Transcript Hurricane

Part 4. Disturbances
Chapter 12
Tropical Storms and Hurricanes
Introduction
Hurricanes are responsible for astonishing amounts of
property damage and loss of life in many regions of the
world
Propagation of
Hurricane Andrew
Andrew caused
major damage in
Florida and
Louisiana
Hurricanes around the globe
• Atlantic - hurricanes
• Western Pacific – typhoons – highest
frequency region
• Indian Ocean and Australia – cyclones
• South Atlantic - almost none
Tropical cyclone genesis areas and related storm tracks
The tropical setting where tropical storms
usually form
• Subsidence (trade wind) inversion on the
east side of the subtropical highs traps
cooler, moist air (marine layer) at the ocean
surface
• On the western sides of the ocean basins, the
marine layer tends to be warmer and thicker
due to higher ocean temperatures -- more
hurricanes tend to develop here
Tropical cyclone structure
Hurricane characteristics
– Sustained winds greater than 120 km/hr (74 mph)
– Average diameter = 600 km (350 mi)
– Central pressure = ~ 950 mb to 870 mb
Vertical temperature profile across a hurricane
Hurricane eye
-- average
diameter = 25
km (15 miles)
-- area of
descending air
-- strongest
winds in eye
wall (clouds
just outside
eye)
Hurricane eye
Tropical cyclone
air trajectories with
height
The double eye wall of Hurricane Emily
Hurricane
with a
double eye
wall (occurs
near
maximum
strength)
eye walls
Hot tower in Hurricane Rita
A hot tower is
a part of the
eye wall that
rises to great
height (up to
36 km); it can
indicate
hurricane
strengthening
Hurricane Formation
Steps in the formation of hurricanes
• Tropical disturbance associated with an
easterly wave in the upper air winds
• Tropical depression -- at least one closed
isobar
• Tropical storm -- winds greater than 37 mph
• Hurricane (typhoon, cyclone) -- winds
greater than 74 mph
An easterly wave
Conditions Necessary for Hurricane
Formation
• Warm ocean water (> 27oC (81oF))
– Latent heat release
• Most frequent in late summer and early
autumn
– Formation equatorward of 5o
• Unstable atmosphere without vertical shear
• Once formed – self-propagating system until
it runs out of warm water
Erratic hurricane path examples
Hurricane paths
are controlled by
trade winds,
upper air flow,
air pressure
systems and
ocean
temperatures;
they can be quite
erratic.
After it came
onshore, hurricane
Camille
merged with a
frontal cyclone
along a stationary
front, causing
massive loss of life
and property
damage due to
heavy rains and
flooding.
Predominant Atlantic hurricane paths
Hurricane Destruction and Fatalities are
caused by several factors:
Wind
Heavy rain
Tornadoes
• Right front quadrant
Storm surge
• Rise in water level associated with pressure
drop
Wind speed variations by quadrant
Blown sand from Hurricane Katrina
Average tornado locations relative to hurricane storm center
Atlantic hurricane frequencies
End of Chapter 12
Understanding Weather and
Climate
4th Edition
Edward Aguado and James E. Burt