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1994 Atlantic hurricane season

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1994 Atlantic hurricane season
Season summary map
Seasonal boundaries
First system formedJune 30, 1994
Last system dissipatedNovember 21, 1994
Strongest storm
NameFlorence
 • Maximum winds110 mph (175 km/h)
(1-minute sustained)
 • Lowest pressure972 mbar (hPa; 28.7 inHg)
Seasonal statistics
Total depressions12, 2 unofficial
Total storms7, 2 unofficial
Hurricanes3
Major hurricanes
(Cat. 3+)
0
Total fatalities1,189 total
Total damage~ $1.93 billion (1994 USD)
Related articles
Atlantic hurricane seasons
1992, 1993, 1994, 1995, 1996

The 1994 Atlantic hurricane season was the final season in the most recent negative Atlantic multidecadal oscillation period ("low-activity era" or "cold phase") of tropical cyclone formation within the basin. The season produced seven named tropical cyclones and three hurricanes, a total well below the seasonal average. The season officially started on June 1 and ended on November 30, dates which conventionally limit the period each year when most tropical cyclones tend to form in the Atlantic Ocean. The first tropical cyclone, Tropical Storm Alberto, developed on June 30, while the last storm, Hurricane Gordon, dissipated on November 21. The season was unusual in that it produced no major hurricanes, which are those of Category 3 status or higher on the Saffir–Simpson hurricane scale. The most intense hurricane, Hurricane Florence, peaked as a Category 2 storm with winds of 110 mph (180 km/h).

Alberto produced significant rainfall and flooding in the Southeastern United States, damaging or destroying over 18,000 homes. In August, Tropical Storm Beryl produced heavy rainfall in Florida, Georgia, South Carolina, and North Carolina, with moderate to heavy rainfall throughout several other states. Beryl caused numerous injuries, many of which occurred from a tornado associated with the tropical storm. Tropical Storm Debby killed nine people in the Caribbean in September. Hurricane Gordon was the most significant storm of the season, causing damage from Costa Rica to North Carolina among its six landfalls. Extreme flooding and mudslides from Gordon caused approximately 1,122 fatalities in Haiti- almost 97% of deaths this season were due to Gordon. Gordon was also one of the longest-lived Atlantic hurricanes on record at the time. In addition, a nor'easter in December may have had tropical characteristics, though due to the uncertainty, it was not classified as a tropical system.

Seasonal forecasts

[edit]
Record Named
storms
Hurricanes Major
hurricanes
Ref
Average: 9.3 5.7 2.2
Record high activity 2020: 30 2005: 15 2020: 7 (Tie) [1]
Record low activity: 1914: 1 1914: 0 1914: 0 [1]
November 19, 1993 13 5 2 [2]
June 5, 1994 9 5 1 [3]
August 4, 1994 7 4 1 [4]
Actual activity: 7 3 0

Forecasts of hurricane activity are issued before each hurricane season by noted hurricane experts such as William M. Gray and his associates at Colorado State University. A normal season, as defined by the National Oceanic and Atmospheric Administration, has six to fourteen named storms, with four to eight of those reaching hurricane strength, and one to three major hurricanes. The 1994 forecast predicted that a total of 10 storms would form, of which six of the storms would reach hurricane status. The forecast also projected that three of the hurricanes would reach major hurricane status.[5]

Seasonal summary

[edit]
Hurricane GordonTropical Storm Debby (1994)Tropical Storm Beryl (1994)Tropical Storm Alberto (1994)Saffir–Simpson scale

In terms of tropical cyclone activity, the season was below average, with only seven named storms, three hurricanes, and no major hurricanes. Only four other seasons since the start of the satellite era—1968, 1972, 1986, and 2013—did not feature a major hurricane.[6] No storms of hurricane intensity formed within the months of September and October for the first time since reliable records began in the 1940s. However, the month of November did feature two hurricane formations, the first time that occurred since 1980.[7] The low seasonal activity is attributed to the presence of El Niño, which is a global coupled ocean-atmosphere phenomenon.[8] The season officially began on June 1, and ended on November 30. These dates conventionally delimit the period of each year when the majority of tropical cyclones tend to form in the Atlantic Ocean.[9]

The season's activity was reflected in a low cumulative accumulated cyclone energy (ACE) rating of 32.[10] ACE is, broadly speaking, a measure of the power of the hurricane multiplied by the length of time it existed, so storms that last a long time, as well as particularly strong hurricanes, have high ACEs. ACE is only calculated for full advisories on tropical systems at or exceeding 34 knots (39 mph; 63 km/h) or tropical storm strength.[11]

