Tropical Storm Nestor (2019)

Last updated

Map key
Saffir–Simpson scale
  Tropical depression (≤38 mph, ≤62 km/h)
  Tropical storm (39–73 mph, 63–118 km/h)
  Category 1 (74–95 mph, 119–153 km/h)
  Category 2 (96–110 mph, 154–177 km/h)
  Category 3 (111–129 mph, 178–208 km/h)
  Category 4 (130–156 mph, 209–251 km/h)
  Category 5 (≥157 mph, ≥252 km/h)
  Unknown
Storm type
Disc Plain black.svg Tropical cyclone
Solid black.svg Subtropical cyclone
ArrowUp.svg Extratropical cyclone, remnant low, tropical disturbance, or monsoon depression

On October 10, the NHC began to monitor for a poorly defined area of low pressure that was forecast to form near Central America. [1] The low developed on October 11 and meandered almost parallel to the coast of Honduras for the next few days, [2] before finally crossing over Central America near the Yucatan Peninsula on October 14. [3] The low fully emerged into the Bay of Campeche on October 16 after bringing heavy rain to Central America and due to the warm temperatures in the Gulf of Mexico at the time, convection significantly improved with the system near the center and it was given a medium chance of development. [4] The system became very broad but proceeded to be designated as Potential Tropical Cyclone Sixteen the proceeding day due to its threat to the United States Gulf Coast. [5] The disturbance intensified over the following hours, attaining winds up to 60 mph (97 km/h), with cloud tops colder than -80° enveloping the center. [6] The disturbance's circulation, however remained elongated, and was still not named. Later that evening on October 18, the circulation improved and became more defined, while the system was finally designated Tropical Storm Nestor. [7]

Potential Tropical Cyclone Sixteen on October 17, 2019 PTC 16L 2019-2019-10-17T14 24Z-to-2019-10-17T22 24Z.gif
Potential Tropical Cyclone Sixteen on October 17, 2019

Nestor began to then accelerate to the northeast aided by a ridge to its northeast, although wind shear generated by a nearby trough almost embedded within the northern side of the cyclone began to give Nestor a lopsided appearance on satellite imagery shortly after its designation. [8] [9] Due to Nestor's broad nature, gale-force winds were already beginning to be observed near the coast of Florida Panhandle. [10] The system began to slow down as wind shear generated by the trough caused the storm to weaken as it neared the Florida Panhandle coast. Nestor rapidly lost its tropical characteristics due to interaction with this trough, and was declared to have become an extratropical cyclone early on October 19, however still bringing storm surge and heavy rains to the coast anyway. [11] Nestor's post-tropical remnant then made landfall in St. Vincent Island, Florida with winds up to 45 mph, [12] becoming further disorganized across the Southeastern United States for the next couple of days. On October 21, Nestor's extratropical remnant was absorbed into another extratropical storm off the coast of the Southeastern United States.

Preparations

With the designation of Potential Tropical Cyclone Sixteen, the National Weather Service (NWS) issued Tropical Storm Warnings and Watches for the majority of the Florida Panhandle coast. Storm Surge Watches were also issued ahead of the storm. [13] Parts of Southern Louisiana and Alabama also received Tropical Storm Warnings, but were removed shortly after the storm's track shifted predominantly towards to the Florida Panhandle. [8] Tornado watches were then issued shortly after the storm became post-tropical for much of Northern Florida and some parts of Georgia. [14]

Impacts

Aftermath of an EF2 tornado in Polk County, Florida on October 19, 2019, caused by Nestor. 2019 Lakeland-Kathleen Tornado damage Campbell Rd at Ashley Pointe Dr 2.jpg
Aftermath of an EF2 tornado in Polk County, Florida on October 19, 2019, caused by Nestor.

