Abstract
Climate and ocean circulation in the North Atlantic region changed over the course of the Holocene, partly because of disintegrating ice sheets and partly because of an orbital-induced insolation trend. In the Nordic Seas, this impact was accompanied by a rather small, but significant, amount of Greenland ice sheet melting. We have employed the EMIC LOVECLIM and compared our model simulations with proxy-based reconstructions of δ 13C, sortable silt, and magnetic susceptibility (κ) used to infer changes in past ocean circulation over the last 9000 years. The various reconstructions exhibit different long-term evolutions suggesting changes in either the overturning of the Atlantic in total or of subcomponents of the ocean circulation, such as the overflow waters across the Greenland-Scotland ridge. Thus, the question arises whether these reconstructions are consistent with each other or not. A comparison with model results indicates that δ 13C, employed as an indicator of overturning, agrees well with the long-term evolution of the modeled Atlantic meridional overturning circulation (AMOC). The model results suggest that different long-term trends in subcomponents of the AMOC, such as Iceland-Scotland overflow water, are consistent with proxy-based reconstructions and allow some of the reconstructions to be reconciled with the modeled and reconstructed (from δ 13C) AMOC evolution. We find a weak early Holocene AMOC, which recovers by 7 kyr B.P. and shows a weak increasing trend of 88 ± 1 mSv/kyr toward present, with relatively low variability on centennial to millennial timescales. Key Points δ 13C in the Norwegian Sea allows reconstructing convective activity Paleomodeling allows reconciling different trends in proxy-based reconstructions Long-term evolution of the AMOC is relatively stable since 7 kyr B.P.
Original language | English |
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Pages (from-to) | 1503-1524 |
Number of pages | 22 |
Journal | Paleoceanography |
Volume | 30 |
Issue number | 11 |
DOIs | |
Publication status | Published - Nov 2015 |
Austrian Fields of Science 2012
- 105205 Climate change
- 105204 Climatology
- 105121 Sedimentology
- 105306 Oceanography
Keywords
- DEEP-WATER
- THERMAL MAXIMUM
- NORDIC SEAS
- LAST DEGLACIATION
- BOTTOM-WATER
- CARBON-CYCLE
- CLIMATE
- CIRCULATION
- STRENGTH
- FLOW
- sortable silt
- paleoclimate modeling
- δ C
- magnetic susceptibility
- Holocene
- AMOC