NOAA Says The Virgin Islands And Puerto Rico Can Expect More Storms In 2017 Than Originally Forecast
MIAMI — NOAA has raised the number of named storms it expects to develop in their latest 2017 Atlantic hurricane season outlook, warning that “the season has the potential to be extremely active.”
In their August outlook update released Wednesday, NOAA forecasters said there is a high chance – 60 percent – of an above-average hurricane season, with 14 to 19 named storms expected throughout the season.
The NOAA team expects near to slightly above average hurricane activity through November following just one hurricane so far. NOAA also increased their forecast for major hurricanes from their May outlook, expecting 2 to 5 Category 3 or stronger hurricanes.
The updated forecast is above the Atlantic Basin’s 30-year historical average (1981-2010) of 12 named storms, six hurricanes and three major hurricanes.
Numbers increased slightly in Colorado State University’s final forecast issued late last week, too.
A total of 16 named storms and eight hurricanes are expected in the Atlantic Basin, according to the CSU forecast, led by Dr. Phil Klotzbach. Three of the eight hurricanes are forecast to be Category 3 or stronger on the Saffir-Simpson Hurricane Wind Scale.
Warm water temperatures in the tropical and subtropical Atlantic Ocean along with the dwindling chance of El Niño’s development later this summer are reasons why the forecast has steadily nudged upward.
“A warmer-than-normal tropical Atlantic is generally associated with lower surface pressures, increased mid-level moisture and weaker trade winds, creating a more conducive dynamic and thermodynamic environment for hurricane formation and intensification,” said the CSU team.
Widespread and hostile upper-level winds typically associated with El Niño will also be a no-show during the heart of the hurricane season ahead, but unfavorable winds aloft still occur at times each season in the Atlantic Basin whether El Niño is present or not.
“The chance of an El Niño forming, which tends to prevent storms from strengthening, has dropped significantly from May,” according to Gerry Bell, Ph.D., lead seasonal hurricane forecaster at NOAA’s Climate Prediction Center.
CSU found five years since 1950 that most closely resemble what’s expected in the atmosphere above and waters of the Atlantic Basin from August through October. Those years included 1953, 1969, 1979, 2001 and 2004. The average of those six seasons is slightly lower than the CSU forecast for 2017.
The Weather Company, an IBM Business, updated its seasonal forecast in July and also expects a total of 15 named storms, eight hurricanes and three major hurricanes this season. This is an increase from its earlier forecasts as well, mainly due to the same factors stated in the CSU outlook.
The official Atlantic hurricane season begins June 1 and runs through Nov. 30. Occasionally, storms can form outside those months, as Tropical Storm Arlene did this year. It also occurred last season with January’s Hurricane Alex and late May’s Tropical Storm Bonnie.
While six named storms had already formed through early August, all but Hurricane Franklin were relatively short-lived.
Using the ACE (Accumulated Cyclone Energy) index, a measure of tropical cyclone activity calculated by adding each tropical storm or hurricane’s wind speed throughout its life cycle, Klotzbach found the 2017 Atlantic season was off to its slowest start in eight years before Franklin formed.
However, Klotzbach also cautioned that by the same ACE index measure, about 90 percent of a typical Atlantic hurricane season still remained after August 9.
What Does This Mean For the United States?
There is no strong correlation between the number of storms or hurricanes and U.S. landfalls in any given season. One or more of the additional named storms forecast to develop this season could hit the U.S., or none at all. Therefore, residents of the coastal U.S. should prepare each year, no matter the forecast.
A couple of classic examples that show the need to prepare each year occurred in 1992 and 1983.
The 1992 season produced only six named storms and one subtropical storm. However, one of those named storms was Hurricane Andrew, which devastated South Florida as a Category 5 hurricane.
In 1983, there were only four named storms, but one of them was Alicia. The Category 3 hurricane hit the Houston-Galveston area and caused almost as many direct fatalities along the Texas coast as Andrew did in South Florida.
In contrast, the 2010 season was active. There were 19 named storms and 12 hurricanes that formed in the Atlantic Basin. Despite the large number of storms that year, no hurricanes and only one tropical storm made landfall in the U.S.
In other words, a season can deliver many storms but have little impact, or deliver few storms with one or more causing major impacts to the United States coast.
The U.S. averages one to two hurricane landfalls each season, according to NOAA’s Hurricane Research Division statistics.
In 2016, five named storms impacted the Southeast coast, most notably the powerful hit from Hurricane Matthew and its subsequent inland rainfall flooding.
Prior to that, the number of U.S. landfalls had been well below average over the previous 10 years.
The 10-year running total of U.S. hurricane landfalls from 2006 through 2015 was seven, according to Alex Lamers, a meteorologist with the National Weather Service. This was a record low for any 10-year period dating to 1850, and considerably lower than the average of 17 per 10-year period dating to 1850, Lamers added.
Of course, the record-breaking 2005 hurricane season was outside that current 10-year running total. It was also the last season we saw a Category 3 or stronger hurricane (Wilma) hit the U.S., the longest such streak dating to the mid-19th century.
The bottom line: it’s impossible to know for certain if a U.S. hurricane strike, or multiple strikes, will occur this season.
Keep in mind, however, that even a weak tropical storm hitting the U.S. can cause major impacts, particularly if it moves slowly and triggers flooding rainfall.