Oceanic Advection Controls Mesoscale Mixed Layer Heat Budget and Air-sea Heat Exchange in the Southern Ocean

We analyze the role of mesoscale heat advection in the Southern Ocean mixed layer (ML) heat budget using a regional high-resolution coupled model, with realistic atmospheric forcing and an idealized ocean component. In order to test if the overall current speed affect our conclusion, the simulations...

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Main Authors: Gao, Yu, Kamenkovich, Igor, Perlin, Natalie, Kirtman, Ben
Format: Dataset
Language:unknown
Published: University of Miami Libraries 2021
Subjects:
Southern Ocean
Online Access:https://dx.doi.org/10.17604/94qh-6m66
https://scholarship.miami.edu/esploro/outputs/dataset/Oceanic-Advection-Controls-Mesoscale-Mixed-Layer-Heat-Budget-and-Air-sea-Heat-Exchange-in-the-Southern-Ocean/991031558389002976
id ftdatacite:10.17604/94qh-6m66
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language unknown
description We analyze the role of mesoscale heat advection in the Southern Ocean mixed layer (ML) heat budget using a regional high-resolution coupled model, with realistic atmospheric forcing and an idealized ocean component. In order to test if the overall current speed affect our conclusion, the simulations are carried out in two distinct cases: one with overall strong current (SC case) and the other with overall weak current (WC case). Mesoscale currents are defined with two different spatial filters to explore the scale dependence of mesoscale air-sea coupling: the departure from 300-km running average represents small-mesoscale, while the departure from zonal-mean anomalies represents large-mesoscale. This dataset describes how to re-create the results in Gao, Y., Kamenkovich, I., Perlin, N., Kirtman, B.P. 2021. Oceanic Advection Controls Mesoscale Mixed Layer Heat Budget and Air-sea Heat Exchange in the Southern Ocean, Journal of Physical Oceanography , 52(4), 537-555. https://doi.org/10.1175/JPO-D-21-0063.1. The data in this collection is based on numerical simulations in Regional Ocean–Atmosphere Model (ROAM) from Perlin, N., Kamenkovich, I., Gao, Y., Kirtman, B.P. (2020). A study of mesoscale air–sea interaction in the Southern Ocean with a regional coupled model. Ocean Modelling 153, 101660. https://doi.org/10.1016/j.ocemod.2020.101660. : Contents: 1) Data output from atmospheric model simulations are created by ROAM (Perlin et al., 2020) and it is available upon request. The atmospheric model data are "atmospheric_model_data/CO2_SE_SST_W10mN_TauX_TauY_U10m_V10m_daily.nc" and "atmospheric_model_data/CO2_WE_SST_W10mN_TauX_TauY_U10m_V10m_daily.nc" Their content includes: Dimensions: (nlat_rho: 122, nlon_rho: 306, nlons_rho: 306, time: 735) Dimensions without coordinates: nlat_rho, nlon_rho, nlons_rho, time Data variables: Wstr2 (time, nlat_rho, nlons_rho) float32 ... SST2 (time, nlat_rho, nlons_rho) float32 274.6 275.2 ... 286.8 286.8 U10m2 (time, nlat_rho, nlons_rho) float32 ... V10m2 (time, nlat_rho, nlons_rho) float32 ... W10mN2 (time, nlat_rho, nlons_rho) float32 12.22 12.29 ... 9.797 9.753 TauX2 (time, nlat_rho, nlons_rho) float32 0.2507 0.254 ... 0.1394 0.1374 TauY2 (time, nlat_rho, nlons_rho) float32 0.05018 0.04944 ... 0.04877 lon2ocn (nlat_rho, nlon_rho) float32 42.26 42.38 42.5 ... 