Observations of SST-Induced Perturbations of the Wind Stress Field over the Southern Ocean on Seasonal Timescales

The surface wind stress response to sea surface temperature (SST) over the latitude range 30°–60°S in the Southern Ocean is described from the National Aeronautics and Space Administration’s QuikSCAT scatterometer observations of wind stress and Reynolds analyses of SST during the 2-yr period August...

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Bibliographic Details
Published inJournal of climate Vol. 16; no. 14; pp. 2340 - 2354
Main Authors O’Neill, Larry W., Chelton, Dudley B., Esbensen, Steven K.
Format Journal Article
LanguageEnglish
Published Boston, MA American Meteorological Society 15.07.2003
Subjects
Boundary layers
Cold water
Curl
Earth, ocean, space
Exact sciences and technology
External geophysics
Marine
Meteorology
Ocean currents
Oceans
Scatterometers
Sea surface temperature
Sea water
Stress fields
Wind velocity
Winds and their effects
Southern Ocean
PS, Antarctic Ocean
Vertical speed
Sea surface
Wind field
Stability
Marine atmosphere
Turbulent transfer
Surface temperature
Wind effect
Spatial variation
Scatterometer
Turbulent mixing
Reynolds stress
Case study
Momentum transfer
Feedback
Atmospheric boundary layer
Surface wind
Ocean atmosphere interaction
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Abstract The surface wind stress response to sea surface temperature (SST) over the latitude range 30°–60°S in the Southern Ocean is described from the National Aeronautics and Space Administration’s QuikSCAT scatterometer observations of wind stress and Reynolds analyses of SST during the 2-yr period August 1999 to July 2001. While ocean–atmosphere coupling at midlatitudes has previously been documented from several case studies, this is the first study to quantify this relation over the entire Southern Ocean. The spatial structures of the surface wind perturbations with wavelengths shorter than 10° latitude by 30° longitude are closely related to persistent spatial variations of the SST field on the same scales. The wind stress curl and divergence are shown to be linearly related, respectively, to the crosswind and downwind components of the SST gradient. The curl response has a magnitude only about half that of the divergence response. This observed coupling is consistent with the hypothesis that SST modification of marine atmospheric boundary layer (MABL) stability affects vertical turbulent mixing of momentum, inducing perturbations in the surface winds. The nonequivalence between the responses of the curl and divergence to the crosswind and downwind SST gradients suggests that secondary circulations in the MABL may also play an important role by producing significant perturbations in the surface wind field near SST fronts that are distinct from the vertical turbulent transfer of momentum. The importance of the wind stress curl in driving Ekman vertical velocity in the open ocean implies that the coupling between winds and SST may have important feedback effects on upper ocean processes near SST fronts.
AbstractList Abstract The surface wind stress response to sea surface temperature (SST) over the latitude range 30°–60°S in the Southern Ocean is described from the National Aeronautics and Space Administration's QuikSCAT scatterometer observations of wind stress and Reynolds analyses of SST during the 2-yr period August 1999 to July 2001. While ocean–atmosphere coupling at midlatitudes has previously been documented from several case studies, this is the first study to quantify this relation over the entire Southern Ocean. The spatial structures of the surface wind perturbations with wavelengths shorter than 10° latitude by 30° longitude are closely related to persistent spatial variations of the SST field on the same scales. The wind stress curl and divergence are shown to be linearly related, respectively, to the crosswind and downwind components of the SST gradient. The curl response has a magnitude only about half that of the divergence response. This observed coupling is consistent with the hypothesis that SST modification of marine atmospheric boundary layer (MABL) stability affects vertical turbulent mixing of momentum, inducing perturbations in the surface winds. The nonequivalence between the responses of the curl and divergence to the crosswind and downwind SST gradients suggests that secondary circulations in the MABL may also play an important role by producing significant perturbations in the surface wind field near SST fronts that are distinct from the vertical turbulent transfer of momentum. The importance of the wind stress curl in driving Ekman vertical velocity in the open ocean implies that the coupling between winds and SST may have important feedback effects on upper ocean processes near SST fronts.
