Gudmundsson et al. Extensive work has been carried out over the past decades to study Katla and its eruptions, notably the eruption history through tephrochronology and other tephra studies (e.g. Thorarinsson, 1975; Larsen, 2000; Larsen et al., 2001; Óladóttir et al., 2008; 2014; 2018; Schmith et al., 2018), studies of the jökul- hlaup of 1918 (Tómasson, 1996; Duller et al., 2008; Larsen, 2018), glacier and ice bedrock mapping on Mýrdalsjökull (Björnsson et al., 2000; Mackintosh et al., 2000) and through various geophysical moni- toring and research (e.g. Einarsson and Brandsdóttir, 2000; Jónsson and Kristjánsson, 2000; Gudmundsson et al., 1994; Sturkell et al., 2007). However, until now, no comprehensive isopach map has existed for the tephra layer formed in 1918. Conditions for tephra preservation for the Katla 1918 tephra layer were not favourable over large parts of the fallout area, which includes large regions of vegetation-poor highlands and sandur plains in the lowlands. The eruption occurred in late autumn, af- ter the growth period of vegetation. Snow cover is patchy and sporadic in south Iceland in the autumn months, a period of frequent strong winds. These ef- fects contribute to low preservation potential of the tephra. Fallout occurred over an extended period. The most intense fallout in inhabited areas occurred dur- ing 12–14 and 22–24 October (Larsen et al., this is- sue). All of the above resulted in a complicated dis- tribution pattern and considerable variation in tephra thickness in soils. In addition, limited information has been available on tephra thicknesses on the ice cap. The 1918 tephra has been preserved in Mýrdalsjökull and can be accessed on most of the outlet glaciers of the 590 km2 ice cap. In 2018, on the 100th anniver- sary of the eruption, an effort was made to sample the tephra in Mýrdalsjökull and its immediate surround- ings as well as analyse the existing contemporary in- formation on conditions at and around the vents in the south-eastern part of the Katla caldera. In this paper, we combine the results of this work with the exten- sive data on the Katla 1918 tephra layer to compile an isopach map and estimate the volume of tephra erupted. An overview of contemporary records of tephra fallout and of the jökulhlaup is provided in the complementary paper by Larsen et al. (this issue). THE KATLA 1918 ERUPTION The eruption of Katla in 1918 began on October 12. It was preceded by earthquakes that were felt in Mýrdalur. Around 3 PM, an eruption plume was seen rising from Mýrdalsjökull and shortly af- ter a catastrophic jökulhlaup was observed propagat- ing down the outwash plain of Mýrdalssandur to the east of the volcano, carrying huge amounts of water- transported pyroclasts and sediment (e.g. Jóhannsson, 1919; Tómasson, 1996). Contemporary measure- ments from Reykjavík indicate a 14 km high plume in the late afternoon (Eggertsson, 1919). The ini- tial phase was subglacial with extremely high melt- ing rates. The visible eruption was preceded by sound of running water by 1.5–2 hours and seismic tremor by ∼3.5 hours (Larsen et al., this issue). This in- dicates that the subglacial phase lasted 2–3.5 hours. The main jökulhlaup was over by the morning of Oc- tober 13, while the eruption continued until the first days of November, ending on November 4. Fallout persisted throughout with varying intensity (Larsen et al., this issue) and tephra was dispersed in all direc- tions, with the heaviest fallout occurring to the north and northeast of the volcano. Tephra fallout was de- tected in most parts of Iceland (Larsen et al., this is- sue). In terms of tephra volume and jökulhlaup size, Katla 1918 has been classified as belonging to the larger eruptions of Katla in the last thousand years (Larsen, 2000; Gudmundsson et al., 2005). The vents that melted through the glacier were located in the southeastern part of the Katla caldera, near the east- ern rim, along a 1–2 km long volcanic fissure (Larsen and Högnadóttir, this issue; Larsen et al., this issue). The magma erupted in 1918 was basaltic, typical for eruptions from Katla (e.g. Óladóttir et al., 2008). The tephra is relatively fine-grained, showing clear evidence of brittle fragmentation by magma-water in- teraction for long periods during the eruption (Jóns- dóttir, 2015). DATA AND METHODS Thickness measurements of the Katla 1918 layer have been made over several decades in soil sections. Fig- ure 1 summarises the data used for compilation of the isopach map. Sigurður Þórarinsson published mea- 22 JÖKULL No. 71, 2021

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