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2020 Atlantic hurricane season

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2020 Atlantic hurricane season
Season summary map
Seasonal boundaries
First system formedMay 16, 2020
Last system dissipatedNovember 18, 2020
Strongest storm
NameIota
 • Maximum winds155 mph (250 km/h)
(1-minute sustained)
 • Lowest pressure917 mbar (hPa; 27.08 inHg)
Seasonal statistics
Total depressions31 (record high, tied with 2005)
Total storms30 (record high)
Hurricanes14
Major hurricanes
(Cat. 3+)
7 (record high, tied with 2005)
Total fatalities≥ 417 total
Total damage> $51.114 billion (2020 USD)
(Seventh-costliest tropical cyclone season on record)
Related articles
Atlantic hurricane seasons
2018, 2019, 2020, 2021, 2022

The 2020 Atlantic hurricane season featured a total of 31 tropical or subtropical cyclones, making it the most active Atlantic hurricane season on record. All but one cyclone became a named storm. Of the 30 named storms, 14 developed into hurricanes, and a record-tying seven further intensified into major hurricanes.[nb 1] It was the second and final season to use the Greek letter storm naming system, the first being 2005, the previous record. Of the 30 named storms, 11 of them made landfall in the contiguous United States, breaking the record of nine set in 1916. During the season, 27 tropical storms established a new record for earliest formation date by storm number.[nb 2] This season also featured a record 10 tropical cyclones that underwent rapid intensification, tying it with 1995, as well as holding the record for most Category 4 hurricanes in a singular season in the Atlantic Basin. This unprecedented activity was fueled by a La Niña that developed in the summer months of 2020 as it did, continue a stretch of above-average seasonal activity that began in 2016. Despite the record-high activity, this was the first season since 2015 in which no Category 5 hurricane formed.[nb 3]

The season officially started on June 1 and officially ended on November 30. However, tropical cyclogenesis is possible at any time of the year, as demonstrated by the early formation of Tropical Storms Arthur and Bertha, on May 16 and 27, respectively. This was the sixth consecutive year with a pre-season system and the second of these seasons to have two, with the other being 2016.[4] The first hurricane, Hurricane Hanna, made landfall in Texas on July 25. Hurricane Isaias formed on July 31, and made landfall in The Bahamas and North Carolina in early August, both times as a Category 1 hurricane; Isaias caused $4.8 billion in damage overall.[nb 4] In late August, Laura made landfall in Louisiana as a Category 4 hurricane, becoming the strongest tropical cyclone on record in terms of wind speed to make landfall in the state, alongside the 1856 Last Island hurricane and Ida. Laura caused at least $19 billion in damage and 77 deaths. September was the most active month on record in the Atlantic, with ten named storms. Slow-moving Hurricane Sally impacted the US Gulf Coast, causing severe flooding. The Greek alphabet was used for only the second time, starting on September 17 with Subtropical Storm Alpha, which made landfall in Portugal on the following day.

Hurricane Zeta struck Louisiana on October 28, becoming the fourth named storm of the season to make landfall in the state, tying the record set in 2002. Zeta also struck the United States later in the calendar year than any major hurricane on record. On the last day of October, Hurricane Eta formed and made landfall in Nicaragua at Category 4 strength on November 3. Eta ultimately led to the deaths of at least 175 people and caused $8.3 billion in damage. Then, on November 10, Tropical Storm Theta became the record-breaking 29th named storm of the season and, three days later, Hurricane Iota formed in the Caribbean. Iota rapidly intensified into a high-end Category 4 hurricane, which also made 2020 the only recorded season with two major hurricanes in November. Iota ultimately made landfall in the same general area of Nicaragua that Eta had just weeks earlier and caused catastrophic damage. Overall, the tropical cyclones of the 2020 Atlantic hurricane season collectively caused at least 417 deaths and over $51 billion in damage, totaling to the seventh costliest season on record.

All forecasting agencies predicted above-average activity, some well-above-average, citing factors such as the expectation of low wind shear, abnormally warm sea surface temperatures, and a neutral El Niño–Southern Oscillation or La Niña. Climate change likely played a role in the record-breaking season, with respect to intensity and rainfall. However, each prediction, even those issued during the season, underestimated the actual amount of activity. Early in 2020, officials in the United States expressed concerns the hurricane season could exacerbate the effects of the COVID-19 pandemic for coastal residents due to the potential for a breakdown of safety protocols such as social distancing and stay-at-home orders.

Seasonal forecasts

Predictions of tropical activity in the 2020 season
Source Date Named
storms
Hurricanes Major
hurricanes
Ref
Average (1981–2010) 12.1 6.4 2.7 [1]
Record high activity 30 15 7† [5]
Record low activity 4 2 0 [5]

TSR December 19, 2019 15 7 4 [6]
CSU April 2, 2020 16 8 4 [7]
TSR April 7, 2020 16 8 3 [8]
UA April 13, 2020 19 10 5 [9]
TWC April 15, 2020 18 9 4 [10]
NCSU April 17, 2020 18–22 8–11 3–5 [11]
PSU April 21, 2020 15–24 n/a n/a [12]
SMN May 20, 2020 15–19 7–9 3–4 [13]
UKMO* May 20, 2020 13* 7* 3* [14]
NOAA May 21, 2020 13–19 6–10 3–6 [15]
TSR May 28, 2020 17 8 3 [16]
CSU June 4, 2020 19 9 4 [17]
UA June 12, 2020 17 11 4 [18]
CSU July 7, 2020 20 9 4 [19]
TSR July 7, 2020 18 8 4 [20]
TWC July 16, 2020 20 8 4 [21]
CSU August 5, 2020 24 12 5 [22]
TSR August 5, 2020 24 10 4 [23]
NOAA August 6, 2020 19–25 7–11 3–6 [24]

Actual activity
30 14 7
* June–November only
† Most recent of several such occurrences. (See all)

Forecasts of hurricane activity are issued before each hurricane season by noted hurricane experts, such as Philip J. Klotzbach and his associates at Colorado State University (CSU), and separately by NOAA forecasters. Klotzbach's team (formerly led by William M. Gray) defined the average (1981 to 2010) hurricane season as featuring 12.1 tropical storms, 6.4 hurricanes, 2.7 major hurricanes (storms reaching at least Category 3 strength in the Saffir–Simpson scale), and an accumulated cyclone energy (ACE) index of 106 units.[7] Broadly speaking, ACE is a measure of the power of a tropical or subtropical storm multiplied by the length of time it existed. It is only calculated for full advisories on specific tropical and subtropical systems reaching or exceeding wind speeds of 39 mph (63 km/h). NOAA defines a season as above normal, near normal or below normal by a combination of the number of named storms, the number reaching hurricane strength, the number reaching major hurricane strength, and the ACE Index.[1]

Pre-season forecasts

On December 19, 2019, Tropical Storm Risk (TSR), a public consortium consisting of experts on insurance, risk management, and seasonal climate forecasting at University College London, issued an extended-range forecast predicting a slightly above-average hurricane season. In its report, the organization called for 15 named storms, 7 hurricanes, 4 major hurricanes, and an ACE index of 105 units. This forecast was based on the prediction of near-average trade winds and slightly warmer than normal sea surface temperatures across the tropical Atlantic as well as a neutral El Niño–Southern Oscillation (ENSO) phase in the equatorial Pacific.[6] On April 2, 2020, forecasters at CSU echoed predictions of an above-average season, forecasting 16 named storms, 8 hurricanes, 4 major hurricanes, and an ACE index of 150 units. The organization posted significantly heightened probabilities for hurricanes tracking through the Caribbean and hurricanes striking the U.S. coastline.[7] TSR updated their forecast on April 7, predicting 16 named storms, 8 hurricanes, 3 major hurricanes, and an ACE index of 130 units.[8] On April 13, the University of Arizona (UA) predicted a potentially hyperactive hurricane season: 19 named storms, 10 hurricanes, 5 major hurricanes, and accumulated cyclone energy index of 163 units.[9] A similar prediction of 18 named storms, 9 hurricanes, and 4 major hurricanes was released by The Weather Company on April 15.[10] Following that, North Carolina State University released a similar forecast on April 17, also calling for a possibly hyperactive season with 18–22 named storms, 8–11 hurricanes and 3–5 major hurricanes.[11] On April 21, the Pennsylvania State University Earth Science System Center also predicted high numbers, 19.8 +/- 4.4 total named storms, range 15–24, best estimate 20.[12]

On May 20, Mexico's Servicio Meteorológico Nacional released their forecast for an above-average season with 15–19 named storms, 7–9 hurricanes, and 3–4 major hurricanes.[13] The UK Met Office released their outlook that same day, predicting average activity with 13 tropical storms, 7 hurricanes, and 3 major hurricanes expected to develop between June and November 2020. They also predicted an ACE index of around 110 units.[14] NOAA issued their forecast on May 21, calling for a 60% chance of an above-normal season with 13–19 named storms, 6–10 hurricanes, 3–6 major hurricanes, and an ACE index between 110% and 190% of the median. They cited the ongoing warm phase of the Atlantic multidecadal oscillation and the expectation of continued ENSO-neutral or even La Niña conditions during the peak of the season as factors that would increase activity.[15] TSR revised their forecast downward slightly on May 28, this time predicting 17 named storms, 8 hurricanes, and 3 major hurricanes, while increasing the projected ACE index to 135.[16]

Mid-season forecasts

CSU released an updated forecast on June 4, calling for 19 named storms, 9 hurricanes, and 4 major hurricanes.[17] UA issued their second prediction for the season on June 12, decreasing their numbers to 17 named storms, 11 hurricanes, and 4 major hurricanes.[18] On July 7, CSU released another updated forecast, predicting 20 named storms, 9 hurricanes, and 4 major hurricanes.[19] That same day, TSR revised their forecast to 18 named storms, 8 hurricanes, and 4 major hurricanes.[20] On July 16, The Weather Company released an updated forecast, calling for 20 named storms, 8 hurricanes, and 4 major hurricanes.[21]

On August 5, CSU released an additional updated forecast, their final for 2020, calling for a near-record-breaking season, predicting a total of 24 named storms, 12 hurricanes, and 5 major hurricanes, citing the anomalously low wind shear and surface pressures across the basin during the month of July and substantially warmer than average tropical Atlantic and developing La Niña conditions.[25] On August 5, TSR released an updated forecast, their final for 2020, also calling for a near-record-breaking season, predicting a total of 24 named storms, 10 hurricanes, and 4 major hurricanes, citing the favorable July trade winds, low wind shear, warmer than average tropical Atlantic, and the anticipated La Niña.[26] The following day, NOAA released their second forecast for the season, in which they called for an "extremely active" season, predicting it would contain 19–25 named storms, 7–11 hurricanes, and 3–6 major hurricanes. This was one of the most active forecasts ever released by NOAA for an Atlantic hurricane season.[24]

Seasonal summary

Hurricane IotaHurricane EtaHurricane ZetaHurricane Epsilon (2020)Hurricane DeltaHurricane GammaTropical Storm Beta (2020)Subtropical Storm Alpha (2020)Hurricane TeddyHurricane SallyHurricane PauletteHurricane Nana (2020)Hurricane Marco (2020)Hurricane LauraHurricane IsaiasHurricane Hanna (2020)Tropical Storm Fay (2020)Tropical storms Amanda and CristobalTropical Storm Bertha (2020)Tropical Storm Arthur (2020)Saffir–Simpson scale
2020 tropical / subtropical storm formation records
Storm
number
New record Old record
Name Date formed Name Date formed
03 Cristobal June 2, 2020 Colin June 5, 2016
05 Edouard* July 6, 2020 Emily July 11, 2005
06 Fay July 9, 2020 Franklin July 21, 2005
07 Gonzalo July 22, 2020 Gert July 24, 2005
08 Hanna July 24, 2020 Harvey August 3, 2005
09 Isaias July 30, 2020 Irene August 7, 2005
10 Josephine August 13, 2020 Jose August 22, 2005
11 Kyle August 14, 2020 Katrina August 24, 2005
12 Laura August 21, 2020 Luis August 29, 1995
13 Marco August 22, 2020 Maria September 2, 2005
Lee September 2, 2011
14 Nana September 1, 2020 Nate September 5, 2005
15 Omar September 1, 2020 Ophelia September 7, 2005
16 Paulette September 7, 2020 Philippe September 17, 2005
17 Rene September 7, 2020 Rita September 18, 2005
18 Sally September 12, 2020 Stan October 2, 2005
19 Teddy September 14, 2020 "Azores" October 4, 2005
20 Vicky September 14, 2020 Tammy October 5, 2005
21 Alpha September 17, 2020 Vince October 8, 2005
22 Wilfred September 17, 2020 Wilma October 17, 2005
23 Beta September 18, 2020 Alpha October 22, 2005
24 Gamma October 2, 2020 Beta October 27, 2005
25 Delta October 5, 2020 Gamma November 15, 2005
26 Epsilon October 19, 2020 Delta November 22, 2005
27 Zeta October 25, 2020 Epsilon November 29, 2005
28 Eta November 1, 2020 Zeta December 30, 2005
29 Theta November 10, 2020 Earliest formation by virtue of
being the first of that number
30 Iota November 13, 2020
Source:[27]
*Record has since been broken.

