2004 Pacific hurricane season explained

Basin:EPac
Year:2004
Track:2004 Pacific hurricane season summary map.png
First Storm Formed:May 22, 2004
Last Storm Dissipated:October 26, 2004
Strongest Storm Winds:130
Strongest Storm Pressure:930
Average Wind Speed:1
Total Depressions:17, 1 unofficial
Total Storms:12
Total Hurricanes:6
Total Intense:3
Fatalities:None, 3 missing
Damages:None
Season Timeline:Timeline of the 2004 Pacific hurricane season
Atlantic Season:2004 Atlantic hurricane season
West Pacific Season:2004 Pacific typhoon season
North Indian Season:2004 North Indian Ocean cyclone season

The 2004 Pacific hurricane season was an overall below-average Pacific hurricane season in which there were 12 named tropical storms, all of which formed in the eastern Pacific basin (east of 140°W and north of the equator). Of these, 6 became hurricanes, and 3 of those intensified into major hurricanes. No storms made landfall in 2004, the first such occurrence since 1991. In addition to the season's 12 named storms, there were five tropical depressions that did not reach tropical storm status. One of them, Sixteen-E, made landfall in northwestern Sinaloa. The season officially began on May 15 in the eastern Pacific, and on June 1 in the central Pacific basin (between140°W and the International Date Line, north of the equator). It officially ended in both basins on November 30. These dates conventionally delimit the period during each year when most tropical cyclones form in each respective basin.[1] These dates conventionally delimit the period during each year when a majority of tropical cyclones form. The season was reflected by an accumulated cyclone energy (ACE) index of 71 units.

Impact throughout the season was minimal and no deaths were recorded. In early August, the remnants of Hurricane Darby contributed to localized heavy rainfall in Hawaii, causing minor street and stream flooding; coffee and macadamia trees were damaged as well. In early September, Hurricane Howard resulted in significant flooding across the Baja California peninsula that damaged agricultural land and 393 homes. Large swells also resulted in about 1,000 lifeguard rescues in California. In mid-September, Javier, the strongest hurricane of the season, caused three fishermen to go missing and helped alleviate a multi-year drought across the Southwest United States. It produced record rainfall in the state of Wyoming. In mid- to late October, Tropical Storm Lester and Tropical Depression Sixteen-E each dumped heavy rain upon parts of Mexico, resulting in minor flood and mudslide damage.

Seasonal forecasts

Predictions of tropical activity in the 2004 season
SourceDateNamed
storms
HurricanesMajor
hurricanes
Ref
Average (1966–2003)1693
Record high activity2716 (tie)11
Record low activity8 (tie)30(tie)

SMNJanuary 20041563[2]
SMNMay 17, 20041472[3]
NOAAMay 21, 200413–156-82-4[4]
SMNAugust 20041363[5]

Actual activity
1263
In January 2004, the Servicio Meteorológico Nacional (SMN) released their first prediction for tropical cyclone activity throughout the Northeast Pacific. Based on a Neutral El Niño Southern Oscillation (ENSO), a total of 15 named storms, 6 hurricanes, and 3 major hurricanes was forecast.[2] These values were slightly altered in May to 14 named storms, 7 hurricanes, and 2 major hurricanes,[3] and again in August to 13 named storms, 6 hurricanes, and 3 major hurricanes.[5]

On May 17, the National Oceanic and Atmospheric Administration issued its seasonal forecast for the 2004 central Pacific season, predicting four or five tropical cyclones to form or cross into the basin. Likewise to the SMN, near average activity was expected largely as a result of a Neutral ENSO.[6] The organization issued its experimental eastern Pacific outlook on May 21, highlighting a 45 percent change of below-average activity, 45 percent chance of near-average activity, and only a 10 percent chance of above-average activity in the basin. A total of 13 to 15 named storms, 6 to 8 hurricanes, and 2 to 4 major hurricanes was forecast.[4]

