Anatomy Of A Nor'easter
By Charles Fort
October 25: The camera shows a windblown TV anchor describing an approaching "killer hurricane." Later that night, the storm arrives, lashing a 60-mile stretch of coast with 100-mph winds before moving inland and dissipating. Damage is estimated at $1.2 billion. Three people lose their lives.
October 29: From his desk, the same TV anchor calmly mentions a dangerous winter storm approaching. Up to 7 inches of rain and sleet are expected. The storm pounds 1,200 miles of coastline for three days with offshore winds reaching 60 mph and producing tides 4 feet above normal. Beaches are eroded; power is out for hundreds of thousands. Damage is estimated at $1 billion. Six people die.
Nor'easters Are The Bomb
Meteorologists are sometimes puzzled when the media dramatizes hurricanes while seeming to pay mere lip service to the ferocious winter storms termed "nor'easters." Technically known as "extratropical cyclones," nor'easters usually form between October and April and can affect the entire U.S. East Coast. Often, they start as small low-pressure systems originating in the central or southern United States. The strongest ones generally start in the Bahamas or the Florida peninsula. The most dangerous storms are formed when a high-pressure system blocks the northward movement of the low. Winds blow clockwise around a high and counterclockwise around a low. When these two systems meet, they act like two giant gears, ejecting winds in a generally northeast direction.
When the high-pressure system stops the movement of the low, the entire system produces onshore winds from a relatively stationary area, creating large waves and extreme tides. Where the two meet is also the area of most rain, sleet, or snow, frequently causing flooding. Rapidly intensifying storms with a pressure drop of 18 to 24 millibars in 24 hours are known by the catchy meteorological term "bomb." They've been described as a hurricane and a blizzard combined. This extreme form of nor'easter typically pounds the East Coast once or twice each winter.
Astronomy And Meteorology Collide
An intense nor'easter is bad enough on its own, but a long-lasting storm may span several high tides. The situation worsens when a storm occurs during higher spring tides. During a nor'easter, strong winds blowing from the same direction for several days can pile water against the land, frequently causing water levels in bays and rivers to rise dramatically. Water levels in other areas can fall dramatically. Normal ebb tides are disrupted, and the water stays at high levels. Spring tides may also exacerbate the problem. According to the National Oceanic and Atmospheric Administration (NOAA), during a nor'easter, low tides can be higher than average high tides. Storm surges of 2 to 4 feet and higher are typical.
Keep A Weather Eye Open
According to NOAA, as many as 30 low-pressure systems may affect the East Coast in an average winter. Don't be lulled by the frequency of these lesser fronts. Even with new supercomputers modeling potential storms, forecasters say that low-pressure systems can rapidly develop into bombs. Pay attention to forecasts especially during the months of December through March.
— Published: December 2016
What meteorological ingredients went into making Hurricane Sandy into a "superstorm"?
A day-by-day guide to getting your boat ready once a storm has been forecast for your region
The best ways to help you prepare your boat to survive a hurricane
BoatUS Magazine Is A Benefit Of BoatUS Membership
Membership Also Provides:
- Subscription to the print version of BoatUS Magazine
- 4% back on purchases from West Marine stores or online at WestMarine.com
- Discounts on fuel, transient slips, repairs and more at over 1,000 businesses
- Deals on cruises, charters, car rentals, hotel stays and more ...
- All For Only $24 A Year!