The 2020 Atlantic hurricane season officially began on June 1 and ended on November 30.[9] The season featured 31 tropical depressions,[28] 30 of which became tropical or subtropical storms. The latter total surpassed the previous record of 28 set in 2005.[29] Of the 30 tropical or subtropical storms, 14 of those intensified into hurricanes, which is the second highest number ever observed,[29] behind only 2005.[30] Seven of the hurricanes intensified into major hurricanes, tying 2005 for the most in one season.[31] It was the fifth consecutive Atlantic hurricane season with above average activity, exceeding the previous longest streak of four years between 1998 and 2001. A total of 10 tropical cyclones underwent rapid intensification, tying the record set in 1995.[29]

The season also featured activity at a record pace. The third named storm and each one from the fifth onwards formed on an earlier date in the year than the corresponding storm in any other season since reliable records began in 1851.[27] The ACE index for the 2020 Atlantic hurricane season as calculated by Colorado State University using data from the National Hurricane Center was 179.8 units,[32] reflecting the season's well-above-average activity. The totals represent the sum of the squares for every (sub) tropical storm's intensity of at least 39 mph (63 km/h), divided by 10,000. Thus, tropical depressions are not included in the ACE index value.[33]

The season marked the extension of the warm phase of the Atlantic multidecadal oscillation, which has been ongoing since 1995. The warm AMO favors active Atlantic hurricane seasons and tropical cyclones which are more intense and often have longer durations. As a result, sea surface temperatures across the Atlantic basin were generally warmer-than-average. A strong west African monsoon, favorable wind patterns from Africa, weaker vertical wind shear all aided in the formation of tropical cyclones. Furthermore, the presence of a La Niña contributed to the unprecedented amount of activity during the 2020 Atlantic hurricane season.[34]

Climate change also likely played a role in the record-breaking season. Scientific American noted that "As the oceans absorb more and more of the excess heat trapped by greenhouse gases, waters will get warmer earlier in the season, which could help set new records in the future."[27] A formal attribution study showed that the extreme rainfall was higher than in a counterfactual without climate change, especially for high-intensity storms.[35] Matthew Rosencrans, the lead forecaster at the National Weather Service, emphasized that climate change has been linked to the intensity of storms and their slow movements, but not to the amount of activity, which might instead be increasing due to improvements in technology.[36]

Overall, the Atlantic tropical cyclones of 2020 collectively resulted in 416 deaths and more than $51.114 billion in damage,[37] making the season the fifth costliest on record.[38] A total of eleven named storms made landfall in the United States,[34] breaking the previous record of nine in 1916. Six of these named storms struck the United States at hurricane intensity, tying 1886 and 1985 for the highest number in a single season.[29] Eight of the eleven named storms struck the Gulf Coast of the United States. A total of 13 landfalls occurred outside of the United States, also a record.[39] Furthermore, Zeta became the latest major hurricane to strike the United States when the cyclone made landfall in Louisiana on October 28, surpassing the previous recordholder, the 1921 Tampa Bay hurricane, by three days.[40]

The United States reported approximately $37 billion in damage from the Atlantic tropical cyclones it was affected by in 2020. Six hurricanes inflicted at least $1 billion in damage in the United States, two more than the previous record of four in 2004 and 2005. The entire coastline from Texas to Maine was placed under some form of a watch or warning in relation to a tropical system,[29] while only Florida's Jefferson and Wakulla counties would not be issued a tropical cyclone watch or warning during the season.[41] Only five counties along the East Coast or Gulf Coast of the United States did not experience tropical storm-force winds. Louisiana in particular was heavily impacted in 2020, with the state recording four landfalls – three hurricanes and one tropical storm – tying the record set in 2002.[39]

Central America also experienced devastating impacts during the 2020 Atlantic hurricane season, especially in Honduras and Nicaragua. Both nations were struck by hurricanes Eta and Iota within a few weeks.[29] The former caused at least $6.8 billion in damage in Central America,[42] while the latter caused approximately $1.4 billion in damage in the region, mostly in Honduras and Nicaragua.[3] Eta demolished or damaged more than 6,900 homes and 560 mi (900 km) of bridges and roadways in Nicaragua,[42] though the destruction wrought by the storm would later limit wind damage caused by Iota.[3] In Honduras, both cyclones destroyed tens of thousands of homes and severely impacted more than 4 million people. Furthermore, the Honduras Foreign Debt Forum noted that the two hurricanes set back economic development in Honduras by 22 years.[29]

The season also occurred during the COVID-19 pandemic. Early in the year, officials in the United States expressed concerns the hurricane season could potentially exacerbate the effects of the pandemic for U.S. coastal residents.[43] As expressed in an op-ed of the Journal of the American Medical Association, "there exists an inherent incompatibility between strategies for population protection from hurricane hazards: evacuation and sheltering (i.e., transporting and gathering people together in groups)", and "effective approaches to slow the spread of COVID-19: physical distancing and stay-at-home orders (i.e., separating and keeping people apart)."[44] A study published by GeoHealth in December 2020 confirmed a correlation between destination counties (a county in which an evacuee flees to) and an increase in COVID-19 cases.[45]

Pre/early season activity

United States tropical watches and warnings issued during the 2020 Atlantic hurricane season. Watches and warnings were issued in every coastal county except Wakulla and Jefferson counties in Florida.

Tropical cyclogenesis began in the month of May, with tropical storms Arthur and Bertha. This marked the first occurrence of two pre-season tropical storms in the Atlantic since 2016, and the first occurrence of two named storms in the month of May since 2012. For the sixth consecutive year, a tropical cyclone developed in the Atlantic basin prior to the official start of the Atlantic hurricane season,[46] extending the record, which was broken during the previous season.[47] Tropical Storm Cristobal formed on June 1, followed by Tropical Storm Dolly on June 23. Tropical storms Edouard, Fay, and Gonzalo, along with hurricanes Hanna and Isaias, formed in July.[48] Hanna became the first hurricane of the season and made landfall in South Texas,[49] while Isaias became the second hurricane of the season and struck much of the Caribbean and the East Coast of the United States.[50] Tropical Depression Ten also formed in late July off the coast of West Africa but quickly dissipated.[51] July 2020 tied 2005 for the most active July on record in the basin, with five named storms.[52][48]

Peak season activity

Five simultaneous tropical cyclones active in the Atlantic on September 14: Sally (left), Paulette (center left), Rene (center right), Teddy (bottom right), and Vicky (far right). The tropical waves that would later spawn Beta and Wilfred are respectively located to the left of Sally and to the bottom-right of Vicky, and the extratropical cyclone that would later become Alpha is visible north of Rene.

Tropical storms Josephine and Kyle formed in August, as did hurricanes Laura and Marco.[53] Marco ultimately became the third hurricane of the season, but rapidly weakened and then dissipated near the south central Louisiana coastline.[54] Laura subsequently became the fourth hurricane and first major hurricane of the season. The hurricane later made landfall in southwest Louisiana on August 27 at Category 4 strength with 150 mph (240 km/h) winds.[55] Additionally, a tropical depression formed on the final day of the month which intensified into Tropical Storm Omar on September 1.[56]

September featured the formations of nine named storms: tropical storms Rene, Vicky, Wilfred, and Beta; Subtropical Storm Alpha; and hurricanes Nana (which rapidly formed and was named a few hours ahead of Omar), Paulette, Sally, and Teddy.[57] This swarm of storms coincided with the peak of the hurricane season and the development of La Niña conditions.[58][59] Nana developed on September 1 and made landfall in Belize as a Category 1 hurricane.[60] Paulette struck Bermuda as a Category 2 hurricane, becoming the first tropical or subtropical cyclone to make landfall on that British overseas territory since Gonzalo in 2014.[61] Sally made landfall in Florida just south of Miami as a tropical depression before also striking the Gulf Coast of the United States as a slow-moving Category 2 hurricane and causing extensive damage there.[62]

Teddy, the season's eighth hurricane and second major hurricane formed on September 12,[63] while Vicky formed two days later. With the formation of the latter, five tropical cyclones were simultaneously active in the Atlantic basin for the first time since 1971.[57] Meanwhile, Hurricane Teddy went on to strike Atlantic Canada after transitioning into an extremely large extratropical cyclone on September 23.[63] Additionally, Paulette redeveloped as a tropical storm on September 20 before once again becoming post-tropical two days later.[61] Alpha developed atypically far east in the Atlantic and became the first tropical cyclone on record to strike Portugal.[64] Beta's intensification into a tropical storm made September 2020 the most active month on record, with 10 named storms.[28] Beta went on to make landfall in Texas and impact the Deep South before dissipating,[65] marking an abrupt end to the heavy peak season activity.[27]

Late season activity

List of costliest Atlantic hurricane seasons (as of 2024)
Rank Cost Season
1 ≥ $294.803 billion 2017
2 > $189.48 billion 2024
3 $172.297 billion 2005
4 $117.708 billion 2022
5 ≥ $80.827 billion 2021
6 $72.341 billion 2012
7 $61.148 billion 2004
8 $54.336 billion 2020
9 ≥ $50.526 billion 2018
10 ≥ $48.855 billion 2008

October and November were extremely active, with seven named storms developing, five of which intensified into major hurricanes – more than twice the number recorded during this period in any previous season.[66] Hurricane Gamma formed on October 2, before strengthening into the ninth hurricane of the season on October 3. Shortly afterward, Gamma made landfall on the Yucatán Peninsula as a minimal Category 1 hurricane.[67] On the next day, Hurricane Delta developed in the Caribbean south of Jamaica and became the 10th hurricane of the season. Delta explosively intensified into a Category 4 hurricane, before rapidly weakening and making landfall on the Yucatán Peninsula on October 7, as a high-end Category 2 hurricane. It regained Category 3 status in the Gulf of Mexico, before weakening again and making its second landfall in Louisiana on October 9.[68]

After 14 more days of inactivity in the basin, Tropical Storm Epsilon formed in mid-October and became the season's 11th hurricane on October 20.[69] By the following day, Epsilon became a Category 3 hurricane, making it the fourth major hurricane of the season. Afterward, the storm weakened as it slowly moved northward and then northeastward, before becoming extratropical on October 26.[69] During the same month, Hurricane Zeta formed southwest of the Cayman Islands and took a nearly identical track to Delta, striking the Yucatán Peninsula late on October 26, before turning northeastward, accelerating, and making landfall in southeast Louisiana as a Category 3 hurricane, on October 28. Then, after moving rapidly across the eastern United States,[40] its extratropical remnants left behind accumulating snow across parts of New England.[70]

Hurricane Eta, the season's sixth major hurricane, made landfall as a Category 4 storm along the Caribbean coast of Nicaragua on November 3. Eta subsequently moved back into the Caribbean and restrengthened into a tropical storm before taking a winding and erratic path that went over Cuba and through the Florida Keys before stalling in the southern Gulf of Mexico. It then moved north-northeast towards the west coast of Florida, briefly restrengthening into a minimal hurricane along the way.[42] On November 10, Subtropical Storm Theta formed from a non-tropical low over the northeastern Atlantic, before transitioning to a tropical storm later that day.[71] Just after Eta became extratropical off the U.S. East Coast, Hurricane Iota formed over the central Caribbean on November 13, tying 2005 for the most tropical and subtropical cyclones in one year. Iota rapidly intensified into a high-end Category 4 hurricane, becoming the strongest storm of the season, peaking with maximum sustained winds of 155 mph (250 km/h) and a minimum barometric pressure of 917 mbar (27.1 inHg).[3] The 2020 season became the first with two major hurricanes in the month of November.[39] Iota then went on to ravage the same areas in Central America that Eta had devastated only two weeks earlier, and dissipated on November 18, over El Salvador.[3]

Systems

Tropical Storm Arthur

Tropical storm (SSHWS)
 
DurationMay 16 – May 19
Peak intensity60 mph (95 km/h) (1-min);
990 mbar (hPa)

The NHC issued a Special Tropical Weather Outlook on May 15 concerning the potential for tropical or subtropical cyclogenesis from a trough of low pressure located over the Straits of Florida.[72] Tropical Depression One formed from this low around 18:00 UTC on May 16, about 125 mi (200 km) east of Melbourne, Florida. Six hours later, an Air Force reconnaissance aircraft found that it had attained tropical storm strength. Tropical Storm Arthur weaved along the Gulf Stream and changed little in intensity as it encountered increasing wind shear. At 06:00 UTC on May 19, while located about 190 mi (305 km) east-northeast of Cape Hatteras, North Carolina, the storm reached its peak intensity with maximum sustained winds of 60 mph (95 km/h) and a minimum barometric pressure of 990 mbar (29.23 inHg). Shortly thereafter, Arthur interacted with a non-tropical front and became an extratropical cyclone by 12:00 UTC on May 20. The low turned southeast before dissipating near Bermuda a day later.[73]

The precursor of Arthur dropped heavy rainfall over portions of the Bahamas, Cuba, and Florida. Precipitation in South Florida peaked at 9.95 in (253 mm) near Marathon.[73] Overall, stormy conditions in the state caused $112,000 in damage.[74] After Arthur became a tropical cyclone, tropical storm watches were issued in North Carolina from Surf City to Duck and from Pamlico Sound to Albemarle Sound on May 16; these were upgraded the following to tropical storm warnings as Arthur approached the Outer Banks. When Arthur passed by to the east, it produced an area where 3–5 in (76–127 mm) of rainfall fell across the Inner Banks region of North Carolina. It also created minor storm surge from Cape Hatteras to the southeastern Virginia coast.[73]

Tropical Storm Bertha

Tropical storm (SSHWS)
 
DurationMay 27 – May 28
Peak intensity50 mph (85 km/h) (1-min);
1005 mbar (hPa)

On May 26, a weak low-pressure area developed over central and northeastern Florida. By 06:00 UTC the next day, the system, then near the Georgia and South Carolina coasts, developed a well-defined center and sufficient deep convection to be considered a tropical cyclone. After formation, Tropical Storm Bertha strengthened slightly and attained its peak intensity a few hours later, with maximum sustained winds of 50 mph (85 km/h) and a central pressure of 1,005 mbar (29.68 inHg) while located about 35 mi (55 km) east-southeast of Charleston, South Carolina. At 13:30 UTC that same day, the storm made landfall near Isle of Palms, South Carolina. Inland, the system turned north and accelerated, before quickly weakening to a tropical depression. During the early hours of May 28, it transitioned into an extratropical cyclone over western Virginia, before dissipating over the Northern Panhandle of West Virginia several hours later.[75]

In Florida, the precursor of Bertha brought up to 15 in (380 mm) of rainfall and localized flooding to the Miami area.[75][76] However, floodwaters entered some buildings in Hialeah and Miami Beach,[77] while roof collapses were reported in Hallandale Beach and Hollywood.[76] The storm also spawned an EF1 tornado in the vicinity of Redland, causing minor damage, although it was directly associated with the storm.[78] Damage in Florida totaled approximately $71,000. There was localized flash flooding in coastal South Carolina[75] and in parts of North Carolina, especially the Charlotte area. An EF1 tornado in Warren County caused about $50,000 in damage, although this was also not directly related to Bertha. Additionally, the remnants of Bertha caused flash flooding in portions of West Virginia.[79] Overall, Bertha left at least $133,000 in damage.[80][81]

Tropical Storm Cristobal

Tropical storm (SSHWS)
 
DurationJune 1 – June 9
Peak intensity60 mph (95 km/h) (1-min);
988 mbar (hPa)

