Meteorological history of Hurricane Ivan explained

Hurricane Ivan
Formed:September 2, 2004
Low:September 24, 2004
Dissipated:September 25, 2004
Winds:145
Pressure:910
Areas:Windward Islands (especially Grenada), Venezuela, Jamaica, Cayman Islands, Cuba, U.S. Gulf Coast
Season:2004 Atlantic hurricane season

The meteorological history of Hurricane Ivan, the longest tracked tropical cyclone of the 2004 Atlantic hurricane season, lasted from late August through late September. The hurricane developed from a tropical wave that moved off the coast of Africa on August 31. Tracking westward due to a ridge, favorable conditions allowed it to develop into Tropical Depression Nine on September 2 in the deep tropical Atlantic Ocean. The cyclone gradually intensified until September 5, when it underwent rapid deepening and reached Category 4 status on the Saffir-Simpson Hurricane Scale; at the time Ivan was the southernmost major North Atlantic hurricane on record.

Ivan quickly weakened due to dry air, but it gradually reorganized, passing just south of Grenada as a major hurricane on September 7. The hurricane attained Category 5 status in the central Caribbean Sea. Over the subsequent days its intensity fluctuated largely due to eyewall replacement cycles, and Ivan passed just south of Jamaica, the Cayman Islands, and western Cuba with winds at or slightly below Category 5 status. Turning northward and encountering unfavorable conditions, Ivan gradually weakened before making landfall just west of Gulf Shores, Alabama on September 16 with winds of 120mph. The cyclone quickly weakened to tropical depression status as it turned to the northeast, and Ivan transitioned into an extratropical cyclone on September 18.

The remnant low of Ivan turned to the south and southwest, and after crossing Florida on September 21 it began to reacquire tropical characteristics. It became a tropical depression again on September 22 to the southeast of Louisiana, and Ivan reached winds of 60mph before weakening and moving ashore along southwestern Louisiana as a tropical depression; the circulation of Ivan dissipated after crossing into Texas on September 25. The cyclone broke several intensity records, and its duration was the tenth-longest on record for an Atlantic hurricane.

Formation and intensification

On August 31, a large tropical wave moved off the west coast of Africa. A tropical system along the wave axis contained a low pressure area as well as an impressive outflow pattern, though initially its convection was disorganized and limited.[1] By September 1 a cyclonic circulation with a diameter of 690miles was evident on satellite imagery, well to the southeast of the Cape Verde Islands.[2] Several hurricane forecast models anticipated development and strengthening.[3] As it tracked quickly westward, the convection organized and developed into rainbands – bands of showers and thunderstorms that spiral cyclonically toward the storm center – and late on September 1 meteorologists began tracking the system using the Dvorak technique. Low amounts of wind shear and favorable outflow allowed vigorous deep convection to develop and persist near the center, and by 1800 UTC on September 2 the system developed into Tropical Depression Nine about 450miles southwest of Praia, Cape Verde.[1]

Upon being classified as a tropical cyclone, the depression was embedded within a deep easterly steering current provided by a ridge to its north. Expected to track across sea surface temperatures greater than 82 °F (28 °C), the cyclone was forecast to gradually strengthen and within four days attain hurricane status;[4] the Geophysical Fluid Dynamics Laboratory predicted the depression to reach Category 4 status on the Saffir–Simpson Hurricane Scale within three days. Increased northeasterly wind shear shifted the center to the northeastern edge of the deep convection,[5] and despite the shear and its relatively low latitude of 9.7° N, the depression strengthened to attain tropical storm status early on September 3; upon reaching the intensity, the National Hurricane Center classified the system as Tropical Storm Ivan.[1]

Tropical Storm Ivan gradually became better organized as wind shear decreased, and its outflow expanded in all quadrants. Satellite imagery late on September 3 depicted a well-defined curved band wrapping around much of the circulation.[6] The next day, the deep convection temporarily became ill-defined,[7] before reorganizing and developing an eye feature.[8] Convection strengthened further as the feature transitioned into an eye,[9] and Ivan became a hurricane at around 0600 UTC on September 5. After reaching hurricane status, Ivan began to rapidly intensify with continued favorable conditions, and in an 18‑hour period the pressure dropped 39 mbar (1.15 inHg) as the winds increased by 60mph; early on September 6 Ivan attained an initial peak intensity of 135mph while located about 825miles east of the island of Tobago in the southern Lesser Antilles.[1]