Systems

[edit]

Tropical Storm Alberto

[edit]
Tropical storm (SSHWS)
 
DurationJune 30 – July 7
Peak intensity65 mph (100 km/h) (1-min);
993 mbar (hPa)

The first storm of the season formed on June 30 near the western tip of Cuba.[12] Initially tracking westward, the depression turned towards the north, though it remained poorly defined. Early on July 2, the depression organized into Tropical Storm Alberto. Alberto peaked as a tropical storm with winds of 65 mph (105 km/h), and made landfall near Destin, Florida on July 3. The storm quickly weakened to a tropical depression over Alabama as it continued to the northeast, but retained a well-organized circulation. High pressures built to its north and east, causing the remnant tropical depression to stall over northwestern Georgia. It began a westward drift and dissipated over central Alabama on July 7.[13]

Alberto triggered some of the worst flooding ever observed across portions of Georgia, Alabama, and Florida. As a result of the storm's slow motion, 27 inches (690 mm) of rain fell in some locations. Due to flash flooding, 33 deaths were reported, primarily in Georgia. Over 18,000 homes were damaged or destroyed, and in excess of 1,000 roads sustained damage. About 900,000 acres (360,000 ha) of crops were affected by the storm, and 218 dams failed. Total damage from the storm amounted to $1.03 billion (1994 USD).[14] The flooding from Alberto is considered one the worst natural disasters in Georgia's history.[15]

Tropical Depression Two

[edit]
Tropical depression (SSHWS)
 
DurationJuly 20 – July 21
Peak intensity35 mph (55 km/h) (1-min);
1015 mbar (hPa)

The origins of the depression were from a broad upper-level trough that extended northeastward from The Bahamas. An area of convection developed near the Bahamas, spawning a low-pressure area on July 19. The next day, the system organized into Tropical Depression Two,[16] after confirmation from the Hurricane Hunters.[17] Upon developing, the depression was poorly organized, with most of the thunderstorms located south of the center. On July 20, the circulation became better organized as the convection increased; however, the depression moved ashore near Georgetown, South Carolina at 1400 UTC without intensifying beyond winds of 35 miles per hour (56 km/h). As it moved inland, it turned to the north, dissipating on July 21 near Charlotte, North Carolina.[16] The remnant low continued northeastward across the northeastern United States, becoming unidentifiable on July 22 while entering Nova Scotia.[18]

The depression was never forecast to attain tropical storm status. Officials issued flash flood watches for portions of the southeastern United States.[16] Tropical Depression Two dropped light rainfall throughout the Southeastern United States, the Mid-Atlantic, and parts of New England.[18] It was the first tropical system to make landfall in South Carolina since Hurricane Hugo.[19] Rainfall peaked at 6.84 inches (174 mm) in Hamlet, North Carolina.[18] There were no reports of damage or casualties associated with Tropical Depression Two.[16]

Tropical Storm Beryl

[edit]
Tropical storm (SSHWS)
 
DurationAugust 14 – August 19
Peak intensity60 mph (95 km/h) (1-min);
999 mbar (hPa)

After a slow start to the season, Tropical Storm Beryl formed as a tropical depression on August 14 in the Gulf of Mexico.[20] The center moved slowly and erratically in response to an approaching trough, and after moving towards the north, the storm made landfall near Panama City, Florida as a tropical storm. The weakening storm accelerated towards the north-northeast, and the system was identifiable as a low-pressure system as far north as Connecticut.[21]

Tropical Storm Beryl produced heavy rainfall in Florida, Georgia, South Carolina, and North Carolina, with moderate to heavy rainfall throughout several other states. Several rivers from Florida to New York approached or exceeded flood stage. Although no fatalities were directly related to Beryl, several injuries were reported, including 37 due to an associated F3 tornado that touched down in Lexington, South Carolina. Property damage was estimated at $73 million (1994 USD).[22]

Hurricane Chris

[edit]
Category 1 hurricane (SSHWS)
 
DurationAugust 16 – August 23
Peak intensity80 mph (130 km/h) (1-min);
979 mbar (hPa)