As Nestor began to approach the coast of the Florida Panhandle, the same region that was severely affected by Hurricane Michael the previous year, it led to winds to gale-force and storm surge to take upon the region. [10] Tides 2–4 feet above normal were recorded in several parts of the region as well, causing some minor coastal flooding. Heavy rain and the surging waves generated by the storm system also caused flash flooding in parts of the region, with some areas topping with 4 inches of rain. [16] These rains, however, proved to be somewhat beneficial. A drought in the Southeastern United States was relieved as Nestor and its post-tropical remnant brought rain to the areas, with a meteorologist stating "The rain on the whole was a positive for the entire region – unless you had outdoor plans.". [17]

Perhaps the legacy of Nestor, however, was the small tornado outbreak it caused across the Southeastern United States. Although Nestor was not classified as a tropical cyclone anymore at the time of its landfall, it spawned numerous supercells, which ultimately led to the spawning of several tornadoes. The National Weather Service (NWS) confirmed six tornadoes, one reaching EF2 status. [16] One of the tornadoes, only reaching EF0 status, was recorded in Seminole, Florida and damaged a mobile home park. [18] An EF2 tornado which tracked 9 miles also touched down in western Polk County, damaging over 50 homes and other buildings, including a middle school. The tornado also overturned an 18-wheeled vehicle which fell on top of a SUV, but no injuries were reported. [19] The next day, an EF1 tornado formed near Cape Coral in Lee County damaging several homes. No injuries or deaths were reported from any of the tornadoes. [20] [21] An EF0 landspout tornado was sighted in Micco, but it caused no damage. [22] One other EF0 tornado was confirmed in Cordele, Georgia, downing trees, shifting a barn off it foundation, and ripping part of a metal roof off an industrial building. [23] Another EF0 tornado was confirmed on October 20 on the west side of Myrtle Beach, South Carolina, snapping and uprooting numerous trees, including fallen pine trees that damaged to two mobile homes. [24]

3 indirect deaths occurred when heavy rains generated by Nestor's extratropical remnant caused a car crash in South Carolina. [25]

See also

Related Research Articles

<span class="mw-page-title-main">Tropical Storm Fay (2008)</span> Atlantic tropical storm in 2008

Tropical Storm Fay was an unusual tropical storm that moved erratically across the state of Florida and the Caribbean Sea. The sixth named storm of the 2008 Atlantic hurricane season, Fay formed from a vigorous tropical wave on August 15 over the Dominican Republic. It passed over the island of Hispaniola, into the Gulf of Gonâve, across the island of Cuba, and made landfall on the Florida Keys late in the afternoon of August 18 before veering into the Gulf of Mexico. It again made landfall near Naples, Florida, in the early hours of August 19 and progressed northeast through the Florida peninsula, emerging into the Atlantic Ocean near Melbourne on August 20. Extensive flooding took place in parts of Florida as a result of its slow movement. On August 21, it made landfall again near New Smyrna Beach, Florida, moving due west across the Panhandle, crossing Gainesville and Panama City, Florida. As it zigzagged from water to land, it became the first storm in recorded history to make landfall in Florida four times. Thirty-six deaths were blamed on Fay. The storm also resulted in one of the most prolific tropical cyclone related tornado outbreaks on record. A total of 81 tornadoes touched down across five states, three of which were rated as EF2. Fay would cause around $560 million in damages throughout its lifespan.

<span class="mw-page-title-main">Tropical Storm Julia (2016)</span> Atlantic tropical storm in 2016

Tropical Storm Julia was a weak tropical cyclone that caused minor damage across the Eastern United States in September 2016. The tenth named storm of the 2016 Atlantic hurricane season, Julia developed from a tropical wave near the coast of east-central Florida on September 13. Initially a tropical depression, the system soon made landfall near Jensen Beach. Despite moving inland, the cyclone intensified into a tropical storm, shortly before strengthening further to reach maximum sustained winds of 50 mph (85 km/h). Julia then drifted north-northwestward and then northeastward, moving offshore the Southeastern United States on September 14. A cyclonic loop occurred as strong westerly air developed in the region, with the shear causing fluctuations in intensity. By September 19, Julia degenerated into a remnant low, which later transitioned into an extratropical cyclone and moved inland over North Carolina before dissipating on September 21.