While at major hurricane status, Ivan maintained very strong convection in its core with a well-defined eye. Operationally, the probability for further rapid strengthening was considered nearly nine times the average of a typical hurricane. Accordingly, Ivan was forecast to pass near Barbados with winds of about 150mph.[10] Shortly after attaining Category 4 status, the outer convection of the hurricane became ragged.[11] Hurricane Hunters found a Saharan Air Layer in the northern portion of the eye,[12] leaving the eyewall eroded which caused a marked decrease in winds;[13] by late on September 6 Ivan weakened to winds of 105mph.[1] The inner eyewall dissipated as a 23miles outer eyewall became dominant, and concurrently the overall organization of the hurricane improved.[14] Ivan again attained major hurricane status as it approached the Lesser Antilles, and at 2130 UTC on September 7 the cyclone passed 7miles south-southwest of the southern tip of Grenada, its closest approach to the island. At the time, the hurricane maintained an eye diameter of 12miles, with the northern portion of the eyewall producing strong winds on the island.[1] The hurricane brought strong winds to Grenada, and tropical storm force winds were reported as far north as Dominica.[1]

Caribbean Sea

Hurricane Ivan again reached Category 4 status as it entered the Caribbean Sea.[1] Subsequently, it underwent an eyewall replacement cycle,[15] and for about 18 hours the intensity remained constant as it paralleled the northern coast of Venezuela offshore. Another period of rapid deepening began late on September 8 as its motion turned to the west-northwest.[1] Hurricane Hunters recorded flight-level sustained winds of 180mph to the north and northeast of the eye, and a dropsonde about 630feet above the surface recorded winds of 200mph and an extrapolated pressure of 916mbar.[16] Based on the reports, it is estimated Ivan attained Category 5 status at 0600 UTC on September 9, while located about 90miles north of Aruba.[1] At the time, the cyclone was forecast to strike southern Florida as a major hurricane.[16]

After maintaining Category 5 status for about 12 hours, Ivan began a steady weakening trend due to another eyewall replacement cycle until reaching winds of 140mph on September 10. Early next day, the hurricane reorganized as it reached winds just shy of Category 5 status. However, weakening occurred again due to an eyewall replacement cycle, and at 0330 UTC on September 11 Ivan passed 23miles south of Portland Point, Jamaica, its closest approach, with winds of 150mph.[1] The hurricane was previously forecast to make landfall on the island,[16] though the weakening and a turn to the west kept the strongest winds offshore; however, sustained winds of Category 4 status were reported. While passing to the south of the island, the hurricane dropped heavy rainfall, with several stations reporting over 2feet of precipitation.[1] Ivan's last-minute turn to the west was due to a mid-level high pressure system over the eastern Gulf of Mexico. A slight weakening trend continued after passing the island, due to its northern outflow being disrupted by an upper-level low over the Bahamas.[17] As it tracked further away from Jamaica, Ivan again rapidly intensified to Category 5 status, and early on September 12 it reached its peak intensity of 165mph with a pressure of 910mbar.[1]

Shortly after peaking in intensity, the hurricane again weakened as it underwent an eyewall replacement cycle.[18] At 1415 UTC on September 12 Ivan passed 25miles south-southwest of George Town, Cayman Islands, where sustained winds of 150mph were reported. The storm surge from the hurricane flooded all of Grand Cayman Island.[1] After its eyewall became re-established Ivan attained Category 5 status for a third time early on September 13. Shortly thereafter, a trough created a weakness in the ridge to its north, causing the hurricane to turn to the northwest. The combination of enhanced outflow from the trough and very warm waters allowed Ivan to maintain Category 5 status for 30 hours. Early on September 14 the hurricane passed through the Yucatán Channel about 17miles southwest of Cabo San Antonio, Cuba,[1] with the eastern portion of the eyewall crossing the western portion of the island.[19] Only the extreme western portion of the island experienced hurricane-force winds, although rainfall from the hurricane was reported across the island.[1]

