Annual and inter-annual variability and trends of albedo of Icelandic glaciers

Andri Gunnarsson*, Sigurdur M. Gardarsson, Tómas Jóhannesson, Óli G.B. Sveinsson, Finnur Pálsson

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

During the melt season, absorbed solar energy, modulated at the surface predominantly by albedo, is one of the main governing factors controlling surface-melt variability for glaciers in Iceland. Using MODIS satellite-derived daily surface albedo, a gap-filled temporally continuous albedo product is derived for the melt season (May to August (MJJA)) for the period 2000-2019. The albedo data are thoroughly validated against available in situ observations from 20 glacier automatic weather stations for the period 2000-2018. The results show that spatiooral patterns for the melt season have generally high annual and inter-annual variability for Icelandic glaciers, ranging from high fresh-snow albedo of about 85 %-90 % in spring to 5 %-10 % in the impurity-rich bare-ice area during the peak melt season. The analysis shows that the volcanic eruptions in 2010 and 2011 had significant impact on albedo and also had a residual effect in the following years. Furthermore, airborne dust, from unstable sandy surfaces close to the glaciers, is shown to enhance radiative forcing and decrease albedo. A significant positive albedo trend is observed for northern Vatnajökull while other glaciers have non-significant trends for the study period. The results indicate that the high variability in albedo for Icelandic glaciers is driven by climatology, i.e. snow metamorphosis, tephra fallout during volcanic eruptions and their residual effects in the post-eruption years, and dust loading from widespread unstable sandy surfaces outside the glaciers. This illustrates the challenges in albedo parameterization for glacier surface-melt modelling for Icelandic glaciers as albedo development is driven by various complex phenomena, which may not be correctly captured in conventional energy-balance models.

Original languageEnglish
Article number547
Pages (from-to)547-570
Number of pages24
JournalCryosphere
Volume15
Issue number2
DOIs
Publication statusPublished - 8 Feb 2021

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