Storm Surge Overview (Text)
Along the coast, storm surge is often the greatest threat to life and property from a hurricane.
In the past, large death tolls have resulted from the rise of the ocean
associated with many of the major hurricanes that have made landfall.
Hurricane Katrina (2005) is a prime example of the damage and devastation
that can be caused by surge. At least 1500 persons lost their lives during Katrina and many
of those deaths occurred directly, or indirectly, as a result of storm surge.
Storm Surge vs. Storm Tide
Storm surge is an abnormal rise of water generated by a storm, over and above
the predicted astronomical tides.
Storm surge should not be confused with
storm tide, which is defined as the water level rise due to the combination of
storm surge and the astronomical tide. This rise in water level can cause
extreme flooding in coastal areas particularly when storm surge coincides
with normal high tide, resulting in storm tides reaching up to 20 feet
or more in some cases.
Storm Surge vs. Storm Tide
Factors Impacting Surge
Storm surge is produced by water being pushed toward the shore by the
force of the winds moving cyclonically around the storm. The impact on surge of the
low pressure associated with intense storms is minimal in comparison to the
water being forced toward the shore by the wind.
Wind and Pressure Components of Hurricane Storm Surge
The maximum potential storm surge for a particular location depends on a
number of different factors. Storm surge is a very complex phenomenon because
it is sensitive to the slightest changes in storm intensity, forward
speed, size (radius of maximum winds-RMW), angle of approach to the coast, central
pressure (minimal contribution in comparison to the wind), and the shape and
characteristics of coastal features such as bays and estuaries.
Click on Image to Play Video
Other factors which can impact storm surge are the width and slope of
the continental shelf. A shallow slope will potentially produce a greater
storm surge than a steep shelf. For example, a Category 4 storm hitting the
Louisiana coastline, which has a very wide and shallow continental shelf,
may produce a 20-foot storm surge, while the same hurricane in a place like
Miami Beach, Florida, where the continental shelf drops off very quickly,
might see an 8 or 9-foot surge. More information regarding storm surge
impacts and their associated generalizations can be found in the FAQ section.
Surge animation with shallow continental shelf (Click on Image to Play
Surge animation with steep continental shelf (Click on Image to Play Video)
Adding to the destructive power of surge, battering waves may increase damage
to buildings directly along the coast. Water weighs approximately 1,700
pounds per cubic yard; extended pounding by frequent waves can demolish
any structure not specifically designed to withstand such forces. The two elements work together
to increase the impact on land because the surge makes it possible for waves to extend inland.
Although elevated, this house in North Carolina could not withstand
the 15 ft (4.5 m) of storm surge that came with Hurricane Floyd (1999)
Additionally, currents created by tides combine with the waves to severely
erode beaches and coastal highways. Buildings that survive hurricane winds
can be damaged if their foundations are undermined and weakened by erosion.
Beachfront road and boardwalk damaged by Hurricane Jeanne (2004)
In confined harbors, the combination of storm tides, waves, and currents
can also severely damage marinas and boats. In estuaries and bayous, salt
water intrusion endangers the public health, kills vegetation, and can send animals, such as
snakes and alligators, fleeing from flooded areas.
Damaged boats in a marina
Notable Surge Events
- Ike 2008 (SLOSH Historical Run)
Hurricane Ike made landfall near the north end of Galveston Island as a
Category 2 hurricane. Storm surges of 15-20 feet above normal tide levels
occurred along the Bolivar Peninsula of Texas and in much of the Galveston
Bay area. Property damage from Ike is estimated at $24.9
- Katrina 2005 (SLOSH Historical Run)
Katrina was one of the most devastating hurricanes in the history
of the United States. It produced catastrophic damage - estimated at $75
billion in the New Orleans area and along the Mississippi coast - and is
the costliest U. S. hurricane on record. Storm surge flooding of 25 to
28 feet above normal tide levels was associated with Katrina. More...
- Dennis 2005 (SLOSH Historical Run)
Dennis affected much of Florida, and its effects extended well inland over
portions of the southeastern United States with the maximum amount rainfall of 12.80
inches occuring near Camden, Alabama. Storm surge flooding of 7-9 ft produced considerable storm surge-related damage
near St. Marks, Florida, well to the east of the landfall location.
The damage associated with Dennis in the United States is estimated at
$2.23 billion. More...
- Isabel 2003 (SLOSH Historical Run)
Isabel was the worst hurricane to affect the Chesapeake Bay region since
1933. Storm surge values of more than 8 feet flooded rivers that flowed
into the bay across Virginia, Maryland, Delaware, and Washington, D.C.
Isabel was the most intense hurricane of the 2003 season and directly resulted in 17
deaths and more than $3 billion in damages.
- Opal 1995 (SLOSH Historical Run)
Hurricane Opal made landfall near Pensacola Beach, Florida as a Category
3 hurricane. The storm caused extensive storm surge damage from Pensacola
Beach to Mexico Beach (a span of 120 miles) with a maximum storm tide of
24 feet, recorded near Fort Walton Beach. Damage estimates for Opal were
near $3 billion.
- Hugo 1989 (SLOSH Historical Run)
Hugo impacted the southeastern United States, including
South Carolina cities Charleston and Myrtle Beach. Hugo was responsible
for 60 deaths and $7 billion in damages, with the highest storm surge estimated
at 19.8 feet at Romain Retreat, South Carolina.
- Camille 1969 (SLOSH Historical Run)
Camille was a Category 5 hurricane, the most powerful on the Saffir-Simpson Hurricane Wind Scale with
maximum winds of more than 155 mph and storm surge flooding of 24 feet that devastated the Mississippi
coast. The final death count for the U.S. is listed at 256. This includes 143 on the
Gulf coast and another 113 from the Virginia floods.
- Audrey 1957 (SLOSH Historical Run)
There were 390 deaths associated with Audrey as the result of a storm surge in excess of 12 feet,
which inundated the flat coast of southwestern Louisiana as far as 25 miles
inland in some places.
- New England 1938 (SLOSH Historical Run)
The Long Island Express was a fast-moving Category 3 hurricane that struck Long
Island and New England with little warning on September 21. A storm surge of
10 to 12 ft inundated the coasts of Rhode Island, Connecticut, southeastern
Massachusetts, and Long Island, NY, especially in Narragansett Bay and
Buzzards Bay. Six hundred people died due to the storm.
- Galveston 1900 (SLOSH Historical Run)
At least 8,000 people died when hurricane storm tides
(the surge plus the astronomical tide) of 8-15 feet inundated most of the
island city of Galveston, TX and adjacent areas on the mainland.
Surge Vulnerability Facts
- From 1990-2008, population density increased by
32% in Gulf coastal counties, 17% in Atlantic coastal counties, and 16% in
Hawaii (U.S. Census Bureau 2010)
- Much of the United States' densely populated Atlantic and Gulf Coast
coastlines lie less than 10 feet above mean sea level
- Over half of the Nation's economic productivity is located within coastal zones
- 72% of ports, 27% of major roads, and 9% of rail lines within the Gulf
Coast region are at or below 4 ft elevation (CCSP, SAP 4-7)
- A storm surge of 23 ft has the ability to inundate 67% of
interstates, 57% of arterials, almost half of rail miles, 29 airports,
and virtually all ports in the Gulf Coast area (CCSP SAP 4-7)
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Page last modified: Friday, 11-May-2012 14:56:13 UTC