Gulf of Mexico and Alabama landfall

After entering the southern Gulf of Mexico, Hurricane Ivan weakened to Category 4 status by 0600 UTC on September 14. When Ivan entered the Gulf of Mexico, U.S. Naval Research Laboratory ocean-floor pressure sensors detected a freak wave, which was caused by the hurricane. The wave was around 91feet high from peak to trough, and around 660feet long.[20] Their computer models also indicated that waves may have exceeded 130feet in the eyewall.[21] As Ivan gradually turned to the north, southwesterly flow from a large trough over the central United States increased wind shear over the hurricane.[1] An eyewall replacement cycle, along with dry air and restricted outflow, contributed to the weakening.[22] By late on September 14, the weakening trend ceased as the eyewall became better defined, and Ivan was expected to restrengthen slightly over an area of warmer water temperatures.[23] The eye diameter expanded to 60miles/h), though concurrently, westerly wind shear and dry air continued to increase.[24] As Ivan approached the Gulf Coast of the United States, Hurricane Hunters reported erosion of the southern portion of the eyewall,[25] and cooler waters just offshore contributed to further weakening. At around 0650 UTC on September 16, Hurricane Ivan made landfall just west of Gulf Shores, Alabama with an intensity of 120mph; the strongest winds occurred over a narrow area near the southern Alabama and western Florida border.[1] Its landfall was accompanied by a 10feet–15feetft (–ft) storm surge from Destin, Florida westward to Mobile Bay.[1]

Upon moving ashore, the National Hurricane Center expected the forward path of Ivan to be blocked, and accordingly forecast the hurricane to stall in the southern Appalachian Mountains before dissipating.[25] As the hurricane crossed Mobile Bay it turned to the north-northeast, and within twelve hours Ivan rapidly weakened to tropical storm status.[1] The circulation became less-defined,[26] and early on September 17, the cyclone deteriorated into a tropical depression over northeastern Alabama. Ivan accelerated to the northeast ahead of an approaching cold front, dropping heavy rainfall along its path and also producing a widespread tornado outbreak from Alabama through Maryland. Late on September 18, the remnants of Ivan transitioned into an extratropical low as it merged with the cold front over the Delmarva Peninsula.[1]

Redevelopment and demise

After becoming an extratropical low, the remnants of Ivan turned to the southeast and emerged into the Atlantic Ocean,[1] due to the building of an upper-level ridge to its east.[27] As an extratropical cyclone, Ivan remained identifiable in both surface and upper-level data, and the system turned south and southwestward over the subsequent days.[1] By September 20, the system was located off the east coast of Florida, producing scattered thunderstorms; unfavorable wind shear prevented tropical redevelopment, though forecasters indicated the possibility for more favorable conditions a few days later.[28] On September 21, the low crossed southern Florida and emerged into the Gulf of Mexico, and as it moved across the warm waters of the region, the low began to re-acquire tropical characteristics; the low-level circulation became increasingly better defined, and convection redeveloped over the center. Based on reports from Hurricane Hunters, it is estimated the low redeveloped into Tropical Depression Ivan late on September 22, while located about 175miles south-southeast of the mouth of the Mississippi River.[1]

