Surface and bedrock topography of the Mýrdalsjökull ice cap, Iceland: The Katla caldera, eruption sites and routes of jökulhlaups Helgi Björnsson, Finnur Pálsson and Magnús T. Guðmundsson Science Institute, University of Iceland, Hagi, Hofsvallagata 53, IS-107 Reykjavík, Iceland Abstract – Radio echo soundings have revealed a large caldera beneath the Mýrdalsjökull ice cap. The caldera encircles an area of 100 km , is 600 to 750 m deep and its highest rims reach 1380 m a.s.l. Three major outlet glaciers have eroded 300 to 600 m deep breaches into the caldera rim. The northern part of the caldera floor, where an area of 25 km is below 800 m, is smoother and lies deeper than the southern part, which is character- ized by subglacial ridges and individual mounts rising from 750 m a.s.l. to about 1100 m. A number of ridges radiate out from the caldera, however, none toward south. One ridge strikes west toward the neighbouring volcano Eyjafjallajökull, and a second ridge strikes E from the eastern rim of the caldera. Ridges also radiate from the caldera rim toward NW, N, and NE. A linear depression, bounded by steep slopes, 200-250 m deep and 1.5 km wide, strikes NE toward the volcanic fissure Eldgjá. Twenty eruptions have been documented from the caldera during the last 1100 years, all causing catastrophic jökulhlaups. Over the last four centuries eruptions have occurred on single vents and volcanic fissures trending both E-W and S-N. We suggest that the largest eruption of the last millennium (1755 A.D.) took place on a several kilometers long fissure trending east from Goðabunga; and the eruptions of 1823 and 1918 on a northerly striking ridge from the eastern rim of Háa- bunga. At present, meltwater drains southeastward, down to Mýrdalssandur, from an area of 60 km within the caldera. All but two of the 20 recorded jökulhlaups in historical times have taken this path. An area of about 20 km within the caldera drains to the southwest, down to Sólheimasandur. Two jökulhlaups are known to have taken this route to the river Jökulsá á Sólheimasandi in historical times. A third route, northwestward into Fremri Emstruá and the Markarfljót river, was taken by a prehistoric jökulhlaup in 1600 B.P. Presently, geot- hermal activity is displayed by several small cauldrons, 0.5-1 km in diameter on the glacier surface. Meltwater accumulates beneath two or three of these cauldrons and is frequently drained in small jökulhlaups. INTRODUCTION The Mýrdalsjökull ice cap is the fourth largest glacier in Iceland, with a total area of 600 km . The glacier rises 1300-1500 m above the surrounding low- land (Figure 1), receives heavy winter precipitation, has high rates of summer melting and is thus drained by many rivers. Located at the southern tip of the propagating Eastern Volcanic Zone, the ice cap is underlain by a highly active central volcano contain- ing a large caldera. The caldera, together with a 80 km northeast-trending fissure swarm, comprise the Katla volcanic system (Jakobsson, 1979; Jóhannes- son et al., 1990). The volcanic system has been acti- ve over several hundred thousand years and the basal mountains consist of hyaloclastites from glacial per- iods (Robson, 1957; Jakobsson, 1979). The caldera subsidence may date from the Pleistocene (Sæmunds- son, 1982) and ash layers originating from the volcano have been identified in the GRIP ice core dating from 75,400 and 77,500 years B.P. (Grönvold et al., 1995). An eruption producing more than 10 km
of tephra in 12,000 years B.P. may have contributed to its formation (Lacasse et al., 1995; Sigurðsson et al., 1995). During the Holocene 150 to 200 eruptions may have taken place in the volcanic system both on short volcanic fissures and single vents (Larsen, JÖKULL No. 49 29

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