The Effects of Sea Surface Temperature Gradients on Surface Turbulent Fluxes
A positive correlation between sea surface temperature (SST) and wind stress perturbation near strong SST gradients (ΔSST) has been observed in different parts of the world ocean, such as the Gulf Stream in the North Atlantic and the Kuroshio Extension east of Japan. These changes in winds and SSTs...
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Tallahassee, Florida: Florida State University
2014
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ftfloridasu:oai:diginole.lib.fsu.edu:fsu_254509 2024-06-09T07:48:22+00:00 The Effects of Sea Surface Temperature Gradients on Surface Turbulent Fluxes Steffen, John (authoraut) Bourassa, Mark A. (professor directing thesis) Hart, Robert (committee member) Chagnon, Jeffrey (committee member) Department of Earth, Ocean and Atmospheric Sciences (degree granting department) Florida State University (degree granting institution) 2014 1 online resource computer https://diginole.lib.fsu.edu/islandora/object/fsu%3A254509/datastream/TN/view/Effects%20of%20Sea%20Surface%20Temperature%20Gradients%20on%20Surface%20Turbulent%20Fluxes.jpg English eng eng Tallahassee, Florida: Florida State University fsu:254509 (IID) FSU_migr_etd-9100 (URL) http://purl.flvc.org/fsu/fd/FSU_migr_etd-9100 https://diginole.lib.fsu.edu/islandora/object/fsu%3A254509/datastream/TN/view/Effects%20of%20Sea%20Surface%20Temperature%20Gradients%20on%20Surface%20Turbulent%20Fluxes.jpg This Item is protected by copyright and/or related rights. You are free to use this Item in any way that is permitted by the copyright and related rights legislation that applies to your use. For other uses you need to obtain permission from the rights-holder(s). The copyright in theses and dissertations completed at Florida State University is held by the students who author them. Earth sciences Oceanography Atmospheric sciences Geophysics Text 2014 ftfloridasu 2024-05-10T08:08:13Z A positive correlation between sea surface temperature (SST) and wind stress perturbation near strong SST gradients (ΔSST) has been observed in different parts of the world ocean, such as the Gulf Stream in the North Atlantic and the Kuroshio Extension east of Japan. These changes in winds and SSTs can modify near–surface stability, surface stress, and latent and sensible heat fluxes. In general, these small scale processes are poorly modeled in Numerical Weather Prediction (NWP) and climate models. Failure to account for these air–sea interactions produces inaccurate values of turbulent fluxes, and therefore a misrepresentation of the energy, moisture, and momentum budgets. Our goal is to determine the change in these surface turbulent fluxes due to overlooking the correlated variability in winds, SSTs, and related variables. To model these air–sea interactions, a flux model was forced with and without SST–induced changes to the surface wind fields. The SST modification to the wind fields is based on a baroclinic argument as implemented by the University of Washington Planetary Boundary–Layer (UWPBL) model. Other input parameters include 2–m air temperature, 2–m dew point temperature, surface pressure (all from ERA–interim), and Reynolds Daily Optimum Interpolation Sea Surface Temperature (OISST). Flux model runs are performed every 6 hours starting in December 2002 and ending in November 2003. From these model outputs, seasonal, monthly, and daily means of the difference between ΔSST and no ΔSST effects on sensible heat flux (SHF), latent heat flux (LHF), and surface stress are calculated. Since the greatest impacts occur during the winter season, six additional December–January–February (DJF) seasons were analyzed for 1987—1990 and 1999—2002. The greatest differences in surface turbulent fluxes are concentrated near strong SST fronts associated with the Gulf Stream and Kuroshio Extension. On average, 2002—2003 DJF seasonal differences in SHF, LHF, and wind stress over the Gulf Stream are 3.86 ± 0.096 W/m2, ... Text North Atlantic Florida State University: DigiNole Commons |
institution |
Open Polar |
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Florida State University: DigiNole Commons |
op_collection_id |
ftfloridasu |
language |
English |
topic |