In its first advisory on the re-developed cyclone, the National Hurricane Center classified the system Ivan "after considerable and sometimes animated in-house discussion of [its demise]... in the midst of a low-pressure and surface frontal system over the eastern United States... based primarily on the reasonable continuity observed in the analysis of the surface and low-level circulation."[29] Despite unfavorable shear and its disorganized cloud structure, the cyclone intensified to tropical storm status early on September 23, based on reports by Hurricane Hunters.[30] As an area of deep convection developed over the center, Ivan reached winds of 60mph,[31] though the winds decreased as thunderstorm activity diminished.[32] Ivan weakened to a tropical depression at 0000 UTC on September 24, and two hours later it moved ashore near Holly Beach, Louisiana.[1] Initial computer models forecast the low-level circulation to turn southwestward and re-emerge into the Gulf of Mexico.[32] However, the storm rapidly weakened over land, and by 1200 UTC on September 24, Ivan degenerated into a remnant low pressure area over southeast Texas.[1] The low turned to the south[33] and the circulation dissipated early on September 25.[34] The remnant trough reached the northwestern Gulf of Mexico later that day, briefly producing scattered thunderstorms[35] before it diminished.[36]

Records

Reaching Category 3 status on the Saffir–Simpson Hurricane Scale at 10.2° N, Ivan became the southernmost major hurricane on record.[1] Additionally, the hurricane attained Category 4 status further south than any other North Atlantic hurricane, at 10.6° N. At the time, Ivan was the sixth-most intense Atlantic hurricane on record; it has since dropped to eleventh. Throughout its duration, Ivan maintained winds of major hurricane status or greater for a total of 10 days, establishing an Atlantic hurricane record.[37] Lasting as a tropical cyclone for a total of 450 hours, Ivan was the tenth-longest-tracked Atlantic hurricane on record.

Upon making its two landfalls in the United States, the hurricane spawned a total of 120 tornadoes,[1] which is the largest tornado outbreak associated with a tropical cyclone; this broke the previous record of 115 set by Hurricane Beulah in 1967.[38]