A large area of disturbed weather, associated with the remnant low of Eastern Pacific Tropical Storm Amanda, moved northwestward across the Yucatán Peninsula of Mexico and emerged over the Bay of Campeche on June 1. Later that day, at 18:00 UTC, the remnant low developed into Tropical Depression Three. By 12:00 UTC on June 2, the depression strengthened into Tropical Storm Cristobal.[nb 5] Throughout the remainder of the day, Cristobal's wind field became more symmetrical and well defined and it gradually strengthened, with falling barometric pressure as the storm meandered towards the Mexican coastline. Cristobal made landfall as a strong tropical storm just west of Ciudad del Carmen at 13:35 UTC on June 3 at its peak intensity of 60 mph (95 km/h). As Cristobal drifted inland, it weakened to a tropical depression as the overall structure of the storm deteriorated.[82]

The storm turned northward on June 5 and by 06:00 UTC that day, despite being situated inland over the Yucatán Peninsula, Cristobal re-intensified into a tropical storm. As Cristobal moved farther north into the Gulf of Mexico, it again reached winds of 60 mph (95 km/h) before dry air and interaction with an upper-level trough to the east began to displace most of the central convection to the east and north of the center. Late on June 7, Cristobal made landfall over southeastern Louisiana. The system weakened to a tropical depression on the next day, as it moved inland over the state. The storm continued northward along the Mississippi River Valley, before becoming an extratropical low early on June 10 over Iowa. The low moved northeastward across Wisconsin, the Upper Peninsula of Michigan, Northern Ontario, and the southern Hudson Bay, before dissipating on June 12.[82]

On June 1, the government of Mexico issued a tropical storm warning from Campeche westward to Puerto de Veracruz.[82] Residents at risk were evacuated. Nine thousand Mexican National Guard members were summoned to aid in preparations and repairs.[83] Significant rain fell across much of Southern Mexico and Central America.[83] Over two-hundred homes and three hospitals in Mexico experienced some degree of damage.[82] Wave heights up to 9.8 ft (3 m) high closed ports for several days. In El Salvador, a mudslide caused seven people to go missing. Up to 9.6 in (243 mm) of rain fell in the Yucatán Peninsula, flooding sections of a highway. Street flooding occurred as far away as Nicaragua.[83] Tropical storm watches and warnings were also issued along the Gulf Coast of the United States beginning on June 5. Coastal flooding occurred in Alabama, Florida, Louisiana, and Mississippi. Cristobal inflicted damage to 30 businesses, 23 homes, 23 roads, and 13 public buildings in Mississippi. Damage in the United States was estimated at $310 million.[82] The storm caused an estimated $665 million in damage throughout all impacted areas.[84] At least six deaths were connected to Cristobal, with three in Mexico and three in the United States.[82]

Tropical Storm Dolly

Tropical storm (SSHWS)
 
DurationJune 22 – June 24
Peak intensity45 mph (75 km/h) (1-min);
1000 mbar (hPa)

Around June 17, an area of disturbed weather developed just north of the Bahamas after part of a tropical wave and an upper-level trough interacted. The disturbance moved north and organized into a low-pressure area early on June 22. Shortly thereafter, the low became a subtropical depression about 405 mi (650 km) east-southeast of Cape Cod, Massachusetts. Mid-level dry air and sea surface temperatures that were only marginally favorable resulted in very little strengthening on June 22. However, after moving east-northeastward and away from an upper low, the cyclone developed more deep convection and intensified into Subtropical Storm Dolly by 06:00 UTC on June 23. About six hours later, Dolly transitioned into a tropical cyclone and peaked with sustained winds of 45 mph (75 km/h) and a minimum pressure of 1,000 mbar (30 inHg). However, convection rapidly diminished after Dolly moved north of the Gulf Stream and encountered drier air. Early on June 24, Dolly degenerated into a remnant low about 200 mi (320 km) south of Sable Island. The remnant low continued northeastward and dissipated south of Newfoundland early the next day.[85]

Tropical Storm Edouard

Tropical storm (SSHWS)
 
DurationJuly 4 – July 6
Peak intensity45 mph (75 km/h) (1-min);
1005 mbar (hPa)

A weak frontal system moved offshore from the Mid-Atlantic in early July, and an area of low pressure formed over its southern portion well to the east of the northeast Florida coast on July 3. This system soon organized as its convection gradually increased and by 12:00 UTC on July 4, the system organized into Tropical Depression Five while centered about 290 mi (465 km) west-southwest of Bermuda. The system initially moved east-northeastward and then northeastward on the north side of a large mid-level ridge. Westerly vertical wind shear and dry air in the northwestern portion of the depression caused it to change little in strength or organization as the storm accelerated and passed about 70 mi (110 km) northwest of Bermuda around 08:00 UTC on July 5. Despite the marginal conditions for development, a large convective burst formed over the center, allowing it to strengthen into Tropical Storm Edouard at 00:00 UTC on July 6.[86]

Edouard further intensified later that day, attaining maximum sustained winds of 45 mph (75 km/h) and a minimum barometric pressure of 1005 mbar (29.68 inHg) around 18:00 UTC.[86] By then, however, it was entering region of strong southwesterly vertical wind shear and colder water, and was approaching a frontal system.[87] Edouard became extratropical just six hours later as its circulation merged with the frontal system about 490 mi (790 km) east-southeast of Cape Race, Newfoundland, at 00:00 UTC on July 7. The extratropical low began to slowly weaken on July 8, turning eastward and continuing to move rapidly within the strong mid-latitude westerlies. It crossed southern Ireland and the southern United Kingdom on July 9 and dissipated over the latter country that day.[86]

The Bermuda Weather Service issued a gale warning for the entirety of the island chain in advance of the system on July 4.[88] Unsettled weather later ensued, and the depression caused tropical storm-force wind gusts and moderate rainfall on the island early on July 5. Impacts were relatively minor.[88][89] Edouard's extratropical remnants brought brief, but heavy, rain to the British Isles, the Netherlands, Germany, southern Denmark and north-west Poland.[90][91]

Tropical Storm Fay

Tropical storm (SSHWS)
 
DurationJuly 9 – July 11
Peak intensity60 mph (95 km/h) (1-min);
998 mbar (hPa)

The NHC began to track an area of disorganized cloudiness and showers over the far northern Gulf of Mexico early on July 5.[92] This area was associated with the remaining section of the surface trough from which Edouard had recently formed. The disturbance moved inland over the Florida Panhandle by 06:00 UTC the next day. It subsequently emerged off of the South Carolina coast into the Atlantic on July 8. Once offshore, the low moved northeastward, and around 18:00 UTC on July 9, the center re-formed and became better defined near an area of strong convection. At about the same, an Air Force Reserve Hurricane Hunter aircraft observed that the system, then near Cape Hatteras, North Carolina, was producing sustained tropical-storm-force winds. The low was then designated as Tropical Storm Fay. After formation, the storm moved northward to the east of the Mid-Atlantic states. At 18:00 UTC on July 10, it reached its peak intensity with maximum sustained winds of 60 mph (95 km/h) and a minimum pressure of 998 mbar (29. 47 inHg). Two hours later, Fay made landfall near Atlantic City, New Jersey, with winds of 50 mph (80 km/h). It quickly lost intensity inland, degenerating into a remnant low while over southeastern New York and later being absorbed into a larger mid-latitude low over southeastern Canada.[93]

Fay's precursor brought flooding to parts of the Southeastern United States, especially South Carolina, which recorded up to 12.96 in (329 mm) of precipitation near Saint Helena Island. Tropical storm warnings were issued for coastal areas of New Jersey, New York, Connecticut, and Rhode Island on July 9. A similar warning was issued for coastal Delaware on July 10.[93] New Jersey experienced some of the worst impacts from the storm. Heavy rainfall caused flooding in several Jersey Shore towns and resulted in closures along many roadways, including the New Jersey Turnpike.[94] Wind gusts up to 54 mph (87 km/h) left at least 10,000 people in the state without electricity.[93][95] Fay directly caused the deaths of two people, who drowned due to rip currents; four others drowned due to the residual high surf conditions after Fay had passed by.[93] Overall, damage from the storm in the Northeastern United States totaled at least $350 million, based on wind and storm surge damage on residential, commercial, and industrial properties.[84]

Tropical Storm Gonzalo

Tropical storm (SSHWS)
 
DurationJuly 21 – July 25
Peak intensity65 mph (100 km/h) (1-min);
997 mbar (hPa)

A dry, thermal low-pressure area merged with a tropical wave just offshore the west coast of Africa on July 15. Scatterometer data early on July 21 indicated that a small, but well-defined low-pressure area formed well east of the Lesser Antilles. After a steady increase in deep convection, the low developed into a tropical depression around 18:00 UTC about 1,440 mi (2,315 km) east of the Windward Islands. Light wind shear and sea surface temperatures of 82 °F (28 °C) allowed the depression to intensify into Tropical Storm Gonzalo around 06:00 UTC on July 22. Gonzalo moved generally westward due to the Bermuda-Azores high-pressure. The storm continued to strengthen throughout the day, with an eyewall under a central dense overcast and hints of a developing eye becoming evident.[96]

Gonzalo soon reached peak intensity, however, with sustained winds of 65 mph (100 km/h) and a minimum pressure of 997 mbar (29.4 inHg) at 06:00 UTC on July 23, as very dry air from Saharan Air Layer to its north significantly disrupted the central dense overcast. Although convection quickly redeveloped, the storm then encountered high wind shear, causing the cyclone to weaken. It weakened to a tropical depression before landfall on Trinidad just north of Manzanilla Beach. Likely due to land interaction, Gonzalo weakened further and degenerated into an open trough near Venezuela's Paria Peninsula by 00:00 UTC on July 26.[96]

Although the system moved westward across the Cabo Verde Islands, little rainfall was recorded as the disturbance had a limited amount of convection then. On July 23, hurricane watches were issued for Barbados and Saint Vincent and the Grenadines, and a tropical storm watch was issued later that day for Grenada and Tobago. After Gonzalo failed to strengthen into a hurricane on July 24, the hurricane and tropical storm watches were replaced with tropical storm warnings. The storm brought squally weather to Trinidad and Tobago and parts of southern Grenada.[96] However, the storm's impact ended up being significantly smaller than originally anticipated.[97] Only two reports of wind damage were received: a fallen tree on a health facility in Les Coteaux and a damaged bus stop roof in Argyle.[96]

Hurricane Hanna

Category 1 hurricane (SSHWS)
 
DurationJuly 23 – July 26
Peak intensity90 mph (150 km/h) (1-min);
973 mbar (hPa)

On July 11, a tropical wave exited the west coast of Africa. Dry air caused the system to be mostly devoid of convection by the time it reached the Lesser Antilles on July 17. Thereafter, unfavorable upper-level winds prevented the wave from developing significantly, as it crossed the Bahamas and Florida on July 20 and July 21. After the wave reached the Gulf of Mexico, upper-level winds became more favorable. The system acquired a well-defined circulation, and a tropical depression formed at 00:00 UTC on July 23 about 235 mi (380 km) south-southeast of Port Eads, Louisiana. Despite light to moderate wind shear and warm seas, mid-level dry air caused the depression to strengthen slowly. About 24 hours after forming, the depression became Tropical Storm Hanna as it moved west-northwestward.[49]

Later on July 24, Hanna began intensifying slightly faster as convective banding increased and an eye feature developed. That same day, the cyclone also curved westward due to a strengthening deep-layer ridge to the north. Hanna reached hurricane intensity at 12:00 UTC on July 25. The storm then curved west-southwestward and peaked with sustained winds of 90 mph (150 km/h) and a minimum pressure of 973 mbar (28.7 inHg). Hanna made landfall on Padre Island, Texas, at the same intensity at 22:00 UTC on July 25, one hour and fifteen minutes before making landfall in Kenedy County. The system rapidly weakened after moving inland, dropping to tropical depression status at 18:00 UTC on July 26 near Monterrey, Nuevo León, and then dissipating shortly thereafter.[49]

The precursor disturbance to Hanna dropped heavy rain to parts of Hispaniola, the Florida Keys, and Cuba. In Walton County, Florida, a 33-year-old man drowned in rip currents while rescuing his son. In portions of Louisiana, Mississippi, Alabama, and the Florida Panhandle, the outer bands of Hanna brought heavy rainfall,[49] even threatening street flooding in New Orleans.[98] Immediately after the system was classified as a tropical depression, tropical storm watches were issued for much of the Texas shoreline. At 21:00 UTC on July 24, a hurricane warning was issued from Baffin Bay to Mesquite Bay, Texas, due to Hanna being forecast to become a hurricane before landfall.[49] As the hurricane approached landfall, Texas governor Greg Abbott announced the deployment of 17 COVID-19 mobile testing teams focused on shelters and 100 medical personnel provided by the Texas National Guard.[99] Hanna brought storm surge flooding, destructive winds, torrential rainfall, flash flooding and five isolated EF0 tornadoes across South Texas and Northeastern Mexico. In the former, the storm destroyed several mobile homes and deroofed many poorly-built structures. About 200,000 homes in Cameron and Hidalgo counties combined suffered power outages. Floodwaters entered dozens of buildings in low-lying areas. In the United States, Hanna indirectly caused five deaths and caused about $1.1 billion in damage. In Mexico, heavy rain fell in Coahuila, Nuevo León, and Tamaulipas. More than 250 homes in Coahuila were inundated, while at least 45 neighborhoods in Reynosa reported flood damage. The cyclone directly caused four deaths in Mexico and caused approximately $100 million in damage.[49]

Hurricane Isaias

Category 1 hurricane (SSHWS)
 
DurationJuly 30 – August 4
Peak intensity90 mph (150 km/h) (1-min);
986 mbar (hPa)

A tropical wave emerged into the Atlantic from the west coast of Africa on July 24. The wave gradually organized and became better defined, developing a broad area of low pressure on the following day.[50] Due to the threat the system posed to the Lesser Antilles, the NHC initiated advisories on the system as Potential Tropical Cyclone Nine at 15:00 UTC on July 28.[100] By the next day, the disturbance was producing heavy rains and gale-force winds. Scatterometer passes by early on July 30 indicated that the system had developed a sufficiently well-defined center and became Tropical Storm Isaias by 00:00 UTC about 140 mi (225 km) south of Ponce, Puerto Rico. The cyclone made landfall about 16 hours later near San Pedro de Macorís, Dominican Republic. Shortly after the storm's eye moved offshore the northern coast of Hispaniola early on July 31, Isaias intensified into a hurricane. Nine hours later, it made landfall on Great Inagua Island in the Bahamas.[50]