<span class="mw-page-title-main">Tropical Storm Emily (2017)</span> Tropical cyclone in the 2017 Atlantic hurricane season

Tropical Storm Emily was a rapidly-forming tropical cyclone that made landfall on the west coast of Florida. The fifth named storm of the 2017 Atlantic hurricane season, Emily formed from a small area of low pressure that developed along a cold front in late July 2017. Unexpectedly, the low rapidly organized and strengthened into a tropical depression on July 30, and then into a tropical storm early the next day. Emily continued to intensify as it moved eastward, peaking with maximum sustained winds of 60 mph (95 km/h) as it made landfall near Longboat Key on the western Florida coast. The cyclone weakened quickly into a tropical depression shortly after landfall as its circulation became increasingly disrupted. Emerging into the Atlantic Ocean on August 1, Emily continued to weaken as it accelerated northeastward, becoming post-tropical early on August 2.

<span class="mw-page-title-main">Meteorological history of Hurricane Harvey</span>

Hurricane Harvey was the costliest tropical cyclone on record, inflicting roughly $125 billion in damage across the Houston metropolitan area and Southeast Texas. It lasted from mid-August until early September 2017, with many records for rainfall and landfall intensity set during that time. The eighth named storm, third hurricane, and first major hurricane of the 2017 Atlantic hurricane season, Harvey originated from a broad area of low pressure southwest of Cape Verde that was first monitored on August 13. Tracking steadily westward, the disturbance developed strong convection, a well-defined circulation, and sustained tropical storm-force winds, leading to the classification of Tropical Storm Harvey late on August 17. Moderate easterly vertical wind shear kept Harvey weak, as it continued westwards into the Caribbean Sea; despite repeated predictions for gradual intensification by the National Hurricane Center, Harvey eventually opened up into a tropical wave on August 19. The remnants of Harvey continued to move westwards and reached the Yucatán Peninsula on August 22, and were forecast to regenerate into a tropical cyclone after exiting land.

<span class="mw-page-title-main">Potential Tropical Cyclone Ten</span> Tenth designated tropical disturbance during the 2017 Atlantic hurricane season

Potential Tropical Cyclone Ten was a damaging storm that was the tenth tropical disturbance designated by the National Hurricane Center (NHC) during the 2017 Atlantic hurricane season. The disturbance was deemed to have a very high chance of becoming a tropical cyclone while posing a threat to populated areas and was designated a "Potential Tropical Cyclone". The storm caused flooding and brought tropical storm-force winds to parts of the Southeastern United States and the Mid-Atlantic states, particularly Florida and the Carolinas, before going on to affect parts of Atlantic Canada. Potential Tropical Cyclone Ten was the tenth storm that had advisories issued on it by the NHC in 2017, and the only such system that failed to fully develop into a tropical cyclone during that Atlantic hurricane season. Potential Tropical Cyclone Ten originated from a tropical wave that moved off the coast of West Africa on August 13. The disturbance slowly tracked its way westward across the Atlantic Ocean, before reaching Florida in late August. The disturbance came close to developing into a tropical storm while it was situated off the coast of the Carolinas; however, strong wind shear and outflow from Hurricane Harvey prevented the storm from organizing into a tropical cyclone. The system transitioned into an extratropical cyclone instead, and became a strong hurricane-force low to the south of Newfoundland, before being absorbed by another extratropical system near Iceland on September 3.

<span class="mw-page-title-main">Hurricane Isaias</span> Category 1 Atlantic hurricane in 2020

