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Comparing three different methods to model scenarios of future glacier change in the Swiss Alps

Linsbauer, Andreas ; Paul, Frank ; Machguth, Horst ; [et al.]

International Glaciological Society ; 2013

In: Annals of Glaciology Vol. 54, No. 63 ( 2013), p. 241-253

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In: Annals of Glaciology, International Glaciological Society, Vol. 54, No. 63 ( 2013), p. 241-253

Abstract: Ongoing atmospheric warming causes rapid shrinking of glaciers in the European Alps, with a high chance of their near-complete disappearance by the end of the 21st century. Here we present a comparison of three independent approaches to model the possible evolution of the glaciers in the Swiss Alps over the 21st century. The models have different levels of complexity, work at a regional scale and are forced with three scenarios of temperature increase (low, moderate, high). The moderate climate scenario gives an increase in air temperature of ∼2°C and ∼4°C for the two scenario periods 2021-50 and 2070-99, respectively, resulting in an area loss of 60-80% by 2100. In reality, the shrinkage could be even faster, as the observed mean annual thickness loss is already stronger than the modelled one. The three approaches lead to rather similar results with respect to the overall long-term evolution. The choice of climate scenarios produces the largest spread (∼40%) in the final area loss, while the uncertainty in present-day ice-thickness estimation causes about half this spread.

Type of Medium: Online Resource

ISSN: 0260-3055 , 1727-5644

URL: Article

DOI: 10.3189/2013AoG63A400

Language: English

Publisher: International Glaciological Society

Publication Date: 2013

detail.hit.zdb_id: 2122400-6

SSG: 14

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Distributed glacier mass-balance modelling as an important component of modern multi-level glacier monitoring

Machguth, Horst ; Paul, Frank ; Hoelzle, Martin ; [et al.]

International Glaciological Society ; 2006

In: Annals of Glaciology Vol. 43 ( 2006), p. 335-343

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In: Annals of Glaciology, International Glaciological Society, Vol. 43 ( 2006), p. 335-343

Abstract: Modern concepts of worldwide glacier monitoring include numerical models for (1) interconnecting the different levels of observations (local mass balance, representative length change, glacier inventories for global coverage) and (2) extrapolations in space (coupling with climate models) and time (backward and forward). In this context, one important new tool is distributed mass-balance modelling in complex mountain topography. This approach builds on simplified energy-balance models and can be applied for investigating the spatio-temporal representativity of the few mass-balance measurements, for estimating balance values at the tongue of unmeasured glaciers in order to derive long-term average balance values from a great number of glaciers with known length change, and for assessing special effects such as the influence of Sahara dust falls on the albedo and mass balance or autocorrelation effects due to surface darkening of glaciers with strongly negative balances. Experience from first model runs in the Swiss Alps and from applications to the extreme conditions in summer 2003 provides evidence about the usefulness of this approach for glacier monitoring and analysis of glacier changes in high-mountain regions. The main difficulties concern the spatial variability of the input parameters (e.g. precipitation, snow cover and surface albedo) and the uncertainties in the parameterizations of the components of the energy balance. Field measurements remain essential to tie the models to real ground conditions.

Type of Medium: Online Resource

ISSN: 0260-3055 , 1727-5644

URL: Article

DOI: 10.3189/172756406781812285

Language: English

Publisher: International Glaciological Society

Publication Date: 2006

detail.hit.zdb_id: 2122400-6

SSG: 14

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Mass-balance parameters derived from a synthetic network of mass-balance glaciers

Machguth, Horst ; Haeberli, Wilfried ; Paul, Frank

International Glaciological Society ; 2012

In: Journal of Glaciology Vol. 58, No. 211 ( 2012), p. 965-979

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In: Journal of Glaciology, International Glaciological Society, Vol. 58, No. 211 ( 2012), p. 965-979

Abstract: Glacier mass-balance parameters such as the equilibrium-line altitude (ELA) play an important role when working with large glacier samples. While the number of observational mass-balance series to derive such parameters is limited, more and more modeled data are becoming available.Here we explore the possibilities of analyzing such 'synthetic' mass-balance data with respect to mass-balance parameters. A simplified energy-balance model is driven by bias-corrected regional climate model output to model mass-balance distributions for 94 glaciers in the Swiss Alps over 15 years. The modeling results in realistic interannual variability and mean cumulative mass balance. Subsequently model output is analyzed with respect to 18 topographic and mass-balance parameters and a correlation analysis is performed. Well-known correlations such as for ELA and median elevation are confirmed from the synthetic data. Furthermore, previously unreported parameter relationships are found such as a correlation of the balance rate at the tongue with the accumulation-area ratio (AAR) and of the glacier elevation range with the AAR. Analyzing modeled data complements in situ observations and highlights their importance: the small number of accurate mass-balance observations available for validation is a major challenge for the presented approach.

Type of Medium: Online Resource

ISSN: 0022-1430 , 1727-5652

URL: Article

DOI: 10.3189/2012JoG11J223

Language: English

Publisher: International Glaciological Society

Publication Date: 2012

detail.hit.zdb_id: 2140541-4

SSG: 14

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