Hurricane Chris originated from a tropical wave that emerged from the west coast of Africa on August 11 and tracked westward. The associated disturbance organized and was declared a tropical depression on August 16, while Tropical Storm Beryl was over land. The depression intensified into a tropical storm on August 17, and the next day it acquired hurricane intensity. Chris maintained hurricane strength for two days, before increased wind shear caused the cyclone to weaken. The storm remained away from land, passing to the east of Bermuda on August 21, before it merged with an extratropical baroclinic zone to the southeast of Newfoundland.[23]

Hurricane Chris dropped 2.83 inches (72 mm) of rain on Bermuda, though no damage or fatalities were reported.[24]

Tropical Depression Five

[edit]
Tropical depression (SSHWS)
 
DurationAugust 29 – August 31
Peak intensity35 mph (55 km/h) (1-min);
1005 mbar (hPa)

A tropical wave that was first noted on August 17 tracked westward and reached the Caribbean on August 26. The wave moved across the Yucatán Peninsula, and developed into a tropical depression on August 29 in the Bay of Campeche. Moving west-northwestward, the system remained below tropical storm status, and made landfall near Tampico on August 31.[25]

Mexico was affected by rainfall from Tropical Depression Five, which peaked at 16.18 inches (411 mm),[26] while associated moisture from the depression affected San Antonio, Texas.[27]

Tropical Storm Debby

[edit]
Tropical storm (SSHWS)
 
DurationSeptember 9 – September 11
Peak intensity70 mph (110 km/h) (1-min);
1006 mbar (hPa)

A tropical depression developed from another tropical wave on September 9. Surface observations and ship reports suggested that it developed into Tropical Storm Debby on September 10, despite poor organization evidenced by satellite imagery. Peaking with winds of 70 mph (110 km/h), the storm moved westward through the Leeward Islands and encountered wind shear which limited the storm's intensity and organization.[28] Wind shear caused the system to deteriorate, and the circulation degenerated into a tropical wave on September 11.[29]

Tropical Storm Debby killed four people and injured 24 on St. Lucia. Heavy rainfall caused flooding and mudslides, which washed away hillside shacks, eight bridges, and parts of roads. Flood waters were chest-high in some locations, and the storm's winds damaged banana plantations.[30] Mudslides caused by the storm blocked roads, and water supply was disrupted.[31] On Martinique, one person drowned and some towns were flooded. Downed trees made roads impassable, and up to 20,000 people on the island lost power. Three deaths occurred in the Dominican Republic, and a fisherman drowned off of Puerto Rico. Throughout the areas affected by Debby, it is estimated that hundreds of people were homeless.[30]

Tropical Storm Ernesto

[edit]
Tropical storm (SSHWS)
 
DurationSeptember 21 – September 26
Peak intensity60 mph (95 km/h) (1-min);
997 mbar (hPa)

A tropical wave exited Africa on September 18 with an area of organized deep convection. The wave was in a series of strong waves that exited Africa later than the climatological peak of the season. Dvorak classifications began on September 21, and later that day the system developed into Tropical Depression Seven about 500 miles (800 km) southwest of Cape Verde.[32] Wind shear was marginally favorable for development, and the depression intensified into Tropical Storm Ernesto on September 22. The next morning, the storm attained its peak intensity, with winds of 60 mph (97 km/h) and a minimum atmospheric pressure of 997 mbar (hPa; 29.53 inHg).[32]

After peaking, Ernesto entered an area of increasing wind shear and stronger upper-tropospheric flow, resulting in a steady weakening trend. After most of the convection diminished over the center, the storm weakened to a tropical depression on September 24. Subsequently, it decelerated and turned to a west-northwest drift.[32] The last public advisory was issued on Tropical Depression Ernesto at 2100 UTC September 25,[33] although it did not dissipate until early the next day,[32] about 450 miles (720 km) west of Cape Verde. The remnants continued generally westward, occasionally redeveloping deep convection but never regenerating into a tropical cyclone. The remnants were no longer identifiable by September 29.[34]

Tropical Depression Eight

[edit]
Tropical depression (SSHWS)
 
DurationSeptember 24 – September 26
Peak intensity35 mph (55 km/h) (1-min);
1004 mbar (hPa)