Hurricane Isaias was a destructive Category 1 hurricane that caused extensive damage across the Caribbean and the East Coast of the United States while also spawning the strongest tropical cyclone-spawned tornado since Hurricane Rita in 2005. The ninth named storm and second hurricane of the extremely active and record-breaking 2020 Atlantic hurricane season, Isaias originated from a vigorous tropical wave off the coast of Africa that was first identified by the National Hurricane Center on July 23. The tropical wave gradually became more organized and obtained gale-force winds on July 28 before organizing into Tropical Storm Isaias on July 30. Isaias marked the earliest ninth named storm on record, surpassing 2005's Hurricane Irene by eight days. Isaias strengthened into a Category 1 hurricane on the next day, reaching an initial peak of 85 mph (137 km/h), with a minimum central pressure of 987 mbar. On August 1, the storm made landfall on North Andros, Bahamas and subsequently weakened to a tropical storm, before paralleling the east coast of Florida and Georgia. As Isaias approached the Carolina coastline, it reintensified back into a hurricane. Soon afterward, Isaias reached its peak intensity, with maximum 1-minute sustained winds of 90 mph (140 km/h) and a minimum central pressure of 986 millibars (29.1 inHg), before making landfall near Ocean Isle Beach, North Carolina, at 03:10 UTC on August 4, at the same intensity. The storm proceeded to accelerate up the East Coast of the United States as a strong tropical storm, before transitioning into an extratropical cyclone over Quebec on August 4. Isaias's extratropical remnants persisted for another day, before dissipating on August 5.

<span class="mw-page-title-main">Hurricane Marco (2020)</span> Category 1 Atlantic hurricane

Hurricane Marco was the first of two tropical cyclones to threaten the Gulf Coast of the United States within a three-day period. The thirteenth named storm and third hurricane of the record-breaking 2020 Atlantic hurricane season, Marco developed from a fast-moving tropical wave west of the Windward Islands and south of Jamaica on August 20. The fast motion of the wave inhibited intensification initially, but as the wave slowed down and entered a more favorable environment, the system developed into a tropical depression, which in turn rapidly intensified into a strong tropical storm. Due to strong wind shear, Marco's intensification temporarily halted. However, after entering the warm waters of the Gulf of Mexico on August 23, Marco briefly intensified into a hurricane, only to quickly weaken later that evening due to another rapid increase in wind shear. Marco subsequently weakened to a tropical depression before degenerating into a remnant low early the next morning. Marco's remnants subsequently dissipated on August 26.

<span class="mw-page-title-main">Hurricane Sally</span> Category 2 Atlantic hurricane in 2020

Hurricane Sally was a destructive and slow-moving Atlantic hurricane that was the first hurricane to make landfall in the U.S. state of Alabama since Ivan in 2004, coincidentally on the same date in the same place. The eighteenth named storm and seventh hurricane of the extremely active 2020 Atlantic hurricane season, Sally developed from an area of disturbed weather which was first monitored over the Bahamas on September 10. The system grew a broad area of low-pressure on September 11, and was designated as a tropical depression late that day. Early the next day, the depression made landfall at Key Biscayne and subsequently strengthened into Tropical Storm Sally that afternoon. Moderate northwesterly shear prevented significant intensification for the first two days, but convection continued to grow towards the center and Sally slowly intensified. On September 14, a center reformation into the center of the convection occurred, and data from a hurricane hunter reconnaissance aircraft showed that Sally had rapidly intensified into a strong Category 1 hurricane. However, an increase in wind shear and upwelling of colder waters halted the intensification and Sally weakened slightly on September 15 before turning slowly northeastward. Despite this increase in wind shear, it unexpectedly re-intensified, reaching Category 2 status early on September 16 before making landfall at peak intensity at 09:45 UTC on September 16, near Gulf Shores, Alabama, with maximum sustained winds of 110 mph (180 km/h) and a minimum central pressure of 965 millibars (28.5 inHg). The storm rapidly weakened after landfall before transitioning into an extratropical low at 12:00 UTC the next day. Sally's remnants lasted for another day as they moved off the coast of the Southeastern United States before being absorbed into another extratropical storm on September 18.

