relatively high
Decreasing rapidly
Wind direction
SE to SW, veering to parallel
at front
NW
Precipitation
Showers and thunderstorms
just ahead of and with
passage
Fast – rapid end to precip
Slow – continuous precip for
several hours
Visibility
Lowering
Fast – rapid improvement
Slow – gradual improvement
Ceiling
Lowering
(same as above)
Passing of a warm front:
Variable
Before Passage
After Passage
Clouds
Low stratiform near front
Ci -> Cs -> As -> Ns
Clearing: widely scattered
convection
Pressure tendency
Falling
Fairly steady
Temperature
Rising
High; fairly uniform, steady
Dewpoint
Increasing as front
approaches
High; fairly uniform, steady
Wind direction
E-SE
S-SW
Precipitation
Steady, continuous precip up
to 300 miles ahead of front
Scattered
Visibility
Lowering rapidly in precip
Improvement
Ceiling
(same as above)
Rising
Dry Line:
• boundary that separates moist air mass from a dry air mass
• also called “Dew Point Front”
• most commonly found just east of the Rocky Mountains; rare
east of the Mississippi River
• common in TX, NM, OK, KS, and NE in spring and summer
Hot, dry air
Warm, moist air
Gusty southwest
winds
Southeast winds
Rocky Mountains
Dry Line
Idealized, simplified
surface cyclone:
 cool air ahead of
warm front
 warm sector between
cool and cold air
 cold air behind the
cold front
Want to look at the connection between surface patterns and
upper level wind flow
Next up:
VORTICITY!