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Uncertainty quantification of Antarctic contribution to sea-level rise using the fast Elementary Thermomechanical Ice Sheet (f.ETISh) model
Bulthuis, Kevin; Arnst, Maarten; Pattyn, Frank et al.
2017European Geosciences Union General Assembly 2017
 

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Keywords :
uncertainty quantification; sparse-grid methods; ice-sheet simulation; quantification d'incertitudes; méthodes à grilles creuses; simulation glaciaire
Abstract :
[en] Uncertainties in sea-level rise projections are mostly due to uncertainties in Antarctic ice-sheet predictions (IPCC AR5 report, 2013), because key parameters related to the current state of the Antarctic ice sheet (e.g. sub-ice- shelf melting) and future climate forcing are poorly constrained. Here, we propose to improve the predictions of Antarctic ice-sheet behaviour using new uncertainty quantification methods. As opposed to ensemble modelling (Bindschadler et al., 2013) which provides a rather limited view on input and output dispersion, new stochastic methods (Le Maître and Knio, 2010) can provide deeper insight into the impact of uncertainties on complex system behaviour. Such stochastic methods usually begin with deducing a probabilistic description of input parameter uncertainties from the available data. Then, the impact of these input parameter uncertainties on output quantities is assessed by estimating the probability distribution of the outputs by means of uncertainty propagation methods such as Monte Carlo methods or stochastic expansion methods. The use of such uncertainty propagation methods in glaciology may be computationally costly because of the high computational complexity of ice-sheet models. This challenge emphasises the importance of developing reliable and computationally efficient ice-sheet models such as the f.ETISh ice-sheet model (Pattyn, 2015), a new fast thermomechanical coupled ice sheet/ice shelf model capable of handling complex and critical processes such as the marine ice-sheet instability mechanism. Here, we apply these methods to investigate the role of uncertainties in sub-ice-shelf melting, calving rates and climate projections in assessing Antarctic contribution to sea-level rise for the next centuries using the f.ETISh model. We detail the methods and show results that provide nominal values and uncertainty bounds for future sea- level rise as a reflection of the impact of the input parameter uncertainties under consideration, as well as a ranking of the input parameter uncertainties in the order of the significance of their contribution to uncertainty in future sea-level rise. In addition, we discuss how limitations posed by the available information (poorly constrained data) pose challenges that motivate our current research.
Disciplines :
Earth sciences & physical geography
Physical, chemical, mathematical & earth Sciences: Multidisciplinary, general & others
Author, co-author :
Bulthuis, Kevin ;  Université de Liège > Département d'aérospatiale et mécanique > Computational and stochastic modeling
Arnst, Maarten ;  Université de Liège > Département d'aérospatiale et mécanique > Computational and stochastic modeling
Pattyn, Frank;  Université Libre de Bruxelles - ULB > Département des Sciences de la Terre et de l'Environnement > Laboratoire de Glaciologie
Favier, Lionel;  Université Libre de Bruxelles - ULB > Département des Sciences de la Terre et de l'Environnement > Laboratoire de Glaciologie
Language :
English
Title :
Uncertainty quantification of Antarctic contribution to sea-level rise using the fast Elementary Thermomechanical Ice Sheet (f.ETISh) model
Alternative titles :
[fr] Quantification des incertitudes pour la contribution à la montée du niveau marin de la calotte antarctique à l'aide du modèle numérique f.ETISh
Publication date :
April 2017
Event name :
European Geosciences Union General Assembly 2017
Event organizer :
EGU Programme Committee Executive Board
Event place :
Vienna, Austria
Event date :
from 23-04-2017 to 28-04-2017
Audience :
International
Funders :
F.R.S.-FNRS - Fonds de la Recherche Scientifique
Available on ORBi :
since 21 February 2017

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