See also

Notes and References

  1. Web site: Stacy Stewart. 2004. [{{NHC TCR url|id=AL092004_Ivan}} Hurricane Ivan Tropical Cyclone Report]. National Hurricane Center. May 22, 2015.
  2. Web site: Nelson. 2004. [ftp://ftp.met.fsu.edu/pub/weather/tropical/Atl-Dis/2004/Sep/2004090117.AXNT20 September 1 Tropical Weather Discussion]. National Hurricane Center. 2007-10-19.
  3. Web site: Berg. 2004. [ftp://ftp.met.fsu.edu/pub/weather/tropical/Atl-Dis/2004/Sep/2004090200.AXNT20 September 1 Tropical Weather Discussion (2)]. National Hurricane Center. 2007-10-19.
  4. Web site: Knabb and Pasch. 2004. Tropical Depression Nine Discussion One. National Hurricane Center. 2007-10-19.
  5. Web site: Franklin. 2004. Tropical Depression Nine Discussion Two. National Hurricane Center. 2007-10-19.
  6. Web site: Knabb and Pasch. 2004. Tropical Storm Ivan Discussion Five. National Hurricane Center. 2007-10-19.
  7. Web site: Pasch. 2004. Tropical Storm Ivan Discussion Eight. National Hurricane Center. 2007-10-19.
  8. Web site: Beven. 2004. Tropical Storm Ivan Discussion Ten. National Hurricane Center. 2007-10-19.
  9. Web site: Beven. 2004. Hurricane Ivan Discussion Ten. National Hurricane Center. 2007-10-19.
  10. Web site: Jarvinen and Hennon. 2004. Hurricane Ivan Discussion Fifteen. National Hurricane Center. 2007-10-19.
  11. Web site: Pasch. 2004. Hurricane Ivan Discussion Seventeen. National Hurricane Center. 2007-10-19.
  12. Web site: Lawrence and Hennon. 2004. Hurricane Ivan Discussion Nineteen. National Hurricane Center. 2007-10-19.
  13. Web site: Pasch. 2004. Hurricane Ivan Discussion Eighteen. National Hurricane Center. 2007-10-19.
  14. Web site: Stewart. 2004. Hurricane Ivan Discussion Twenty. National Hurricane Center. 2007-10-19.
  15. Web site: Stewart. 2004. Hurricane Ivan Discussion Twenty-Four. National Hurricane Center. 2007-10-19.
  16. Web site: Stewart. 2004. Hurricane Ivan Discussion Twenty-Eight. National Hurricane Center. 2007-10-19.
  17. Web site: Avila. 2004. Hurricane Ivan Discussion Thirty-Seven. National Hurricane Center. 2007-10-19.
  18. Web site: Stewart. 2004. Hurricane Ivan Discussion Forty-One. National Hurricane Center. 2007-10-20.
  19. Web site: Pasch. 2004. Hurricane Ivan Discussion Forty-Seven. National Hurricane Center. 2007-10-20.
  20. Web site: Hurricane Ivan prompts rogue wave rethink. Lucy Sherriff. The Register. August 5, 2005. September 6, 2021.
  21. Web site: NRL Measures Record Wave During Hurricane Ivan - U.S. Naval Research Laboratory. February 17, 2017. www.nrl.navy.mil. March 26, 2018. https://web.archive.org/web/20171101025311/https://www.nrl.navy.mil/media/news-releases/2005/nrl-measures-record-wave-during-hurricane-ivan. November 1, 2017. dead.
  22. Web site: Franklin. 2004. Hurricane Ivan Discussion Forty-Nine. National Hurricane Center. October 20, 2007.
  23. Web site: Franklin. 2004. Hurricane Ivan Discussion Fifty. National Hurricane Center. October 20, 2007.
  24. Web site: Franklin. 2004. Hurricane Ivan Discussion Fifty-Three. National Hurricane Center. October 20, 2007.
  25. Web site: Pasch. 2004. Hurricane Ivan Discussion Fifty-Five. National Hurricane Center. October 20, 2007.
  26. Web site: Stewart. 2004. Tropical Depression Ivan Discussion Fifty-Nine. National Hurricane Center. October 20, 2007.
  27. Web site: Wallace. 2004. [ftp://ftp.met.fsu.edu/pub/weather/tropical/Atl-Dis/2004/Sep/2004091811.AXNT20 September 18 Tropical Weather Discussion]. National Hurricane Center. 2007-10-20.
  28. Web site: Stewart. 2004. [ftp://ftp.met.fsu.edu/pub/weather/tropical/Outlook-A/2004/Sep/2004092015.ABNT20 September 20 Tropical Weather Outlook]. National Hurricane Center. 2007-10-20.
  29. Web site: Avila. 2004. Tropical Depression Ivan Special Discussion Sixty-Seven. National Hurricane Center. 2007-10-20.
  30. Web site: Avila. 2004. Tropical Storm Ivan Discussion Sixty-Eight. National Hurricane Center. 2007-10-20.
  31. Web site: Stewart. 2004. Tropical Storm Ivan Discussion Seventy. National Hurricane Center. 2007-10-20.
  32. Web site: Stewart. 2004. Tropical Storm Ivan Discussion Seventy-One. National Hurricane Center. 2007-10-20.
  33. Web site: Halbach. 2004. Public Advisory Number 76 for Remnant Low of Ivan. Hydrometeorological Prediction Center. 2007-10-20.
  34. Web site: Halbach. 2004. Public Advisory Number 77 for Remnant Low of Ivan. Hydrometeorological Prediction Center. 2007-10-20.
  35. Web site: Wallace. 2004. [ftp://ftp.met.fsu.edu/pub/weather/tropical/Atl-Dis/2004/Sep/2004092512.AXNT20 September 25 Tropical Weather Discussion]. National Hurricane Center. 2007-10-20.
  36. Web site: MT. 2004. [ftp://ftp.met.fsu.edu/pub/weather/tropical/Atl-Dis/2004/Sep/2004092518.AXNT20 September 25 Tropical Weather Discussion (2)]. National Hurricane Center. 2007-10-20.
  37. Web site: World Meteorological Organization. 2005. Twenty-Seventh Session RA IV Hurricane Committee. 2007-11-24. PDF. dead. https://web.archive.org/web/20071025090442/http://www.wmo.ch/pages/prog/www/TCP_vO/Final%20HC%2027%20Report-English.pdf. 2007-10-25.
  38. Web site: National Oceanic and Atmospheric Administration. 2005. NOAA Reports Record Number of Tornadoes in 2004. Science Daily. 2007-11-24.