<span class="mw-page-title-main">Hurricane Paulette</span> Category 2 Atlantic hurricane in 2020

Hurricane Paulette was a strong and long-lived Category 2 Atlantic hurricane which became the first to make landfall in Bermuda since Hurricane Gonzalo in 2014, and was the longest-lasting tropical cyclone of 2020 globally. The sixteenth named storm and sixth hurricane of the record-breaking 2020 Atlantic hurricane season, Paulette developed from a tropical wave that left the coast of Africa on September 2. The wave eventually consolidated into a tropical depression on September 7. Paulette fluctuated in intensity over the next few days, due to strong wind shear, initially peaking as a strong tropical storm on September 8. It eventually strengthened into a hurricane early on September 13 as shear decreased. On September 14, Paulette made landfall in northeastern Bermuda as a Category 2 hurricane, while making a gradual turn to the northeast. The cyclone further strengthened as it moved away from the island, reaching its peak intensity with 1-minute sustained winds of 105 mph (169 km/h) and a minimum central atmospheric pressure of 965 mbar (28.5 inHg) on September 14. On the evening of September 15, Paulette began to weaken and undergo extratropical transition, which it completed on September 16. The hurricane's extratropical remnants persisted and moved southward then eastward, and eventually, Paulette regenerated into a tropical storm early on September 20 south of the Azores– which resulted in the U.S National Weather Service coining the phrase "zombie storm" to describe its unusual regeneration. Paulette's second phase proved short-lived, however, as the storm quickly weakened and became post-tropical again two days later. The remnant persisted for several days before dissipating south of the Azores on September 28. In total, Paulette was a tropical cyclone for 11.25 days, and the system had an overall lifespan of 21 days.

<span class="mw-page-title-main">Subtropical Storm Alpha (2020)</span> Atlantic subtropical storm in 2020

Subtropical Storm Alpha was the first subtropical or tropical cyclone ever observed to make landfall in mainland Portugal. The twenty-second tropical or subtropical cyclone and twenty-first named storm of the extremely active and record-breaking 2020 Atlantic hurricane season, Alpha originated from a large non-tropical low that was first monitored by the National Hurricane Center on 15 September. Initially not anticipated to transition into a tropical cyclone, the low gradually tracked south-southeastward for several days with little development. By early on 17 September, the low had separated from its frontal features and exhibited sufficient organization to be classified as a subtropical cyclone, as it approached the Iberian Peninsula, becoming a subtropical storm around that time. Alpha then made landfall just south of Figueira da Foz, Portugal during the evening of 18 September, then rapidly weakened as it moved over the mountainous terrain of Northeastern Portugal. The system degenerated into a remnant low on 19 September, when it was last noted.

<span class="mw-page-title-main">Tropical Storm Beta (2020)</span> Atlantic tropical storm in 2020

Tropical Storm Beta was a tropical cyclone that brought heavy rainfall, flooding, and severe weather to the Southeastern United States in September 2020. The twenty-third tropical depression and twenty-third named storm of the record-breaking 2020 Atlantic hurricane season, Beta originally formed from a trough of low pressure that developed in the northeastern Gulf of Mexico on September 10. The low moved slowly southwestward, with development hampered initially by the development of nearby Hurricane Sally. After Sally moved inland over the Southeastern United States and weakened, the disturbance became nearly stationary in the southwestern Gulf, where it began to organize. By September 16, the storm had gained a low-level circulation center and had enough organization to be designated as Tropical Depression Twenty-Two. The system held its intensity for a day due to the influence of strong wind shear and dry air, before eventually attaining tropical storm strength. It slowly moved northward and intensified to a mid-range tropical storm before dry air and wind shear halted its intensification. Beta then became nearly stationary on September 19, before starting to move west towards the Texas coast the next day, weakening as it approached. On September 21, Beta made landfall near Matagorda Peninsula, Texas as a minimal tropical storm. It subsequently weakened to a tropical depression the next day before becoming post-tropical early on September 23. Its remnants moved northeastward, before the center elongated and merged with a cold front early on September 25.

