PP44A-03
Heinrich events simulated across the glacial

Thursday, 17 December 2015: 16:30
2012 (Moscone West)
Florian Andreas Ziemen, Max Planck Institute for Meteorology, The Ocean in the Earth System, Hamburg, Germany and Uwe Mikolajewicz, Max Planck Institute for Meteorology, Hamburg, Germany
Abstract:
Heinrich events are among the most prominent climate change events recorded in proxies across the northern hemisphere. They are the archetype of ice sheet — climate interactions on millennial time scales. Nevertheless, the exact mechanisms that cause Heinrich events are still under discussion, and their climatic consequences are far from being fully understood. We contribute to answering the open questions by studying Heinrich events in a coupled ice sheet model (ISM) atmosphere-ocean-vegetation general circulation model (AOVGCM) framework, where this variability occurs as part of the model generated internal variability.

The setup consists of a northern hemisphere setup of the modified Parallel Ice Sheet Model (mPISM) coupled to the global AOVGCM ECHAM5/MPIOM/LPJ. The simulations were performed fully coupled and with transient orbital and greenhouse gas forcing. They span from several millennia before the last glacial maximum into the deglaciation. We analyze simulations where the ISM is coupled asynchronously to the AOVGCM and simulations where the ISM and the ocean model are coupled synchronously and the atmosphere model is coupled asynchronously to them.

The modeled Heinrich events show a marked influence of the ice discharge on the Atlantic circulation and heat transport.