Sensitivity of the current Antarctic surface mass balance to sea surface conditions using MAR

peer reviewed Estimates for the recent period and projections of the Antarctic surface mass balance (SMB) often rely on high-resolution polar-oriented regional climate models (RCMs). However, RCMs require large-scale boundary forcing fields prescribed by reanalyses or general circulation models (GCM...

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Bibliographic Details
Published in:The Cryosphere
Main Authors: Kittel, Christoph, Amory, Charles, Agosta, Cécile, Delhasse, Alison, Doutreloup, Sébastien, Huot, Pierre-Vincent, Wyard, Coraline, Fichefet, Thierry, Fettweis, Xavier
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Group 2018
Subjects:
Antarctic
SMB
Sea Surface Conditions
Ice sheet
Physical
chemical
mathematical & earth Sciences
Earth sciences & physical geography
Physique
chimie
mathématiques & sciences de la terre
Sciences de la terre & géographie physique
Southern Ocean
The Antarctic
Antarc*
Ice Sheet
Sea ice
The Cryosphere
Online Access:https://orbi.uliege.be/handle/2268/229973
https://orbi.uliege.be/bitstream/2268/229973/1/tc-12-3827-2018.pdf
https://doi.org/10.5194/tc-12-3827-2018
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Summary:peer reviewed Estimates for the recent period and projections of the Antarctic surface mass balance (SMB) often rely on high-resolution polar-oriented regional climate models (RCMs). However, RCMs require large-scale boundary forcing fields prescribed by reanalyses or general circulation models (GCMs). Since the recent variability of sea surface conditions (SSCs, namely sea ice concentration, SIC, and sea surface temperature, SST) over the Southern Ocean is not reproduced by most GCMs from the 5th phase of the Coupled Model Intercomparison Project (CMIP5), RCMs are then subject to potential biases. We investigate here the direct sensitivity of the Antarctic SMB to SSC perturbations around the Antarctic. With the RCM “Modèle Atmosphérique Régional” (MAR), different sensitivity experiments are performed over 1979–2015 by modifying the ERA-Interim SSCs with (i) homogeneous perturbations and (ii) mean anomalies estimated from all CMIP5 models and two extreme ones, while atmospheric lateral boundary conditions remained unchanged. Results show increased (decreased) precipitation due to perturbations inducing warmer, i.e. higher SST and lower SIC (colder, i.e. lower SST and higher SIC), SSCs than ERA-Interim, significantly affecting the SMB of coastal areas, as precipitation is mainly related to cyclones that do not penetrate far into the continent. At the continental scale, significant SMB anomalies (i.e greater than the interannual variability) are found for the largest combined SST/SIC perturbations. This is notably due to moisture anomalies above the ocean, reaching sufficiently high atmospheric levels to influence accumulation rates further inland. Sensitivity experiments with warmer SSCs based on the CMIP5 biases reveal integrated SMB anomalies (+5 % to +13 %) over the present climate (1979–2015) in the lower range of the SMB increase projected for the end of the 21st century.

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