Hurricane Alley

Atlantic hurricane tracks since 1851.
This article is about the area of frequent tropical cyclone activity in the Atlantic Ocean. For other areas of frequent tropical cyclone activity, see Tropical cyclogenesis.

Hurricane Alley is an area of warm water in the Atlantic Ocean stretching from the west coast of northern Africa to the east coast of Central America and Gulf Coast of the Southern United States. Many hurricanes form within this area. The sea surface temperature of the Atlantic in Hurricane Alley has been steadily growing warmer over the past decades, which most climate scientists believe accounts for the increase in hurricane activity.[1][2]

How hurricanes form

Main article: Tropical cyclogenesis
The warm waters of Hurricane Alley depicted in yellow

Hurricanes form over tropical waters in areas of high humidity, light winds, and warm sea surface temperatures. These areas which were described above are usually between the latitudes of 8° and 20° north.[3] The perfect temperature for a hurricane is approximately 26 °C. This temperature has been set as a standard. If the water is colder the hurricane will most likely weaken, but if the waters are warmer rapid growth can occur.[4]

The area between 10° and 20°N create the most hurricanes in a given season because of the warmer temperatures. Hurricanes do not form outside this range because the Coriolis effect is not strong enough to create the tight circulation needed and above this range the temperatures are too cool.[5] The waters are only at the necessary temperatures from July until Mid-October. In the Atlantic this is the height of the season. Water takes longer to heat than land, which is why it takes so long for hurricane alley to be at the right temperature for hurricane development and lasts so late.

Since hurricanes rely on sea surface temperature, sometimes an active season in the beginning becomes quiet later. This is because the hurricanes are so strong that they churn the waters and bring colder waters up from the deep. This creates an area of the sea the size of the hurricane, which has cooler waters, which can be 5-10 °C lower than before the hurricane. When a new hurricane moves over the cooler waters they have no fuel to continue to thrive, so they weaken or even die out.[6]

The relationship of "hurricane alley" to climate change is unclear. Recent scientific evidence suggests that hurricane intensity may be increasing due to warmer tropical sea surface temperature, but the connection to Atlantic hurricane frequency is less conclusive.[7] There is a debate as to whether climate change is causing more severe storms, but more research is needed into hurricane dynamics.

Historical trends

According to an Azores High hypothesis of geographer Kam-biu Liu, an anti-phase pattern is expected to exist between the Gulf of Mexico coast and the North American Atlantic coast. During the quiescent periods (3000–1400 BC, and 1000 AD to present), a more northeasterly position of the Azores High would result in more hurricanes being steered towards the Atlantic coast. During the hyperactive period (1400 BC to 1000 AD), more hurricanes were steered towards the Gulf coast as the Azores High was shifted to a more southwesterly position near the Caribbean.[8][9] Such a displacement of the Azores High is consistent with paleoclimatic evidence that shows an abrupt onset of a drier climate in Haiti around 3200 years BP,[10] and a change towards more humid conditions in the Great Plains during the late-Holocene as more moisture was pumped up the Mississippi Valley through the Gulf coast. Preliminary data from the northern Atlantic coast seem to support the Azores High hypothesis. A 3,000-year proxy record from a coastal lake in Cape Cod suggests that hurricane activity has increased significantly during the past 500–1,000 years, just as the Gulf coast was amid a quiescent period of the last millennium.

References

  1. "Hurricane Alley Heats Up". National Aeronautics and Space Administration. August 9, 2005. Retrieved 9 September 2008.
  2. Goudzari, Sara (May 2, 2006). "Hurricane Alley Heats Up". LiveScience. Retrieved 9 September 2008.
  3. Steve Graham; Holli Riebeek (1 November 2006). "Hurricanes: The Greatest Storms on Earth". NASA. Retrieved 29 July 2013.
  4. "Seeing into the Heart of a Hurricane". Earth Observatory.
  5. "NWS JetStream - Tropical Cyclone Introduction". National Weather Service.
  6. "Seeing into the Heart of a Hurricane". Earth Observatory.
  7. "Hurricanes and Climate". Hurricanes: Science and Society. University of Rhode Island.
  8. Liu, Kam-biu (1999). Millennial-scale variability in catastrophic hurricane landfalls along the Gulf of Mexico coast. 23d Conf. on Hurricanes and Tropical Meteorology. Dallas, TX: Amer. Meteor. Soc. pp. 374–377.
  9. Liu, Kam-biu; Fearn, Miriam L. (2000). "Reconstruction of Prehistoric Landfall Frequencies of Catastrophic Hurricanes in Northwestern Florida from Lake Sediment Records". Quaternary Research 54 (2): 238–245. Bibcode:2000QuRes..54..238L. doi:10.1006/qres.2000.2166.
  10. Higuera-Gundy, Antonia; et al. (1999). "A 10,300 14C yr Record of Climate and Vegetation Change from Haiti". Quaternary Research 52 (2): 159–170. Bibcode:1999QuRes..52..159H. doi:10.1006/qres.1999.2062.

Further reading

See also

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