<span class="mw-page-title-main">Hurricane Gamma</span> Category 1 Atlantic hurricane in 2020

Hurricane Gamma was a Category 1 hurricane that brought heavy rains, flooding, and landslides to the Yucatán Peninsula in early October 2020. The twenty-fifth depression, twenty-fourth named storm and ninth hurricane of the extremely active 2020 Atlantic hurricane season, Gamma developed from a vigorous tropical wave that had been monitored as it was entering the Eastern Caribbean on September 29. The wave moved westward and slowed down as it moved into the Western Caribbean, where it began to interact with a dissipating cold front. A low formed within the disturbance on October 1 and the next day, it organized into a tropical depression. It further organized into Tropical Storm Gamma early the next day. It continued to intensify and made landfall as a minimal hurricane near Tulum, Mexico, on October 3. It weakened over land before reemerging in the Gulf of Mexico. Gamma then briefly restrengthened some before being blasted by high amounts of wind shear, causing it to weaken again. It made a second landfall as a tropical depression in Nichili, Mexico on October 6 before dissipating as it was absorbed by the approaching Hurricane Delta.

<span class="mw-page-title-main">Hurricane Zeta</span> Category 3 Atlantic hurricane in 2020

Hurricane Zeta was a late-season major hurricane in 2020 that made landfall on the Yucatán Peninsula and then in southeastern Louisiana, the latest on record to do so at such strength in the United States. Zeta was the record-tying sixth hurricane of the year to make landfall in the United States. The twenty-seventh named storm, twelfth hurricane and fifth major hurricane of the extremely active 2020 Atlantic hurricane season, Zeta formed from a broad area of low pressure that formed in the western Caribbean Sea on October 19. After battling wind shear, the quasi-stationary low organized into Tropical Depression Twenty-Eight on October 24. The system strengthened into Tropical Storm Zeta early on October 25 before becoming a hurricane the next day as it began to move northwestward. Hurricane Zeta made landfall on the Yucatán Peninsula late on October 26 and weakened while inland to a tropical storm, before moving off the northern coast of the peninsula on October 27. After weakening due to dry air entrainment, Zeta reorganized and became a hurricane again, and eventually a Category 2 hurricane, as it turned northeastward approaching the United States Gulf Coast on October 28. It continued to strengthen until it reached its peak intensity as a major Category 3 hurricane with 115-mile-per-hour (185 km/h) sustained winds and a minimum pressure of 970 mbar (28.64 inHg) as it made landfall at Cocodrie, Louisiana, that evening. Zeta continued on through Mississippi and parts of Alabama with hurricane-force winds. Zeta gradually weakened as it accelerated northeastward, and became post-tropical on October 29, as it moved through central Virginia, dissipating shortly afterwards off the coast of New Jersey. After bringing accumulating snow to parts of New England, the extratropical low-pressure system carrying Zeta's remnant energy impacted the United Kingdom on November 1 and 2.

<span class="mw-page-title-main">Tornado outbreak of March 16–18, 2021</span> 2021 tornado outbreak and blizzard in the United States

A tornado outbreak occurred on Saint Patrick's Day in the Deep South. Mississippi and Alabama were greatly affected, with numerous tornadoes being confirmed, including four that were rated EF2. Six people were injured by four different tornadoes across Alabama during the outbreak. A non-tornadic fatality also occurred due to a car crash near Natchez, Mississippi. The outbreak began the day before, with a couple tornadoes in Mississippi, and continued over the next two days. The storm moved eastward and affected portions of Florida, Georgia, the Carolinas, and Virginia on March 18, spawning more tornadoes and causing wind damage before the storms pushed offshore that night. In total, 51 tornadoes were confirmed during the event, including 25 in Alabama, making it the sixth-largest tornado event in the state's history, and is sometimes locally referred to as the Saint Patrick's Day tornado outbreak of 2021. The same areas would be hit again by a more significant and destructive tornado outbreak sequence one week later.