Seasonal summary

Activity was below average throughout the season. Altogether there were 12 named storms, 6 of which became hurricanes, and 3 of those intensified into major hurricanes, compared to the long-term average of 16 named storms, 9 hurricanes, and 3 major hurricanes.[7]

The season's first storm, Agatha, developed on May 22.[8] No tropical cyclones developed during June, below the average of 2 named storms and 1 hurricane, and also the first time since 1969 that the month was cyclone-free.[9] The first hurricane of the season was Celia, which briefly reached Category 1 strength on July 22.[10] It was soon followed by Darby, the first major Hurricane of the season and the first in the Eastern Pacific since Kenna in 2002.[11] Later, on September 14, Javier attained sustained winds of, making it the strongest hurricane of the season.[12]

Overall wind energy output was reflected with an ACE index value of 71 units for the season. Although vertical wind shear was near average and ocean temperatures were slightly warmer than average south of Mexico, anomalously cool waters and drier than average air mass existed in the central portions of the eastern Pacific. Anomalously strong mid-level ridging extending from the Atlantic to northern Mexico steered a majority of the season's cyclones toward this inhospitable region and also acted to steer all the system of tropical storm intensity or stronger away from land.[13]

Systems

Tropical Storm Agatha

Basin:EPac
Track:Agatha 2004 track.png
Formed:May 22
Dissipated:May 24
1-Min Winds:50
Pressure:997

A nearly stationary trough stretched from the eastern Pacific into the eastern Caribbean Sea during mid-May. An ill-defined tropical wave crossed Central America on May 17 and interacted with the trough, eventually leading to the formation of a tropical depression at 00:00 UTC on May 22. The newly formed cyclone moved northwest parallel to the coastline of Mexico while steadily organizing in a low wind shear regime, intensifying into Tropical Storm Agatha by 12:00 UTC that day and attaining peak winds of 60mph twelve hours later. Increasingly cool ocean temperatures and a drier air mass caused Agatha to weaken quickly thereafter, and it degenerated into a remnant low by 12:00 UTC on May 24. The post-tropical cyclone drifted aimlessly before dissipating well south of the Baja California Peninsula on May 26.[8]

Tropical Depression Two-E

Basin:EPac
Track:02E 2004 track.png
Formed:July 2
Dissipated:July 3
1-Min Winds:30
Pressure:1007

A westward-moving tropical wave from Africa crossed Central America into the eastern Pacific in late June, coalescing into a tropical depression at 12:00 UTC on July 2 well southwest of the southern tip of the Baja California Peninsula.[14] Steered westward by low-level flow, the depression failed to organize amid wind shear and cooler sea surface temperatures,[15] instead degenerating into a remnant low at 00:00 UTC on July 4. The post-tropical cyclone dissipated a day later.[14]

Tropical Depression One-C

Basin:EPac
Track:01C 2004 track.png
Formed:July 5
Dissipated:July 5
1-Min Winds:25
Pressure:1007

An organized region of convection within the Intertropical Convergence Zone developed into a tropical depression at 03:00 UTC on July 5 while located roughly 700miles south-southeast of Johnston Atoll, becoming the farthest-south-forming central Pacific tropical cyclone since Tropical Storm Hali (1992). Steered westward, the depression failed to intensify due to its quick forward motion despite a seemingly favorable environment, and it quickly dissipated at 00:00 UTC on July 6.[16]

Tropical Storm Blas

Basin:EPac
Track:Blas 2004 track.png
Formed:July 12
Dissipated:July 15
1-Min Winds:55
Pressure:991

