Reviewed research article Volume estimates of nine Katla tephra layers (∼1860 BC – 870 AD) Bergrún Arna Óladóttir1, Guðrún Larsen2 and Olgeir Sigmarsson2,3 1The Nordic Volcanological Center, Institute of Earth Sciences, University of Iceland 2Institute of Earth Sciences, University of Iceland, Askja, Sturlugata 7, IS-101 Reykjavík, Iceland 3LMV, CNRS - Université Blaise Pascal, Clermont-Ferrand, France Corresponding author: bergrun@hi.is Abstract – Activity of the Katla volcano, under the Mýrdalsjökull ice cap, is characterized by explosive basaltic eruptions and occasional silicic eruptions. Tephrochronology indicates that it has erupted over 300 times during the last ∼8400 years. About 40 soil sections, distributed around the volcano although the majority are located to the east and northeast, have been measured in order to map the thickness of nine selected prehistoric Katla tephra layers, younger than ∼1860 BC (Hekla-S tephra) but older than ∼870 AD (Settlement tephra, Bárðarbunga–Veiðivötn volcanic system). The volume of these layers was calculated from isopach maps, using the Surfer© Golden Software, and compared to published volume estimates of eight historical tephra layers (younger than ∼870 AD), all of which are ≤1 km3 of freshly fallen tephra. Maximum thickness values similar to those applied in the volume estimates of the historical tephra were used. The volume range of the prehistoric tephra layers on land is from 0.2–2.7 km3, with the more voluminous layers being significantly larger and more frequent than those produced by historical eruptions at Katla. The observed volume difference between the two time periods could be related to changes to the magma plumbing system under the Katla volcano. INTRODUCTION Eruption frequencies of many Icelandic volcanic sys- tems in historical time are well known (e.g. Larsen and Eiríksson, 2008a; Óladóttir et al., 2008; see also Sólnes et al., 2013 and refs. therein) and explosive eruption frequency has been estimated for the most active volcanic systems in prehistoric time (Óladóttir et al., 2008; 2011a). However the eruption history of these volcanic systems is only partly known as there is little information available on the magnitude of erup- tions, which is an important factor in understanding volcanism. Tephra deposits are an archive of past volcanic activity containing information on explosive eruption history and can be utilized to model eruption column height, volume and mass of magma erupted, as well as the eruption duration and its intensity (e.g. Carey and Sparks, 1986; Carey and Sigurdsson, 1989; Pyle, 1989; 1995; Fierstein and Nathenson, 1992; Burden et al., 2011; Bonadonna and Costa, 2012; Bonadonna and Houghton, 2005; Burden et al., 2013; Engwell et al., 2013). Erupted volume has mainly been estimated based on isopach maps drawn from point measure- ments of tephra thickness (e.g. Thorarinsson, 1967; Larsen and Thorarinsson, 1977; Pyle, 1989; Fierstein and Nathenson, 1992; Klawonn et al., 2014) using different calculation methods to estimate the proxi- mal thickness (the so-called exponential and Weibull methods; Pyle, 1989; Bonadonna and Costa, 2012). Recently inversion of mass per unit area measure- ments (Connor and Connor, 2006) and statistical mod- els have been applied directly to thickness-versus- distance data (Burden et al., 2013). JÖKULL No. 64, 2014 23

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