The surface wind stress response to sea surface temperature (SST) over the latitude range 30 degree -60 degree S in the Southern Ocean is described from the National Aeronautics and Space Administration's QuikSCAT scatterometer observations of wind stress and Reynolds analyses of SST during the 2-yr period August 1999 to July 2001. While ocean-atmosphere coupling at midlatitudes has previously been documented from several case studies, this is the first study to quantify this relation over the entire Southern Ocean. The spatial structures of the surface wind perturbations with wavelengths shorter than 10 degree latitude by 30 degree longitude are closely related to persistent spatial variations of the SST field on the same scales. The wind stress curl and divergence are shown to be linearly related, respectively, to the crosswind and downwind components of the SST gradient. The curl response has a magnitude only about half that of the divergence response. This observed coupling is consistent with the hypothesis that SST modification of marine atmospheric boundary layer (MABL) stability affects vertical turbulent mixing of momentum, inducing perturbations in the surface winds. The nonequivalence between the responses of the curl and divergence to the crosswind and downwind SST gradients suggests that secondary circulations in the MABL may also play an important role by producing significant perturbations in the surface wind field near SST fronts that are distinct from the vertical turbulent transfer of momentum. The importance of the wind stress curl in driving Ekman vertical velocity in the open ocean implies that the coupling between winds and SST may have important feedback effects on upper ocean processes near SST fronts.
The surface wind stress response to sea surface temperature (SST) over the latitude range 30°–60°S in the Southern Ocean is described from the National Aeronautics and Space Administration’s QuikSCAT scatterometer observations of wind stress and Reynolds analyses of SST during the 2-yr period August 1999 to July 2001. While ocean–atmosphere coupling at midlatitudes has previously been documented from several case studies, this is the first study to quantify this relation over the entire Southern Ocean. The spatial structures of the surface wind perturbations with wavelengths shorter than 10° latitude by 30° longitude are closely related to persistent spatial variations of the SST field on the same scales. The wind stress curl and divergence are shown to be linearly related, respectively, to the crosswind and downwind components of the SST gradient. The curl response has a magnitude only about half that of the divergence response. This observed coupling is consistent with the hypothesis that SST modification of marine atmospheric boundary layer (MABL) stability affects vertical turbulent mixing of momentum, inducing perturbations in the surface winds. The nonequivalence between the responses of the curl and divergence to the crosswind and downwind SST gradients suggests that secondary circulations in the MABL may also play an important role by producing significant perturbations in the surface wind field near SST fronts that are distinct from the vertical turbulent transfer of momentum. The importance of the wind stress curl in driving Ekman vertical velocity in the open ocean implies that the coupling between winds and SST may have important feedback effects on upper ocean processes near SST fronts.
Author Esbensen, Steven K.
O’Neill, Larry W.
Chelton, Dudley B.
Author_xml – sequence: 1
  givenname: Larry W.
  surname: O’Neill
  fullname: O’Neill, Larry W.
– sequence: 2
  givenname: Dudley B.
  surname: Chelton
  fullname: Chelton, Dudley B.
– sequence: 3
  givenname: Steven K.
  surname: Esbensen
  fullname: Esbensen, Steven K.
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Issue 14
Keywords Vertical speed
Sea surface
Wind field
Stability
Marine atmosphere
Turbulent transfer
Surface temperature
Wind effect
Spatial variation
Scatterometer
Turbulent mixing
Reynolds stress
Case study
Momentum transfer
Feedback
Atmospheric boundary layer
Surface wind
Ocean atmosphere interaction
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PublicationCentury 2000
PublicationDate 2003-07-15
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  year: 2003
  text: 2003-07-15
  day: 15
PublicationDecade 2000
PublicationPlace Boston, MA
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PublicationTitle Journal of climate
PublicationYear 2003
Publisher American Meteorological Society
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SSID ssj0012600
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Snippet The surface wind stress response to sea surface temperature (SST) over the latitude range 30°–60°S in the Southern Ocean is described from the National...
Abstract The surface wind stress response to sea surface temperature (SST) over the latitude range 30°–60°S in the Southern Ocean is described from the...
The surface wind stress response to sea surface temperature (SST) over the latitude range 30 degree -60 degree S in the Southern Ocean is described from the...
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SubjectTerms Boundary layers
Cold water
Curl
Earth, ocean, space
Exact sciences and technology
External geophysics
Marine
Meteorology
Ocean currents
Oceans
Scatterometers
Sea surface temperature
Sea water
Stress fields
Wind velocity
Winds and their effects
Title Observations of SST-Induced Perturbations of the Wind Stress Field over the Southern Ocean on Seasonal Timescales
URI https://www.jstor.org/stable/26249804
https://search.proquest.com/docview/18896189
Volume 16
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