A tropical wave crossed Central America on July 8, developing into a tropical depression at 12:00 UTC on July 12 while located about 335miles southwest of Zihuatanejo, Mexico; six hours later, the depression intensified into Tropical Storm Blas. Steered swiftly northwestward around a mid-level ridge over the southwestern United States, the cyclone steadily intensified and reached peak winds of 65mph early on July 13 as a large and robust convective canopy became evident. Blas began a steady weakening trend as it tracked over increasingly cool sea surface temperatures, weakening to a tropical depression at 18:00 UTC on July 14 and degenerating into a large remnant low twelve hours later. The post-tropical cyclone decelerated and curved northeastward, dissipating well west of central Baja California early on July 19.[17]

Hurricane Celia

Basin:EPac
Track:Celia 2004 track.png
Formed:July 19
Dissipated:July 25
1-Min Winds:75
Pressure:981

A vigorous tropical wave entered the East Pacific on July 13, acquiring sufficient organization to be declared a tropical depression at 00:00 UTC on July 19 while located about 620miles south-southwest of the southern tip of the Baja California Peninsula. Directed west-northwest around a subtropical ridge, the cyclone steadily intensified amongst a favorable environment, becoming Tropical Storm Celia at 12:00 UTC that same day and further strengthening into a Category 1 hurricane on the Saffir–Simpson hurricane wind scale, the season's first, at 00:00 UTC on July 22. After attaining peak winds of 85mph six hours later, an increasingly unfavorable environment began to hinder the system. Celia weakened to a tropical storm at 18:00 UTC on July 22 and eventually degenerated into a remnant low at 00:00 UTC on July 26. The post-tropical cyclone dissipated about 1740miles west-southwest of the southern tip of the Baja California Peninsula later that morning.[18]

Hurricane Darby

See main article: Hurricane Darby (2004).

Basin:EPac
Track:Darby 2004 track.png
Formed:July 26
Dissipated:August 1
1-Min Winds:105
Pressure:957

A tropical depression formed at 12:00 UTC on July 26 while positioned about 760miles south-southwest of Cabo San Lucas, Mexico from a tropical wave that entered the eastern Pacific nearly a week prior. The system quickly intensified as it curved west-northwest around a subtropical ridge, becoming Tropical Storm Darby at 00:00 UTC on July 27 and strengthening into a Category 1 hurricane early the next day. After attaining its peak as the season's first major hurricane with winds of 120mph, increasing wind shear and cooler sea surface temperatures begin to weaken the cyclone. It weakened to a tropical storm at 12:00 UTC on July 30 and further to a tropical depression a day later as it entered the jurisdiction of the Central Pacific Hurricane Center.[11] At 12:00 UTC on August 1, Darby dissipated about 850miles east of the Hawaiian Islands.[16]

Although Darby produced no impacts to land as a tropical cyclone, its remnant moisture field combined with an upper-level trough over Hawaii to produce an unstable atmosphere. General rainfall amounts of 2– were recorded across the Big Island and Oahu, with a localized peak of 9.04inches in Kaneohe; this led to flooding and several road closures. Minor stream flooding was observed on the southeast flank of Mount Haleakalā. A rainfall total of 3.06inches was recorded at the Honolulu International Airport, contributing to the wettest August on record in the city.[19] Some coffee and macadamia nut trees were damaged.[20]

Tropical Depression Six-E

Basin:EPac
Track:06E 2004 track.png
Formed:August 1
Dissipated:August 2
1-Min Winds:25
Pressure:1008

Operationally, an area of disturbed weather was thought to have coalesced into a tropical depression at 09:00 UTC on July 29 while located well southwest of the Baja California Peninsula. The depression was only expected to intensify slightly before entering cooler waters and interacting with outflow from nearby Hurricane Darby.[21] By late that evening, however, its presentation on satellite imagery more resembled a trough, and the NHC discontinued advisories.[22] In post-season analysis, the organization determined that the depression did not form until 06:00 UTC on August 1 but lasted 24 hours.[23]

Tropical Storm Estelle

Basin:EPac
Track:Estelle 2004 track.png
Formed:August 19
Dissipated:August 24
1-Min Winds:60
Pressure:989