The storm then fluctuated in intensity due to strong wind shear and dry air, with Isaias reaching its initial peak intensity early on July 31 with winds of 85 mph (135 km/h). At 13:00 UTC on August 1, Isaias made landfall on North Andros with winds of 80 mph (130 km/h), and the system weakened to a tropical storm at 18:00 UTC. It then turned north-northwest, remaining offshore Florida and Georgia while fluctuating between 65 and 70 mph (100–110 km/h) wind speeds. As the cyclone accelerated northeastward and approached the Carolina coastline, wind shear relaxed, allowing the storm to quickly re-intensify into a hurricane at 18:00 UTC on August 3. At 03:10 UTC the next day, Isaias made landfall in Ocean Isle Beach, North Carolina, at peak intensity with sustained winds of 90 mph (150 km/h) and a minimum pressure of 986 mbar (29.1 inHg). Following landfall, Isaias accelerated and weakened slowly, dropping below hurricane status at 06:00 UTC over North Carolina. The storm passed over the Mid-Atlantic states before transitioning to an extratropical low around 00:00 UTC on August 5 while situated over central Vermont, and dissipating several hours later over Quebec.[50]

Numerous tropical storm watches warnings as well as hurricane watches and hurricane warnings were issued for the Lesser Antilles, Greater Antilles, Bahamas, Cuba, and the entire East Coast of the United States. Isaias caused devastating flooding and wind damage in Puerto Rico and the Dominican Republic. Several towns were left without electricity and drinking water in Puerto Rico.[50] In the United States, Isaias triggered a large tornado outbreak that prompted the issuance of 109 tornado warnings across 12 states.[101][102][103] A total of 39 tornadoes touched down, several of which caused significant damage. Impact was mostly minor in Florida and Georgia. Storm surge in South Carolina left significant impacts in Horry County, with 483 homes damaged in Myrtle Beach alone. In North Carolina, storm surge destroyed some bulkheads and dunes, while water flooded streets and entered the ground floors of businesses in downtown Wilmington. An EF3 tornado in Bertie County demolished several mobile homes and stick-built dwellings, killing two people and injuring 14. Strong winds, storm surge, and many tornadoes left significant damage in the Northeastern United States. Almost 3 million people were without electricity at the height of the storm, including over 1 million people in New Jersey alone. Isaias caused 17 deaths across the Greater Antilles and eastern United States: 14 in the continental United States, 2 in the Dominican Republic, and 1 in Puerto Rico. Damage estimates exceeded $4.8 billion, with almost $3.5 billion of which occurring in the Northeastern United States, making Isaias the costliest tropical cyclone to strike the region since Hurricane Sandy in 2012.[50]

Tropical Depression Ten

Tropical depression (SSHWS)
 
DurationJuly 31 – August 1
Peak intensity35 mph (55 km/h) (1-min);
1008 mbar (hPa)

On July 28, a tropical wave emerged off the west coast of Africa. The system soon developed a defined low pressure center on July 29 as it turned north along the east side of an upper-level low. Associated convection became sufficiently organized for the system to be classified as a tropical depression the following day; at this time the cyclone was located about 230 mi (370 km) east-southeast of the easternmost Cabo Verde Islands. The system reached its peak intensity with winds of 35 mph (55 km/h) and a pressure of 1008 mbar (29.77 inHg) around 00:00 UTC on August 1. Scatterometer data revealed conflicting data, with tropical storm-force winds noted in one pass within the deepest convection to the southwest of the storm's center where the weakest winds are typically found. A near-concurrent pass from another satellite showed lower winds and the highest winds were determined to be rain-inflated, and given the conflicting data the NHC determined the system to have not become a tropical storm. Thereafter, a combination of decreasing sea surface temperatures and dry air caused convection to dissipate. The depression turned west-northwest and degraded into a remnant low later that day. It soon dissipated on August 2 north of the Cabo Verde Islands.[51]

Tropical Storm Josephine

Tropical storm (SSHWS)
 
DurationAugust 11 – August 16
Peak intensity45 mph (75 km/h) (1-min);
1004 mbar (hPa)

On August 7, the NHC began monitoring a tropical wave over the tropical Atlantic. Shower and thunderstorm activity on the wave axis increased as it moved westward at 17–23 mph (27–37 km/h) and a mid-level circulation formed on August 9, although the low-level circulation remained elongated and poorly-organized. The wave's circulation then became defined and a low-pressure system with disorganized convection formed late on August 10. A burst of convection near the center followed by some subsequent organization allowed the system to be designated Tropical Depression Eleven at 06:00 UTC on August 11 about 920 mi (1,480 km) west-southwest of the Cabo Verde Islands. However, the depression's ability to intensify was initially hindered by dry mid-level air and moderate easterly wind shear. After over two days with little change in intensity, the shear relaxed some, allowing convection to begin to form closer to the estimated center of the depression. This allowed it to strengthen into Tropical Storm Josephine at 12:00 UTC on August 13, reaching an initial peak intensity of 45 mph (70 km/h) and a minimum pressure of 1,005 mbar (29.7 inHg).[104]

Josephine's intensity began to fluctuate on August 14, as wind-shear affected the system, causing convection to be displaced from the circulation. Hurricane Hunter aircraft investigated the system later that day and found that the storm's center had relocated further north in the afternoon hours and Josephine reached its peak intensity with winds of 45 mph (75 km/h) and a minimum pressure of 1,004 mbar (29.6 inHg) at 18:00 UTC. Nonetheless, Josephine headed into increasingly hostile conditions as it began to pass north of the Leeward Islands. As a result, the storm later weakened, becoming a tropical depression at 06:00 UTC on August 16, just north of the Virgin Islands. The weakening cyclone's circulation became increasingly ill-defined, and Josephine eventually weakened into a trough of low pressure 12 hours later.[104]

Tropical Storm Kyle

Tropical storm (SSHWS)
 
DurationAugust 14 – August 15
Peak intensity50 mph (85 km/h) (1-min);
1000 mbar (hPa)

A mesoscale convective system moved offshore of South Carolina and Georgia early on August 11. The convective activity weakened that day, but a small mid-level circulation formed from the system and it re-developed some thunderstorm activity that night while it moved slowly northeastward off the coast of South Carolina. This activity generated the development of a weak low-level circulation that moved near the coast of southern North Carolina late on August 12. The system became better organized the next day, although it lacked a well-defined center and banding features. The low then moved offshore of the Outer Banks early on August 14,[105] and deep convection increased as most of the circulation was over the warm water temperatures in the Atlantic.[106] The low became better defined overnight as a result of the convection, and became Tropical Storm Kyle around 12:00 UTC on August 14, about 105 mi (170 km) east-northeast of Duck, North Carolina. The storm then moved quickly east-northeastward along the Gulf Stream due to the flow between a broad mid-level trough over the Northeastern United States and the western Atlantic subtropical ridge. Despite moderate-to-strong wind shear, Kyle strengthened on August 15, reaching its peak intensity around 12:00 UTC with maximum sustained winds of 50 mph (85 km/h) and a minimum pressure at 1,000 mbar (29.53 inHg) about 230 mi (370 km) southeast of Cape Cod, Massachusetts. The storm began to weaken afterward due to increasing shear and interaction with a stationary front; its circulation began to become elongated as a result. Kyle became an extratropical cyclone when it embedded itself within the front at 00:00 UTC August 16. Its center dissipated and the remnants were absorbed into the front shortly thereafter.[105] Several days later, extratropical European windstorm Ellen, which contained remnants of Tropical Storm Kyle, brought hurricane-force winds to the Republic of Ireland and the United Kingdom.[107][108]

Hurricane Laura

Category 4 hurricane (SSHWS)
 
DurationAugust 20 – August 29
Peak intensity150 mph (240 km/h) (1-min);
937 mbar (hPa)

On August 16, a tropical wave exited the west coast of Africa and entered the Atlantic. The wave combined with a broad area of low pressure located a few hundred miles west-southwest of the Cabo Verde Islands on August 18. Deep convection steadily increased and became better organized as the disturbance moved across the central tropical Atlantic, and by 00:00 UTC on August 20, the presence of a sufficiently well-defined low-level circulation indicated that Tropical Depression Thirteen developed about 980 mi (1,575 km) east-southeast of Antigua. By 12:00 UTC that same day, the cyclone organized further and strengthened into Tropical Storm Laura. However, moderate wind shear then prohibited further intensification.[55] The storm had a disorganized appearance in satellite imagery as it crossed the northern Leeward islands on August 21. It then became organized on August 22, while passing just south of the U.S. Virgin Islands and Puerto Rico.[109] Early on August 23, Laura made landfall about 25 mi (40 km) west of Santo Domingo, Dominican Republic, with winds of 50 mph (80 km/h). The storm weakened little as it moved across the mountainous terrain of Hispaniola. Laura made landfall near Uvero in Cuba's Santiago de Cuba Province with winds of 65 mph (105 km/h) at 02:00 UTC on August 24, before re-emerging into the Caribbean and striking near Playa de las Tunas in Pinar del Río Province at the same intensity about 22 hours later.[55]

Laura entered the Gulf of Mexico later on August 25, where it became a hurricane around 12:00 UTC that day. Later, while situated over the central Gulf, Laura began a period of rapid intensification, and by 12:00 UTC on August 26, the storm became a major Category 3 hurricane. A mid-level low near Oklahoma caused the system to turn northwestward and then northward, and over the 24-hour period ending at 00:00 UTC on August 27, it intensified by about 65 mph (105 km/h), to Category 4 strength. At that time, Laura reached its peak intensity with maximum sustained winds of 150 mph (240 km/h) and minimum pressure 937 mbar (27.67 inHg) while located less than 90 mi (140 km) south of Creole, Louisiana. Laura's pressure then rose slightly to 939 mbar (27.72 inHg), but the storm maintained its peak winds as it made its final landfall near Cameron, Louisiana, at 06:00 UTC.[55] The hurricane became the strongest Louisiana-landfalling tropical cyclone in terms of wind speed since the 1856 Last Island hurricane.[110] Laura steadily weakened after moving inland, dropping to tropical storm strength around 18:00 UTC over northern Louisiana and then to a tropical depression over Arkansas early on August 28. The deteriorating system then turned northeastward and degenerated into a remnant low over northern Kentucky by 06:00 UTC on August 29. The remnant low was absorbed by another low centered near the Great Lakes region six hours later.[55]

As Laura passed through the Northern Leeward Islands, it brought heavy rainfall to Guadeloupe and Dominica,[111] and prompted the closing of all ports in the British Virgin Islands.[112] The storm produced heavy downpours upon Puerto Rico and Hispaniola.[113] The storm left extensive damage in Louisiana, especially in the southwest region of the state. Storm surge penetrated up to nearly 35 mi (55 km) inland, while Creole and Grand Chenier were inundated with coastal floodwaters ranging from 12 to 18 ft (3.7 to 5.5 m) above ground, sweeping away structures in Cameron Parish. Wind gusts reached up to 153 mph (246 km/h) at Holly Beach, resulting in catastrophic wind damage in Calcasieu and Cameron parishes. Outside of the two parishes, Beauregard and Vernon parishes were next hardest hit, with the core of the storm passing directly over. Several other parishes reported damage to homes and buildings due to strong winds or falling trees.[55] Laura destroyed approximately 10,000 homes and damaged over 130,000 others in the state.[114] Damage in Louisiana alone totaled about $17.5 billion. Texas was second hardest hit by the storm, with high winds downing many power lines, power poles, and trees in the eastern part of the state, while some counties reported damage to businesses and homes. Laura produced 16 tornadoes in the United States, the most significant of them being an EF2 tornado in Randolph County, Arkansas. Altogether, there were 81 storm related deaths. Of these, 47 were direct deaths associated with Laura, including 31 in Haiti, 9 in the Dominican Republic, and 7 in the United States. There were also 34 indirect deaths, all of them in the United States.[55]

Hurricane Marco

Category 1 hurricane (SSHWS)
 
DurationAugust 21 – August 25
Peak intensity75 mph (120 km/h) (1-min);
991 mbar (hPa)

Between August 10 and August 11, a tropical wave entered into the Atlantic from the west coast of Africa. Convection remained poorly organized for several days as the wave moved eastward across the Atlantic and into the Caribbean. However, showers and thunderstorms within the wave became more concentrated as it reached the central Caribbean on August 19, with a low-pressure area developing on the next day. By 06:00 UTC on August 21, the wave possessed a closed circulation and sufficient organized convection, resulting in its designation as Tropical Depression Fourteen near the coasts of Nicaragua and Honduras. The system moved northwestward and intensified, becoming Tropical Storm Marco around 00:00 UTC on August 22, as it moved over the northwestern Caribbean. This strengthening trend continued as Marco moved through the Yucatán Channel. The storm reached hurricane strength at 12:00 UTC on August 23 while centered over the southeastern Gulf of Mexico, with maximum sustained winds of 75 mph (120 km/h) and a minimum pressure of 991 mbar (29.26 inHg). This would be Marco's peak intensity, as strong southwesterly wind shear caused the system to weaken to tropical storm strength by 00:00 UTC on August 24, while the center was about 265 mi (425 km) south-southeast of the mouth of the Mississippi River. The storm made a westward turn as it neared the Louisiana coast later that day. Marco then weakened to a depression shortly after 00:00 UTC on August 25 and degenerated into a remnant low about six hours later, without making landfall.[54]

The storm produced rainfall in western Cuba, with amounts generally ranging from 2–5 in (51–127 mm) in Pinar del Río Province, while a peak total of 5.72 in (145 mm) was observed at Cape San Antonio.[54] Flash flooding occurred in some areas, prompting at least 14 people to seek shelter.[115] Overflowing rivers caused flooding in the communities of Acacoyagua, Escuintla, and Tapachula.[116] Heavy rains fell along parts of the Gulf Coast of the United States between Florida and Mississippi, with up to 13.17 in (335 mm) of precipitation near Apalachicola, Florida.[54] Floodwaters inundated many streets in Panama City Beach.[117] Due to its dissipating state as it approached Louisiana, the storm caused minimal impact there.[54] Overall, Marco left approximately $35 million in damage throughout its path.[118]

Tropical Storm Omar

Tropical storm (SSHWS)
 
DurationAugust 31 – September 5
Peak intensity40 mph (65 km/h) (1-min);
1003 mbar (hPa)

