E. Magnússon et al. (Gudmundsson and Högnadóttir, 2007; Guðmunds- son, 1999) suggesting that the area of volcanic activity has been propagating southwards. Further geological studies are however needed to verify if this hypothet- ical caldera is real. CONCLUSIONS A detailed analysis of RES-data from Öræfajökull and an accurate high resolution surface DEM have been used to construct a comprehensive DEM of the bedrock underneath the ice cap of Öræfajökull and the distribution of ice stored within it. Based on this we make the following key observations: The ice in the ablation area of Öræfajökull is up to 550 m thick, covering deep troughs, which reach more than 200 m below current sea level. It would take ∼4000 years to excavate these troughs into a pre- existing sediment plain given the present rate of sed- iment transport in the main rivers draining from Ör- æfajökull. Hence it is unlikely that the troughs were entirely formed during the Little Ice Age. Large lakes will probably replace the glacier in these troughs in the coming decades. The distribution of ice volume and area of the out- let glaciers of Öræfajökull vary significantly suggest- ing a variable glacier response to changes in climatic conditions from one outlet glacier to another. The high accumulation area of some glaciers (e.g. Kvíár- jökull) will secure their existence in the foreseeable future while relatively little but permanent tempera- ture change (0.5–1.0 ◦C) resulting in ∼100 m rise in ELA may cause others (e.g. Morsárjökull) to decrease to only a fraction of their present size or disappear completely. The caldera of Öræfajökull holds 4.3 km3 of ice and the maximum ice thickness is 540 m. Most of the caldera lies within the Kvíá drainage basin, while the remainder is mainly within the Virkisá river basin. The lowest pass cutting the caldera rim is at ∼1570 m a.s.l., located underneath Kvíárjökull. Hence, if all the ice mass within the caldera were melted during an eruption but the bedrock topogra- phy would remain intact, 1/3 of the meltwater would remain within the caldera, putting the upper limit of flood water volume down to ∼2.6 km3. The second main pass, towards Fall- and Virkisjökull, is at ∼1610 m a.s.l. The floor of the caldera is smooth and volcanic features appear almost absent. An exception is a mound near the water divides between Kvíá and Virk- isá drainage basins beneath 400 m of ice. An eruption at this location may cause massive jökulhlaups both towards east beneath Kvíárjökull and west beneath Virkis- and Falljökull. A topographic step within the caldera suggests a separate and probably more recent caldera formation, ∼150 m deep and ∼6 km2 in area. Acknowledgements The Iceland Glaciological Society, Iceland Road Ad- ministration and Landsvirkjun (the National Power Company of Iceland) are thanked for assisting the RES survey of Öræfajökull. Óliver Hilmarsson, Einar Ísfeld Steinarsson, Alexander H. Jarosch, Hlynur Skagfjörð, Haukur Elvar Hafsteinsson, Sveinbjörn Steinþórsson, Ágúst Þór Gunnlaugsson and Sigurlína Héðinsdóttir are thanked for field work assistance. Kvískerjasjóður Fund and the Parliament of Iceland supported the work financially. The field work in 2012 was funded through the Icelandic Meteorolog- ical Office, by the Icelandic government’s integrated risk assessment program for volcanoes in Iceland. Fi- nancial support for LiDAR mapping of glaciers in Iceland has been provided by the Research Fund of Iceland, Landsvirkjun Research Fund, the Icelandic Road Administration, the Reykjavík Energy Environ- mental and Energy Research Fund, the National Land Survey of Iceland, and the Klima- og Luftgruppen (KoL) research fund of the Nordic Council of Min- isters. SPOT 5 images were made available by the International Polar Year SPIRIT project. This publi- cation is contribution number 16 of the Nordic Cen- tre of Excellence SVALI, ’Stability and Variations of Arctic Land Ice’, funded by the Nordic Top-level Ini- tiative (TRI). We thank Þorvaldur Þórðarson and an anonymous reviewer for very constructive reviews, that helped to improve the paper. Leó Kristjánsson is thanked for thorough proofreading of the manuscript. 148 JÖKULL No. 62, 2012

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