Download Air Masses and Fronts

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

page
1
page
2
page
3
page
4
page
5
page
6
page
7
page
8
page
9
page
10
page
11
page
12
page
13
page
14
page
15
page
16
page
17
page
18
page
19
page
20
page
21
page
22
page
23
page
24
page
25
page
26
page
27
page
28
page
29
page
30
page
31
page
32
page
33
page
34
Document related concepts
no text concepts found
Transcript 
Air Masses and Fronts
Ahrens Chapter 12
Air Mass Properties
• Air masses take on the properties of the
underlying surface
• Air masses are classified according to
their location of “origin”
• Geographical Characteristics
– Tropical, Polar, Arctic
• Surface Properties
– maritime, continental
• Source region characteristics most
prevalent if air mass remains over source
region for a long period
Air Mass Classifications
• cP - continental Polar
– Cold, dry, stable
– Extremely cold cP air mass may be designated cA
(continental Arctic)
• mP - maritime Polar
– Cool, moist, unstable
• mT - maritime Tropical
– Warm, moist, usually unstable
• cT - continental Tropical
– Hot, dry
– Stable air aloft, unstable surface air
Air Mass Source Regions
summer
only
An example of air mass modification
• cP air from Asia and frozen polar regions is carried across
the Pacific, circulating around Aleutian low
• Contact with the ocean warms and moistens the air near the
surface, transforming it to an unstable mP air mass
• As the mP air moves inland it crosses several mountain
ranges, removing moisture as precipitation
• The drier mP air is transformed back to cP air as it travels
across the cold, elevated interior of the U.S.
General Circulation - January
• Warm, moist mT
air moves into
California on
Jan. 1, 1997
• Heavy flooding
caused 100,000
people to flee
their homes
• Yosemite NP
experienced
nearly $200
million in
damages and was
closed for two
months
The Pineapple
Express brings
heavy rain
Fronts
A Front -
is the boundary between air masses; normally
refers to where this interface intersects the
ground (in all cases except stationary fronts, the
symbols are placed pointing to the direction of
movement of the interface (front)
Warm Front
Cold Front
Stationary Front
Occluded Front
Air Mass Fronts
Figure 12.12
Two air masses entering a region, such as the U.S. middle latitudes,
have a front, or transition zone, between the strong temperature
and humidity differences.
Four different fronts are used on weather maps.
Characteristics of Fronts
• Across the front - look for one or more
of the following:
– Change of Temperature
– Change of Moisture characteristic
• RH, Td
– Change of Wind Direction
– Change in direction of Pressure Gradient
– Characteristic Precipitation Patterns
How do we decide
what kind of front it is?
• If warm air replaces colder air, the front is a
warm front
• If cold air replaces warmer air, the front is a
cold front
• If the front does not move, it is a stationary
front
• Occluded fronts do not intersect the ground;
the interface between the air masses is aloft
Typical Cold Front Structure
• Cold air replaces warm; leading edge is steep in fastmoving front shown below due to friction at the ground
– Strong vertical motion and unstable air forms cumuliform
clouds
– Upper level winds blow ice crystals downwind creating cirrus
and cirrostratus
• Slower moving fronts have less steep boundaries -shallower clouds may form if warm air is stable
Typical Warm Front Structure
• In an advancing warm front, warm air rides up over colder
air at the surface; slope is not usually very steep
• Lifting of the warm air produces clouds and precipitation
well in advance of boundary
• At different points along the warm/cold air interface, the
precipitation will experience different temperature
histories as it falls to the ground
Midlatitude Cyclone
Frontal Structure
The Wave Cyclone Model
(Norwegian model)
•
•
•
•
•
•
Stationary Front
Nascent Stage
Mature Stage
Partially Occluded Stage
Occluded Stage
Dissipated Stage
Lifecycle of a Midlatitude Cyclone
Stationary front
Mature stage
Incipient cyclone
occlusion
Open wave
Green
shading
indicates
precipitation
dissipating
Takes several
days to a
week, and
moves 1000’s
of km during
lifecycle
Cyclone Development
begins with a
stationary front
Before Birth
Forecasting where on the
Stationary front the development
will occur is the tricky part!
Nascent stage of
Cyclone Development
Birth and
adolescence
Mature stage
of Cyclone
Development
Adulthood
Mature Wave Cyclone
The Partially Occluded
Stage begins
when the cold front
starts to overrun the
warm front
Middle age
Partially occluded wave cyclone
• Cold-occluded
front
– Approach brings
weather sequence
like a warm front
– Frontal passage
brings weather
more like a cold
front
• Warm-occluded
fronts also possible
Cold-occluded front
The Occluded Stage
is characterized by
more warm air
being pushed aloft
and the size of the
warm air wedge
at the surface
decreases significantly
Over the
Hill
Related documents
STATIONARY FRONT When two air masses meet
STATIONARY FRONT When two air masses meet
LAND BREEZE
LAND BREEZE
Fronts Cyclones vs Anticyclones
Fronts Cyclones vs Anticyclones
Understanding Weather
Understanding Weather
SEMANTIC FEATURE ANALYSIS
SEMANTIC FEATURE ANALYSIS
Site 1 http://itg1.meteor.wisc.edu/wxwise/AckermanKnox/chap9
Site 1 http://itg1.meteor.wisc.edu/wxwise/AckermanKnox/chap9
Answers to 3-1 Weather Patterns 1. What is an air mass? An air
Answers to 3-1 Weather Patterns 1. What is an air mass? An air
Norwegian Model of Low-Pressure System
Norwegian Model of Low-Pressure System
Slides - UMD | Atmospheric and Oceanic Science
Slides - UMD | Atmospheric and Oceanic Science
Weather Fronts Quiz
Weather Fronts Quiz
Weather Patterns
Weather Patterns
Standard 4-4.6 Vocabulary and Notes Predict weather from data
Standard 4-4.6 Vocabulary and Notes Predict weather from data