<span class="mw-page-title-main">Tropical Storm Claudette (2021)</span> Atlantic tropical storm in 2021

Tropical Storm Claudette was a weak tropical cyclone that caused heavy rain and tornadoes across the Southeastern United States in June 2021, leading to severe damage. The third named storm of the 2021 Atlantic hurricane season, Claudette originated from a broad trough of low pressure over the Bay of Campeche on June 12. The disturbance moved erratically over the region for the next several days, before proceeding northward with little development due to unfavorable upper-level winds and land interaction. Despite this, the National Hurricane Center (NHC) initiated advisories on it as a Potential Tropical Cyclone late on June 17, due to its imminent threat to land. The disturbance finally organized into Tropical Storm Claudette at 00:00 UTC on June 19 just before landfall in southeast Louisiana. Claudette weakened to a depression as it turned east-northeastward before moving through Mississippi, Alabama, Georgia, and South Carolina. Baroclinic forcing then caused Claudette to reintensify into a tropical storm over North Carolina early on June 21 before it accelerated into the Atlantic Ocean later that day. Soon afterward, it degenerated into a low-pressure trough on the same day, before being absorbed into another extratropical cyclone on the next day.

<span class="mw-page-title-main">Tropical Storm Danny (2021)</span> Atlantic tropical storm in 2021

Tropical Storm Danny was a weak and short-lived tropical cyclone that caused minor damage to the U.S. states of South Carolina and Georgia. The fourth named storm of the 2021 Atlantic hurricane season, the system formed from an area of low-pressure that developed from an upper-level trough over the central Atlantic Ocean on June 22. Moving west-northwestward, the disturbance gradually developed as convection, or showers and thunderstorms, increased over it. Although it was moving over the warm Gulf Stream, the organization of the disturbance was hindered by strong upper-level wind shear. By 18:00 UTC of June 27, as satellite images showed a well-defined center and thunderstorms, the system was upgraded to a tropical depression by the National Hurricane Center (NHC). At 06:00 UTC on the next day, the system further strengthened into Tropical Storm Danny east-southeast of Charleston, South Carolina. Danny continued its track towards South Carolina while slowly strengthening, subsequently reaching its peak intensity at that day of 45 mph (72 km/h) and a minimum central pressure of 1,009 mbar (29.8 inHg) at 18:00 UTC. Danny then made landfall in Pritchards Island, north of Hilton Head, in a slightly weakened state at 23:20 UTC on the same day, with winds of 40 mph (64 km/h) and indicating that Danny weakened prior to moving inland. The system then weakened to a tropical depression over east-central Georgia, before dissipating shortly afterward.

<span class="mw-page-title-main">Tropical Storm Fred (2021)</span> Atlantic tropical storm in 2021

Tropical Storm Fred was a strong tropical storm which affected much of the Greater Antilles and the Southeastern United States in August 2021. The sixth tropical storm of the 2021 Atlantic hurricane season, Fred originated from a tropical wave first noted by the National Hurricane Center on August 4. As the wave drifted westward, advisories were initiated on the wave as a potential tropical cyclone by August 9 as it was approaching the Leeward Islands. Entering the Eastern Caribbean Sea after a close pass to Dominica by the next day, the potential tropical cyclone continued northwestward. By August 11, the disturbance had formed into Tropical Storm Fred just south of Puerto Rico, shortly before hitting the Dominican Republic on the island of Hispaniola later that day. The storm proceeded to weaken to a tropical depression over the highly mountainous island, before emerging north of the Windward Passage on August 12. The disorganized tropical depression turned to the west and made a second landfall in Northern Cuba on August 13. After having its circulation continuously disrupted by land interaction and wind shear, the storm degenerated into a tropical wave as it was turning northward near the western tip of Cuba the following day. Continuing north, the remnants of Fred quickly re-organized over the Gulf of Mexico, regenerating into a tropical storm by August 15. Fred continued towards the Florida Panhandle and swiftly intensified to a strong 65 mph (105 km/h) tropical storm before making landfall late on August 16 and moving into the state of Georgia. Afterward, Fred continued moving north-northeastward, before degenerating into an extratropical low on August 18. Fred's remnants later turned eastward, and the storm's remnants dissipated on August 20, near the coast of Massachusetts.