The eighth depression of the season formed with little convection on September 19 in the southwestern Caribbean. The area of convection lasted for several days moving from northwestern direction to the northeastern. The wave was estimated to have strengthened into Tropical Depression Eight on September 24 near the coast of Honduras. An Air Force aircraft found the depression with a poorly organized circulation and a pressure of 1,007 mbar (29.7 inHg).[35] The depression moved west at 7 to 10 mph (11 to 16 km/h) on September 25. Just before landfall in Belize on September 25, Tropical Depression Eight reached its peak intensity of 35 mph (56 km/h) and 1,004 mbar (29.6 inHg). The depression made landfall in Mexico and dissipated the next day over Guatemala. Reports show that the remnants of Eight became Tropical Depression Ten.[35] The storm dropped heavy precipitation in and around Belize.[36]

Tropical Depression Nine

[edit]
Tropical depression (SSHWS)
 
DurationSeptember 27 – September 29
Peak intensity35 mph (55 km/h) (1-min);
1007 mbar (hPa)

Tropical Depression Nine started out as a well-defined cloud circulation that moved off the coast of Africa on September 26. The circulation was upgraded to the ninth depression of the 1994 season, 174 miles (280 km) southeast of Cape Verde the next day at 1200 UTC when banding cloud patterns became evident on satellite imagery. The depression moved toward the north-northwest at 12 mph (19 km/h) or less, reaching peak intensity early on September 28, around 0600 UTC, but the LLCC became exposed and the depression lost much of its deep convection later that day. The NHC declared Nine dissipated early on September 29, near Sal in the Cape Verde Islands.[37]

Tropical Depression Ten

[edit]
Tropical depression (SSHWS)
 
DurationSeptember 29 – September 30
Peak intensity35 mph (55 km/h) (1-min);
1005 mbar (hPa)

The remnants of Tropical Depression Eight persisted over the northwestern Caribbean in late September. Convection increased and organized after a tropical wave reached the area. A circulation soon developed within the low-pressure area. It was estimated that Tropical Depression Ten formed on September 29 at 0600 UTC. A reconnaissance aircraft did not indicate a closed circulation due to the proximity with Cuba, which caused difficulties with satellite intensity estimates. The system was relatively disorganized, potentially moving ashore in western Cuba near Cabo San Antonio. The tropical depression entered the Gulf of Mexico on September 30 as it turned to the northwest. On September 30 at 0600 UTC, the tropical depression attained its peak intensity, winds had reached 35 mph (56 km/h) and the minimum central pressure had dropped down to 1004 mbar. The depression was soon becoming absorbed by a larger non-tropical system in the southern Gulf of Mexico. By 1800 UTC on September 30, Tropical Depression Ten had been completely absorbed by the non-tropical system. Initial predictions from the National Hurricane Center estimated that the depression would rapidly develop into a tropical storm.[38] The depression dropped heavy rainfall in Cuba, reaching 12 inches (300 mm) in a 24-hour period in Giron.[39] Rainfall from the tropical depression in the Florida Keys was around 5 inches (130 mm).[40] The remnants of the depression dropped heavy rains in Florida, causing $5 million in damage (1994 USD).[41][42]

Hurricane Florence

[edit]
Category 2 hurricane (SSHWS)
 
DurationNovember 2 – November 8
Peak intensity110 mph (175 km/h) (1-min);
972 mbar (hPa)

The origins of Florence were traced back to an area of low pressure which developed in late October along a stationary front located 1,150 mi (1,850 km) east-southeast of Bermuda. The low gradually detached from the front and began developing convective banding features. The system was not fully tropical as the strongest winds were recorded a couple hundred miles from the center, leading to the system being classified a subtropical cyclone on the morning of November 2. Minor intensification followed shortly after and the subtropical depression was upgraded to a subtropical storm. This was based on ship reports of 40 mph (64 km/h) sustained winds associated with the system. By November 3, the storm became slightly disorganized and was downgraded to a subtropical depression. By the afternoon, the subtropical system began to undergo a transition from a subtropical cyclone to a tropical cyclone.[43] Later that day, the storm was classified Tropical Depression Eleven while located 875 mi (1,408 km) east-southeast of Bermuda.[44] The depression was moving towards the northwest at 8 mph (13 km/h) and the same general motion was expected as a large upper-level low situated over the system was forecast to move towards the northeast, leading to Eleven moving around the periphery of the low.[45]

