Weak oceanic heat transport as a cause of the instability of glacial climates:
The stability of the thermohaline circulation of modern and glacial climates is compared with the help of a two dimensional ocean-atmosphere-sea ice coupled model. It turns out to be more unstable as less freshwater forcing is required to induce a polar halocline catastrophy in glacial climates. The...
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| Format: | Article in Journal/Newspaper |
| Language: | English |
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2010
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| Online Access: | http://resolver.tudelft.nl/uuid:d45802ed-d988-43bb-b79b-e2af534dd624 |
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fttno:oai:tudelft.nl:uuid:d45802ed-d988-43bb-b79b-e2af534dd624 2023-05-15T16:00:05+02:00 Weak oceanic heat transport as a cause of the instability of glacial climates: Colin de Verdière, A. Raa, L. te 2010-01-01 http://resolver.tudelft.nl/uuid:d45802ed-d988-43bb-b79b-e2af534dd624 en eng uuid:d45802ed-d988-43bb-b79b-e2af534dd624 242699 http://resolver.tudelft.nl/uuid:d45802ed-d988-43bb-b79b-e2af534dd624 Climate Dynamics, 7/8, 35, 1237-1256 Geosciences Coupled ocean atmosphere and sea ice model Instability of glacial climates Millennial oscillations Oceanic heat transport Thermohaline circulation article 2010 fttno 2022-04-10T16:04:09Z The stability of the thermohaline circulation of modern and glacial climates is compared with the help of a two dimensional ocean-atmosphere-sea ice coupled model. It turns out to be more unstable as less freshwater forcing is required to induce a polar halocline catastrophy in glacial climates. The large insulation of the ocean by the extensive sea ice cover changes the temperature boundary condition and the deepwater formation regions moves much further South. The nature of the instability is of oceanic origin, identical to that found in ocean models under mixed boundary conditions. With similar strengths of the oceanic circulation and rates of deep water formation for warm and cold climates, the loss of stability of the cold climate is due to the weak thermal stratification caused by the cooling of surface waters, the deep water temperatures being regulated by the temperature of freezing. Weaker stratification with similar overturning leads to a weakening of the meridional oceanic heat transport which is the major negative feedback stabilizing the oceanic circulation. Within the unstable regime periodic millennial oscillations occur spontaneously. The climate oscillates between a strong convective thermally driven oceanic state and a weak one driven by large salinity gradients. Both states are unstable. The atmosphere of low thermal inertia is carried along by the oceanic overturning while the variation of sea ice is out of phase with the oceanic heat content. During the abrupt warming events that punctuate the course of a millennial oscillation, sea ice variations are shown respectively to damp (amplify) the amplitude of the oceanic (atmospheric) response. This sensitivity of the oceanic circulation to a reduced concentration of greenhouse gases and to freshwater forcing adds support to the hypothesis that the millennial oscillations of the last glacial period, the so called Dansgaard-Oeschger events, may be internal instabilities of the climate system. Article in Journal/Newspaper Dansgaard-Oeschger events Sea ice TU Delft: Institutional Repository (Delft University of Technology) |
| institution |
Open Polar |
| collection |
TU Delft: Institutional Repository (Delft University of Technology) |
| op_collection_id |
fttno |
| language |
English |
| topic |
Geosciences Coupled ocean atmosphere and sea ice model Instability of glacial climates Millennial oscillations Oceanic heat transport Thermohaline circulation |
| spellingShingle |
Geosciences Coupled ocean atmosphere and sea ice model Instability of glacial climates Millennial oscillations Oceanic heat transport Thermohaline circulation Colin de Verdière, A. Raa, L. te Weak oceanic heat transport as a cause of the instability of glacial climates: |
| topic_facet |
Geosciences Coupled ocean atmosphere and sea ice model Instability of glacial climates Millennial oscillations Oceanic heat transport Thermohaline circulation |
| description |
The stability of the thermohaline circulation of modern and glacial climates is compared with the help of a two dimensional ocean-atmosphere-sea ice coupled model. It turns out to be more unstable as less freshwater forcing is required to induce a polar halocline catastrophy in glacial climates. The large insulation of the ocean by the extensive sea ice cover changes the temperature boundary condition and the deepwater formation regions moves much further South. The nature of the instability is of oceanic origin, identical to that found in ocean models under mixed boundary conditions. With similar strengths of the oceanic circulation and rates of deep water formation for warm and cold climates, the loss of stability of the cold climate is due to the weak thermal stratification caused by the cooling of surface waters, the deep water temperatures being regulated by the temperature of freezing. Weaker stratification with similar overturning leads to a weakening of the meridional oceanic heat transport which is the major negative feedback stabilizing the oceanic circulation. Within the unstable regime periodic millennial oscillations occur spontaneously. The climate oscillates between a strong convective thermally driven oceanic state and a weak one driven by large salinity gradients. Both states are unstable. The atmosphere of low thermal inertia is carried along by the oceanic overturning while the variation of sea ice is out of phase with the oceanic heat content. During the abrupt warming events that punctuate the course of a millennial oscillation, sea ice variations are shown respectively to damp (amplify) the amplitude of the oceanic (atmospheric) response. This sensitivity of the oceanic circulation to a reduced concentration of greenhouse gases and to freshwater forcing adds support to the hypothesis that the millennial oscillations of the last glacial period, the so called Dansgaard-Oeschger events, may be internal instabilities of the climate system. |
| format |
Article in Journal/Newspaper |
| author |
Colin de Verdière, A. Raa, L. te |
| author_facet |
Colin de Verdière, A. Raa, L. te |
| author_sort |
Colin de Verdière, A. |
| title |
Weak oceanic heat transport as a cause of the instability of glacial climates: |
| title_short |
Weak oceanic heat transport as a cause of the instability of glacial climates: |
| title_full |
Weak oceanic heat transport as a cause of the instability of glacial climates: |
| title_fullStr |
Weak oceanic heat transport as a cause of the instability of glacial climates: |
| title_full_unstemmed |
Weak oceanic heat transport as a cause of the instability of glacial climates: |
| title_sort |
weak oceanic heat transport as a cause of the instability of glacial climates: |
| publishDate |
2010 |
| url |
http://resolver.tudelft.nl/uuid:d45802ed-d988-43bb-b79b-e2af534dd624 |
| genre |
Dansgaard-Oeschger events Sea ice |
| genre_facet |
Dansgaard-Oeschger events Sea ice |
| op_source |
Climate Dynamics, 7/8, 35, 1237-1256 |
| op_relation |
uuid:d45802ed-d988-43bb-b79b-e2af534dd624 242699 http://resolver.tudelft.nl/uuid:d45802ed-d988-43bb-b79b-e2af534dd624 |
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1766395963804483584 |