Hurricane wake restratification rates of one-, two- and three-dimensional processes

S. Haney; S. Bachman; B. Cooper; S. Kupper; K. McCaffrey; L. Van Roekel; S. Stevenson; B. Fox-Kemper; R. Ferrari

doi:10.1357/002224012806770937

Hurricane wake restratification rates of one-, two- and three-dimensional processes

S. Haney, S. Bachman, B. Cooper, S. Kupper, K. McCaffrey, L. Van Roekel, S. Stevenson, B. Fox-Kemper, R. Ferrari

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

The restratification of the cold wakes of Tropical Cyclones Fanapi, Frances, Igor and Katrina are examined based on derived scalings for processes that can restore the hurricane wake toward the precyclone conditions. The different restoration processes depend on the parameters of the wake: depth, width, buoyancy anomaly and wind stress. The parameters needed are derived for each wake from satellite and climatological data. The scalings are based on model results and existing parameterizations, including air-sea heat fluxes (one-dimensional) Ekman buoyancy fluxes (two-dimensional) and mixed layer eddies (three-dimensional). The dominant surface restoration occurs by a combination of surface fluxes and Ekman buoyancy fluxes, while the submesoscale mixed layer eddy bolus fluxes are the dominant subsurface effect.

Original language	English
Pages (from-to)	824-850
Number of pages	27
Journal	Journal of Marine Research
Volume	70
Issue number	6
DOIs	https://doi.org/10.1357/002224012806770937
State	Published - Nov 2012
Externally published	Yes

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title = "Hurricane wake restratification rates of one-, two- and three-dimensional processes",

abstract = "The restratification of the cold wakes of Tropical Cyclones Fanapi, Frances, Igor and Katrina are examined based on derived scalings for processes that can restore the hurricane wake toward the precyclone conditions. The different restoration processes depend on the parameters of the wake: depth, width, buoyancy anomaly and wind stress. The parameters needed are derived for each wake from satellite and climatological data. The scalings are based on model results and existing parameterizations, including air-sea heat fluxes (one-dimensional) Ekman buoyancy fluxes (two-dimensional) and mixed layer eddies (three-dimensional). The dominant surface restoration occurs by a combination of surface fluxes and Ekman buoyancy fluxes, while the submesoscale mixed layer eddy bolus fluxes are the dominant subsurface effect.",

author = "S. Haney and S. Bachman and B. Cooper and S. Kupper and K. McCaffrey and \{Van Roekel\}, L. and S. Stevenson and B. Fox-Kemper and R. Ferrari",

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language = "English",

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pages = "824--850",

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T1 - Hurricane wake restratification rates of one-, two- and three-dimensional processes

AU - Haney, S.

AU - Bachman, S.

AU - Cooper, B.

AU - Kupper, S.

AU - McCaffrey, K.

AU - Van Roekel, L.

AU - Stevenson, S.

AU - Fox-Kemper, B.

AU - Ferrari, R.

PY - 2012/11

Y1 - 2012/11

N2 - The restratification of the cold wakes of Tropical Cyclones Fanapi, Frances, Igor and Katrina are examined based on derived scalings for processes that can restore the hurricane wake toward the precyclone conditions. The different restoration processes depend on the parameters of the wake: depth, width, buoyancy anomaly and wind stress. The parameters needed are derived for each wake from satellite and climatological data. The scalings are based on model results and existing parameterizations, including air-sea heat fluxes (one-dimensional) Ekman buoyancy fluxes (two-dimensional) and mixed layer eddies (three-dimensional). The dominant surface restoration occurs by a combination of surface fluxes and Ekman buoyancy fluxes, while the submesoscale mixed layer eddy bolus fluxes are the dominant subsurface effect.

AB - The restratification of the cold wakes of Tropical Cyclones Fanapi, Frances, Igor and Katrina are examined based on derived scalings for processes that can restore the hurricane wake toward the precyclone conditions. The different restoration processes depend on the parameters of the wake: depth, width, buoyancy anomaly and wind stress. The parameters needed are derived for each wake from satellite and climatological data. The scalings are based on model results and existing parameterizations, including air-sea heat fluxes (one-dimensional) Ekman buoyancy fluxes (two-dimensional) and mixed layer eddies (three-dimensional). The dominant surface restoration occurs by a combination of surface fluxes and Ekman buoyancy fluxes, while the submesoscale mixed layer eddy bolus fluxes are the dominant subsurface effect.

UR - https://www.scopus.com/pages/publications/84878962252

U2 - 10.1357/002224012806770937

DO - 10.1357/002224012806770937

M3 - Article

AN - SCOPUS:84878962252

SN - 0022-2402

VL - 70

SP - 824

EP - 850

JO - Journal of Marine Research

JF - Journal of Marine Research

IS - 6

ER -

Hurricane wake restratification rates of one-, two- and three-dimensional processes

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