A comparison of Langmuir turbulence parameterizations and key wave effects in a numerical model of the North Atlantic and Arctic Oceans

Five different parameterizations of Langmuir turbulence (LT) effect are investigated in a realistic model of the North Atlantic and Arctic using realistic wave forcing from a global wave hindcast. The parameterizations mainly apply an enhancement to the turbulence velocity scale, and/or to the entra...

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Published in:Ocean Modelling
Main Authors: Ali, Alfatih, Christensen, Kai Håkon, Breivik, Øyvind, Bertino, Laurent, Malila, Mika Petteri, Raj, Roshin Pappukutty, Chassignet, Eric P., Bakhoday Paskyabi, Mostafa
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2020
Subjects:
Arctic
Langmuir
Nordic Seas
North Atlantic
Online Access:https://hdl.handle.net/1956/23158
https://doi.org/10.1016/j.ocemod.2019.02.005
id ftunivbergen:oai:bora.uib.no:1956/23158
record_format openpolar
spelling ftunivbergen:oai:bora.uib.no:1956/23158 2023-05-15T15:02:13+02:00 A comparison of Langmuir turbulence parameterizations and key wave effects in a numerical model of the North Atlantic and Arctic Oceans Ali, Alfatih Christensen, Kai Håkon Breivik, Øyvind Bertino, Laurent Malila, Mika Petteri Raj, Roshin Pappukutty Chassignet, Eric P. Bakhoday Paskyabi, Mostafa 2020-01-13T15:34:09Z application/pdf https://hdl.handle.net/1956/23158 https://doi.org/10.1016/j.ocemod.2019.02.005 eng eng Elsevier Notur/NorStore: NN9481k Notur/NorStore: NS9481k Norges forskningsråd: 237906 (CIRFA) Norges forskningsråd: 244262 (RETROSPECT) Copernicus-programmet: CMEMS ARC-MFC Copernicus-programmet: CMEMS WaveFlow urn:issn:1463-5011 urn:issn:1463-5003 https://hdl.handle.net/1956/23158 https://doi.org/10.1016/j.ocemod.2019.02.005 cristin:1704909 Attribution CC BY http://creativecommons.org/licenses/by/4.0 Copyright 2019 The Author(s) Ocean Modelling Peer reviewed Journal article 2020 ftunivbergen https://doi.org/10.1016/j.ocemod.2019.02.005 2023-03-14T17:39:31Z Five different parameterizations of Langmuir turbulence (LT) effect are investigated in a realistic model of the North Atlantic and Arctic using realistic wave forcing from a global wave hindcast. The parameterizations mainly apply an enhancement to the turbulence velocity scale, and/or to the entrainment buoyancy flux in the surface boundary layer. An additional run is also performed with other wave effects to assess the relative importance of Langmuir turbulence, namely the Coriolis-Stokes forcing, Stokes tracer advection and wave-modified momentum fluxes. The default model (without wave effects) underestimates the mixed layer depth in summer and overestimates it at high latitudes in the winter. The results show that adding LT mixing reduces shallow mixed layer depth (MLD) biases, particularly in the subtropics all year-around, and in the Nordic Seas in summer. There is overall a stronger relative impact on the MLD during winter than during summer. In particular, the parameterization with the most vigorous LT effect causes winter MLD increases by more than 50% relative to a control run without Langmuir mixing. On the contrary, the parameterization which assumes LT effects on the entrainment buoyancy flux and accounts for the Stokes penetration depth is able to enhance the mixing in summer more than in winter. This parameterization is also distinct from the others because it restrains the LT mixing in regions of deep MLD biases, so it is the preferred choice for our purpose. The different parameterizations do not change the amplitude or phase of the seasonal cycle of heat content but do influence its long-term trend, which means that the LT can influence the drift of ocean models. The combined impact on water mass properties from the Coriolis-Stokes force, the Stokes drift tracer advection, and the wave-dependent momentum fluxes is negligible compared to the effect from the parameterized Langmuir turbulence. publishedVersion Article in Journal/Newspaper Arctic Nordic Seas North Atlantic University of Bergen: Bergen Open Research Archive (BORA-UiB) Arctic Langmuir ENVELOPE(-67.150,-67.150,-66.967,-66.967) Ocean Modelling 137 76 97
institution Open Polar
collection University of Bergen: Bergen Open Research Archive (BORA-UiB)
op_collection_id ftunivbergen
language English
