Nearly 1,800 thunderstorms are occurring at any one moment around the world. Approximately 16 million thunderstorms occur each year around the world and 100,000 occur in the U.S. Of those 100,000 storms, only about 10% are severe. The National Weather Service defines a severe thunderstorm as one which produces winds of 58 mph or greater, 3/4 inch hail or larger or tornadoes.
Areas over west central Florida experience more thunderstorms per year on average than any other location in the U.S. with > 100 per year (See graph above). Key West averages 64 days per year with thunderstorms with August averaging 14 and July 13 as the 2 most active months for thunderstorms in the Keys. Thunderstorms can occur in any month of the year in the Keys.
Thunderstorms need 3 ingredients to form; moisture, especially in the lower levels, unstable air, cold air over warm air, and a source of lift such as a cold front, sea breeze or low level outflow boundary from a cluster of thunderstorms. The Keys often have the first 2 ingredients but sometimes lack the necessary lift. This is one reason why the Keys do not average as many thunderstorms or as much rainfall as the Florida mainland.
With a high frequency of thunderstorms in the Keys, it is important to remember that all thunderstorms can be dangerous. Lightning occurs with all thunderstorms and is very dangerous. Most lightning strikes are cloud to cloud but some are cloud to ground (pictured above) and these are the ones which kill about 93 people/year in the U.S.
Lightning is caused by the action of rising and descending air within a thunderstorm that separates positive and negative charges. Water and ice particles in the thunderstorm also affect the distribution of electrical charge. Lightning results from the buildup and discharge of electrical energy between positively and negatively charged areas.
The average lightning strike has enough energy to light a 100 watt bulb for 3 months. The air near a lightning strike is heated to near 50,000 F, hotter than the surface of the sun. The rapid heating and cooling of the air near the lightning channel causes a shock/sound wave that results in thunder. Most lightning deaths and injuries occur when people are caught outdoors.
The following are some facts and myths about lightning.
MYTH: If it is not raining, then there is no threats from lightning.
FACT: Lightning often strikes outside of heavy rain and may occur as
far as 10 miles away from rainfall.
MYTH: Rubber soles of shoes and tires on a car will protect you from being struck by lightning.
FACT: These items provide NO protection from lightning. However, you
are much safer inside a vehicle than outside. The steel frame of a hard
topped vehicle provides increased protection if you are not touching metal.
MYTH: "Heat Lightning" occurs after very hot summer days and poses no threat.
FACT: "Heat lightning" is actually lightning which occurs in a distant
thunderstorm that is too far away to hear its associated thunder.
Thunderstorms produce other hazards as well. The number 1 thunderstorm killer is flash flooding. Flash flooding from thunderstorms kills about 140 people/year in the U.S. Fortunately, the Keys do not experience major problems with freshwater flooding due to the lack of rivers, creeks etc. etc., small land masses and flat terrain.
Another hazard from thunderstorms is large hail. Large hail is generally 1 inch in diameter or larger and can cause a great deal of damage. Hail damage in the U.S. averages about $1 billion per year. Large hailstones can fall at speeds faster than 100 mph. The Florida Keys rarely experience hail from thunderstorms, although it is possible. Golf ball size hail was reported in Marathon in February 1998 during the "Groundhog Day" storm.
Straight line winds are responsible for most thunderstorm wind damage. On land, wind gusts from thunderstorms usually need to be > 50 mph to cause damage, however, over water, wind gusts of 30 mph (26 knots) or greater can be dangerous to small boats. One type of straight line wind, a downburst, can cause damage similar to tornadoes and is extremely dangerous to aviation take offs and landings. A downburst is a small area of rapidly descending air beneath a thunderstorm. This air can cause damaging winds in excess of 100 mph. Downbursts are associated with severe thunderstorms and not all thunderstorms produce downbursts.
Tornadoes are the most dangerous and damaging aspect of severe thunderstorms.
Wind speeds of tornadoes can reach to near 300 mph and cause an average
of 80 deaths and 1,500 injuries per year in the U.S. Most fatalities from
tornadoes occur in mobile homes and in automobiles.
Although the Keys do not experience a tremendous amount of tornadoes
as compared to areas in the Southern Plains , waterspouts, which are similar
to tornadoes, occur quite frequently over the coastal waters (waterspout
just offshore of Duck Key above) and occasionally move over land areas
as tornadoes. See the waterspout section for the differences between tornadoes
and waterspouts and the photo gallery for more pictures of waterspouts.
The Florida Keys average 2 tornadoes every 3 years (see graph above)
and these usually occur with landfalling tropical storms. There were 6
tornado occurrences in 1998 in the Keys and 2 moved through the Upper Keys
during Tropical Storm Mitch in November. Fortunately, there were no deaths
which occurred during these tornadoes but the tornado induced by Mitch
in Key Largo injured 20 people.
Tornadoes form in severe thunderstorms. A key ingredient to tornado formation is wind shear. Wind shear is a change in wind speed and/or direction with height. The greater the wind shear, the greater the potential for tornado formation. Wind shear causes air near the surface to rotate horizontally. The updraft, a column of rapidly rising air, of a developing severe thunderstorm can tilt the rotating air from horizontal to vertical inside the thunderstorm. The downdraft, an area of rapidly descending air caused by hail and rainfall, of a severe thunderstorm sometimes brings the vertically rotating air downward to the surface as a tornado (pictured above). This is a typical way tornadoes form and not all tornadoes form in this manner. It is the opinion of many tornado researchers that much is still to be learned about tornadoes and their formation.
Tornado intensity is ranked by the Fujita Scale which is based on wind speed and the damage it can cause. This scale is not accurate for all types of structures. Older, weaker structures can have greater damage with weaker tornadoes and newer, stronger structures can withstand strong tornadoes with little damage. In other words, a tornado with F3 type winds will cause tremendous damage to weaker structures but much less damage to stronger structures. The following table is the Fujita Scale.
Fujita scale wind speed(mph) damage description
F0 40 - 72 light
F1 73 - 112 moderate
F2 113 - 157 considerable
F3 158 - 206 severe
F4 207 - 260 devastating
Tornado myths and facts:
MYTH: Areas near mountains, rivers, lakes and large cities are safe from tornadoes.
FACT: Tornadoes can occur anywhere. In fact, a tornado moved through
downtown Miami in May 1997.
MYTH: The low pressure with a tornado causes buildings to explode.
FACT: Winds and debris flying into buildings causes most of the damage.
MYTH: Windows should be opened before a tornado approaches to equalize pressure and minimize damage.
FACT: Opening windows allows damaging winds to enter the structure.
Leave windows alone; instead, immediately go to a safe place.
The best way to be informed of thunderstorms and their potential danger is through NOAA Weather Radio (NWR). The National Weather Service in Key West records broadcasts for 2 NWR transmitters in the Keys. NWR broadcasts can also be heard on TCI cable channels 5 and 16 but these channels do not broadcast NWR 24 hours a day. The NWS in Key West broadcasts most of its products on NWR 24 hours a day.
If you would like more information on thunderstorms and their dangers
or on NOAA Weather Radio, contact the National Weather Service office in
Key West at 305-295-1316 or 1324 or go to the Staff section of this homepage
and e-mail the Warning Coordination Meteorologist, the Meteorologist
In Charge, or the Science and Operations Officer your requests.