A tropical wave interacted with a disturbance embedded in the ITCZ in mid-August, leading to the designation of a tropical depression at 06:00 UTC on August 19 while located 1440miles east-southeast of Hilo, Hawaii. The cyclone moved west-northwest following formation, steered around a subtropical ridge. It intensified into Tropical Storm Estelle at 06:00 UTC on August 20 and attained peak winds of 70mph at 12:00 UTC the next morning as it crossed into the central Pacific.[24] Thereafter, increasing wind shear caused Estelle to a steady weakening trend. At 00:00 UTC on August 23, the cyclone decelerated to a tropical depression while turning west-southwest, and at 18:00 UTC the following day, it further degenerated into a remnant low. The post-tropical cyclone continued on a west-southwest trajectory prior to dissipating south-southeast of the Big Island at 00:00 UTC on August 26.[16]

Hurricane Frank

Basin:EPac
Track:Frank 2004 track.png
Formed:August 23
Dissipated:August 26
1-Min Winds:75
Pressure:979

A tropical wave, the remnants of Tropical Storm Earl in the Atlantic, crossed into the eastern Pacific in mid-August and steadily organized to become a tropical depression at 06:00 UTC on August 23 well south of the coastline of Mexico. The depression intensified into Tropical Storm Frank six hours later as banding features and central convection increased. Steered northwest within a favorable environment, the cyclone rapidly intensified into a Category 1 hurricane by 18:00 UTC and ultimately attained peak winds of 85mph twelve hours later. Frank steadily weakened thereafter as it entered cooler ocean temperatures, degenerating into a remnant low at 06:00 UTC on August 26. The remnant low drifted southwest before diffusing into a trough well south of the Baja California Peninsula the following day.[25]

Tropical Depression Nine-E

Basin:EPac
Track:09E 2004 track.png
Formed:August 23
Dissipated:August 26
1-Min Winds:30
Pressure:1005

A tropical wave crossed Central America on August 15, only slowing organizing into a tropical depression at 18:00 UTC on August 23 while located about 920miles west-southwest of Cabo San Lucas, Mexico. Steered north-northwest and eventually west, the cyclone failed to intensify further into a tropical storm amid cool sea surface temperatures and southerly wind shear, and it instead degenerated into a remnant low at 18:00 UTC on August 26. The post-tropical cyclone turned west-southwest before dissipating about 1095miles east of Hilo, Hawaii early on August 28.[26]

Tropical Storm Georgette

Basin:EPac
Track:Georgette 2004 track.png
Formed:August 26
Dissipated:August 30
1-Min Winds:55
Pressure:995

A westward-moving tropical wave entered the eastern Pacific in late August, acquiring sufficient organization to be declared a tropical depression at 12:00 UTC on August 26 about 605miles south-southeast of the Baja California Peninsula. The depression intensified into Tropical Storm Georgette six hours later as its satellite presentation improved, and it reached peak winds of 65mph at 12:00 UTC on August 27. Increasingly hostile upper-level winds began to impinge on the west-northwest-moving tropical cyclone shortly thereafter, ultimately causing it to degenerate into a remnant low by 18:00 UTC on August 30. The post-tropical cyclone continued its forward course until dissipating early on September 3.[27]

Hurricane Howard

Basin:EPac
Track:Howard 2004 track.png
Formed:August 30
Dissipated:September 5
1-Min Winds:120
Pressure:943

See main article: Hurricane Howard (2004). A westward-moving tropical wave from Africa entered the eastern Pacific in late August, organizing into a tropical depression at 12:00 UTC on August 30 south of the coastline of Mexico. The depression intensified into Tropical Storm Howard twelve hours later and further developed into a hurricane at 06:00 UTC on September 1. On its northwest track, a favorable environment regime prompted the cyclone to begin a period of rapid intensification, and it attained its peak as a Category 4 hurricane with winds of 140mph at 12:00 UTC on September 2. Cooler ocean temperatures led to a steady weakening trend thereafter, and Howard degenerated into a remnant low at 18:00 UTC on September 5. The low turned southwest before dissipating over open waters on September 10.[28]