A vigorous mid to upper-level shortwave trough moved into the Southeastern United States on August 29. The shortwave trough then interacted with the remnants of a frontal system, resulting in the formation of a low-pressure area offshore northeast Florida on August 30. Drifting over the Gulf Stream, the low quickly organized into a tropical depression around 12:00 UTC on August 31 while situated about 150 mi (240 km) south-southeast of Wilmington, North Carolina. Dry air and vertical wind shear offset the warm sea surface temperatures as the system headed northeastward. However, following a burst in deep convection, the depression strengthened into Tropical Storm Omar around 12:00 UTC on September 1. The storm then peaked with sustained winds of 40 mph (65 km/h) and a minimum pressure of 1,003 mbar (29.6 inHg). An increase in wind shear kept Omar weak. Consequently, the storm struggled to maintain deep convection as it moved eastward and weakened to a tropical depression early on September 3. Omar decelerated due to a weak steering flow, turning northward on September 5, due to a southerly flow associated with a deep-layer trough. Although the cyclone experienced periodic bursts of convection, strong wind shear eventually caused the storm to degenerate into a remnant low about 575 mi (925 km) northeast of Bermuda late on September 5. The low moved generally northward before being absorbed by a frontal system on the following day.[56]

Hurricane Nana

Category 1 hurricane (SSHWS)
 
DurationSeptember 1 – September 3
Peak intensity75 mph (120 km/h) (1-min);
994 mbar (hPa)

On August 23, a tropical wave emerged into the Atlantic from the west coast of Africa. Convection increased noticeably as the wave crossed the Intertropical Convergence Zone and on August 27, when it was about halfway between the Cabo Verde Islands and the Lesser Antilles. After the system entered the Caribbean on August 30, convection became concentrated near the system's mid-level circulation center. By 06:00 UTC on September 1, the system acquired a closed surface circulation and sufficiently organized deep convection to become Tropical Storm Nana while located about 180 mi (290 km) southeast of Kingston, Jamaica. The classification as a tropical storm was because the system already possessed tropical storm-force winds.[nb 6] By 18:00 UTC that same day, the storm strengthened, reaching sustained winds of 60 mph (95 km/h) before moderate northerly shear briefly halted intensification and partially exposed the center of circulation; even so, its pressure continued to drop. After the shear abated slightly late on September 2, Nana redeveloped convection over its center and intensified into a hurricane at 03:00 UTC on September 3 near the coast of Belize. Nana simultaneously peaked with maximum sustained winds of 75 mph (120 km/h) and a minimum pressure of 994 mbar (29.36 inHg). At 06:00 UTC, the hurricane made landfall at the same intensity near Sittee Point, about 50 mi (80 km) south of Belize City. Once inland, Nana quickly weakened to a tropical storm six hours later and then a tropical depression late on September 3 near the Guatemala–Mexico border. It degenerated into a remnant low by 00:00 UTC on September 4, and dissipated shortly thereafter. The mid-level remnants of the system emerged over the Gulf of Tehuantepec where they regenerated into Tropical Storm Julio in the eastern Pacific on September 5.[60]

Nana caused street flooding in the Bay Islands of Honduras.[120] In Belize, the storm produced sustained winds up to 61 mph (98 km/h) and gusts up to 75 mph (120 km/h) at Carrie Bow Cay. Winds caused extensive damage to avocado, banana, citrus, corn, and plantain crops, with hundreds of acres of banana and plantation crops destroyed.[60] Damage Assessment and Need Analysis (DANA) teams reported 13 structures damaged in Silk Grass and 7 others in Hopkins, while 4 homes in Dangriga experienced roof damage.[121] Elsewhere, however, structural impacts were limited.[60] Total economic losses in Belize exceeded $20 million.[122] Heavy amounts of precipitation also occurred in northern Guatemala and southeastern Mexico.[60]

Hurricane Paulette

Category 2 hurricane (SSHWS)
 
DurationSeptember 7 – September 22
Peak intensity105 mph (165 km/h) (1-min);
965 mbar (hPa)

On September 2, a tropical wave emerged into the Atlantic from the west coast of Africa. The wave organized over the eastern Atlantic and formed a low-pressure area on September 6, as it moved generally westward. Around 00:00 UTC on the next day, the low developed into Tropical Depression Seventeen roughly 1,150 mi (1,850 km) west of the Cabo Verde Islands. About 12 hours later, the depression intensified into Tropical Storm Paulette. The storm moved generally west-northwestward while gradually intensifying. At 12:00 UTC on September 9, Paulette reached an initial peak intensity with sustained winds of 60 mph (95 km/h), which lasted for about 12 hours, before increasing wind shear weakened the storm. Despite unfavorable conditions, Paulette began to re-intensify on September 11. Eventually, lessening wind shear allowed Paulette to become more organized and begin to form an eye, becoming a hurricane early on September 13, about 415 mi (670 km) southeast of Bermuda. Dry air entrainment gave the storm a somewhat ragged appearance, but Paulette continued to slowly strengthen as it approached Bermuda, with its eye clearing out and its convection becoming more symmetric. Paulette then turned sharply northward and strengthened into a Category 2 hurricane as it made landfall on Bermuda at 08:50 UTC on September 14 with winds of 100 mph (155 km/h). The storm continued to strengthen after moving over Bermuda, reaching its peak intensity later that day, with maximum sustained winds of 105 mph (165 km/h) and a minimum pressure of 965 mbar (28.50 inHg).[61]

After attaining its peak intensity, Paulette accelerated northeastward on September 15 and began an extratropical transition, which it completed the next day about 405 mi (650 km) southeast of Cape Race, Newfoundland. After gradually weakening over the following few days and slowly curving southward, the extratropical cyclone began to redevelop a warm core as the convection associated with the low gradually increased in coverage and organization. By 18:00 UTC on September 20, the system reorganized into a tropical storm about 230 mi (370 km) south-southwest of the Azores. Then, at 00:00 UTC on September 22, Paulette reached a secondary peak intensity of 60 mph (95 km/h). It moved eastward over the next day, and became post-tropical for the second and final time on September 23 while situated roughly 690 mi (1,110 km) southeast of the Azores. Although the remnant low briefly re-strengthened again, drier and more stable air as well as colder ocean temperatures prevented redevelopment. The low meandered to the south of the Azores before degenerating into a trough of low pressure late on September 28.[61]

Paulette produced hurricane-force winds on Bermuda, with sustained winds reaching 79 mph (127 km/h) at Pearl Island and surface-level gusts reaching 97 mph (156 km/h) at L.F. Wade International Airport.[61] Trees and power lines were downed throughout Bermuda as Paulette passed over,[123] leading to roughly 25,000 power outages, which accounts for approximately 70 percent of electrical customers on the island. Damage on Bermuda totaled approximately $50 million. There were two direct deaths and one injury associated with Paulette, each of which occurred due to rip currents along the Atlantic coast of the United States. Between September 13 and September 15, several water rescues were conducted along the coast of New Jersey.[61]

Tropical Storm Rene

Tropical storm (SSHWS)
 
DurationSeptember 7 – September 14
Peak intensity45 mph (75 km/h) (1-min);
1001 mbar (hPa)

A tropical wave emerged off the coast of Africa over the Atlantic Ocean on September 6. A well-defined low-pressure area already existed, though convection initially remained limited. An area of deep convection formed over the center of the low by 06:00 UTC on September 7, marking the formation of Tropical Depression Eighteen approximately 200 mi (320 km) east of the easternmost islands of Cabo Verde. Convection consolidated and organized further, with banding developing later that day, while the depression intensified into Tropical Storm Rene about 12 hours later. Moving west-northwestward for much of its duration, Rene made landfall on Boa Vista Island around 00:00 UTC on September 8 with sustained winds of 40 mph (65 km/h). Dry air and only marginally warm seas caused convection to wane and Rene weakened to a tropical depression several hours later. After another burst in deep convection early on September 9, the cyclone re-strengthened into a tropical storm. At 12:00 UTC on September 10, Rene peaked with sustained winds of 45 mph (75 km/h) and a minimum barometric pressure of 1,001 mbar (29.6 inHg). Showers and thunderstorms decreased starting on the following day due to dry air and Rene weakened to a tropical depression on September 12. Strong westerly shear caused further weakening, with Rene degenerating into a trough about 1,035 mi (1,665 km) northeast of the Leeward Islands. The remnants turned southwestward and dissipated a few days later.[124]

Rene brought gusty winds and heavy rain to the Cabo Verde Islands on September 8.[125] A tropical storm warning was issued for the islands on September 7, which remained in effect though late the next day.[124]

Hurricane Sally

Category 2 hurricane (SSHWS)
 
DurationSeptember 11 – September 17
Peak intensity110 mph (175 km/h) (1-min);
965 mbar (hPa)

In early September, a well-defined surface trough developed over the western Atlantic just south of Bermuda. The trough moved slowly west-southwestward towards the Bahamas, where it produced disorganized convection beginning on September 10. By 18:00 UTC on September 11, convection within the system became better organized and a well-defined center of circulation developed, marking the formation of Tropical Depression Nineteen between Andros Island and Bimini in the Bahamas. The depression moved westward and made landfall near Cutler Bay, Florida, around 06:00 UTC on September 12, with winds of 35 mph (55 km/h). Six hours later, while its center was over the Everglades, the depression strengthened into Tropical Storm Sally. Sally emerged over the Gulf of Mexico a few hours later and turned to the northwest once offshore. Moderate northwesterly shear hindered its steady strengthening. When the shear decreased somewhat early the next day, a burst of deep convection developed near and to the east of the storm's center and it began to go through a period of rapid intensification. During this time, Sally became a category 1 hurricane at 06:00 UTC on September 14, while centered about 145 mi (235 km) south of Pensacola, Florida, as its intensity increased from 60 mph (95 km/h) to 85 mph (135 km/h) over an 18-hour period. After weakening to 80 mph (130 km/h) early on September 15, Sally slowed to a crawl while turning north-northeastward. Later that same day, Sally began a second period of rapid intensification, becoming a high-end Category 2 hurricane by 06:00 UTC September 16. At around 09:45 UTC, the system made landfall at peak intensity near Gulf Shores, Alabama, with maximum sustained winds of 110 mph (175 km/h) and a minimum central pressure of 965 mbars (28.50 inHg). Sally rapidly weakened to a tropical storm by 18:00 UTC as it moved slowly inland. Later, the storm weakened to a tropical depression by 06:00 UTC on September 17, and became an extratropical low six hours later over eastern Alabama. It was subsequently absorbed within a cold front and dissipated over South Carolina on the following day.[62]

In its early stages, Sally dropped heavy rainfall in South Florida. Although this mostly caused street flooding, up to 6 in (150 mm) of water was reported in some businesses and homes in Key West. Winds uprooted some trees and knocked down power lines, leaving about 10,000 customers without power. The hurricane lashed the Florida Panhandle with strong winds, heavy precipitation, and storm surge. Approximately 50 structures were demolished, while thousands of others in Escambia and Santa Rosa counties suffered damage. Flooding left numerous roads impassable and washed out several roads and bridges. The widespread uprooting of trees and damaged power lines left at least 245,000 customers without electricity. In Alabama, hurricane-force winds in Baldwin and Mobile counties damaged many buildings, uprooted numerous trees and knocked down power lines, causing 275,000 electrical customers to lose power. Farther inland, heavy rainfall left several roads impassable and washed out in Coffee, Crenshaw, and Escambia counties. In Mississippi, storm surge inundated 100 low-lying roads in Hancock County and 60 others in Jackson County. Falling trees blocked some roads and damaged some homes in the latter. Storm surge in Louisiana left some roads impassable in low-lying areas of Jefferson, Orleans, Plaquemines, St. Bernard, and St. Tammany parishes. Flash flooding impacted portions of Georgia, especially in Washington County and the Augusta and Waynesboro areas. Some trees were uprooted due to saturated grounds, leaving around 30,000 customers without power. Overall, there were 23 tornadoes reported across the Southeastern United States while Sally was a tropical cyclone, including 12 in South Carolina, 6 in Georgia, 4 in North Carolina, and 1 in Florida. The storm was responsible for nine fatalities – three in Florida and two each in Alabama and Georgia – and approximately $7.3 billion in damage.[62]

Hurricane Teddy

Category 4 hurricane (SSHWS)
 
DurationSeptember 12 – September 23
Peak intensity140 mph (220 km/h) (1-min);
945 mbar (hPa)

A tropical wave emerged into the Atlantic from the west coast of Africa on September 10. Though the wave was experiencing moderate northeasterly shear, convection increased early on September 12, which led to the development of a well-defined surface center. As a result, a tropical depression formed around 06:00 UTC about 575 mi (925 km) southwest of the Cabo Verde Islands. After overcoming a combination of northeasterly shear, dry air in the mid-levels and the large size and radius of maximum winds of the system, the depression strengthened into Tropical Storm Teddy around 00:00 UTC on September 14. Late the next day, the storm began its first period of rapid intensification. During this time, microwave images indicated that an eye formed, and that Teddy had become a hurricane near 00:00 UTC September 16 about 805 mi (1,295 km) east-northeast of Barbados. The storm continued to intensify, becoming a Category 2 hurricane several hours later. Some slight westerly wind shear briefly halted further strengthening, but when it subsided, the storm began another period of rapid intensification early on September 17. Teddy became a Category 3 major hurricane around 12:00 UTC while centered about 575 mi (925 km) east-northeast of Guadeloupe and became a Category 4 hurricane six hours later. Around 00:00 UTC on September 18, Teddy reached its peak intensity with maximum sustained winds of 140 mph (220 km/h) and a minimum barometric pressure of 945 mbar (27.91 inHg).[63]

An eyewall replacement cycle late on September 18 caused the storm to weaken to a Category 3, while an increase in southwesterly shear caused Teddy to drop below major hurricane strength around 00:00 UTC on September 20. The cyclone passed about 230 mi (370 km) east of Bermuda on September 21 as it turned northward and north-northeastward while interacting with a negatively tilted trough. This interaction caused an increase in both the storm's maximum wind speed and size. Teddy reached a secondary peak intensity of 105 mph (170 km/h) between 06:00 UTC and 12:00 UTC on September 22. Interaction with the trough also triggered the extratropical transition process; Teddy's wind field became more asymmetric, and the associated convection become less centralized. At about 18:00 UTC that same day, the hurricane weakened to Category 1 intensity, before becoming an extratropical low at around 00:00 UTC on September 23, while located about 190 mi (305 km) south of Halifax, Nova Scotia. The low then moved onshore of Atlantic Canada approximately 12 hours later near Ecum Secum, Nova Scotia, with sustained winds of 65 mph (105 km/h). The system weakened as it moved northward across eastern Nova Scotia and then the Gulf of St. Lawrence, where it was absorbed by a larger non-tropical low early on September 24, near eastern Labrador.[63]

