Middle Latitude Cyclones
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Transcript Middle Latitude Cyclones
Atmospheric Disturbances,
Storms and Natural Hazards
Storms and Atmospheric Disturbances
Embedded within the wind belts of the general atmospheric
circulation are secondary circulations, which are made
up of storms and other atmospheric disturbances
Atmospheric disturbance is a broader and more general term
than storms, and it includes variations in the secondary
circulation of the atmosphere
Such Disturbances include: a) Middle Latitude Cyclones,
which are complex weather systems b) Cyclones and
Anticyclones, and c) Weak Tropical Disturbances,
e.g., the Easterly Wave, and the Polar Outbreaks (like
Friagem in the Brazilian Amazon)
Well-defined Storms include: Hurricanes, Tornadoes,
Thunderstorms, Snowstorms and Blizzards
Middle Latitude Cyclones
Also called Extratropical Cyclones or Mid-latitude Cyclones
DEVELOPMENT OF MID-LATITUDE CYCLONES
These migrating “storms” develop at the polar front, and then
travel along it
These “storms”, with their opposing cold, dry polar air and
warm, humid subtropical air, can cause significant variations
in day-to-day weather
Mid-latitude cyclones evolve as they move
They can last a few days or a even a week
They travels about 40 mph, and can be 800 - 1000 miles wide
STRUCTURE OF A MID-LATITUDE CYCLONE
Low Pressure at the center of the storm
Counterclockwise winds
A warm front
A cold front
A pie-shaped
wedge of
warm air
Surrounded
by cold
air mass
CROSS-SECTION OF A MID-LATITUDE STORM
Lighter, warm, moist air rides up over cold air – Warm Front
Denser, cold air pushes into warmer air and forces it to rise –
Cold Front
Stages in the Development of a Mid-latitude Cyclone
Fig. 7-7, p. 183
Hurricanes
A hurricane (or tropical cyclones) is a large rotating cyclonic
system born in the tropics [also called typhoons (East Asia),
willy-willies (Australia), bagyos (the Philippines), or simply,
cyclones (South Asia)] – Also a forward motion of 4-5 mph.
They are the largest and most destructive storms on earth, lasting
10-14 days.
The devastation that these massive storms cause are not due to the
high winds but because of the dangerous flooding /storm
surges, tornadoes, and lightning that often accompany (or are
spawned by) a hurricane.
Hurricane Katrina, which struck the Gulf Coast of the United
States in 2005, wreaking havoc in Louisiana, Mississippi and
Alabama, was among the most devastating (Map – Fig. 7.16)
Hurricane Formation
A hurricane develops from a tropical disturbance once it reaches
sustained winds in excess of 74 mph (Category 1), often
going to more than 155 mph (Category 5) – Names are
assigned once storms reach tropical storm status (39-74 mph)
Among the factors leading to hurricane development are:
a warm ocean surface of about 77˚F;
warm, moist overlying air; and
Coriolis effect must be sufficient to support spiraling
Therefore, hurricanes do not develop or survive in the equatorial
zone (about 10o N or S latitude) as the Coriolis effect is too
weak closer to the equator.
The "fuel" for a hurricane comes from the enormous amount of
latent heat released from the warm ocean water.
Hurricane Structure
In terms of its structure a hurricane is a warm-core low pressure
system with a diameter of 100-400 miles, and extending to
heights of 40,000-45,000 feet.
The center or eye of the hurricane is an area (12 to 40 miles wide)
of nearly cloudless skies, subsiding air, and light winds.
At the periphery of the eye is a ring of cumulonimbus clouds that
produce torrential rains and extremely strong
winds. Surrounding the core of storms are the typical
spiraling rain bands.
As a hurricane moves over a colder land surface, it loses its
source of energy and dissipates. But the system remains an
organized storm for several days as it moves inland, flooding
the interior with rainfall. Tornadoes often accompany
hurricanes as they move ashore.
http://www.youtube.com/watch?v=75qAgSuMbzA&eurl=http%3A%2F%2Fwww.
uwsp.edu%2Fgeo%2Ffaculty%2Fritter%2Fgeog101%2Ftextbook%2Fweather_syst
ems%2Fhurricanes.html&feature=player_embedded
Thunderstorms
Thunderstorms are local storms
in the middle and lower
latitudes that are
accompanied by thunder
and lightning
Lightning is an intense discharge
of electricity – the charges
are generated by the intense
friction of the air on moving
ice particles within a
Cumulonimbus cloud
When the difference between the positive and negative charges in
the cloud becomes large enough to overcome the natural
insulating effect of the air, a lightning flash takes place
These discharges (often over 1 million volts) heat up the air
around to temperatures of over 45,000˚F – the heated air
expands explosively, creating the shock wave – thunder!
Being an intense form of precipitation, thunderstorms result from
the same uplift mechanisms as in precipitation, especially
convection, orographic and frontal.
As in rainfall, hail is often associated with thunderstorms
Usually covers a small area of a few miles, but sometimes there can
be a series of thunderstorms covering a larger region.
Most thunderstorms last about an hour.
Tornadoes
• Tornadoes are the most powerful weather phenomenon
known – A violently rotating column of air extending
from a thunderstorm to the ground.
• Technically, a tornado is an intense, narrow system of low
pressure with violent updrafts and converging winds.
• Though the mechanisms that actually create tornadoes still
elude us, about 80% of all tornadoes are associated
with thunderstorms and mid-latitude cyclones; the other
20% are spawned by hurricanes that make landfall.
• Conditions for Tornado formation: Cool, dry air (e.g., from the
Rockies) colliding with warm, moist air (from the Gulf).
• Tornadoes can be on the ground for an instant to several
hours, but the average time is 5 minutes.
Tornadoes have been documented in most regions of the Earth,
though they are most prevalent in the United States
– Tornado Alley
On average 1000 Tornadoes occur every year in the U.S.
• Tornadoes are common during Spring, when greatly contrasting
air masses collide to produce severe storm systems.
• There is also a distinct Seasonal March of Peak Tornado Activity
Seasonal March of Peak Tornado Activity