Although the storm remained offshore, the outer bands of the storm produced significant flooding across the Baja California peninsula,[29] which damaged agricultural land and at least 393 homes.[30] Swells reached 18feet along the Baja California coastline and 12feet along the California coastline; about 1,000 lifeguard rescues took place in California due to the waves.[31] [32] Moisture from the storm enhanced rainfall in parts of Arizona, leading to minor accumulations.[33]

Hurricane Isis

Basin:EPac
Track:Isis 2004 track.png
Formed:September 8
Dissipated:September 16
1-Min Winds:65
Pressure:987

A tropical wave, possibly responsible for the formation of Hurricane Frances in the Atlantic, entered the eastern Pacific in early September, gaining sufficient organization to be declared a tropical depression at 06:00 UTC on September 8 about 530miles south of Cabo San Lucas, Mexico. The system tracked west, intensifying into Tropical Storm Isis twelve hours after being designated, but weakening back to a tropical depression early on September 10, amid persistent wind shear. Upper-level winds decreased by September 12, allowing Isis to regain tropical storm intensity by 00:00 UTC, and eventually peak as a Category 1 hurricane with winds of 75mph, at 12:00 UTC on September 15. After conducting a clockwise loop, the hurricane entered cooler waters and began to weaken; it degenerated into a remnant low at 18:00 UTC on the next day. The low drifted southwest and then west, before dissipating well east of Hawaii on September 21.[34]

Hurricane Javier

Basin:EPac
Track:Javier 2004 track.png
Formed:September 10
Dissipated:September 19
1-Min Winds:130
Pressure:930

See main article: Hurricane Javier (2004). A tropical wave entered the eastern Pacific in early September, organizing into a tropical depression at 18:00 UTC on September 10 south of the Gulf of Tehuantepec. Under light shear, the depression intensified into Tropical Storm Javier at 12:00 UTC the next morning and into a hurricane at 18:00 UTC on September 12. The cyclone soon began a period of rapid intensification as it alternated on a west-northwest to northwest course, ultimately peaking as a Category 4 hurricane with winds of 150mph at 00:00 UTC on September 14 as a distinct pinhole eye became evident on satellite imagery. Cooler waters, strong southwesterly shear, and an eyewall replacement cycle all weakened Javier thereafter; it fell to tropical depression intensity early on September 19 before crossing Baja California and degenerated into a remnant low at 18:00 UTC that day over the Gulf of California. The low crossed the state of Sonora before dissipating over mountainous terrain on September 20.[12]

As a tropical cyclone, Javier produced moderate rainfall peaking at 3.14inches in Bacanuchi, Mexico.[35] Three fishermen went missing offshore the coastline due to high surf.[36] As a post-tropical cyclone, the storm's remnant moisture overspread the Southwest United States, alleviating a multi-year drought.[37] Accumulations peaked at 7inches in Walnut Creek, Arizona, with lighter totals across the Four Corners and upper Midwest.[38] The remnants of Javier produced 2inches of rain in Wyoming, cementing its status as the wettest tropical cyclone in the reliable record there.[39]

Tropical Storm Kay

Basin:EPac
Track:Kay 2004 track.png
Formed:October 4
Dissipated:October 6
1-Min Winds:40
Pressure:1004

An area of disturbed weather developed within the ITCZ well southwest of mainland Mexico, coalescing into a tropical depression at 18:00 UTC on October 4. The depression strengthened into Tropical Storm Kay twelve hours later, and it attained peak winds of 45mph at 12:00 UTC the next morning as suggested by satellite intensity estimates. Moderate northerly shear caused core convection to decrease as the system moved west-northwest, resulting in Kay degenerating into a remnant low at 12:00 UTC on October 6 over open ocean. The low-level swirl curved southwestward and dissipated the next day.[40]