77.57 77.68 77.8 lat2ocn (nlat_rho, nlon_rho) float32 -49.96 -49.96 -49.96 ... -40.03 -40.03 2) Monthly mixed layer heat budget files at small-mesoscale: "monthly_ml_heat_budget_data_small_mesoscale/Strong/monthly_ml_heat_balance_2016-*_StrongEddies.nc" "monthly_ml_heat_budget_data_small_mesoscale/Weak/monthly_ml_heat_balance_2016-*_WeakEddies.nc" These files are aggregated data for monthly average Mixed layer heat budget at small-mesoscale in SC and WC case, respectively. 3) Monthly mixed layer heat budget files at large-mesoscale: "monthly_ml_heat_budget_large_mesoscale/Strong/monthly_ml_heat_balance_2016-*_StrongEddies.nc" "monthly_ml_heat_budget_large_mesoscale/Weak/monthly_ml_heat_balance_2016-*_WeakEddies.nc" These files are aggregated data for monthly average mixed layer heat budget at large-mesoscale in SC and WC case, respectively. 4) Binned statistics between multiple pair of variables: "Binned_stats_data/*.nc" are the binned statistics derived from the monthly monthly average mixed layer heat budget files. The data can be recreated with the python notebooks listed below: "Fig10a_ml_heating_cooling_binned_stats_300km.ipynb" "Fig10b_temp1_rate_binned_stats.ipynb" "Fig10c_meso_ml_heating_cooling_binned_stats.ipynb" "Fig12a_eddy_adv_ml_binned_stats.ipynb" "Fig12b_shfluxa_eddy_adv_Strong.ipynb" 5) SST and surface current data in Strong Current case: "SST_UV_DATA/SST_2016-08_StrongEddies.nc" "SST_UV_DATA/Surface_U_2016-08_StrongEddies.nc" "SST_UV_DATA/Surface_V_2016-08_StrongEddies.nc" These files are aggregated monthly average data from ROAM simulations. 6) Figures included in Gao et al. (2021) "Figures/*" 7) Python notebooks to re-create the figures: "python_code/*.ipynb" 8) Python Environment file "environment.yaml" Please run the command below to re-create the python environment used in this analysis: $ conda env create --file environment.yaml
format Dataset
author Gao, Yu
Kamenkovich, Igor
Perlin, Natalie
Kirtman, Ben
spellingShingle Gao, Yu
Kamenkovich, Igor
Perlin, Natalie
Kirtman, Ben
Oceanic Advection Controls Mesoscale Mixed Layer Heat Budget and Air-sea Heat Exchange in the Southern Ocean
author_facet Gao, Yu
Kamenkovich, Igor
Perlin, Natalie
Kirtman, Ben
author_sort Gao, Yu
title Oceanic Advection Controls Mesoscale Mixed Layer Heat Budget and Air-sea Heat Exchange in the Southern Ocean
title_short Oceanic Advection Controls Mesoscale Mixed Layer Heat Budget and Air-sea Heat Exchange in the Southern Ocean
title_full Oceanic Advection Controls Mesoscale Mixed Layer Heat Budget and Air-sea Heat Exchange in the Southern Ocean
title_fullStr Oceanic Advection Controls Mesoscale Mixed Layer Heat Budget and Air-sea Heat Exchange in the Southern Ocean
title_full_unstemmed Oceanic Advection Controls Mesoscale Mixed Layer Heat Budget and Air-sea Heat Exchange in the Southern Ocean
title_sort oceanic advection controls mesoscale mixed layer heat budget and air-sea heat exchange in the southern ocean
publisher University of Miami Libraries
publishDate 2021
url https://dx.doi.org/10.17604/94qh-6m66
https://scholarship.miami.edu/esploro/outputs/dataset/Oceanic-Advection-Controls-Mesoscale-Mixed-Layer-Heat-Budget-and-Air-sea-Heat-Exchange-in-the-Southern-Ocean/991031558389002976
geographic Southern Ocean
geographic_facet Southern Ocean
genre Southern Ocean
genre_facet Southern Ocean
op_relation https://dx.doi.org/10.1175/JPO-D-21-0063.1
https://dx.doi.org/10.1016/j.ocemod.2020.101660.
op_rights Open Data Commons Attribution License v1.0
https://opendatacommons.org/licenses/by/1.0/
odc-by-1.0
op_doi https://doi.org/10.17604/94qh-6m66
https://doi.org/10.1175/JPO-D-21-0063.1
https://doi.org/10.1016/j.ocemod.2020.101660.
