Transcript Document
Introduction to G410
MOUNTAIN WEATHER FORECAST FOR THE OLYMPICS WASHINGTON
CASCADES
AND MT HOOD AREA
NORTHWEST WEATHER AND AVALANCHE CENTER SEATTLE
WASHINGTON
230 PM PST MON JAN 06 2009
WEATHER SYNOPSIS FOR TUESDAY AND WEDNESDAY
Substantial moisture continues to stream over a very flat offshore ridge early
Tuesday afternoon, with a very strong jetstream of 150-170 mph pushing the
trailing portion of a strong warm front over the region. This should be akin to
opening the main valve on a very large fire plug and should result in increasingly
heavy rain or snow in most areas Tuesday afternoon at substantially rising
freezing levels and increasingly strong winds.
As the offshore ridge flattens further and moves over the NW coast late Tuesday,
the front is expected to stall over the region Tuesday night and much of
Wednesday as minor disturbances ripple along its back edge offshore…
Four factors that affect the formation and
release of avalanches
Why do we have to learn this?
Provides a better understanding of physical
processes governing snowpack
development metamorphism , and melt
Makes sense of weather observations and
forecasts
Warm Air Rises &
Cold Air Sinks
Simple Picture
Differential heating of the Earth surface
produces motion in the Earth's atmosphere.
H & L pressure
circulation drives
the wind
Global Scale: High and
Low pressure systems
develop
Atmospheric Pressure:
Force exerted by the
weight of the air
Mean sea level pressure for June,
July, August, top and December,
January, February, bottom.
Discrete Air Masses
Location of high or low
pressure centers
provides information
about:
Wind direction
Wind speed
Cloud cover
Precipitation
Differences in pressure from one location to another causes:
1) Horizontal motions (wind)
2) Vertical motions (convection and subsidence)
The change in pressure measured across a given distance is called a
"pressure gradient".
05 Jan 2009 500 mb
Northern Hemisphere
Winds blow clockwise out of a high pressure center.
Winds blow counterclockwise into a low pressure system
High Pressure Centers
A high pressure center
is where the pressure
has been measured to
be the highest relative to
its surroundings.
That means, moving in
any direction away from
the "High" will result in a
decrease in pressure.
A high pressure center is indicated on a weather
map by a blue "H".
Low Pressure Centers
A low pressure center is
where the pressure has
been measured to be
the lowest relative to its
surroundings.
A low pressure center is
indicated on a weather
map by a red "L" and
winds flow counterclockwise around a low
in the northern
hemisphere.
As air flows out of a high pressure center, air from higher in the
atmosphere sinks to replace it.
This subsidence produces warming, dissipation of clouds and
precipitation
As air converges in a low pressure center, it rises and cools. If
moist, cooling will cause moisture to condense and form
clouds.
Pressure level maps (rather than
heights)
Surface maps, at Earth surface
850 mb - available moisture for
precipitation, ~1500m level
500mb - middle of atmosphere, troughs
(lows) and ridges (highs), ~5500 m level
300 mb - jet streams at ~9100 m level
[The average atmospheric pressure at
sea level is ~1000mb]
A line connecting points of equal pressure is called an isobar.
At every point along a given isobar, the values of pressure are the same.
Pressure reports in Washington are between 1004 mb and 1020 mb.
An area of relatively high pressure is centered in western S Pacific, while the
pressure increases outward from this region.
An area of lower pressure is located in western B.C. & Ak.
Troughs: Elongated low pressure centers
Ridges: Elongated high pressure centers.
The small green numbers are contour labels, which identify the value of an
isobar.
Small wave length waves
or ripples are called shortwave troughs or ridges.
500 mb forecast for 1/21/1999.
Troughs = red; solid lines = 500
mb height contours.
Surface Maps
Uses available surface
data
Shows:
Temperature
Weather
Dew point temperature
Cloud cover
Pressure
Wind direction and
speed (wind barb)
Observed Temperature
station reporting symbol
Observed Dew Point
Temperature
Surface Maps
Cloud Cover:
The amount of cloud
cover at the time the
observation. In this case,
broken clouds were
reported.
Sea Level Pressure:
The last three digits
of the sea level
pressure reading in
millibars (mb).
Wind Barb:
The wind barb. The wind
barb indicates wind
direction and wind speed.
Surface Maps
Use available surface data
Shows:
Temperature
Weather
Dew point temperature
Cloud cover
Pressure
Wind direction and
speed (wind barb)