Tropical Storm Lester

Basin:EPac
Track:Lester 2004 track.png
Formed:October 11
Dissipated:October 13
1-Min Winds:45
Pressure:1000

By October 10, an area of disturbed weather was situated well to the southwest of the Gulf of Tehuantepec. Later that day, a surface low pressure system developed, and convection began to organize into slightly curved bands. The disturbance continued to in this manner, and at 1800 UTC on October 11, the low level circulation had become sufficiently organized to be designated as a tropical depression.[41] At the time, the depression consisted of a well-defined circulation, with some deep thunderstorm activity. Despite weak steering currents, the system started what was initially thought to be a westward drift,[42] though just a few hours later was found to be towards the northwest. A small cyclone, a burst of deep convection formed at around the same time, and was said could have produced tropical storm-force winds.[43]

Continuing its slow, northwestward track under the weal steering currents of a weak mid-level ridge to its north, and a broad cyclonic circulation to its southwest, it was upgraded to Tropical Storm Lester at 1800 UTC on October 12.[41] Originally, it was unclear whether the center of circulation would remain slightly offshore, or move inland.[44] Due to the presence of a weak upper-level anticyclone that was centered just east of the system, favorable atmospheric conditions for strengthening prevailed, and the storm reached its peak intensity with winds of 50mph about 6 - 12 hours after being upgraded to a tropical storm.[41] Early on October 13, radar imagery from Acapulco, Mexico indicated that Lester remained a small and well-organized cyclone as it passed just offshore. At the same time, light southwesterly wind shear began to develop.[45] The interaction with land, combined with influence from the low to the southwest, started to weaken the storm, and it was downgraded to a tropical depression at 1200 UTC on October 13. By later that day, reports from an Air Force Reserve Unit Hurricane Hunter Aircraft indicated that the cyclone had degenerated into a trough on the northeastern side of the larger low to the southwest.[41]

On October 12, in response to Lester, the Mexican government issued a tropical storm watch for the coast between Punta Maldonado to Zihuatanejo. It was upgraded to a warning later that day. It was extended to Lázaro Cárdenas on October 13. Later that day, the warning was lifted when Lester dissipated.[41] Lester brought rains to parts of Oaxaca and Guerrero, reaching 3inchesto5inchesin (toin). The highest 24-hour total peaked at 106.5mm, recorded on October 12.[46] The storm capsized two ships, and washed two more ashore. The heavy rain caused mudslides, which buried one man in his home; he was later rescued by his family. In and around the port of Acapulco, minor flooding was reported[47] and 42 trees toppled. Four landslides blocked four roads in Nayarit. A total of 13 families were evacuated in Rosamorada.[48]

Tropical Depression Sixteen-E

See main article: Tropical Depression Sixteen-E (2004).

Basin:EPac
Track:16E 2004 track.png
Formed:October 25
Dissipated:October 26
1-Min Winds:30
Pressure:1004

A tropical wave entered the eastern Pacific in mid-October, interacting with two previous tropical waves that resulted in a large area of disturbed weather. The system organized into a tropical depression at 00:00 UTC on October 25 about 315miles south-southeast of the Baja California Peninsula. Initially, the cyclone was characterized by a large area of deep convection enhanced from an upper-level trough. This same trough soon imparted strong wind shear, preventing intensification. The depression moved into Sinaloa early that same day and dissipated over the Sierra Madre Occidental at 18:00 UTC on October 26.[49]

The depression produced locally heavy rainfall across western Mexico, resulting in some localized flooding.[49] Culiacán International Airport recorded a peak wind gust of 80mph, suggesting a tornado may have occurred nearby.[50] The remnant mid-level circulation associated with the cyclone interacted with a frontal system to produce strong thunderstorms across the southern Great Plains.[49]