Earth sciences Oceanography Atmospheric sciences Geophysics |
spellingShingle |
Earth sciences Oceanography Atmospheric sciences Geophysics The Effects of Sea Surface Temperature Gradients on Surface Turbulent Fluxes |
topic_facet |
Earth sciences Oceanography Atmospheric sciences Geophysics |
description |
A positive correlation between sea surface temperature (SST) and wind stress perturbation near strong SST gradients (ΔSST) has been observed in different parts of the world ocean, such as the Gulf Stream in the North Atlantic and the Kuroshio Extension east of Japan. These changes in winds and SSTs can modify near–surface stability, surface stress, and latent and sensible heat fluxes. In general, these small scale processes are poorly modeled in Numerical Weather Prediction (NWP) and climate models. Failure to account for these air–sea interactions produces inaccurate values of turbulent fluxes, and therefore a misrepresentation of the energy, moisture, and momentum budgets. Our goal is to determine the change in these surface turbulent fluxes due to overlooking the correlated variability in winds, SSTs, and related variables. To model these air–sea interactions, a flux model was forced with and without SST–induced changes to the surface wind fields. The SST modification to the wind fields is based on a baroclinic argument as implemented by the University of Washington Planetary Boundary–Layer (UWPBL) model. Other input parameters include 2–m air temperature, 2–m dew point temperature, surface pressure (all from ERA–interim), and Reynolds Daily Optimum Interpolation Sea Surface Temperature (OISST). Flux model runs are performed every 6 hours starting in December 2002 and ending in November 2003. From these model outputs, seasonal, monthly, and daily means of the difference between ΔSST and no ΔSST effects on sensible heat flux (SHF), latent heat flux (LHF), and surface stress are calculated. Since the greatest impacts occur during the winter season, six additional December–January–February (DJF) seasons were analyzed for 1987—1990 and 1999—2002. The greatest differences in surface turbulent fluxes are concentrated near strong SST fronts associated with the Gulf Stream and Kuroshio Extension. On average, 2002—2003 DJF seasonal differences in SHF, LHF, and wind stress over the Gulf Stream are 3.86 ± 0.096 W/m2, ... |
author2 |
Steffen, John (authoraut) Bourassa, Mark A. (professor directing thesis) Hart, Robert (committee member) Chagnon, Jeffrey (committee member) Department of Earth, Ocean and Atmospheric Sciences (degree granting department) Florida State University (degree granting institution) |
format |
Text |
title |
The Effects of Sea Surface Temperature Gradients on Surface Turbulent Fluxes |
title_short |
The Effects of Sea Surface Temperature Gradients on Surface Turbulent Fluxes |
title_full |
The Effects of Sea Surface Temperature Gradients on Surface Turbulent Fluxes |
title_fullStr |
The Effects of Sea Surface Temperature Gradients on Surface Turbulent Fluxes |
title_full_unstemmed |
The Effects of Sea Surface Temperature Gradients on Surface Turbulent Fluxes |
title_sort |
effects of sea surface temperature gradients on surface turbulent fluxes |
publisher |
Tallahassee, Florida: Florida State University |
publishDate |
2014 |
url |
https://diginole.lib.fsu.edu/islandora/object/fsu%3A254509/datastream/TN/view/Effects%20of%20Sea%20Surface%20Temperature%20Gradients%20on%20Surface%20Turbulent%20Fluxes.jpg |
genre |
North Atlantic |
genre_facet |
North Atlantic |
op_relation |
fsu:254509 (IID) FSU_migr_etd-9100 (URL) http://purl.flvc.org/fsu/fd/FSU_migr_etd-9100 https://diginole.lib.fsu.edu/islandora/object/fsu%3A254509/datastream/TN/view/Effects%20of%20Sea%20Surface%20Temperature%20Gradients%20on%20Surface%20Turbulent%20Fluxes.jpg |
op_rights |
This Item is protected by copyright and/or related rights. You are free to use this Item in any way that is permitted by the copyright and related rights legislation that applies to your use. For other uses you need to obtain permission from the rights-holder(s). The copyright in theses and dissertations completed at Florida State University is held by the students who author them. |
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1801380043551670272 |