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Andreas Born

Researcher
  • E-mailAndreas.Born@uib.no
  • Phone+47 55 58 34 06+47 450 51 501
  • Visitor Address
    Realfagbygget, Allégt. 41
  • Postal Address
    Postboks 7803
    5020 Bergen

I am interested in the dynamics of the climate system with a focus on the Atlantic Ocean and Northern Hemisphere ice sheets and a keen interest in paleoclimate. I use, modify and develop numerical models across the entire range of complexity from box models to comprehensive coupled global climate models.

GEOV325 Glaciology

Full list and preprints available here.

  • 2020. A low climate threshold for south Greenland Ice Sheet demise during the Late Pleistocene. Proceedings of the National Academy of Sciences of the United States of America. 190-195.
  • 2019. Was common Era glacier expansion in the Arctic Atlantic region triggered by unforced atmospheric cooling? Quaternary Science Reviews. 6 pages.
  • 2019. Simulation of the Eemian Greenland ice sheet.
  • 2019. Eemian Greenland ice sheet simulated with a higher-order model shows strong sensitivity to surface mass balance forcing. The Cryosphere. 2133-2148.
  • 2019. Eemian Greenland ice sheet simulated with a higher-order model shows strong sensitivity to SMB forcing.
  • 2019. East Greenland Ice Sheet variability and thresholds through late Pleistocene interglacials .
  • 2019. An efficient surface energy-mass balance model for snow and ice. The Cryosphere. 1529-1546.
  • 2019. A low climate threshold for south Greenland Ice Sheet demise during the late Pleistocene.
  • 2018. Subpolar North Atlantic sea surface temperature since 6 ka BP: Indications of anomalous ocean-atmosphere interactions at 4-2 ka BP. Quaternary Science Reviews. 128-142.
  • 2018. Simulated Eemian Greenland Surface Mass Balance shows strong sensitivity to SMB model choice .
  • 2018. Evidence for a spontaneous onset of Little Ice Age change in the North Atlantic Arctic.
  • 2018. Evidence for a spontaneous onset of Little Ice Age change in the Arctic North Atlantic. Geophysical Research Abstracts.
  • 2018. Eemian Greenland Surface Mass Balance strongly sensitive to SMB model setup .
  • 2018. Eemian Greenland SMB strongly sensitive to model choice. Climate of the Past. 1463-1485.
  • 2018. East Greenland Ice Sheet variability and thresholds through late Pleistocene interglacials .
  • 2018. Coupled atmosphere-ice-ocean dynamics in Dansgaard-Oeschger events. Quaternary Science Reviews. 1-20.
  • 2018. A spatiotemporal reconstruction of sea-surface temperatures in the North Atlantic during Dansgaard-Oeschger events 5-8. Climate of the Past. 901-922.
  • 2017. The role of subpolar atmosphere-ocean-ice interactions in Dansgaard-Oeschger cycles.
  • 2017. Sea-surface temperatures during Dansgaard-Oeschger events 5-8: -combining marine sediment cores and GCM-simulations.
  • 2017. How stable is the Greenland Ice Sheet? .
  • 2017. A spatio-temporal reconstruction of North Atlantic sea-surface temperatures during Dansgaard-Oeschger events 5-8.
  • 2016. Transport of salt and freshwater in the Atlantic Subpolar Gyre. Ocean Dynamics. 1051-1064.
  • 2016. A spatio-temporal reconstruction of sea surface temperature during Dansgaard-Oeschger events from model-data integration.
  • 2015. Past constraints on the contribution of the Greenland ice sheet to sea level rise.
  • 2015. Destabilization of the Greenland Ice Sheet during the Last Interglacial.
  • 2014. The Greenland ice sheet during the last interglacial.
  • 2013. Melting of Northern Greenland during the last interglacial.
  • 2013. Melting of Northern Greenland during the last interglacial.
  • 2012. Melting of Northern Greenland during the last interglaciation. The Cryosphere. 1239-1250.
  • 2012. Dynamics of decadal variability in the Atlantic subpolar gyre: a stochastically forced oscillator. Climate Dynamics. 461-474.
  • 2011. Sub Polar Gyre variability.
  • 2011. Reversed North Atlantic gyre dynamics in present and glacial climates. Climate Dynamics. 1107-1118.
  • 2011. Melting of Northern Greenland during the last inerglacial. The Cryosphere Discussions. 3517-3539.
  • 2011. Late Eemian warming in the Nordic Seasdelayed glacial inception in Scandinavia.
  • 2011. Late Eemian warming in the Nordic Seas as seen in proxy data and climate models. Paleoceanography. 10 pages.
  • 2011. Destabilization of the Greenland Ice Sheet.
  • 2010. Warm Nordic Seas delayed glacial inception in Scandinavia. Climate of the Past. 817-826.
  • 2010. The 8.2 ka event: Abrupt transition of the subpolar gyre toward a modern North Atlantic circulation. Geochemistry Geophysics Geosystems. 8 pages.
  • 2010. Sea ice induced changes in ocean circulation during the Eemian. Climate Dynamics. 1361-1371.
  • 2010. RG 1 Past warm climate.
  • 2010. Ocean circulation and climate at the Eemian and last glacial inception.
  • 2010. Late Eemian warming in the Nordic Seas as seen in proxy data and climate models.
  • 2010. Expected and simulated changes in the hydrological cycle in a warm climate.
  • 2010. Atlantic surface circulation qualifies as ‘tipped’ element.
  • 2010. Atlantic surface circulation qualifies as ‘tipped’ element.
  • 2009. The 8k event; abrupt transition of the subpolar gyre towards a modern North Atlantic circulation.
  • 2009. The 8k event: abrupt transition of the subpolar gyre towards a modern North Atlantic circulation.
  • 2009. The 8k event: abrupt transition of the subpolar gyre towards a modern North Atlantic circulation.
  • 2009. The 8k event: abrupt transition of the subpolar gyre towards a modern North Atlantic circulation.
  • 2009. Sensitivity of the Atlantic ocean circulation to a hydraulic overflow parameterisation in a coarse resolution model: Response of the subpolar gyre.
  • 2009. Sea ice induced changes in ocean circulation during the Eeminan.
  • 2009. Sea ice induced changes in ocean circulation during the Eemian.
  • 2009. Sea ice induced changes in ocean circulation during the Eemian.
  • 2009. Reversed North Atlantic subpolar gyre dynamics in present and glacial climates.
  • 2008. The 8k event: abrupt transition of the subpolar gyre towards a modern North Atlantic circulation.
  • 2008. The 8k event: abrupt transition of the subpolar gyre towards a modern North Atlantic circulation.
  • 2008. The 8k event: abrupt transition of the subpolar gyre towards a modern North Atlantic circulation.
  • 2008. Ice sheet dynamics in past and future climate.
  • 2007. Bistability of the Atlantic Subpolar Gyrein a coarse resolution model.

More information in national current research information system (CRIStin)