The hurricane generated large ocean swells which spread along much of the U.S. Atlantic coast and from the northern Caribbean to Bermuda. Two people drowned in Puerto Rico due to rip currents generated by these swells on September 18, as did a swimmer in New Jersey. Abnormally high tides also caused coastal flooding in Charleston, South Carolina, and the Outer Banks of North Carolina. In the latter, waves swept away some sand dunes and pushed sand onto roadways. About 220 households lost power in Bermuda. Otherwise, impact was mainly limited to sand being deposited on roadways on the island's south coasts. The extratropical remnants of Teddy generated wind gusts up to 90 mph (145 km/h) in Nova Scotia. Approximately 18,000 customers throughout the Atlantic Canada region lost electricity. There were also isolated reports of minor flooding.[63] Damage from Teddy in all areas impacted totaled roughly $35 million.[118]

Tropical Storm Vicky

Tropical storm (SSHWS)
 
DurationSeptember 14 – September 17
Peak intensity50 mph (85 km/h) (1-min);
1001 mbar (hPa)

In the early hours of September 11, a tropical wave moved off the coast of Africa. An area of low pressure associated with the wave moved northwestward and crossed the Cabo Verde Islands on September 12, producing showers and locally heavy rain. The next day, the disturbance steadily organized, and by 00:00 UTC on September 14, the system became Tropical Depression Twenty-One about 195 mi (315 km) west of the northwesternmost of the Cabo Verde Islands. The depression strengthened into Tropical Storm Vicky six hours later based on scatterometer data. Despite extremely strong shear partially caused by Hurricane Teddy's outflow removing all but a small convective cluster to the northeast of its center, Vicky intensified further, reaching its peak intensity with maximum sustained winds of 50 mph (85 km/h) and a pressure of 1,001 mbar (29.52 inHg) at 12:00 UTC on September 15. Over the ensuing couple of days, the storm was beset by increasing wind shear, and it weakened to a tropical depression around 12:00 UTC on September 17. Then, about six hours later, it degenerated into a remnant low about 920 mi (1,480 km) west-northwest of the northwesternmost Cabo Verde Islands and subsequently dissipated.[126]

The precursor tropical wave of Vicky produced flooding in the Cabo Verde Islands.[126] Within a 24-hour period, approximately 5 in (88 mm) of precipitation fell in the capital city of Praia. Flooding blocked several roads and damaged automobiles, bridges, buildings, and farmland.[127] The floods killed one person in Praia on September 12.[126]

Tropical Storm Wilfred

Tropical storm (SSHWS)
 
DurationSeptember 17 – September 21
Peak intensity40 mph (65 km/h) (1-min);
1006 mbar (hPa)

A tropical wave and its associated broad low-pressure area emerged into the Atlantic from the west coast of Africa on September 13. A well-defined center of circulation formed on September 17 as the result of a strong burst of deep convection formed near the center of the low. Stronger and more organized convection appeared later that day, while a scatterometer pass revealed that the circulation had become better defined, and the presence of tropical-storm-force winds. As a result, Tropical Storm Wilfred developed around 18:00 UTC on September 17 while situated about 345 mi (555 km) southwest of the southernmost islands of Cabo Verde. Six hours later, the storm attained its peak intensity with sustained winds of 40 mph (65 km/h) and a minimum pressure of 1,006 mbar (29.71 inHg). Very dry air from the Saharan Air Layer prevented further intensification, while westerly to northwesterly wind shear increased to about 23 mph (37 km/h) by September 19. Deep convection began to diminish on the following day, causing Wilfred to weaken to a tropical depression around 12:00 UTC. Early on September 21, Wilfred degenerated into an open trough approximately 920 mi (1,480 km) east of the northern Leeward Islands.[128]


Subtropical Storm Alpha

Subtropical storm (SSHWS)
 
DurationSeptember 17 – September 19
Peak intensity50 mph (85 km/h) (1-min);
996 mbar (hPa)

A large, extratropical low-pressure area developed over the northeast Atlantic Ocean on September 14, following the interaction between a surface front and an upper-level low. The low peaked with sustained winds of 70 mph (115 km/h) on September 15. Although the low weakened as it headed south-southeastward, the wind field contracted and convection began forming closer to the circulation due to marginally warm sea surface temperatures and sufficient atmospheric instability. By 06:00 UTC on September 17, the system developed into Subtropical Storm Alpha roughly 405 mi (650 km) east of the Azores. Alpha continued to strengthen and attained its peak intensity as a subtropical system around 00:00 UTC on September 18, with maximum sustained winds of 50 mph (85 km/h) and a minimum pressure of 996 mbar (29.41 inHg). At 18:40 UTC that day, the cyclone made landfall about 10 mi (15 km) south of Figueira da Foz, Portugal. Around 00:00 UTC on September 19, Alpha weakened to a subtropical depression inland over north-central Portugal.[64] Three hours later, it degenerated to a post-tropical remnant low near Viseu, Portugal.[129] and dissipated shortly thereafter.[64]

In preparation for Alpha on September 18, orange warnings were raised for high wind and heavy rain in Coimbra and Leiria districts of Portugal. Alpha and its associated low produced a wind gust up to 55 mph (89 km/h) at Monte Real. High winds downed many trees and caused numerous power outages in coastal Portugal. The storm also spawned at least two tornadoes, both rated EF1 on the Enhanced Fujita scale. In Spain, the front associated with Alpha caused a train to derail in Madrid,[64] while thunderstorms on Ons Island caused a forest fire.[130] There were no reports of injuries or deaths related to Alpha while it was a subtropical cyclone, but its remnants caused one fatality in Spain, as a woman in Calzadilla died after a roof collapsed upon her.[64] Overall, Alpha caused at least $1 million in damage.[122]

Tropical Storm Beta

Tropical storm (SSHWS)
 
DurationSeptember 17 – September 22
Peak intensity65 mph (100 km/h) (1-min);
993 mbar (hPa)

An area of disturbed weather, composed of a tropical wave, an upper-level low-pressure area, and a frontal trough, stretched from the western Caribbean to offshore the Southeastern United States on September 5 and September 6. Drifting westward, the disturbance reached the northeastern Gulf of Mexico and consolidated by September 12. However, development of the system was not expected at the time due to strong upper-level winds produced by Hurricane Sally, which made landfall in Alabama on September 16 and then moved across the Southeastern United States. By 12:00 UTC the next day, disturbance organized into Tropical Depression Twenty-Two about 350 mi (565 km) south-southeast of Brownsville, Texas. The depression headed slowly northeastward and intensified, becoming Tropical Storm Beta late on September 18. Although dry air generated by a surface trough and an upper-level trough prevented Beta from rapidly intensifying, the cyclone was able to reach a peak wind speed of 65 mph (100 km/h) around 12:00 UTC on September 20 and a minimum pressure of 993 mbar (30.47 inHg) around 00:00 UTC on the next day. Beta became nearly stationary after turning westward on September 20,[65] causing upwelling and weakening the storm.[131] Beta made landfall at 02:45 UTC on September 22, over the southern end of Matagorda Peninsula, near Port O'Connor, Texas, with winds of 50 mph (80 km/h). By 18:00 UTC, the storm weakened to a tropical depression and turned east-northeastward. Beta soon became an extratropical low inland near the Texas coast. The extratropical low moved through the Deep South until dissipating over northeastern Alabama early on September 25.[65]

Beta caused widespread moderate to major flooding in portions of the Greater Houston metropolitan area. Rainfall amounts generally ranged from 10 to 14 in (250 to 360 mm), with a peak total of 15.77 in (401 mm) in Brookside Village.[65] Houston officials reported that over 100,000 gallons of domestic wastewater spilled at five locations in the city as a result.[132] Rising floodwaters necessitated more than 100 high-water rescues and the closures of several highways and interstates in the area.[133][134] At least 20-25 homes in the Houston metropolitan area suffered flood damage. Officials also reported that one man drowned in Brays Bayou. The extratropical remnants of Beta brought heavy rainfall to other states, especially Louisiana and Mississippi. Throughout the United States, Beta caused approximately $225 million in damage.[65]

Hurricane Gamma

Category 1 hurricane (SSHWS)
 
DurationOctober 2 – October 6
Peak intensity75 mph (120 km/h) (1-min);
978 mbar (hPa)

On September 21, a tropical wave emerged into the Atlantic from the west coast of Africa. Dry air limited convection associated with the wave for several days, before convection increased as the system reached the western Caribbean on September 30. A surface low-pressure area developed early on October 2, and then the convection became sufficiently organized, resulting in the formation of Tropical Depression Twenty-Five by 06:00 UTC that day about 300 mi (485 km) southeast of Cozumel, Quintana Roo. The depression strengthened into Tropical Storm Gamma about 12 hours later. Thereafter, Gamma quickly intensified as it moved across the northwestern Caribbean Sea, reaching Category 1 hurricane strength and peaking with maximum sustained winds of 75 mph (120 km/h) and a minimum pressure of 978 mbar (28.88 inHg) as it made landfall near Tulum, Quintana Roo, at 16:45 UTC on October 3. It quickly weakened to a tropical storm while crossing the northern Yucatán Peninsula. After emerging over the southern Gulf of Mexico near Río Lagartos early on October 4, deep convection redeveloped over the center, enabling Gamma to re-strengthen and briefly reach a secondary peak intensity of 65 mph (105 km/h) at 18:00 UTC on October 4. The storm then stalled for several hours before slowly commencing a move southwestward. During this time, increasing shear and intrusions of dry air weakened the storm, leaving its center exposed by early on October 5. By 18:00 UTC that day, Gamma weakened to a tropical depression. It continued to produce disorganized convection through its final landfall, which occurred at 03:00 UTC on October 6, near San Felipe, Yucatán, with winds of 35 mph (55 km/h). The storm was absorbed by Hurricane Delta by late on October 6, while its circulation promptly dissipated over land.[67]

Numerous tropical storm watches and warnings were issued by the government of Mexico for parts of the Yucatán Peninsula following the formation of Gamma and several thousand people were evacuated to shelters.[67] The storm produced strong winds, heavy rainfall, flash flooding, landslides, and mudslides in the region.[135] Precipitation peaked at 15.11 in (384 mm) in Tizimin.[67] Extensive flooding was reported in the city, while at least 30 people were forced to evacuate their homes due to rising floodwaters. In Progreso, many streets were inundated and floodwaters entered several homes on the outskirts of the city.[136] In states outside of the Yucatán Peninsula region, water entered 11,457 homes, 10,815 of which were in Tabasco. Flooding in Chiapas damaged 543 homes, 326 roadways, 13 sections of a waterpipe network, and 2 schools.[137] Gamma caused at least six deaths in Mexico, with four in Chiapas and two in Tabasco.[67] Damage in Mexico totaled approximately $100 million.[118] Gamma's outerbands also produced heavy rainfall in the Cayman Islands, Cuba, and Florida.[138]

Hurricane Delta

Category 4 hurricane (SSHWS)
 
DurationOctober 4 – October 10
Peak intensity140 mph (220 km/h) (1-min);
953 mbar (hPa)

A tropical wave emerged into the Atlantic from the west coast of Africa on September 26. There was little convection associated with the wave until September 30, with shower and thunderstorm activity increased. Convection then fluctuated as it moved across the Caribbean Sea due to moderate wind shear and dry air. However, a well-defined center of circulation formed with sufficiently organized deep convection around 18:00 UTC on October 4, marking the formation of Tropical Depression Twenty-Six. Thunderstorm activity continued to increase after formation, but was initially confined to the southern portion of the circulation due to northerly wind shear. Once the shear lessened on October 5, convection became more symmetric around the center, and the system strengthened to become Tropical Storm Delta by 12:00 UTC that day about 150 mi (240 km) south-southwest of Montego Bay, Jamaica. Delta soon began to rapidly intensify, attaining hurricane strength 12 hours later. As it moved west-northwestward over the western Caribbean Sea, Delta became a Category 3 major hurricane by 12:00 UTC October 6. The cyclone then peaked as a Category 4 hurricane with maximum winds of 140 mph (220 km/h) and a minimum pressure of 953 mbar (28.14 inHg) six hours later. This period of rapid intensification resulted in a 105 mph (170 km/h) increase in winds over a 36-hour period. This breakneck rate of strengthening was due to a combination of extremely warm ocean water temperatures, low wind shear, and sufficiently moist air aloft.[68]

The hurricane weakened early on October 7 due to a slight increase in mid-level wind shear, which inhibited upper-level outflow from the storm and disrupted its small core. Around 10:30 UTC that day, Delta made landfall near Puerto Morelos, Quintana Roo, as a Category 2 hurricane with sustained winds of 105 mph (170 km/h).[68] Delta spent several hours over the Yucatán Peninsula before emerging into the Gulf of Mexico north of Dzilam de Bravo, Yucatán, as a Category 1 hurricane around 18:00 UTC. Moving northwestward and situated in generally favorable atmospheric and oceanic conditions, Delta again intensified, strengthening back to a major hurricane within 24 hours. It then reached its secondary peak intensity at 00:00 UTC on October 9, with winds of 120 mph (195 km/h) and a minimum pressure of 953 mb (28.14 inHg). During the day, however, an increase in southwesterly shear and a decrease in the oceanic heat content over the northern Gulf of Mexico caused Delta to weaken to Category 2 strength as it moved toward the southwestern Louisiana coast. Delta made landfall near Creole, Louisiana, with winds of 100 mph (160 km/h) at 23:00 UTC. Its landfall location was only about 10 mi (15 km) east of where Hurricane Laura's eye crossed the coast on August 27. Inland, Delta weakened to tropical storm strength at 06:00 UTC on October 10 near Alexandria, Louisiana. The storm continued to weaken that day as it turned northeastward, becoming extratropical over Mississippi by 18:00 UTC and subsequently degenerating into a trough of low pressure over Tennessee on October 12.[68]