<span class="mw-page-title-main">Hurricane Franklin (2023)</span> Category 4 Atlantic hurricane in 2023

Hurricane Franklin was a long-lived, erratic, and powerful hurricane that brought tropical-storm force winds to parts of the Greater Antilles and Bermuda. The sixth named storm, second hurricane and first major hurricane of the 2023 Atlantic hurricane season, Franklin impacted Hispaniola as a tropical storm before strengthening into a high-end Category 4 hurricane several days later. Possessing a large wind field, the hurricane produced tropical storm force winds over Bermuda and soon became extratropical as it accelerated into the open northern Atlantic Ocean. The extratropical cyclone persisted for several more days before dissipating on September 10.

References

  1. "NHC Graphical Outlook Archive". www.nhc.noaa.gov.
  2. "NHC Graphical Outlook Archive". www.nhc.noaa.gov.
  3. "NHC Graphical Outlook Archive". www.nhc.noaa.gov.
  4. "NHC Graphical Outlook Archive". www.nhc.noaa.gov.
  5. "NHC Graphical Outlook Archive". www.nhc.noaa.gov.
  6. "Potential Tropical Cyclone SIXTEEN". www.nhc.noaa.gov.
  7. "Tropical Storm NESTOR". www.nhc.noaa.gov.
  8. 1 2 "Tropical Storm NESTOR". www.nhc.noaa.gov.
  9. "Tropical Storm NESTOR". www.nhc.noaa.gov.
  10. 1 2 "Tropical Storm NESTOR". www.nhc.noaa.gov.
  11. "Post-Tropical Cyclone NESTOR". www.nhc.noaa.gov.
  12. "Post-Tropical Cyclone NESTOR". www.nhc.noaa.gov.
  13. "Potential Tropical Cyclone SIXTEEN". www.nhc.noaa.gov.
  14. "Tornado watch issued as Tropical Storm Nestor peppers Florida Panhandle". ABC News. October 19, 2019.
  15. Spectrum News Staff (October 19, 2019). "Officials: EF-2 Tornado Touched Down in Polk County". baynews9.com. Spectrum News. Retrieved December 5, 2019.
  16. 1 2 US Department of Commerce, NOAA. "Event Review Tropical Storm Nestor". www.weather.gov.
  17. "8 tornadoes later, Nestor's rains are helping more than hurting parched Southeast, East". USA Today. October 20, 2019.
  18. Florida Event Report: EF0 Tornado (Report). National Centers for Environmental Information. 2019. Retrieved January 21, 2020.{{cite report}}: Unknown parameter |agency= ignored (help)
  19. Florida Event Report: EF2 Tornado (Report). National Centers for Environmental Information. 2019. Retrieved January 21, 2020.{{cite report}}: Unknown parameter |agency= ignored (help)
  20. Florida Event Report: EF1 Tornado (Report). National Centers for Environmental Information. 2019. Retrieved January 21, 2020.{{cite report}}: Unknown parameter |agency= ignored (help)
  21. "Tropical Storm Nestor Leaves Path of Destruction in Florida". New York Times. October 19, 2019.
  22. Florida Event Report: EF0 Tornado (Report). National Centers for Environmental Information. 2019. Retrieved January 21, 2020.{{cite report}}: Unknown parameter |agency= ignored (help)
  23. Georgia Event Report: EF0 Tornado (Report). National Centers for Environmental Information. 2019. Retrieved January 21, 2020.{{cite report}}: Unknown parameter |agency= ignored (help)
  24. South Carolina Event Report: EF0 Tornado (Report). National Centers for Environmental Information. 2019. Retrieved January 21, 2020.{{cite report}}: Unknown parameter |agency= ignored (help)
  25. Feit, Noah (October 20, 2019). "Three killed, five hurt in crash near South Carolina university campus, coroner says". The State. Retrieved October 20, 2019.
Tropical Storm Nestor
Nestor 2019-10-18 1905Z.jpg
Nestor shortly after being classified as a tropical storm on October 18
Tropical cyclones of the 2019 Atlantic hurricane season
2019 Atlantic hurricane season summary.png
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.