Other system

On August 14, the Japan Meteorological Agency had stated that Tropical Storm Malakas had briefly exited the West Pacific basin and entered the Central Pacific basin, as a weakening tropical depression.[51]

Storm names

The following list of names was used for named storms that formed in the North Pacific east of 140°W in 2004.[52] This is the same list used for the 1998 season.[53] No names were retired from this list by the World Meteorological Organization following the season, and it was used again for the 2010 season.[54]

  • Agatha
  • Blas
  • Celia
  • Darby*
  • Estelle*
  • Frank
  • Georgette
  • Howard

For storms that form in the North Pacific between 140°W and the International Date Line, the names come from a series of four rotating lists. Names are used one after the other without regard to year, and when the bottom of one list is reached, the next named storm receives the name at the top of the next list.[52] No named storms formed within the region in 2004. Named storms in the table above that crossed into the area during the year are noted (*).[16]

Season effects

This is a table of all of the storms that formed in the 2004 Pacific 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 2004 USD.

See also

External links

Notes and References

  1. Web site: Frequently Asked Questions. Central Pacific Hurricane Center. May 12, 2016. December 31, 2016.
  2. Informe sobre el pronóstico de la temporada de ciclones del 2004 . Servicio Meteorológico Nacional . January 2004 . April 14, 2005 . December 31, 2016 . es . bot: unknown . https://web.archive.org/web/20050414045801/http://smn.cna.gob.mx/ciclones/tempo2004/prono2004a.html .
  3. Informe sobre el Pronóstico de la Temporada de Ciclones del 2004 . Servicio Meteorológico Nacional . May 2004 . April 14, 2005 . December 31, 2016 . es . bot: unknown . https://web.archive.org/web/20050414045853/http://smn.cna.gob.mx/ciclones/tempo2004/prono2004b.html .
  4. NOAA Issues 2004 Experimental Eastern Pacific Hurricane Outlook. National Oceanic and Atmospheric Administration. May 21, 2004. October 16, 2016. https://web.archive.org/web/20161209134408/http://www.publicaffairs.noaa.gov/releases2004/jun04/noaa04-061.html. 2016-12-09. dead.
  5. Informe sobre el Pronóstico de la Temporada de Ciclones del 2004 . Servicio Meteorológico Nacional . August 2004 . April 14, 2005 . December 31, 2016 . es . bot: unknown . https://web.archive.org/web/20050414050043/http://smn.cna.gob.mx/ciclones/tempo2004/prono2004c.html .
  6. NOAA Expects Near Average Central Pacific Hurricane Season. National Oceanic and Atmospheric Administration. May 17, 2004. October 16, 2016. https://web.archive.org/web/20161209134408/http://www.publicaffairs.noaa.gov/releases2004/jun04/noaa04-061.html. 2016-12-09. dead.
  7. Hurricane Specialist Unit. Tropical Weather Summary: November. National Hurricane Center. December 1, 2004. October 16, 2016.
  8. Lixion A. Avila. Tropical Cyclone Report: Tropical Storm Agatha. National Hurricane Center. June 2, 2004. October 16, 2016. 1.
  9. Lixion A. Avila. Stacy R. Stewart. Tropical Weather Summary: July. National Hurricane Center. July 1, 2004. October 16, 2016.
  10. Web site: Hurricane Celia. 23 July 2004 . Earth Observatory, NASA Goddard Space Flight Center. August 1, 2022.
  11. Jack L. Beven II. Tropical Cyclone Report: Hurricane Darby. National Hurricane Center. December 17, 2004. May 26, 2015. 1.
  12. Lixion A. Avila. Tropical Cyclone Report: Hurricane Javier. National Hurricane Center. November 15, 2004. October 16, 2016. 1.
