Þorsteinsdóttir et al. basaltic Katla tephra was quenched by contact with water in hydromagmatic/phreatomagmatic eruptions. This indicates that the caldera was never ice-free dur- ing the last 8400 years, or at least there was water present. It is assumed that the silicic eruptions have been taking place under similar conditions as the basaltic Katla eruptions, under environmental condi- tions dominated by ice and meltwater. Dispersal maps exist for six silicic tephra layers and the distribution and the shape of the tephra lobes of these silicic eruptions suggest that they were rather short-lived, with a relatively low eruption plume (Lar- sen et al., 2001). Volume calculations of these six silicic tephra layers (Table 2) show that the silicic eruptions were generally smaller than known basaltic eruptions (Larsen et al., 2001; Larsen, 2010, Óladóttir et al., 2014). Silicic Katla tephra of Holocene age has nevertheless been found overseas, e.g. in the Faroe Islands and Ireland (Hall and Pilcher, 2002; Waste- gård, 2002) and as ocean-transported pumice. e.g. on the coasts of Scotland, Norway and Svalbard (Newton 1999; Larsen et al., 2001). These silicic Katla erup- tions were classified as hydromagmatic by Larsen et al. (2001). This silicic tephra from Katla volcano has specific characteristics in the field. Most of them are of olive- green to grey-green color and have elongated glass grains in varying amounts. Three of the 17 known silicic tephra layers have more distinctive characteris- tics. This difference lies both in the size and shape of the grains, as the grains are prominently needle shaped. The term „needle layer“ was first used about these layers by Ólafsson et al. (1984), the prefix SILK (silicic Katla layer) was added later (Larsen, 2000). The needles form when vesicles are drawn out into tubes, often flattened, with very thin walls that break into needle-like grains or thin glass plates (Figure 3). The needle grains are very delicate and brittle because of these thin walls. The elongated grains have been measured up to more than 8 cm long and 1–2 cm wide. More equant grains, sometimes massive, occur as well in most of the layers. The needle layers have a very unusual appearance and are unique in Iceland, al- though there are some characteristic features in these layers, thin flat grains, that are similar to the tephra that was formed in the Öræfajökull eruption in 1362 (Larsen, 2000; Thorsteinsdóttir, 2012). It is worth mentioning that Dr. Grant Heiken, author of the Atlas Table 2. Volumes of the youngest six SILK tephra lay- ers on land. CPT stands for compacted tephra vol- ume and UCP uncompacted or freshly fallen tephra (Larsen et al., 2001). – Rúmmál yngstu sex SILK gjóskulaganna (á landi). CPT er rúmmál á samþjapp- aðri gjósku og UCP rúmmál á ósamþjappaðri eða ný- fallinni gjósku. SILK Tephra CPT km3 UCP km3 Layer YN 0.04 0.08 Layer UN 0.16 0.27 Layer MN 0.03 0.05 Layer LN 0.12 0.20 Layer N4 0.07 0.11 Layer N2 0.04 0.06 Figure 3. Grains of silicic Katla (SILK) tephra. The largest grains are about 4 cm long. – Korn súrrar Kötlu (SILK) gjósku (Ljósm./Photo. Guðrún Larsen). 72 JÖKULL No. 66, 2016

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