Abstract
AbstractIcelandic glaciers cover ∼11 000 km2 in area and store ∼3600 km3 of ice. Starting in 2008 during the International Polar Year, accurate digital elevation models (DEMs) of the glaciers are being produced with airborne lidar. More than 90% of the glaciers have been surveyed in this effort, including Vatnajökull, Hofsjökull, Myrdalsjökull, Drangajökull, Eyjafjallajökull and several smaller glaciers. The publicly available DEMs are useful for glaciological and geological research, including studies of ice-volume changes, estimation of bias in mass-balance measurements, studies of jökulhlaups and subglacial lakes formed by subglacial geothermal areas, and for mapping of crevasses. The lidar mapping includes a 500-1000 m wide ice-free buffer zone around the ice margins which contains many glacio-geomorphological features, and therefore the new DEMs have proved useful in geological investigations of proglacial areas. Comparison of the lidar DEMs with older maps confirms the rapid ongoing volume changes of the Icelandic ice caps which have been shown by mass-balance measurements since 1995/96. In some cases, ice-volume changes derived by comparing the lidar measurements with older DEMs are in good agreement with accumulated ice-volume changes derived from traditional mass-balance measurements, but in other cases such a comparison indicates substantial biases in the traditional mass-balance records.
Highlights
It is likely that climate change in the coming decades will lead to the most rapid environmental changes that have occurred in Iceland for many centuries (Bjornsson and others, 2008), with widespread retreat and thinning of ice caps and glaciers as a consequence
The lidar digital elevation models (DEMs) have been compared with available DEMs since $1980 for five ice caps and glaciers to derive spatial and temporal patterns of ice-volume changes in different regions of Iceland
A similar value of b % –0.5 m w.e. a–1 is obtained if all the volume change derived from the difference between the Defense Mapping Agency (DMA) and lidar DEMs is assumed to have taken place after 1996 when the mass balance of Icelandic glaciers first became strongly negative according to massbalance measurements (Bjornsson and Palsson, 2008)
Summary
It is likely that climate change in the coming decades will lead to the most rapid environmental changes that have occurred in Iceland for many centuries (Bjornsson and others, 2008), with widespread retreat and thinning of ice caps and glaciers as a consequence. The lidar DEMs have been compared with available DEMs since $1980 for five ice caps and glaciers to derive spatial and temporal patterns of ice-volume changes in different regions of Iceland.
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