Reconstructing with numerical Ice Sheet Models the post-LGM decay of the Eurasian Ice Sheets: data-model comparison and focus on the Storfjorden (Svalbard) ice stream dynamics history

The challenge of reconstructing the growth and decay of palaeo-ice sheets represents a critical task to better understand mechanisms of global climate change and associated sea-level fluctuations in the present and future. The Eurasian palaeo-Ice Sheet (EIS) at its maximum volume and extent (between...

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Bibliographic Details
Main Author: PETRINI, MICHELE
Other Authors: Petrini, Michele, FORTE, Emanuele
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Università degli Studi di Trieste 2017
Subjects:
ice-sheet
modelling
last-deglaciation
Eurasian-ice-sheet
ice-stream
Settore ICAR/01 - Idraulica
Antarctic
Svalbard
Barents Sea
Kara Sea
West Antarctic Ice Sheet
Antarc*
Fennoscandia
Ice Sheet
Storfjorden
Siberia
Online Access:http://hdl.handle.net/11368/2908201
Description
Summary:The challenge of reconstructing the growth and decay of palaeo-ice sheets represents a critical task to better understand mechanisms of global climate change and associated sea-level fluctuations in the present and future. The Eurasian palaeo-Ice Sheet (EIS) at its maximum volume and extent (between 21,000 and 20,000 years ago) comprised the Scandinavian (SIS), Svalbard/Barents/Kara seas (SBKSIS), and British-Irish (BIIS) palaeo-ice sheets. The SBKSIS was a so called marine based ice sheet, as it rested several hundreds of meters below the sea level in the Barents and Kara seas. From a bathymetric and topographic point of view, there is a strong similarity between the SBKSIS and the present-day West Antarctic Ice Sheet (WAIS). Consequently, to reconstruct the dynamic processes driving the last deglaciation of the SBKSIS may represent an important task to better understand the WAIS present and future evolution. In this study, the evolution of the EIS during the last deglaciation is reconstructed with two hybrid Shallow-Ice/Shallow-Shelf-Approximation numerical Ice Sheet Models (ISMs), namely PSU and GRISLI. These two ISMs differ mainly in the ice stream parametrization and in the complexity with which grounding line migration is treated. A particular focus in this study is given to the Storfjorden glacial system in the north-western Barents Sea. In fact, several palaeo-data from this area furnish insights on the Storfjorden ice stream dynamics history, providing a good testing ground for ISMs. The ISMs are forced with macro-regional indexes representative of the climate evolution over Siberia/Kara Sea, Svalbard/Barents Sea and Fennoscandia during the last deglaciation. The climate in- dexes are based on TraCE-21ka, a transient climate simulation of the last 21,000 years carried out with the Atmosphere-Ocean General Circulation Model CCSM3. Two different ocean basal melting parametrizations based on ice-ocean heat fluxes are tested. The ocean basal melting parametrizations are forced with time-varying ocean ...

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