As Delta was nearing landfall in Quintana Roo, Mexican president Andrés Manuel López Obrador announced on October 6 the activation of the DN-III emergency plan and the mobilization of 5,000 soldiers of the Mexican Armed Forces to help with the evacuation of sheltering people in the region.[139] There were numerous reports of uprooted trees and damage to the region's electrical grids, with approximately one-third of the region's population losing power. The storm caused significant flooding in Cozumel and Playa del Carmen. Overall, damage in Mexico totaled approximately $185 million. As Delta moved into the northern Gulf of Mexico, widespread watches and warnings were issued along the U.S. Gulf Coast.[68] States of emergency were declared in Louisiana, Mississippi, and Alabama and numerous coastal, low-lying, and flood prone areas were evacuated.[140][141][142] The hurricane and its remnants produced heavy rain, strong winds, storm surge, and tornadoes across much of the Southeastern United States. In Louisiana, strong winds generated by Delta caused additional damage to structures that were impacted by Laura, while debris remaining since the Laura were scattered across roadways and drains. However, much of the damage in the state was caused by flooding, with 17.57 in (446 mm) of rainfall at LeBleu Settlement. Floodwaters entered several homes in Baton Rouge and Calcasieu. In Mississippi, roughly 100,000 businesses and homes lost electricity after rainfall and tropical storm-force wind gusts uprooted trees. Damage from Delta in the United States reached $2.9 billion. Altogether, there were six storm-related fatalities, two each in the Yucatán, Louisiana, and Florida.[68]

Hurricane Epsilon

Category 3 hurricane (SSHWS)
 
DurationOctober 19 – October 26
Peak intensity115 mph (185 km/h) (1-min);
952 mbar (hPa)

An upper-level trough associated with a weak baroclinic low-pressure area moved offshore the East Coast of the United States on October 13. A cold front moved into the vicinity on the system two days later, before degenerating into a surface trough. The interaction of these systems led to the formation of a non-tropical surface low on October 16. The low drifted southward into an area of warmer sea surface temperatures, allowing convection to expand and organize. A large cluster of deep convection formed just east of the low by 06:00 UTC on October 19 while it was located about 830 mi (1,335 km) east of Bermuda, resulting in a sufficiently organized structure for it to be designated as Tropical Depression Twenty-Seven. Six hours later, the system strengthened into Tropical Storm Epsilon, and then slowly intensified the following day, as it encountered sporadic bouts of dry-air intrusion imported by moderate vertical wind shear while executing a small counter-clockwise loop. The vertical shear subsided somewhat and the remaining dry air was ejected from the core between October 20 and October 21, enabling the storm to undergo rapid intensification, despite relatively cool sea temperatures and moderate wind shear remaining. It intensified into a hurricane around 00:00 UTC October 21 and reached Category 3 status by 18 hours later while located about 345 mi (555 km) southeast of Bermuda. Epsilon then peaked with maximum sustained winds of 115 mph (185 km/h) and a minimum pressure of 952 mbar (28.12 inHg) early on October 22. Epsilon was also the farthest east a major hurricane had been observed after October 20. However, the storm quickly weakened to Category 1 strength as its inner core eroded, though Epsilon then maintained this intensity over the next two days. Early on October 23, the hurricane made its closest advance toward Bermuda, passing about 185 mi (300 km) to its east. Epsilon turned sharply northeast and accelerated on October 24, slowly weakening as it approached the north extent of the Gulf Stream. Encountering colder ocean temperatures, Epsilon fell to tropical storm intensity around 18:00 UTC on October 25, and became extratropical early on the next day about 565 mi (910 km) east of Cape Race, Newfoundland.[69] Epsilon's remnants were later absorbed into a deep extratropical low southwest of Iceland.[143]

The hurricane's large wind field prompted the issuance of a tropical storm watch for Bermuda at 15:00 UTC on October 20, which was later upgraded to a warning 24 hours later.[69] Although the Bermuda Weather Service anticipated that hurricane-force winds would not impact the island,[144] the Government of Bermuda warned residents to prepare for power outages and to check their emergency supplies.[145] Additionally, Dangerous Surf Advisory signs were posted at south shore beaches.[146] Rainfall on the island as the storm passed by amounted to less than 1 in (25 mm); winds at Bermuda's airport gusted near tropical storm-force, with a peak wind gust of 38 mph (61 km/h). As it began moving away from Bermuda on October 23, the tropical storm warning was cancelled. The hurricane also generated large sea swells from Bermuda to the Bahamas, the Greater Antilles, and the Leeward Islands. The hurricane caused one direct death; a 27-year-old man drowned in Epsilon-induced rip currents in Daytona Beach, Florida.[69] The trailing weather fronts associated with this low produced waves up to 98 ft (30 m) on the coast of Ireland on October 28.[147]

Hurricane Zeta

Category 3 hurricane (SSHWS)
 
DurationOctober 24 – October 29
Peak intensity115 mph (185 km/h) (1-min);
970 mbar (hPa)

A large area of unsettled weather developed due to the combination of a tropical wave and a midlevel trough October 18–October 19 over the southwestern Caribbean Sea. The system drifted west-northwestward to near Grand Cayman on October 23. Thereafter, deep convection increased overnight into the morning of October 24. Around 12:00 UTC, satellite data indicated that a well-defined low formed, marking the formation of Tropical Depression Twenty-Eight. Then, 12 hours later, the depression strengthened into Tropical Storm Zeta,[40] while located about 270 mi (435 km) east-southeast of Cozumel, Quintana Roo.[148] Despite experiencing some north-northwestwardly shear,[149] the storm steadily intensified, and reached hurricane strength by 06:00 UTC on October 26. At 03:55 UTC the next day, Zeta landfall near Ciudad Chemuyil, Quintana Roo, with winds of 85 mph (135 km/h). After weakening to a tropical storm inland, Zeta moved offshore of the northern coast of the Yucatán Peninsula about 11 hours later just east of Telchac Puerto.[40] Dry air wrapped around the northern half of Zeta's circulation as it moved offshore over the southern Gulf of Mexico, leaving its center partially exposed.[150] However, the storm soon encountered a conducive environment of low shear and warm sea surface temperatures, allowing Zeta to become a hurricane again early on October 28; this marked the start of a period of rapid intensification. Zeta peaked later that day at 21:00 UTC when it became a Category 3 major hurricane with maximum sustained winds of 115 mph (185 km/h) and a minimum barometric pressure of 970 mbar (28.65 inHg), as it made its second landfall near Cocodrie, Louisiana. Zeta steadily lost strength after landfall, weakening to a tropical storm over Alabama at 06:00 UTC on October 29, before transitioning into a post-tropical cyclone over central Virginia by 18:00 UTC that day, while moving rapidly northeastward. Early on October 30, Zeta's remnants dissipated east of the mid-Atlantic U.S. coast.[40]

Heavy rain in Jamaica caused a landslide that killed two people after demolishing a home in Saint Andrew Parish. Zeta left roughly $15 million in damage on the island.[40] Strong winds and rain caused flooding and damaged infrastructure in Mexico's Yucatán Peninsula.[151] Zeta knocked out power to more than 2.6 million homes and businesses across the Southeastern United States; it also disrupted 2020 election early voting in several states.[152] In Louisiana, the cyclone produced hurricane-force winds, with the highest reported sustained wind speed being 94 mph (151 km/h) at Golden Meadow, while the same location recorded gusts up to 110 mph (180 km/h). Strong winds caused significant damage to hundreds of homes in Jefferson, Lafourche, Orleans, Plaquemines, St. Bernard, and Terrebonne parishes, while some 100 homes were destroyed. Storm surge resulted in coastal flooding, especially in Lafourche and Jefferson parishes, with water entering buildings in Golden Meadow and Leesville. Roughly 500,000 households in the state lost electricity. Areas of extreme southern Mississippi reported severe wind damage, as hurricane-force winds also impacted the state's coastal counties. Around 10,000 homes in Mississippi were damaged. Storm surge inundated hundreds of roads in the vicinity of Bay St. Louis, while Route 90 was submerged in Harrison County. Much of the rest of the state reported generally minor impact. Coastal Alabama suffered storm surge flooding, inundating roads and damaging some businesses and properties. Farther inland, winds damaged hundreds of homes, knocked down a number of power lines and uprooted trees. In Georgia, Zeta left extensive damage from the Atlanta metropolitan area northward due to tropical storm-force wind gusts. Within the Atlanta area, strong winds damaged many traffic signals and uprooted trees, blocking many roads and causing property damage. Heavy rains also produced flooding in Rabun and Union counties. Approximately 1 million people lost electricity. The storm uprooted hundreds of trees, damaged hundreds of homes, and caused flash flooding in parts of North Carolina. Similar but slightly lesser impacts occurred in South Carolina. Zeta also damaged hundreds of power lines and uprooted trees in Virginia, though structural damage was mostly minor.[40] As the remnants of Zeta moved off shore from the continental U.S., it left behind accumulating snow across parts of New England.[70] There were seven related deaths in the United States: three in Georgia; two in Mississippi; and one each in Louisiana and Mississippi. Damage within the United States totaled $4.4 billion, with at least $1.25 billion incurred in Louisiana, $1.1 billion in Georgia, $840 million in Alabama, $635 million in Mississippi, $550 million in the Carolinas, and $25 million in Virginia.[40]

Hurricane Eta

Category 4 hurricane (SSHWS)
 
DurationOctober 31 – November 13
Peak intensity150 mph (240 km/h) (1-min);
922 mbar (hPa)

On October 29, the NHC began monitoring a disturbance interacting with a pair of tropical waves while moving across the Lesser Antilles and into the eastern Caribbean Sea.[153] On October 30, the disturbance moved west-northwestward and gradually became better organized.[154] By 18:00 UTC on October 31, the system's deep convection had consolidated and a low-level circulation had become sufficiently well-defined, marking the formation of Tropical Depression Twenty-Nine centered about 105 mi (170 km) south of Pedernales, Dominican Republic. The depression strengthened into Tropical Storm Eta by 00:00 UTC on November 1, and quickly intensified, becoming a hurricane by 06:00 UTC on November 2, while located about 310 mi (500 km) south of Grand Cayman. Eta strengthened extremely rapidly through that day, and by 18:00 UTC it had intensified into a Category 4 hurricane. It reached its peak intensity with sustained maximum winds of 150 mph (240 km/h) and a minimum pressure of 922 mbar (27.23 inHg) at 06:00 UTC on November 3. Later that day, at 21:00 UTC, it made landfall south-southwest of Puerto Cabezas, Nicaragua, with winds of 140 mph (225 km/h). Eta rapidly weakened over land, moving westward, diminishing to a tropical storm by 12:00 UTC on November 4, and to a tropical depression early the following day while moving northward over central Honduras. There, its surface circulation appeared to dissipate, but an associated low- to mid-tropospheric circulation center remained present.[42]

The disturbance then emerged over the Gulf of Honduras just before 00:00 UTC on November 6, where it re-acquired a surface circulation, re-developing into a tropical depression to the east of Belize around six hours later. It regained tropical storm status around 06:00 UTC on November 7, as it accelerated east-northeastward across the Caribbean Sea. Eta made its next landfall along the southern coast of Sancti Spíritus Province in Cuba around 09:00 UTC on November 8, with winds of 65 mph (105 km/h). Then, after crossing Cuba and the Straits of Florida, Eta made its third landfall, striking Lower Matecumbe Key in the Florida Keys at 04:00 UTC on November 9, with winds of 65 mph (105 km/h). Next, after moving into the Gulf of Mexico, Eta briefly re-strengthened into a hurricane southwest of Florida on November 11, before weakening back to tropical storm strength. It then turned northeastward and made its final landfall near Cedar Key, Florida, at 09:00 UTC on November 12, with winds of 50 mph (80 km/h). The storm weakened over land, emerging over the Atlantic Ocean near the Florida–Georgia state line later that day. Eta re-intensified slightly on November 13 while moving northeastward off the coast of the Carolinas, before transitioning into an extratropical cyclone later that day.[42]

Hurricane and tropical storm watches and warnings were issued along the Caribbean coast of Honduras and of northeastern Nicaragua as Eta approached. The intense wind and rain generated by Eta caused flooding and landslides, resulting in crop losses, plus the destruction of roads, bridges, power lines and houses throughout Central America. The storm damaged or demolished at least 6,900 homes, 45 schools, 16 healthcare facilities, and some 560 mi (900 km) of bridges and roadways throughout Nicaragua. Eta also damaged hundreds of dwellings to some degree in both Guatemala and Honduras. Washed out bridges and roads isolated more than 40 communities in the latter. In Guatemala, flooding also ruined more than 290,000 acres (119,000 ha) of crops.[42] Mexico suffered significant impacts as well, with thousands of homes damaged in Chiapas and Tabasco. Overall, more than 210 fatalities across Central America were attributed to the storm,[155] including 74 in Honduras, 60 in Guatemala, 27 in Mexico,[42] 19 in Panama,[156] two each in Nicaragua and Costa Rica,[42] and one in El Salvador.[157] Damage in Central America reached approximately $6.8 billion.[42] Relief efforts were severely hampered when, just two weeks later, Hurricane Iota made landfall approximately 15 miles (25 km) south of where Eta moved ashore.[158] Tropical storm watches were issued on November 5 in the Cayman Islands, followed by more watches in Cuba, the northwestern Bahamas, and South Florida. Eta bought heavy rainfall and gusty winds to the Cayman Islands and Cuba, the latter of which was already dealing with overflowing rivers that prompted the evacuations of 25,000 people. Heavy rainfall and tropical-storm force winds were recorded across much of Florida as a result of Eta's two landfalls there, causing widespread flooding, especially in Broward and Miami-Dade counties. Streets remained inundated in both counties for several days, while floodwaters entered homes in parts of Broward County. More than 290,000 customers lost electricity in the Miami metropolitan area. Eta also caused some coastal and freshwater flooding in the Tampa Bay area, while over 40,000 customers in the region lost power. The storm then interacted with a cold front, causing flash flooding in Georgia and the Carolinas. Eta caused roughly $1.5 billion in damage in the United States and at least ten deaths, with nine in North Carolina and one in Florida.[42]

Tropical Storm Theta

Tropical storm (SSHWS)
 
DurationNovember 10 – November 15
Peak intensity70 mph (110 km/h) (1-min);
987 mbar (hPa)

On November 6, the NHC began monitoring a non-tropical area of disturbed weather in the central Atlantic for possible gradual subtropical development.[159] A non-tropical low subsequently formed about 1,300 mi (2,095 km) west-southwest of the Azores on November 8. The system became better organized as it began to detach from a frontal boundary during the following day. At 00:00 UTC on November 10, it developed into Subtropical Storm Theta. By 18:00 UTC that afternoon, the storm had transitioned into a tropical storm; it simultaneously attained what would be its peak intensity, with maximum winds of 70 mph (110 km/h) and a minimum pressure of 987 mbar (29.15 inHg). By the following morning, the effects of strong southwesterly shear had weakened Theta somewhat, though it soon began to regain some strength, and by 00:00 UTC on November 12, re-intensified to its earlier peak. Steady weakening occurred on November 13–14, as the storm experienced strong northerly vertical shear. By 06:00 UTC on November 15, Theta had weakened to a tropical depression about 120 mi (195 km) southwest of Madeira Island, and it degenerated to a remnant low six hours later.[71]

