Holocene North Atlantic Overturning in an atmosphere-ocean-sea ice model compared to proxy-based reconstructions

M. Blaschek, H. Renssen, C. Kissel, D. Thornalley

Publications: Contribution to journalArticlePeer Reviewed

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 languageEnglish
Pages (from-to)1503-1524
Number of pages22
JournalPaleoceanography
Volume30
Issue number11
DOIs
Publication statusPublished - 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

Cite this