Abstract
Abstract. Landsat imagery was applied to elucidate glacier fluctuations of land- and marine-terminating outlet glaciers from the Greenland Ice Sheet (GrIS) and local land-terminating glaciers and ice caps (GIC) peripheral to the GrIS in the Ammassalik region, Southeast Greenland, during the period 1972–2011. Data from 21 marine-terminating glaciers (including the glaciers Helheim, Midgaard, and Fenris), the GrIS land-terminating margin, and 35 GIC were examined and compared to observed atmospheric air temperatures, precipitation, and reconstructed ocean water temperatures (at 400 m depth in the Irminger Sea). Here, we document that net glacier recession has occurred since 1972 in the Ammassalik region for all glacier types and sizes, except for three GIC. The land-terminating GrIS and GIC reflect lower marginal and areal changes than the marine-terminating outlet glaciers. The mean annual land-terminating GrIS and GIC margin recessions were about three to five times lower than the GrIS marine-terminating recession. The marine-terminating outlet glaciers had an average net frontal retreat for 1999–2011 of 0.098 km yr−1, which was significantly higher than in previous sub-periods 1972–1986 and 1986–1999. For the marine-terminating GrIS, the annual areal recession rate has been decreasing since 1972, while increasing for the land-terminating GrIS since 1986. On average for all the observed GIC, a mean net frontal retreat for 1986–2011 of 0.010 ± 0.006 km yr−1 and a mean areal recession of around 1% per year occurred; overall for all observed GIC, a mean recession rate of 27 ± 24% occurred based on the 1986 GIC area. Since 1986, five GIC melted away in the Ammassalik area.
Highlights
The Greenland Ice Sheet (GrIS) – land- and marineterminating outlet glaciers on the periphery of the GrIS – and local land-terminating glaciers and ice caps (GIC) peripheral to the GrIS have undergone rapid changes over the last decades
For 1999–2011, the mean net recession rate was 0.098 ± 0.171 km yr−1, which is in accordance with the mean net recession rate of 0.11 km yr−1 for 210 GrIS marine-terminating outlet glaciers (2000–2010) determined by Howat and Eddy (2011)
All five glaciers are outlets from the GrIS, receiving ice from the interior of the ice sheet, having the largest GrIS catchment areas within the Ammassalik region and probably the greatest ice thickness and more susceptible to enhanced submarine melting via warmer water intruding beneath the ice, than the other observed outlet glaciers
Summary
The Greenland Ice Sheet (GrIS) – land- and marineterminating outlet glaciers on the periphery of the GrIS – and local land-terminating glaciers and ice caps (GIC) peripheral to the GrIS have undergone rapid changes over the last decades. Most notable changes are thinning, leading to destabilization and accelerated retreat of GrIS marine-terminating glaciers (Joughin et al, 2004, 2010; Howat et al, 2005, 2008; Rignot and Kanagaratnam, 2006; Moon and Joughin, 2008; Nick et al, 2009), and increasing mass loss, thinning, and retreat of land-terminating GIC (Yde and Knudsen, 2007; Mernild et al, 2011a; Radicand Hock, 2011). Howat and Eddy (2011) identified changes in ice-frontal positions from 210 GrIS marine-terminating glaciers with fronts wider than 1 km (spanning nearly four decades, 1972– 2010). These results show a trend of accelerated recession, where 90 % of the observed glaciers receded between 2000 and 2010. The imagery gives us the possibility to map “snapshots” and the averaged
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