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Climatic controls and climate proxy potential of Lewis Glacier, Mt. Kenya

Prinz, R. ; Nicholson, L. I. ; Mölg, T. ; [et al.]

Copernicus GmbH ; 2016

In: The Cryosphere Vol. 10, No. 1 ( 2016-01-18), p. 133-148

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In: The Cryosphere, Copernicus GmbH, Vol. 10, No. 1 ( 2016-01-18), p. 133-148

Abstract: Abstract. The Lewis Glacier on Mt. Kenya is one of the best studied tropical glaciers and has experienced considerable retreat since a maximum extent in the late 19th century (L19). From distributed mass and energy balance modelling, this study evaluates the current sensitivity of the surface mass and energy balance to climatic drivers, explores climate conditions under which the L19 maximum extent might have been sustained, and discusses the potential for using the glacier retreat to quantify climate change. Multi-year meteorological measurements at 4828 m provide data for input, optimization, and evaluation of a spatially distributed glacier mass balance model to quantify the exchanges of energy and mass at the glacier–atmosphere interface. Currently the glacier loses mass due to the imbalance between insufficient accumulation and enhanced melt, because radiative energy gains cannot be compensated by turbulent energy sinks. Exchanging model input data with synthetic climate scenarios, which were sampled from the meteorological measurements and account for coupled climatic variable perturbations, reveals that the current mass balance is most sensitive to changes in atmospheric moisture (via its impact on solid precipitation, cloudiness, and surface albedo). Positive mass balances result from scenarios with an increase of annual (seasonal) accumulation of 30 % (100 %), compared to values observed today, without significant changes in air temperature required. Scenarios with lower air temperatures are drier and associated with lower accumulation and increased net radiation due to reduced cloudiness and albedo. If the scenarios currently producing positive mass balances are applied to the L19 extent, negative mass balances are the result, meaning that the conditions required to sustain the glacier in its L19 extent are not reflected in today's meteorological observations using model parameters optimized for the present-day glacier. Alternatively, a balanced mass budget for the L19 extent can be achieved by changing both climate and optimized gradients (used to extrapolate the meteorological measurements over the glacier) in a manner that implies a distinctly different coupling between the glacier's local surface-air layer and its surrounding boundary layer. This result underlines the difficulty of deriving palaeoclimates for larger glacier extents on the basis of modern measurements of small glaciers.

Type of Medium: Online Resource

ISSN: 1994-0424

URL: Article

DOI: 10.5194/tc-10-133-2016

Language: English

Publisher: Copernicus GmbH

Publication Date: 2016

detail.hit.zdb_id: 2393169-3

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Modeling energy and mass balance of Shallap Glacier, Peru

Gurgiser, W. ; Marzeion, B. ; Nicholson, L. ; [et al.]

Copernicus GmbH ; 2013

In: The Cryosphere Vol. 7, No. 6 ( 2013-11-22), p. 1787-1802

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In: The Cryosphere, Copernicus GmbH, Vol. 7, No. 6 ( 2013-11-22), p. 1787-1802

Abstract: Abstract. We calculated the distributed surface mass and energy balance of Shallap Glacier, Cordillera Blanca, Peru (9° S, 77° W, 4700–5700 m a.s.l., ~ 7 km2), on hourly time steps for two years (September 2006–August 2008) using a process-based model and meteorological measurements as input. Model parameter combinations were optimized against 21 temporal readings of 20 stakes in the ablation zone of the glacier. Uncertainty caused by model input parameters and parameterization schemes was estimated using a leave-one out cross-validation scheme, which yields values of root mean square deviation (RMSD) of surface height change 〈 1 m (〈 10% of the measured amplitude) for all stakes. With the best parameter combination (smallest RMSD) applied, the modeled annual surface mass balance of the glacier was −0.32 ± 0.4 m w.e. (water equivalent) for September 2006–August 2007 and 0.51 ± 0.56 m w.e. for September 2007–August 2008. While the mass balance above 5000 m was similar in both years (Δ 0.33 ± 0.68 m w.e.) due to similar annual sums of solid precipitation, a difference of 1.97 ± 0.68 m w.e. was calculated for the lower parts of the glacier. This difference is associated with more frequent occurrence of higher snow line altitudes during the first year, which was mainly caused by a higher fraction of liquid precipitation due to higher mean air temperatures. As the net shortwave budget was found to be the main source for ablation throughout the year at Shallap Glacier, lower surface albedo especially caused by lower solid precipitation amounts explains most of the difference in modeled ablation and mass balance between the two years.

Type of Medium: Online Resource

ISSN: 1994-0424

URL: Article

DOI: 10.5194/tc-7-1787-2013

DOI: 10.5194/tc-7-1787-2013-supplement

Language: English

Publisher: Copernicus GmbH

Publication Date: 2013

detail.hit.zdb_id: 2393169-3

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ENSO influence on surface energy and mass balance at Shallap Glacier, Cordillera Blanca, Peru

Maussion, F. ; Gurgiser, W. ; Großhauser, M. ; [et al.]

Copernicus GmbH ; 2015

In: The Cryosphere Vol. 9, No. 4 ( 2015-08-21), p. 1663-1683

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In: The Cryosphere, Copernicus GmbH, Vol. 9, No. 4 ( 2015-08-21), p. 1663-1683

Abstract: Abstract. The El Niño/Southern Oscillation (ENSO) is a major driver of climate variability in the tropical Andes, where recent Niño and Niña events left an observable footprint on glacier mass balance. The nature and strength of the relationship between ENSO and glacier mass balance, however, varies between regions and time periods, leaving several unanswered questions about its exact mechanisms. The starting point of this study is a 4-year long time series of distributed surface energy and mass balance (SEB/SMB) calculated using a process-based model driven by observations at Shallap Glacier (Cordillera Blanca, Peru). These data are used to calibrate a regression-based downscaling model that links the local SEB/SMB fluxes to atmospheric reanalysis variables on a monthly basis, allowing an unprecedented quantification of the ENSO influence on the SEB/SMB at climatological time scales (1980–2013, ERA-Interim period). We find a stronger and steadier anti-correlation between Pacific sea-surface temperature (SST) and glacier mass balance than previously reported. This relationship is most pronounced during the wet season (December–May) and at low altitudes where Niño (Niña) events are accompanied with a snowfall deficit (excess) and a higher (lower) radiation energy input. We detect a weaker but significant ENSO anti-correlation with total precipitation (Niño dry signal) and positive correlation with the sensible heat flux, but find no ENSO influence on sublimation. Sensitivity analyses comparing several downscaling methods and reanalysis data sets resulted in stable mass balance correlations with Pacific SST but also revealed large uncertainties in computing the mass balance trend of the last decades. The newly introduced open-source downscaling tool can be applied easily to other glaciers in the tropics, opening new research possibilities on even longer time scales.

Type of Medium: Online Resource

ISSN: 1994-0424

URL: Article

DOI: 10.5194/tc-9-1663-2015

Language: English

Publisher: Copernicus GmbH

Publication Date: 2015

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