  13. Hurricane Specialist Unit. Eastern North Pacific Hurricane Season of 2004. 137. 10.1175/MWR3095.1. 1026. National Hurricane Center. 3. American Meteorological Society. August 2, 2005. 2006MWRv..134.1026A. free.
  14. Miles B. Lawrence. Tropical Cyclone Report: Tropical Depression Two-E. National Hurricane Center. July 17, 2004. October 16, 2016. 1.
  15. Web site: Lixion A. Avila. Tropical Depression Two-E Discussion Number 2. National Hurricane Center. July 2, 2004. October 16, 2016.
  16. 2004 Tropical Cyclones Central North Pacific. Andy. Nash. Tim. Craig. Roy. Matsuda. Jeffrey. Powell. Central Pacific Hurricane Center. Honolulu, Hawaii. February 2005. January 30, 2024.
  17. Richard J. Pasch. [{{NHC TCR url|id=EP032004_Blas}} Tropical Cyclone Report: Tropical Storm Blas]. National Hurricane Center. August 5, 2004. May 26, 2015. Miami, Florida. 1–3. PDF.
  18. Stacy R. Stewart. [{{NHC TCR url|id=EP042004_Celia}} Tropical Cyclone Report: Hurricane Celia]. National Hurricane Center. October 12, 2004. May 26, 2015. Miami, Florida. 1, 2. PDF.
  19. Excessive Rainfall from the Remnants of Darby. National Weather Service Weather Forecast Office in Honolulu, Hawaii. October 16, 2016.
  20. Web site: Howard Dicus. Rains flood some farmlands but most manage well. American City Business Journals. August 5, 2004. October 16, 2016.
  21. Stacy R. Stewart. Tropical Depression Six-E Discussion Number 1. July 29, 2004. October 16, 2016.
  22. James L. Franklin. Tropical Depression Six-E Discussion Number 4. July 29, 2004. October 16, 2016.
  23. James L. Franklin. Richard D. Knabb. Abbreviated Tropical Cyclone Report: Tropical Depression Six-E. National Hurricane Center. November 16, 2004. October 16, 2016. 1.
  24. Lixion A. Avila. [{{NHC TCR url|id=EP072004_Estelle}} Tropical Cyclone Report: Tropical Storm Estelle]. National Hurricane Center. November 3, 2004. May 28, 2015. Miami, Florida. 1, 4. PDF.
  25. David P. Roberts. Miles B. Lawrence. Tropical Cyclone Report: Hurricane Frank. National Hurricane Center. November 19, 2004. October 16, 2016. 1.
  26. Richard J. Pasch. [{{NHC TCR url|id=EP092004_Nine-E}} Tropical Cyclone Report: Tropical Depression Nine-E]. National Hurricane Center. November 12, 2004. June 9, 2015. Miami, Florida. 1. PDF.
  27. Stacy R. Stewart. Tropical Cyclone Report: Tropical Storm Georgette. National Hurricane Center. October 14, 2004. October 16, 2016. 1.
  28. Jack L. Beven II. Tropical Cyclone Report: Hurricane Howard. National Hurricane Center. December 13, 2004. October 16, 2016. 1.
  29. News: Luciano Garcia Valenzuela. El Siglo de Durango. September 4, 2004. October 16, 2016. Decretan alerta por "Howard". es.
  30. Web site: Navajoa . September 9, 2004 . October 16, 2016 . Apoyaran Para Rehabilitar Viviendas . July 5, 2007 . es . bot: unknown . https://web.archive.org/web/20070705064523/http://www.navojoa.gob.mx/main/boletin04.php?boletin=299 .
  31. Web site: Yi-Wyn Wen. The Perfect Storms. Sports Illustrated Vault. September 13, 2004. October 16, 2016.
  32. Storm Event: California High Surf. National Centers for Environmental Information. 2004. October 16, 2016.
  33. Web site: Chuck George. KOLD News. September 3, 2004. October 16, 2016. Rainy Start To Tucson's Labor Day Weekend. https://archive.today/20130103152849/http://www.kold.com/Global/story.asp?S=2258799&nav=14RTQZl6. dead. January 3, 2013.
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