Hurricane Iota

Category 4 hurricane (SSHWS)
 
DurationNovember 13 – November 18
Peak intensity155 mph (250 km/h) (1-min);
917 mbar (hPa)

A tropical wave emerged into the Atlantic from the west coast of Africa at a low-latitude on October 30. The wave moved westward and remained disorganized for several days. Deep convection increased significantly on November 12 while the system was located over the central Caribbean, becoming a broad low-pressure area that day. At around 12:00 UTC on November 13, Tropical Depression Thirty-One formed about 185 mi (300 km) northwest of Aruba. Six hours later, the system strengthened into Tropical Storm Iota. Environmental conditions at the time—low vertical wind shear, extremely warm sea surface temperatures and a moist atmosphere—were favorable for rapid or even explosive intensification of the storm into a major hurricane. Iota reached hurricane strength by 06:00 UTC on November 15, while located about 295 mi (475 km) east of Providencia Island, Colombia, and reached Category 4 strength 24 hours later. Around 12:00 UTC on November 16, the hurricane attained its peak intensity with maximum winds of 155 mph (250 km/h) and a minimum pressure of 917 mbar (27.08 inHg) while located just 23 mi (37 km) northwest of Providencia Island. Data from Air Force Reserve reconnaissance aircraft indicated that Iota had strengthened 105 mph (170 km/h) and that its central pressure had fallen 80 mbar (2.36 inHg) during the 42 hours preceding this achievement. Afterward, the hurricane weakened some as it passed over the relatively cool wake created nearly two weeks earlier by Hurricane Eta. At 03:40 UTC on November 17, Iota made landfall near Haulover, Nicaragua, in the Pearl Lagoon municipality with sustained winds of 145 mph (235 km/h).[3] Its landfall location was approximately 15 mi (25 km) south of where Eta made landfall on November 3.[160] After moving inland, Iota rapidly weakened over the mountainous terrain of Nicaragua, becoming a tropical storm by 18:00 UTC that day while located over western Nicaragua. Then, after moving over southern Honduras and east-central El Salvador, it weakened to a tropical depression by 12:00 UTC on November 18. Iota dissipated over western El Salvador several hours later.[3]

In Venezuela, flooding due to heavy rainfall damaged 288 homes in the state of Falcón, with most located in the Paraguaná Peninsula. The government of Colombia issued a hurricane warning for Providencia and a hurricane watch for the island of San Andrés on November 14. Iota caused extreme damage in the archipelago of San Andrés, Providencia and Santa Catalina. The hurricane demolished approximately 98 percent of the infrastructure on Providencia Island – including buildings constructed as early as the 15th century – while all homes were damaged to some degree. Portions of the mainland also suffered major damage, particularly in the Guajira Peninsula. Floodwaters impacted approximately 70 percent of the city of Cartagena. A total of 1,043 homes were damaged in Atlántico Department alone. Ten direct deaths occurred in Colombia. Hurricane warnings were issued for portions of the Caribbean coast of Nicaragua and of Honduras on November 14. In the former, wind damage was limited to an extent due to the recent passage of Hurricane Eta. However, the cyclone knocked down many electrical poles and deroofed many homes and a makeshift hospital in the Bilwi area. Heavy rainfall, combined with already saturated soil due to Eta, caused widespread flooding and mudslides. Iota caused at least 56 deaths in Nicaragua, 39 directly and 17 indirectly. Heavy precipitation resulted in flooding and mudslides in Honduras, especially close to or north of Iota's path, completely destroying numerous homes. At least 13 people in Honduras were killed due to the direct effects of Iota. Mexico also reported extensive impacts from the storm, especially in Chiapas, Tabasco, and Veracruz. Floodwaters and mudslides damaged almost 59,000 homes and left 135 communities isolated. Overall, Iota directly or indirectly caused at least 84 deaths, and total damage estimates for the hurricane amounted to $1.4 billion, about $1.25 billion of which was incurred in Honduras and Nicaragua.[3]

Storm names

The following list of names was used for named storms that formed in the North Atlantic in 2020. As more than 21 named storms occurred, storms that formed after Wilfred were assigned names from the auxiliary list, which corresponded to the letters of the Greek alphabet. Use of this naming protocol had only happened once before, in 2005.[161] The list of storm names for the 2020 season was the same list used in the 2014 season, as no names were retired from that year. The names Isaias, Paulette, Rene, Sally, Teddy, Vicky, and Wilfred from the regular list were used for the first time this year, as were the auxiliary list names Eta, Theta, and Iota.[27] Isaias and Paulette replaced Ike and Paloma, respectively, after 2008, but both names went unused in 2014.[162]

Auxiliary list

Retirement

On March 17, 2021, during the joint 42nd and 43rd Sessions of the RA IV Hurricane Committee in the spring of 2021, the World Meteorological Organization (WMO) retired the name Laura, replacing it with Leah for the 2026 season. The letters Eta and Iota were also retired.[161] The WMO did not retire the names of several 2020 hurricanes that caused extensive damage, specifically: Isaias, Sally, Delta and Zeta. This made Sally, the most destructive of the four, the most expensive non-retired North Atlantic hurricane on record, with a damage total of around $7.3 billion (2020 USD).[163][164][165]

End of Greek alphabet usage

After the 2005 season, the WMO decided to keep using the Greek letter names as an auxiliary list each year. It also determined that the retirement of a Greek alphabet name (removing it from use), was not feasible.[166] Instead, the WMO put a policy in place whereby a storm with a Greek letter name found worthy of retirement would be included in the list of retired names along with the year of occurrence, but the Greek letter would continue to be available for use in future years.[167] In 2020, several highly devastating storms with Greek letter names, particularly Eta and Iota (which, under the previous policy, would have been retired as "Eta (2020)" and "Iota (2020)" respectively), prompted concerns from meteorologists, including retired Hurricane Specialist Unit chief James Franklin, that the current policy would defeat the purpose of name retirement.[168][169] On March 17, 2021, the WMO announced that the use of the Greek list would be discontinued to avoid confusion.[161] Instead, if the regular naming list is exhausted, an auxiliary list consisting of 21 given names would be used, which will allow the names to be retired.[170]

Season effects

This is a table of the tropical cyclones that formed in the 2020 Atlantic hurricane season. It includes their duration, names, damage, impacted locations, and death totals. Deaths in parentheses are additional and indirect (an example of an indirect death would be a traffic accident), but were still related to that storm. Damage and deaths include totals while the storm was extratropical, a wave, or a low. All of the damage figures are in 2020 USD.

Saffir–Simpson scale
TD TS C1 C2 C3 C4 C5
2020 Atlantic hurricane season statistics
Storm
name
Dates active Storm category
at peak intensity
Max 1-min
wind
mph (km/h)
Min.
press.
(mbar)
Areas affected Damage
(USD)
Deaths Ref(s)
Arthur May 16–19 Tropical storm 60 (95) 990 Southeastern United States, The Bahamas, Bermuda $112,000 None [74]
Bertha May 27–28 Tropical storm 50 (85) 1005 Southeastern United States, The Bahamas > $130,000 None [75]
Cristobal June 1–9 Tropical storm 60 (95) 988 Central America, Mexico, Central United States, Great Lakes region, Northern Ontario ≥ $665 million 6 [82][84]
Dolly June 22–24 Tropical storm 45 (75) 1000 None None None
Edouard July 4–6 Tropical storm 45 (75) 1005 Bermuda, southern Ireland, southern United Kingdom Minimal None
Fay July 9–11 Tropical storm 60 (95) 998 East Coast of the United States, Southeastern Canada ≥ $350 million 2 (4) [84][93]
Gonzalo July 21–25 Tropical storm 65 (100) 997 Windward Islands, Trinidad and Tobago, Venezuela Minimal None
Hanna July 23–26 Category 1 hurricane 90 (150) 973 Greater Antilles, Gulf Coast of the United States, Mexico $1.2 billion 4 (5) [49]
Isaias July 30 – August 4 Category 1 hurricane 90 (150) 986 Lesser Antilles, Greater Antilles, Turks and Caicos Islands, The Bahamas, East Coast of the United States, Eastern Canada $4.8 billion 12 (5) [50]
Ten July 31 – August 1 Tropical depression 35 (55) 1008 Cabo Verde Islands None None
Josephine August 11–16 Tropical storm 45 (75) 1004 None None None
Kyle August 14–15 Tropical storm 50 (85) 1000 The Carolinas None None
Laura August 20–29 Category 4 hurricane 150 (240) 937 Lesser Antilles, Greater Antilles, The Bahamas Southern United States, Eastern United States $19.1 billion 47 (34) [55][122]
Marco August 21–25 Category 1 hurricane 75 (120) 991 Lesser Antilles, Venezuela, Central America, Greater Antilles, Yucatán Peninsula, Gulf Coast of the United States ≥ $35 million None [116][118]
Omar August 31 – September 5 Tropical storm 40 (65) 1003 Southeastern United States, Bermuda None None
Nana September 1–3 Category 1 hurricane 75 (120) 994 Lesser Antilles, Jamaica, Cayman Islands, Central America, Southeastern Mexico ≥ $20 million None [122]
Paulette September 7–22 Category 2 hurricane 105 (165) 965 Cabo Verde Islands, Bermuda, East Coast of the United States, Azores, Madeira > $50 million 2 [61][118]
Rene September 7–14 Tropical storm 45 (75) 1001 Senegal, The Gambia, Cabo Verde Islands Minimal None
Sally September 11–17 Category 2 hurricane 110 (175) 965 The Bahamas, Cuba, Southeastern United States $7.3 billion 4 (5) [62]
Teddy September 12–23 Category 4 hurricane 140 (220) 945 Lesser Antilles, Greater Antilles, Bermuda, East Coast of the United States, Atlantic Canada > $35 million 3 [63][118]
Vicky September 14–17 Tropical storm 50 (85) 1001 Cabo Verde Islands Minimal (1) [126][127]
Alpha September 17–19 Subtropical storm 50 (85) 996 Iberian Peninsula > $24.2 million (1) [64][122]
Beta September 17–22 Tropical storm 65 (100) 993 Mexico, Gulf Coast of the United States $225 million 1 [65]
Wilfred September 17–21 Tropical storm 40 (65) 1006 None None None
Gamma October 2–6 Category 1 hurricane 75 (120) 978 Cayman Islands, Central America, Yucatán Peninsula > $100 million 6 [67][118]
Delta October 4–10 Category 4 hurricane 140 (220) 953 Jamaica, Cayman Islands, Central America, Yucatán Peninsula, Gulf Coast of the United States $3.09 billion 2 (4) [68][171]
Epsilon October 19–26 Category 3 hurricane 115 (185) 952 Bermuda Minimal 1 [69]
Zeta October 24–29 Category 3 hurricane 115 (185) 970 Cayman Islands, Jamaica, Central America, Yucatán Peninsula, Gulf Coast of the United States, East Coast of the United States ~$4.42 billion 7 (2) [40]
Eta October 31 – November 13 Category 4 hurricane 150 (240) 922 San Andrés, Jamaica, Central America, Mexico, Cayman Islands, Cuba, The Bahamas, Southeastern United States $8.3 billion ≥ 172 (3) [42][157][156]
Theta November 10–15 Tropical storm 70 (110) 987 Canary Islands, Madeira None None
Iota November 13–18 Category 4 hurricane 155 (250) 917 ABC Islands, Venezuela, Colombia, San Andrés and Providencia, Central America, Mexico $1.4 billion ≥67 (17) [3]
Season aggregates
31 systems May 16 – November 18   155 (250) 917 > $51.114 billion ≥ 336 (81)  

See also

Notes

  1. ^ Hurricanes reaching Category 3 (111 miles per hour or 179 kilometers per hour) and higher on the five-level Saffir–Simpson wind speed scale are considered major hurricanes.[1]
  2. ^ The record set by one storm, Tropical Storm Edouard, was broken the following year by Hurricane Elsa.[2]
  3. ^ Operationally, Iota was considered a Category 5 hurricane. However, post-analysis resulted in the storm being downgraded to a Category 4 hurricane.[3]
  4. ^ All monetary values are in 2020 United States dollars unless otherwise noted.
  5. ^ According to the NHC's protocol, a tropical cyclone that degenerates into a remnant low in one basin and reforms in another is given a different name.[82]
  6. ^ At the time, the National Hurricane Center did not name the system at that point because it was unclear whether it had a well-defined low-level-circulation.[60] Already producing tropical-storm-force winds, the cyclone was classified as Tropical Storm Nana at the time of formation. However, with the storm posing an imminent threat to Central America, the National Hurricane Center initiated advisories on the system as Potential Tropical Cyclone Sixteen on September 1 at 15:00 UTC.[119]

References

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  3. ^ a b c d e f g h i Stacy R. Stewart (May 18, 2021). "Hurricane Iota" (PDF). Tropical Storm Report. Miami, Florida: National Hurricane Center. Retrieved May 18, 2021.
  4. ^ Forbes, Alex (June 1, 2022). "No Atlantic storms develop before hurricane season for first time in seven years". Macon, Georgia: WMAZ-TV. Retrieved August 12, 2022.
  5. ^ a b "Atlantic hurricane best track (HURDAT version 2)" (Database). United States National Hurricane Center. April 5, 2023. Retrieved November 15, 2024. Public Domain This article incorporates text from this source, which is in the public domain.
  6. ^ a b Mark Saunders; Adam Lea (December 19, 2019). "Extended Range Forecast for Atlantic Hurricane Activity in 2020" (PDF). Tropical Storm Risk. Department of Space and Climate Physics, University College London. Archived (PDF) from the original on December 19, 2019. Retrieved December 19, 2019.
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  8. ^ a b Mark Saunders; Adam Lea (April 7, 2020). "April Forecast Update for North Atlantic Hurricane Activity in 2020" (PDF). Tropical Storm Risk. Department of Space and Climate Physics, University College London. Archived (PDF) from the original on June 10, 2020. Retrieved April 8, 2020.
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  16. ^ a b Mark Saunders; Adam Lea (May 28, 2020). "Pre-Season Forecast for North Atlantic Hurricane Activity in 2020" (PDF). Tropical Storm Risk. Department of Space and Climate Physics, University College London. Archived (PDF) from the original on June 10, 2020. Retrieved May 28, 2020.
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