Jonathan Belles and Jonathan Erdman
The 2021 Atlantic hurricane season is predicted to be more active than usual, according to an outlook released Thursday by The Weather Company, an IBM Business.
The outlook created by Dr. Todd Crawford, chief meteorologist at The Weather Company, calls for 18 named storms, eight hurricanes and three major hurricanes. A major hurricane is one that is Category 3 or higher (115-plus-mph winds) on the Saffir-Simpson Hurricane Wind Scale.
This forecast is somewhat above the 30-year average (1991 to 2020) of 14 named storms, seven hurricanes and three major hurricanes.
The Weather Company outlook is based on a number of factors, including Atlantic Ocean sea-surface temperatures, La Niña and other teleconnections, computer model forecast guidance and past hurricane seasons exhibiting similar atmospheric conditions.
"While there is upside to the season, we expect nothing approaching last year's activity," Crawford said.
(MORE: 2021 Atlantic Hurricane Season Names)
A record 30 named storms formed in the 2020 hurricane season, 13 of which became hurricanes.
This forecast is similar to the April outlook issued by Colorado State University last week.
Here are some questions and answers about what this outlook means.
What Does This Mean for the United States?
A record 11 storms made landfall in the U.S. in 2020, including six hurricanes: Hanna, Isaias, Laura, Sally, Delta and Zeta.
(MORE: Laura, Entire Greek Alphabet Retired Following 2020 Hurricane Season)
That's well above the average of one to two hurricane landfalls each season, according to NOAA's Hurricane Research Division.
"We anticipate an above-average probability for major hurricanes making landfall along the continental United States coastline and in the Caribbean," said Dr. Phil Klotzbach, who leads the CSU Tropical Meteorology Project. "As is the case with all hurricane seasons, coastal residents are reminded that it only takes one hurricane making landfall to make it an active season for them. They should prepare the same for every season, regardless of how much activity is predicted."
Despite the 2020 season, there isn't necessarily a strong correlation between the number of storms or hurricanes and U.S. landfalls in any given season. One or more of the named storms predicted to develop this season could hit the U.S. or none at all.
Some past hurricane seasons have been inactive but included at least one notable landfall.
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 there (21) as Andrew did in South Florida (26).
On the other hand, the 2010 Atlantic season was very active, with 19 named storms and 12 hurricanes. Despite the high 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 and have one or more hitting the U.S. coast with major impact.
The bottom line is it's impossible to know for certain if a U.S. hurricane strike will occur this season. Keep in mind that even a weak tropical storm hitting the U.S. can cause major impacts, particularly if it moves slowly and its rainfall triggers flooding.
How Much of a Role Will La Niña Play?
El Niño/La Niña, the periodic warming/cooling of the equatorial eastern and central Pacific Ocean, can shift weather patterns and influence winds in the Atlantic Basin during hurricane season.
As of early spring, a La Niña was fading. NOAA's Climate Prediction Center noted that a transition to neutral (neither El Niño nor La Niña) is likely by late spring, in time for the hurricane season.
La Niñas typically correspond to more active hurricane seasons because the cooler Eastern Pacific water produces weaker trade winds and less wind shear in the Caribbean Sea that would otherwise rip apart hurricanes and tropical systems trying to develop.
Such was the case in 2020, when La Niña intensified to become the strongest in 10 years. This was one factor behind a record 30 named storms in 2020.
But while La Niña may be fading, its influence on the atmosphere may not fade in time for hurricane season.
"There is still a nice big batch of anomalously warm water near Indonesia that continues to drive the tropical base state signal," said Crawford.
This warm water may continue to drive rising motion and increased thunderstorm activity near Indonesia and contribute to an overall favorable atmospheric pattern for Atlantic hurricanes similar to a La Niña, even if the La Niña itself fizzles.
Think of this lingering atmospheric pattern as the ghost of La Niña.
We should note here that the status of the El Niño-Southern Oscillation (ENSO) is notoriously difficult to predict. This is especially true from February to May, when the "spring predictability barrier" is in play, a period when forecast skill is lower than the rest of the year.
Despite that, El Niño probably isn't on the table this season.
"Our best estimate is that we will likely not have El Niño conditions for the peak of the Atlantic hurricane season," Klotzbach said.
Stronger El Niños tend to correspond to less active hurricane seasons because the warmer Eastern Pacific water produces more shearing winds and stronger low-level winds in the Caribbean Sea that can rip apart hurricanes and systems that try to develop. They can also lead to a sinking motion over at least part of the Atlantic Basin, also suppressing tropical cyclones.
Other Factors in Play
One of the other ingredients that meteorologists, including those at The Weather Company and CSU, analyze going into the hurricane season is the water temperature of the Atlantic, Caribbean and Gulf of Mexico.
Much of the Atlantic Basin's waters are already warmer than average, particularly in the subtropics near Bermuda and off the Northeast Seaboard. Parts of the Gulf of Mexico are also warmer than average, except for the northwestern Gulf.
Klotzbach said the current ocean temperature anomalies in the Atlantic Basin "correlate relatively well with what is typically seen in active Atlantic hurricane seasons."
But the warmth isn't nearly the magnitude we saw a year ago.
"Current Atlantic SSTs (sea-surface temperatures), when taken in aggregate, are at significantly lower levels than last year," Crawford said.
Crawford particularly highlighted the Gulf of Mexico and far eastern Atlantic Ocean near the west African coast as much cooler this April than one year ago.
But it isn't ocean temperatures in April that will help boost or curtail tropical systems; Rather, it is water temperatures during the hurricane season.
Climate models suggest that most of the basin, if not all of it, will be warmer than average at the peak of the hurricane season.
Crawford also cited the presence of recent blocking high pressure near Greenland this spring as a factor that could also bring warmer water into the tropics during the hurricane season.
An above-average number of tropical storms and hurricanes is more likely if temperatures in the main development region (MDR) between Africa and the Caribbean Sea are warmer than average. Conversely, below-average ocean temperatures can lead to fewer tropical systems than if waters were warmer.
Assuming atmospheric factors are favorable, warmer waters in the MDR allow tropical waves, the formative engines that can eventually become tropical storms, to get closer to the Caribbean and the U.S.
The prevalence of wind shear and dry air across the Atlantic will also need to be watched over the next six to eight months.
How much dry air rolls off the coast of Africa will also need to be monitored. Even if water temperatures are boiling and there is little wind shear, dry air can still disrupt developing tropical cyclones and even prohibit their birth.
Hurricanes need a rather precise set of ingredients to come together in order for them to fester, so all of these ingredients will need to be monitored this year.
The Weather Company’s primary journalistic mission is to report on breaking weather news, the environment and the importance of science to our lives. This story does not necessarily represent the position of our parent company, IBM.
The Weather Company’s primary journalistic mission is to report on breaking weather news, the environment and the importance of science to our lives. This story does not necessarily represent the position of our parent company, IBM.
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