The depression was upgraded to Tropical Storm Florence the next morning. However, outflow from the storm remained poor as the upper-level low was still interacting with the center of Florence and the storm was still not completely tropical but there was slight improvement.[46] By the afternoon of November 4, Florence completed its transition into a tropical cyclone and deep convection developed, causing the storm to quickly intensity; with winds increasing by 20 mph (32 km/h) in a 6-hour time period. The trend in intensification was forecast to continue and Florence was forecast to become the second hurricane of the season within 12 hours.[47] Late on November 4, Florence was upgraded to a hurricane as a solid area of deep convection developed around the center of circulation.[48] An eye feature also appeared on infrared satellite but was not associated with significant strengthening.[43] Florence slowly intensified as the eye persisted and the structure slightly improved.[49] By the morning of November 6, the eye became less defined and the cloud tops around it warmed.[50] The storm also shifted its forward motion northward as the trough located to the southeast began to move towards the east, moving the steering currents with it.[51] As the low moved further to the east, steering currents in the area of Florence weakened, leading to the storm stalling late on November 6.[52]

By the morning of November 7, the eye began to reappear and the storm turned towards the northwest and the forward motion began to rapidly increase.[53] Later that morning, Florence had developed a large, 35 to 40 mi (56 to 64 km) wide eye and the forward motion continued to increase.[54] The intensification continued and by the afternoon hours, Florence was upgraded to a Category 2 hurricane with winds of 100 mph (160 km/h). A strong extratropical cyclone located to the north of Florence was causing the storm to move towards the northwest at a rapid pace of 30 mph (48 km/h).[55] Operationally, Florence was reported to have peaked at that intensity, but post-season analysis determined that the storm reached its peak intensity just short of major hurricane—a storm with winds of 111 mph (179 km/h) or higher—status late on November 7.[56] By the morning of November 8, Florence weakened slightly to Category 1 status. The large system to the north continued to cause Florence to move at 58 mph (93 km/h). Since the storm was very close to a cold front, Florence was expected to rapidly transition into an extratropical cyclone.[57] Later that morning, Florence was absorbed into the extratropical cyclone while still maintaining hurricane-force winds.[58][59]

Hurricane Gordon

[edit]
Category 1 hurricane (SSHWS)
 
DurationNovember 8 – November 21
Peak intensity85 mph (140 km/h) (1-min);
980 mbar (hPa)

Hurricane Gordon was the final storm of the season. The system formed near Panama in the southwestern Caribbean Sea on November 8. Strengthening into a tropical storm, Gordon wound its way north into the Greater Antilles. Despite warm waters, persistent wind shear prevented significant strengthening. Executing a slow turn to the north and then the northwest, Gordon made two more landfalls, on eastern Jamaica and eastern Cuba. As Tropical Storm Gordon made its fourth landfall crossing the Florida Keys, it interacted with a cyclone in the upper troposphere and a series of cyclonic lows which lent the storm some sub-tropical characteristics. After a few days as an unusual hybrid of a tropical and a subtropical system in the Gulf of Mexico, the storm re-claimed its tropical storm status and it made another landfall across the Florida peninsula and continued into the Atlantic Ocean. In the Atlantic, Gordon rapidly strengthened to a Category 1 hurricane. Gordon's characteristic briefly approached North Carolina, but ultimately the storm headed south, weakening into a minor tropical storm before making its sixth and final landfall on Florida's east coast. Overall, the storm made six separate landfalls.[60]

Hurricane Gordon caused heavy damage and 1,122 fatalities in Haiti; the storm's effects extended from Costa Rica to North Carolina in the United States. Over Hispaniola, the persistent southerly flow to the east of the storm, combined with the steep upslope motion of the land, generated prolonged rainfall which triggered disastrous flooding and mudslides.[61] The extreme flooding led to an estimated 1,122 fatalities in Haiti, although some reports indicate that up to 2,000 people died. Six deaths were also reported in Costa Rica. Elsewhere, five fatalities were reported in the Dominican Republic, four in Jamaica, two in Panama, and two in Cuba.[62] In Florida, the storm caused eight fatalities and 43 injuries. In Volusia County, 1,236 buildings reported flood damage. In the state, damage totaled $400 million (1994 USD).[63]

