Role of air-sea fluxes and ocean surface density on the production of deep waters in the eastern subpolar gyre of the North Atlantic
Wintertime convection in the North Atlantic Ocean is a key component of the global climate as it produces dense waters at high latitudes that flow equatorward as part of the Atlantic Meridional Overturning Circulation (AMOC). Recent work has highlighted the dominant role of the Irminger and Iceland...
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ftcopernicus:oai:publications.copernicus.org:osd94823 2023-05-15T16:47:19+02:00 Role of air-sea fluxes and ocean surface density on the production of deep waters in the eastern subpolar gyre of the North Atlantic Petit, Tillys Lozier, M. Susan Josey, Simon A. Cunningham, Stuart A. 2021-06-01 application/pdf https://doi.org/10.5194/os-2021-48 https://os.copernicus.org/preprints/os-2021-48/ eng eng doi:10.5194/os-2021-48 https://os.copernicus.org/preprints/os-2021-48/ eISSN: 1812-0792 Text 2021 ftcopernicus https://doi.org/10.5194/os-2021-48 2021-06-07T16:22:15Z Wintertime convection in the North Atlantic Ocean is a key component of the global climate as it produces dense waters at high latitudes that flow equatorward as part of the Atlantic Meridional Overturning Circulation (AMOC). Recent work has highlighted the dominant role of the Irminger and Iceland basins in the production of North Atlantic Deep Water. Dense water formation in these basins is mainly explained by buoyancy forcing that transforms surface waters to the deep waters of the AMOC lower limb. Air-sea fluxes and the ocean surface density field are both key determinants of the buoyancy-driven transformation. We analyze these contributions to the transformation in order to better understand the connection between atmospheric forcing and the AMOC. More precisely, we study the impact of air-sea fluxes and the ocean surface density field on the transformation of subpolar mode water (SPMW) in the Iceland Basin, a water mass that “pre-conditions” dense water formation downstream. Analyses using 40 years of observations (1980–2019) reveal that the variance in SPMW transformation is mainly influenced by the variance in density at the ocean surface. This surface density is set by a combination of advection, wind-driven upwelling and surface fluxes, the latter explaining ~30 % of the variance in outcrop area as expressed by the surface area between the outcropped SPMW isopycnals. The key role of the surface density on SPMW transformation partly explains the unusually large SPMW transformation in winter 2014–2015 over the Iceland Basin. Text Iceland North Atlantic Deep Water North Atlantic Copernicus Publications: E-Journals |
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Copernicus Publications: E-Journals |
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English |
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Wintertime convection in the North Atlantic Ocean is a key component of the global climate as it produces dense waters at high latitudes that flow equatorward as part of the Atlantic Meridional Overturning Circulation (AMOC). Recent work has highlighted the dominant role of the Irminger and Iceland basins in the production of North Atlantic Deep Water. Dense water formation in these basins is mainly explained by buoyancy forcing that transforms surface waters to the deep waters of the AMOC lower limb. Air-sea fluxes and the ocean surface density field are both key determinants of the buoyancy-driven transformation. We analyze these contributions to the transformation in order to better understand the connection between atmospheric forcing and the AMOC. More precisely, we study the impact of air-sea fluxes and the ocean surface density field on the transformation of subpolar mode water (SPMW) in the Iceland Basin, a water mass that “pre-conditions” dense water formation downstream. Analyses using 40 years of observations (1980–2019) reveal that the variance in SPMW transformation is mainly influenced by the variance in density at the ocean surface. This surface density is set by a combination of advection, wind-driven upwelling and surface fluxes, the latter explaining ~30 % of the variance in outcrop area as expressed by the surface area between the outcropped SPMW isopycnals. The key role of the surface density on SPMW transformation partly explains the unusually large SPMW transformation in winter 2014–2015 over the Iceland Basin. |
format |
Text |
author |
Petit, Tillys Lozier, M. Susan Josey, Simon A. Cunningham, Stuart A. |
spellingShingle |
Petit, Tillys Lozier, M. Susan Josey, Simon A. Cunningham, Stuart A. Role of air-sea fluxes and ocean surface density on the production of deep waters in the eastern subpolar gyre of the North Atlantic |
author_facet |
Petit, Tillys Lozier, M. Susan Josey, Simon A. Cunningham, Stuart A. |
author_sort |
Petit, Tillys |
title |
Role of air-sea fluxes and ocean surface density on the production of deep waters in the eastern subpolar gyre of the North Atlantic |
title_short |
Role of air-sea fluxes and ocean surface density on the production of deep waters in the eastern subpolar gyre of the North Atlantic |
title_full |
Role of air-sea fluxes and ocean surface density on the production of deep waters in the eastern subpolar gyre of the North Atlantic |
title_fullStr |
Role of air-sea fluxes and ocean surface density on the production of deep waters in the eastern subpolar gyre of the North Atlantic |
title_full_unstemmed |
Role of air-sea fluxes and ocean surface density on the production of deep waters in the eastern subpolar gyre of the North Atlantic |
title_sort |
role of air-sea fluxes and ocean surface density on the production of deep waters in the eastern subpolar gyre of the north atlantic |
publishDate |
2021 |
url |
https://doi.org/10.5194/os-2021-48 https://os.copernicus.org/preprints/os-2021-48/ |
genre |
Iceland North Atlantic Deep Water North Atlantic |
genre_facet |
Iceland North Atlantic Deep Water North Atlantic |
op_source |
eISSN: 1812-0792 |
op_relation |
doi:10.5194/os-2021-48 https://os.copernicus.org/preprints/os-2021-48/ |
op_doi |
https://doi.org/10.5194/os-2021-48 |
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1766037402683441152 |