description Five different parameterizations of Langmuir turbulence (LT) effect are investigated in a realistic model of the North Atlantic and Arctic using realistic wave forcing from a global wave hindcast. The parameterizations mainly apply an enhancement to the turbulence velocity scale, and/or to the entrainment buoyancy flux in the surface boundary layer. An additional run is also performed with other wave effects to assess the relative importance of Langmuir turbulence, namely the Coriolis-Stokes forcing, Stokes tracer advection and wave-modified momentum fluxes. The default model (without wave effects) underestimates the mixed layer depth in summer and overestimates it at high latitudes in the winter. The results show that adding LT mixing reduces shallow mixed layer depth (MLD) biases, particularly in the subtropics all year-around, and in the Nordic Seas in summer. There is overall a stronger relative impact on the MLD during winter than during summer. In particular, the parameterization with the most vigorous LT effect causes winter MLD increases by more than 50% relative to a control run without Langmuir mixing. On the contrary, the parameterization which assumes LT effects on the entrainment buoyancy flux and accounts for the Stokes penetration depth is able to enhance the mixing in summer more than in winter. This parameterization is also distinct from the others because it restrains the LT mixing in regions of deep MLD biases, so it is the preferred choice for our purpose. The different parameterizations do not change the amplitude or phase of the seasonal cycle of heat content but do influence its long-term trend, which means that the LT can influence the drift of ocean models. The combined impact on water mass properties from the Coriolis-Stokes force, the Stokes drift tracer advection, and the wave-dependent momentum fluxes is negligible compared to the effect from the parameterized Langmuir turbulence. publishedVersion
format Article in Journal/Newspaper
author Ali, Alfatih
Christensen, Kai Håkon
Breivik, Øyvind
Bertino, Laurent
Malila, Mika Petteri
Raj, Roshin Pappukutty
Chassignet, Eric P.
Bakhoday Paskyabi, Mostafa
spellingShingle Ali, Alfatih
Christensen, Kai Håkon
Breivik, Øyvind
Bertino, Laurent
Malila, Mika Petteri
Raj, Roshin Pappukutty
Chassignet, Eric P.
Bakhoday Paskyabi, Mostafa
A comparison of Langmuir turbulence parameterizations and key wave effects in a numerical model of the North Atlantic and Arctic Oceans
author_facet Ali, Alfatih
Christensen, Kai Håkon
Breivik, Øyvind
Bertino, Laurent
Malila, Mika Petteri
Raj, Roshin Pappukutty
Chassignet, Eric P.
Bakhoday Paskyabi, Mostafa
author_sort Ali, Alfatih
title A comparison of Langmuir turbulence parameterizations and key wave effects in a numerical model of the North Atlantic and Arctic Oceans
title_short A comparison of Langmuir turbulence parameterizations and key wave effects in a numerical model of the North Atlantic and Arctic Oceans
title_full A comparison of Langmuir turbulence parameterizations and key wave effects in a numerical model of the North Atlantic and Arctic Oceans
title_fullStr A comparison of Langmuir turbulence parameterizations and key wave effects in a numerical model of the North Atlantic and Arctic Oceans
title_full_unstemmed A comparison of Langmuir turbulence parameterizations and key wave effects in a numerical model of the North Atlantic and Arctic Oceans
title_sort comparison of langmuir turbulence parameterizations and key wave effects in a numerical model of the north atlantic and arctic oceans
publisher Elsevier
publishDate 2020
url https://hdl.handle.net/1956/23158
https://doi.org/10.1016/j.ocemod.2019.02.005
long_lat ENVELOPE(-67.150,-67.150,-66.967,-66.967)
geographic Arctic
Langmuir
geographic_facet Arctic
Langmuir
genre Arctic
Nordic Seas
North Atlantic
genre_facet Arctic
Nordic Seas
North Atlantic
op_source Ocean Modelling
op_relation Notur/NorStore: NN9481k
Notur/NorStore: NS9481k
Norges forskningsråd: 237906 (CIRFA)
Norges forskningsråd: 244262 (RETROSPECT)
Copernicus-programmet: CMEMS ARC-MFC
Copernicus-programmet: CMEMS WaveFlow
urn:issn:1463-5011
urn:issn:1463-5003
https://hdl.handle.net/1956/23158
https://doi.org/10.1016/j.ocemod.2019.02.005
cristin:1704909
op_rights Attribution CC BY
http://creativecommons.org/licenses/by/4.0
Copyright 2019 The Author(s)
op_doi https://doi.org/10.1016/j.ocemod.2019.02.005
container_title Ocean Modelling
container_volume 137
container_start_page 76
op_container_end_page 97
_version_ 1766334195181813760

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