Other systems

[edit]
Rainfall from the cyclone

On September 30, a weak and broad frontal low absorbed the remnants of Tropical Depression Ten in the southeastern Gulf of Mexico.[41] The Weather Prediction Center identified the system as a subtropical storm on October 1. The system moved across Florida and the Southeastern United States on October 2 and October 3; when it reached the Atlantic Coast, it became an extratropical frontal wave.[64] The National Hurricane Center could not confirm whether the system had developed subtropical characteristics.[6] Heavy rains fell over parts of the Florida Panhandle, Georgia, and South Carolina.[64] In Florida, rough seas left minor coastal flooding and beach erosion, while also necessitating the rescue of 18 people from capsizing vessels. At least four tornadoes occurred in the state, Damage to homes occurred near Callahan and near Shady Grove. Rainfall led to flooding in low-lying areas and along some roads, leaving about $1 million in damage.[65] Heavy precipitation over southern Georgia inundated portions of several roads and streets. Additionally, an F2 tornado in St. Marys destroyed ten homes and overturned five mobile homes.[65] In South Carolina, up to 11.24 in (285 mm) of rain fell at Hilton Head Island,[64] damaging property and infrastructure in Beaufort County alone. Heavy rains and rough seas also caused damaging flooding in Charleston County.[65]

After the season had officially ended, a Late December nor'easter developed from an area of low pressure in the southeast Gulf of Mexico. As the system entered the warm Gulf Stream waters of the Atlantic, it began to rapidly intensify, and also began exhibiting signs of tropical development, including the formation of an eye. It attained a pressure of 970 millibars on December 23 and 24, and after moving northward, it came ashore near New York City on Christmas Eve. However, due to the uncertain nature of the storm, the National Hurricane Center did not classify it as a tropical cyclone.[66][67]

Storm names

[edit]

The following list of names was used for named storms that formed in the north Atlantic in 1994.[68] This is the same list used for the 1988 season,[69] except for Gordon and Joyce, which replaced Gilbert and Joan after that season.[70] A storm was named Gordon for the first time in 1994.[71] No names were retired from this list following the season,[70] thus it was used again for the 2000 season.[72]

  • Helene (unused)
  • Isaac (unused)
  • Joyce (unused)
  • Keith (unused)
  • Leslie (unused)
  • Michael (unused)
  • Nadine (unused)
  • Oscar (unused)
  • Patty (unused)
  • Rafael (unused)
  • Sandy (unused)
  • Tony (unused)
  • Valerie (unused)
  • William (unused)

Season effects

[edit]

This is a table of all of the storms that formed in the 1994 Atlantic hurricane season. It includes their name, duration, peak classification and intensities, areas affected, damage, 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, and all of the damage figures are in 1994 USD.

Saffir–Simpson scale
TD TS C1 C2 C3 C4 C5
1994 North Atlantic tropical cyclone 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)
Alberto June 30 – July 7 Tropical storm 65 (100) 993 Southern United States $1.03 billion 30
Two July 20 – 21 Tropical depression 35 (55) 1015 Southeastern United States, Mid-Atlantic states, New England None None
Beryl August 14 – 19 Tropical storm 60 (95) 999 Southeastern United States, Mid-Atlantic states, New England $73 million 1
Chris August 16 – 23 Category 1 hurricane 80 (130) 979 Bermuda None None
Five August 29 – 31 Tropical depression 35 (55) 1005 Mexico Unknown None
Debby September 9 – 11 Tropical storm 70 (110) 1006 Lesser Antilles, Puerto Rico, Dominican Republic $230 million 9
Ernesto September 21 – 26 Tropical storm 60 (95) 997 None None None
Eight September 24 – 26 Tropical depression 35 (55) 1004 Central America, Mexico Unknown None
Nine September 27 – 29 Tropical depression 35 (55) 1007 None None None
Ten September 29 – 30 Tropical depression 35 (55) 1004 Cuba, Mexico, Southeastern United States $5 million None
Florence November 2 – 8 Category 2 hurricane 110 (175) 972 None None None
Gordon November 8 – 21 Category 1 hurricane 85 (140) 980 Central America, Jamaica, Cuba, Haiti, Dominican Republic, Southeastern United States, Mid-Atlantic states $594 million 1,149
Season aggregates
12 systems June 30 – November 21   110 (175) 972 $1.93 billion 1,189  

See also

[edit]

