Abstract
Over recent decades, glaciers outside of Greenland and Antarctica have displayed accelerating rates of mass loss and ice-frontal retreat, and this has been associated with unequivocal climatic and oceanic warming. Icelandic glaciers are particularly sensitive to climate variations on short-term timescales owing to their maritime setting, and have shown rapid rates of retreat and mass loss during the past decade. This study uses annual moraine spacing as a proxy for ice-frontal retreat to examine variability in glacier retreat at Skalafellsjokull, SE Iceland, over the last ~80 years. Two pronounced six-year periods (1936–1941 and 1951–1956) of ice-frontal retreat are recognised in the record for comparison with the most recent phase of retreat (2006–2011), and these three retreat phases are shown to be similar in style and magnitude. Analysis of climate data indicates that these periods of glacier retreat are associated with similar summer air temperature values, which is a key control on Icelandic terminus variations. This demonstrates that both the most recent phase of ice-frontal retreat at Skalafellsjokull and the recent warming of summer temperatures are not unusual in the context of the last ~80 years. These findings demonstrate the importance of placing observations of contemporary glacier change in a broader decadal- to centennial-scale context.
Highlights
Glaciers are losing mass in response to unequivocal atmospheric and oceanic warming, according to the Intergovernmental Panel on Climate Change [31]
More pronounced glacier recession again occurred during the mid-1950s, before ice-frontal retreat slowed in the early 1960s
This appears to be a common pattern across all Icelandic nonsurge-type glaciers, with many of them advancing to varying degrees during the 1960s
Summary
Glaciers are losing mass in response to unequivocal atmospheric and oceanic warming, according to the Intergovernmental Panel on Climate Change [31]. This mass loss has contributed to global mean sea-level rise, with mass loss from glaciers and ice-caps accounting for the majority of the recent cryospheric contribution (*56 % between 1993 and 2010 [31]). Studies have demonstrated that Icelandic glaciers have undergone rapid rates of ice-frontal retreat and mass loss An assessment of ongoing ice-frontal retreat at other Icelandic outlets is, of key importance to placing the present period of atmospheric warming and associated glacier retreat in a broader centennial context
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