Separating the influence of projected changes in air temperature and wind on patterns of sea level change and ocean heat content
We present ocean model sensitivity experiments aimed at separating the influence of the projected changes in the “thermal” (near-surface air temperature) and “wind” (near-surface winds) forcing on the patterns of sea level and ocean heat content. In the North Atlantic, the distribution of sea level...
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2015
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| Online Access: | https://doi.org/10.7939/R3V98061X https://era.library.ualberta.ca/items/488cacd9-5b18-4852-b79d-0ba348298de5 |
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fttriple:oai:gotriple.eu:10670/1.d85q30 2023-05-15T13:45:07+02:00 Separating the influence of projected changes in air temperature and wind on patterns of sea level change and ocean heat content Saenko, Oleg A. Myers, Paul G. Gregory, Jonathan M. Yang, Duo Spence, Paul 2015-01-01 https://doi.org/10.7939/R3V98061X https://era.library.ualberta.ca/items/488cacd9-5b18-4852-b79d-0ba348298de5 en eng doi:10.7939/R3V98061X 10670/1.d85q30 https://era.library.ualberta.ca/items/488cacd9-5b18-4852-b79d-0ba348298de5 lic_creative-commons ERA : Education and Research Archive envir geo Other https://vocabularies.coar-repositories.org/resource_types/c_1843/ 2015 fttriple https://doi.org/10.7939/R3V98061X 2023-01-22T18:25:32Z We present ocean model sensitivity experiments aimed at separating the influence of the projected changes in the “thermal” (near-surface air temperature) and “wind” (near-surface winds) forcing on the patterns of sea level and ocean heat content. In the North Atlantic, the distribution of sea level change is more due to the “thermal” forcing, whereas it is more due to the “wind” forcing in the North Pacific; in the Southern Ocean, the “thermal” and “wind” forcing have a comparable influence. In the ocean adjacent to Antarctica the “thermal” forcing leads to an inflow of warmer waters on the continental shelves, which is somewhat attenuated by the “wind” forcing. The structure of the vertically integrated heat uptake is set by different processes at low and high latitudes: at low latitudes it is dominated by the heat transport convergence, whereas at high latitudes it represents a small residual of changes in the surface flux and advection of heat. The structure of the horizontally integrated heat content tendency is set by the increase of downward heat flux by the mean circulation and comparable decrease of upward heat flux by the subgrid-scale processes; the upward eddy heat flux decreases and increases by almost the same magnitude in response to, respectively, the “thermal” and “wind” forcing. Regionally, the surface heat loss and deep convection weaken in the Labrador Sea, but intensify in the Greenland Sea in the region of sea ice retreat. The enhanced heat flux anomaly in the subpolar Atlantic is mainly caused by the “thermal” forcing. Other/Unknown Material Antarc* Antarctica Greenland Greenland Sea Labrador Sea North Atlantic Sea ice Southern Ocean Unknown Greenland Pacific Southern Ocean |
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Open Polar |
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fttriple |
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English |
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envir geo |
| spellingShingle |
envir geo Saenko, Oleg A. Myers, Paul G. Gregory, Jonathan M. Yang, Duo Spence, Paul Separating the influence of projected changes in air temperature and wind on patterns of sea level change and ocean heat content |
| topic_facet |
envir geo |
| description |
We present ocean model sensitivity experiments aimed at separating the influence of the projected changes in the “thermal” (near-surface air temperature) and “wind” (near-surface winds) forcing on the patterns of sea level and ocean heat content. In the North Atlantic, the distribution of sea level change is more due to the “thermal” forcing, whereas it is more due to the “wind” forcing in the North Pacific; in the Southern Ocean, the “thermal” and “wind” forcing have a comparable influence. In the ocean adjacent to Antarctica the “thermal” forcing leads to an inflow of warmer waters on the continental shelves, which is somewhat attenuated by the “wind” forcing. The structure of the vertically integrated heat uptake is set by different processes at low and high latitudes: at low latitudes it is dominated by the heat transport convergence, whereas at high latitudes it represents a small residual of changes in the surface flux and advection of heat. The structure of the horizontally integrated heat content tendency is set by the increase of downward heat flux by the mean circulation and comparable decrease of upward heat flux by the subgrid-scale processes; the upward eddy heat flux decreases and increases by almost the same magnitude in response to, respectively, the “thermal” and “wind” forcing. Regionally, the surface heat loss and deep convection weaken in the Labrador Sea, but intensify in the Greenland Sea in the region of sea ice retreat. The enhanced heat flux anomaly in the subpolar Atlantic is mainly caused by the “thermal” forcing. |
| format |
Other/Unknown Material |
| author |
Saenko, Oleg A. Myers, Paul G. Gregory, Jonathan M. Yang, Duo Spence, Paul |
| author_facet |
Saenko, Oleg A. Myers, Paul G. Gregory, Jonathan M. Yang, Duo Spence, Paul |
| author_sort |
Saenko, Oleg A. |
| title |
Separating the influence of projected changes in air temperature and wind on patterns of sea level change and ocean heat content |
| title_short |
Separating the influence of projected changes in air temperature and wind on patterns of sea level change and ocean heat content |
| title_full |
Separating the influence of projected changes in air temperature and wind on patterns of sea level change and ocean heat content |
| title_fullStr |
Separating the influence of projected changes in air temperature and wind on patterns of sea level change and ocean heat content |
| title_full_unstemmed |
Separating the influence of projected changes in air temperature and wind on patterns of sea level change and ocean heat content |
| title_sort |
separating the influence of projected changes in air temperature and wind on patterns of sea level change and ocean heat content |
| publishDate |
2015 |
| url |
https://doi.org/10.7939/R3V98061X https://era.library.ualberta.ca/items/488cacd9-5b18-4852-b79d-0ba348298de5 |
| geographic |
Greenland Pacific Southern Ocean |
| geographic_facet |
Greenland Pacific Southern Ocean |
| genre |
Antarc* Antarctica Greenland Greenland Sea Labrador Sea North Atlantic Sea ice Southern Ocean |
| genre_facet |
Antarc* Antarctica Greenland Greenland Sea Labrador Sea North Atlantic Sea ice Southern Ocean |
| op_source |
ERA : Education and Research Archive |
| op_relation |
doi:10.7939/R3V98061X 10670/1.d85q30 https://era.library.ualberta.ca/items/488cacd9-5b18-4852-b79d-0ba348298de5 |
| op_rights |
lic_creative-commons |
| op_doi |
https://doi.org/10.7939/R3V98061X |
| _version_ |
1766213518889058304 |