References

[edit]
  1. ^ a b "North Atlantic Ocean Historical Tropical Cyclone Statistics". Fort Collins, Colorado: Colorado State University. Retrieved July 19, 2023.
  2. ^ William M. Gray (November 19, 1993). "Extended Range Forecast of Atlantic Seasonal Hurricane Activity for 1994" (PDF). Colorado State University. Archived (PDF) from the original on May 5, 2016. Retrieved April 23, 2016.
  3. ^ William M. Gray (June 7, 1994). "Forecast of Atlantic Seasonal Hurricane Activity for 1994" (PDF). Colorado State University. Archived (PDF) from the original on May 5, 2016. Retrieved April 23, 2016.
  4. ^ William M. Gray (August 5, 1994). "Early August Updated Forecast of Atlantic Seasonal Hurricane Activity for 1994" (PDF). Colorado State University. Archived (PDF) from the original on May 5, 2016. Retrieved April 23, 2016.
  5. ^ Staff Writer (March 12, 1994). "Hurricane forecaster sees 10 big storms in '94". The Advocate. Archived from the original on March 3, 2012. Retrieved 2008-11-21.
  6. ^ a b "Atlantic hurricane best track (HURDAT version 2)" (Database). United States National Hurricane Center. April 5, 2023. Retrieved December 14, 2024. Public Domain This article incorporates text from this source, which is in the public domain.
  7. ^ Lixion A. Avila & Edward N. Rappaport (January 4, 1996). "Atlantic Hurricane Season of 1994" (PDF). Monthly Weather Review. 124 (7). American Meteorological Society: 1558–1578. Bibcode:1996MWRv..124.1558A. doi:10.1175/1520-0493(1996)124<1558:AHSO>2.0.CO;2. Archived (PDF) from the original on December 15, 2013. Retrieved July 7, 2012.
  8. ^ "CSU Forecaster Predicts Eight Hurricanes in '95 Experts Credit Presence Of El Nino For The Calm of 1994's Three Storms But Says Change is in Air". The Rocky Mountain News. Associated Press. December 3, 1994. Archived from the original on March 3, 2012. Retrieved 2008-11-23.
  9. ^ Atlantic Oceanographic and Meteorological Laboratory, Hurricane Research Division. "Frequently Asked Questions: When is hurricane season?". National Oceanic and Atmospheric Administration. Archived from the original on 6 November 2008. Retrieved 2008-11-21.
  10. ^ Hurricane Research Division (March 2011). "Atlantic basin Comparison of Original and Revised HURDAT". National Oceanic and Atmospheric Administration. Archived from the original on 2011-11-29. Retrieved 2011-07-23.
  11. ^ David Levinson (2008-08-20). "2005 Atlantic Ocean Tropical Cyclones". National Climatic Data Center. Archived from the original on 2005-12-01. Retrieved 2011-07-23.
  12. ^ Edward Rappaport (December 7, 1994). "Tropical Storm Alberto Preliminary Report Page 1". National Hurricane Center. Archived from the original on October 22, 2012. Retrieved 2008-11-21.
  13. ^ Edward Rappaport (December 7, 1994). "Tropical Storm Alberto Preliminary Report Page 2". National Hurricane Center. Archived from the original on October 22, 2012. Retrieved 2008-11-21.
  14. ^ Costliest U.S. tropical cyclones tables updated (PDF) (Report). Miami, Florida: National Hurricane Center. January 26, 2018. Archived (PDF) from the original on January 27, 2018. Retrieved February 4, 2018.
  15. ^ Daryl Barksdale (August 9, 1995). "Case Studies: Floods Disaster recovery response to Tropical Storm Alberto". Dept. of Natural Resources. Archived from the original on April 8, 2012. Retrieved 2008-12-17.
  16. ^ a b c d Pasch, Richard (January 12, 1995). "Tropical Depression Two Preliminary Report". National Hurricane Center. Archived from the original on 29 October 2013. Retrieved 8 April 2010.
  17. ^ Rappaport, Edward (July 20, 1994). "Tropical Depression Two Special Advisory Number 1". National Hurricane Center. Archived from the original on 29 October 2013. Retrieved 8 April 2010.
  18. ^ a b c David Roth (June 20, 2007). "Tropical Depression #2 – July 20–23, 1994". Hydrometeorological Prediction Center. Archived from the original on 19 October 2008. Retrieved 2008-11-23.
  19. ^ Staff Writer (July 21, 1994). "System Spawning Hard Rains, Precautions". The Charlotte Observer. Archived from the original on March 3, 2012. Retrieved 2008-12-07.
  20. ^ Max Mayfield (October 15, 1994). "Tropical Storm Beryl Preliminary Report Page 1". National Hurricane Center. Archived from the original on October 22, 2012. Retrieved 2008-11-21.
  21. ^ Max Mayfield (October 15, 1994). "Tropical Storm Beryl Preliminary Report Page 2". National Hurricane Center. Archived from the original on October 22, 2012. Retrieved 2008-11-21.
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