Holocene eruptions within the Katla volcanic system, tween cloud and ground also occur. People and live- stock have occasionally been killed by lightning, even at distances of 30 km from the volcano (S.t.s. Ísl. IV, 1907-1915). In the 1918 eruption the telephone could not be used nor electricity maintained for extended pe- riods of time (G. Sveinsson, 1919). Other electrical phenomena, such as St. Elmo’s fire, are also reported. Lightning may be the most serious - and the most un- derestimated - hazard of future Katla eruptions. Explosive silicic Katla (Sil-K) eruptions Explosive silicic Katla eruptions have only recently been recognized as a distinct phase in the Holocene activity of the Katla volcanic system (Larsen, 1994; Larsen et al., in press). Such eruptions were not ob- served or described during historical time. A few of the tephra layers produced in these eruptions were previously known as significant key layers in the re- gional tephrochronology of S-Iceland (Larsen, 1984) due to their distinct grain characteristics and easy identification and correlation in the field. Others have only recently been mapped. Some 12 Holocene silicic tephra layers originat- ing below the Mýrdalsjökull ice cap have been identi- fied so far (Larsen et al., in press). All were erupted between ca. 1700 yrs BP and ca. 6600 yrs BP (Ta- ble 3 and Figure 5). Older layers are found but their origin has not been verified. The location of the vent area below the ice cap can be inferred by plotting the axes of some of the silicic tephra layers (Figure 6). The axes of two bilobate tephra layers meet within the caldera, indicating a vent area near its centre. Vents at the caldera fracture cannot be excluded in other cases. Silicic domes are found at the caldera rim and some of them, e.g. at E-Kötlukollur, are thought to be of late-glacial age as they have chemical characteristics similar to pre-Holocene tephra from the Katla system (Lacasse et al., 1995). Some of the Holocene sili- cic tephra layers may be part of dome-forming erup- tions. The caldera is unlikely to have been icefree during prolonged periods of the Holocene and the silicic magma was most likely erupted under similar conditions as the basaltic magma, in the presence of ice/meltwater in hydromagmatic explosive eruptions. Table 3. Radiocarbon dates and estimated age of silicic tephra layers from the Katla system. (From Larsen et al., in press). – Geislakolsaldur og áætl- aður aldur súru gjóskulaganna frá Kötlu (samkvæmt Guðrúnu Larsen o.fl., í prentun). SILK tephra Age B.P. Lab. no Layer YN 1676  12 GU-7091 Layer UN 2660  50 SSR-2805 Layer MN 2975  12 GU-7021 Layer LN 3139  40 GU-7019 Layer N4 c. 3600 Layer N2 c. 4200 Layer N1 c. 4900 Layer A1 c. 5000 Layer A7 c. 6200 6400  80 U-4604 Layer A8 c. 6400 Layer A9 c. 6600 Most of the silicic tephra layers are lobate, with two or three well defined main lobes, the largest layer being a noteable exception (Figure 7). Many of the layers are thin and consist of fine ash, while the largest tephra layers have grains in the lapilli range as well. Three layers contain distinct needle shaped grains and have accordingly been named the upper (UN), middle (MN) and lower (LN) needle layers. The silicic Katla tephras have a distinct glass colour and grain characteristics. The tephra has an olive-green to greyish-green hue when seen in soil- sections. The coarser grain sizes consist of three dis- tinct grain types: rods of fibrous glass, up to sev- eral cm long and a few cm in diameter, with elon- gated vesicles and very thin walls, breaking easily into small "needles"; equant or slightly elongated grains of highly vesiculated glass with irregular vesicles; and poorly vesiculated, black scoriaceous grains. The maximum observed length of rodlike grains is over 8 cm with a diameter of 1-2 cm at a distance of 30 km. Lithics have not been found so far. The needles are unique among the Holocene Icelandic tephras but have some resemblance to the platy fines of the 1362 tephra from the ice-covered Öræfajökull volcano. JÖKULL No. 49 9

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