_version_ 1766206359990173696
spelling ftdatacite:10.17604/94qh-6m66 2023-05-15T18:25:08+02:00 Oceanic Advection Controls Mesoscale Mixed Layer Heat Budget and Air-sea Heat Exchange in the Southern Ocean Gao, Yu Kamenkovich, Igor Perlin, Natalie Kirtman, Ben 2021 https://dx.doi.org/10.17604/94qh-6m66 https://scholarship.miami.edu/esploro/outputs/dataset/Oceanic-Advection-Controls-Mesoscale-Mixed-Layer-Heat-Budget-and-Air-sea-Heat-Exchange-in-the-Southern-Ocean/991031558389002976 unknown University of Miami Libraries https://dx.doi.org/10.1175/JPO-D-21-0063.1 https://dx.doi.org/10.1016/j.ocemod.2020.101660. Open Data Commons Attribution License v1.0 https://opendatacommons.org/licenses/by/1.0/ odc-by-1.0 Dataset data set dataset 2021 ftdatacite https://doi.org/10.17604/94qh-6m66 https://doi.org/10.1175/JPO-D-21-0063.1 https://doi.org/10.1016/j.ocemod.2020.101660. 2022-04-01T18:14:28Z We analyze the role of mesoscale heat advection in the Southern Ocean mixed layer (ML) heat budget using a regional high-resolution coupled model, with realistic atmospheric forcing and an idealized ocean component. In order to test if the overall current speed affect our conclusion, the simulations are carried out in two distinct cases: one with overall strong current (SC case) and the other with overall weak current (WC case). Mesoscale currents are defined with two different spatial filters to explore the scale dependence of mesoscale air-sea coupling: the departure from 300-km running average represents small-mesoscale, while the departure from zonal-mean anomalies represents large-mesoscale. This dataset describes how to re-create the results in Gao, Y., Kamenkovich, I., Perlin, N., Kirtman, B.P. 2021. Oceanic Advection Controls Mesoscale Mixed Layer Heat Budget and Air-sea Heat Exchange in the Southern Ocean, Journal of Physical Oceanography , 52(4), 537-555. https://doi.org/10.1175/JPO-D-21-0063.1. The data in this collection is based on numerical simulations in Regional Ocean–Atmosphere Model (ROAM) from Perlin, N., Kamenkovich, I., Gao, Y., Kirtman, B.P. (2020). A study of mesoscale air–sea interaction in the Southern Ocean with a regional coupled model. Ocean Modelling 153, 101660. https://doi.org/10.1016/j.ocemod.2020.101660. : Contents: 1) Data output from atmospheric model simulations are created by ROAM (Perlin et al., 2020) and it is available upon request. The atmospheric model data are "atmospheric_model_data/CO2_SE_SST_W10mN_TauX_TauY_U10m_V10m_daily.nc" and "atmospheric_model_data/CO2_WE_SST_W10mN_TauX_TauY_U10m_V10m_daily.nc" Their content includes: Dimensions: (nlat_rho: 122, nlon_rho: 306, nlons_rho: 306, time: 735) Dimensions without coordinates: nlat_rho, nlon_rho, nlons_rho, time Data variables: Wstr2 (time, nlat_rho, nlons_rho) float32 ... SST2 (time, nlat_rho, nlons_rho) float32 274.6 275.2 ... 286.8 286.8 U10m2 (time, nlat_rho, nlons_rho) float32 ... V10m2 (time, nlat_rho, nlons_rho) float32 ... W10mN2 (time, nlat_rho, nlons_rho) float32 12.22 12.29 ... 9.797 9.753 TauX2 (time, nlat_rho, nlons_rho) float32 0.2507 0.254 ... 0.1394 0.1374 TauY2 (time, nlat_rho, nlons_rho) float32 0.05018 0.04944 ... 0.04877 lon2ocn (nlat_rho, nlon_rho) float32 42.26 42.38 42.5 ... 77.57 77.68 77.8 lat2ocn (nlat_rho, nlon_rho) float32 -49.96 -49.96 -49.96 ... -40.03 -40.03 2) Monthly mixed layer heat budget files at small-mesoscale: "monthly_ml_heat_budget_data_small_mesoscale/Strong/monthly_ml_heat_balance_2016-*_StrongEddies.nc" "monthly_ml_heat_budget_data_small_mesoscale/Weak/monthly_ml_heat_balance_2016-*_WeakEddies.nc" These files are aggregated data for monthly average Mixed layer heat budget at small-mesoscale in SC and WC case, respectively. 3) Monthly mixed layer heat budget files at large-mesoscale: "monthly_ml_heat_budget_large_mesoscale/Strong/monthly_ml_heat_balance_2016-*_StrongEddies.nc" "monthly_ml_heat_budget_large_mesoscale/Weak/monthly_ml_heat_balance_2016-*_WeakEddies.nc" These files are aggregated data for monthly average mixed layer heat budget at large-mesoscale in SC and WC case, respectively. 4) Binned statistics between multiple pair of variables: "Binned_stats_data/*.nc" are the binned statistics derived from the monthly monthly average mixed layer heat budget files. The data can be recreated with the python notebooks listed below: "Fig10a_ml_heating_cooling_binned_stats_300km.ipynb" "Fig10b_temp1_rate_binned_stats.ipynb" "Fig10c_meso_ml_heating_cooling_binned_stats.ipynb" "Fig12a_eddy_adv_ml_binned_stats.ipynb" "Fig12b_shfluxa_eddy_adv_Strong.ipynb" 5) SST and surface current data in Strong Current case: "SST_UV_DATA/SST_2016-08_StrongEddies.nc" "SST_UV_DATA/Surface_U_2016-08_StrongEddies.nc" "SST_UV_DATA/Surface_V_2016-08_StrongEddies.nc" These files are aggregated monthly average data from ROAM simulations. 6) Figures included in Gao et al. (2021) "Figures/*" 7) Python notebooks to re-create the figures: "python_code/*.ipynb" 8) Python Environment file "environment.yaml" Please run the command below to re-create the python environment used in this analysis: $ conda env create --file environment.yaml Dataset Southern Ocean DataCite Metadata Store (German National Library of Science and Technology) Southern Ocean

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