Impact of the oceanic geothermal heat flux on a glacial ocean state
The oceanic geothermal heating (OGH) has a significant impact on the present-day ocean state, but its role during glacial periods, when the ocean circulation and stratification were different from those of today, remains poorly known. In the present study, we analyzed the response of the glacial oce...
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ftcopernicus:oai:publications.copernicus.org:cpd31261 2023-05-15T13:54:27+02:00 Impact of the oceanic geothermal heat flux on a glacial ocean state Ballarotta, M. Roquet, F. Falahat, S. Zhang, Q. Madec, G. 2018-09-26 application/pdf https://doi.org/10.5194/cpd-11-3597-2015 https://cp.copernicus.org/preprints/cp-2015-110/ eng eng doi:10.5194/cpd-11-3597-2015 https://cp.copernicus.org/preprints/cp-2015-110/ eISSN: 1814-9332 Text 2018 ftcopernicus https://doi.org/10.5194/cpd-11-3597-2015 2020-07-20T16:24:30Z The oceanic geothermal heating (OGH) has a significant impact on the present-day ocean state, but its role during glacial periods, when the ocean circulation and stratification were different from those of today, remains poorly known. In the present study, we analyzed the response of the glacial ocean to OGH, by comparing ocean simulations of the Last Glacial Maximum (LGM, ∼ 21 ka ago) including or not geothermal heating. We found that applying the OGH warmed the Antarctic Bottom Waters (AABW) by ∼ 0.4 °C and increased the abyssal circulation by 15 to 30 % north of 30° S in the deep Pacific and Atlantic basins. The geothermally heated deep waters were then advected toward the Southern Ocean where they upwelled to the surface due to the Ekman transport. The extra heat transport towards Antarctica acted to reduce the amount of sea ice contributing to the freshening of the whole AABW overturning cell. The global amount of salt being conserved, this bottom freshening induced a salinification of the North Atlantic and North Pacific surface and intermediate waters, contributing to the deepening of the North Atlantic Deep Water. This indirect mechanism is responsible for the largest observed warming, found in the North Atlantic deep western boundary current between 2000 and 3000 m (up to 2 °C). The characteristic time scale of the ocean response to the OGH corresponds to an advective time scale (associated with the overturning of the AABW cell) rather than a diffusive time scale. The OGH might facilitate the transition from a glacial to an inter-glacial state but its effect on the deep stratification seems insufficient to drive alone an abrupt climate change. Text Antarc* Antarctic Antarctica North Atlantic Deep Water North Atlantic Sea ice Southern Ocean Copernicus Publications: E-Journals Antarctic Pacific Southern Ocean The Antarctic |
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Open Polar |
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Copernicus Publications: E-Journals |
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ftcopernicus |
| language |
English |
| description |
The oceanic geothermal heating (OGH) has a significant impact on the present-day ocean state, but its role during glacial periods, when the ocean circulation and stratification were different from those of today, remains poorly known. In the present study, we analyzed the response of the glacial ocean to OGH, by comparing ocean simulations of the Last Glacial Maximum (LGM, ∼ 21 ka ago) including or not geothermal heating. We found that applying the OGH warmed the Antarctic Bottom Waters (AABW) by ∼ 0.4 °C and increased the abyssal circulation by 15 to 30 % north of 30° S in the deep Pacific and Atlantic basins. The geothermally heated deep waters were then advected toward the Southern Ocean where they upwelled to the surface due to the Ekman transport. The extra heat transport towards Antarctica acted to reduce the amount of sea ice contributing to the freshening of the whole AABW overturning cell. The global amount of salt being conserved, this bottom freshening induced a salinification of the North Atlantic and North Pacific surface and intermediate waters, contributing to the deepening of the North Atlantic Deep Water. This indirect mechanism is responsible for the largest observed warming, found in the North Atlantic deep western boundary current between 2000 and 3000 m (up to 2 °C). The characteristic time scale of the ocean response to the OGH corresponds to an advective time scale (associated with the overturning of the AABW cell) rather than a diffusive time scale. The OGH might facilitate the transition from a glacial to an inter-glacial state but its effect on the deep stratification seems insufficient to drive alone an abrupt climate change. |
| format |
Text |
| author |
Ballarotta, M. Roquet, F. Falahat, S. Zhang, Q. Madec, G. |
| spellingShingle |
Ballarotta, M. Roquet, F. Falahat, S. Zhang, Q. Madec, G. Impact of the oceanic geothermal heat flux on a glacial ocean state |
| author_facet |
Ballarotta, M. Roquet, F. Falahat, S. Zhang, Q. Madec, G. |
| author_sort |
Ballarotta, M. |
| title |
Impact of the oceanic geothermal heat flux on a glacial ocean state |
| title_short |
Impact of the oceanic geothermal heat flux on a glacial ocean state |
| title_full |
Impact of the oceanic geothermal heat flux on a glacial ocean state |
| title_fullStr |
Impact of the oceanic geothermal heat flux on a glacial ocean state |
| title_full_unstemmed |
Impact of the oceanic geothermal heat flux on a glacial ocean state |
| title_sort |
impact of the oceanic geothermal heat flux on a glacial ocean state |
| publishDate |
2018 |
| url |
https://doi.org/10.5194/cpd-11-3597-2015 https://cp.copernicus.org/preprints/cp-2015-110/ |
| geographic |
Antarctic Pacific Southern Ocean The Antarctic |
| geographic_facet |
Antarctic Pacific Southern Ocean The Antarctic |
| genre |
Antarc* Antarctic Antarctica North Atlantic Deep Water North Atlantic Sea ice Southern Ocean |
| genre_facet |
Antarc* Antarctic Antarctica North Atlantic Deep Water North Atlantic Sea ice Southern Ocean |
| op_source |
eISSN: 1814-9332 |
| op_relation |
doi:10.5194/cpd-11-3597-2015 https://cp.copernicus.org/preprints/cp-2015-110/ |
| op_doi |
https://doi.org/10.5194/cpd-11-3597-2015 |
| _version_ |
1766260349904879616 |