Fig. 1. ERTS-1 satelite image showing the Bárdarbunga area (detail from Fig. 1 in Williams & Thorarinsson, 1973). The features are ex- plained in Fig. 2. Mynd 1. Bárðarbunga og umhverfi séð frá gervihnetti i 920 km hœð. Örnefni og drœttir myndarinnar skýrðir i tnynd 2 (úr grein Wil- liams og Sigurðar Þórarinssonar, 1973). deals with the methods and results of the tephro- chronological effort, and some inferences that can be drawn from the profile and the tephras themselves. METHODS USED The tliree methods used to identify the tephras were (a) comparison to volcanic history, as gleaned front the study of written documents, and from tephrochronological studies, (b) grain- size analysis, and (c) chemical and optical ana- lysis. Volcanic history A nurnber of volcanoes could potentially con- tribute tephra to Bárdarbunga. A list of known or suspected eruptions, drawn from Jónsson (1945) and Tliorarinsson (1974), is shown gra- phically in Fig. 4. together with the eruptions represented in the ice core, according to the interpretation of the profile presented here. In the following what is known of the character- istics and histories of the chief volcanoes in question is briefly discussed (see Figs. 1 and 2). GRÍMSVÖTN is a subglacial caldera in Vantajökull, some 23 km SE of the drilling site (Table II, nos. 3, 4, 5). It has erupted at least twice in this century, in 1934 (Áskelsson 1936) and 1922 (Thorkelsson 1923). Thorarinsson (1974) has recently published a comprehensive account of its activity throughout the ages, since 1332. The eruptions in Grímsvötn are accompanied by jökulhlaups, caused by the catastrophic draining of the caldera lake through subglacial tunnels into the river Skeidará. Jökulhlaups need not be accompanied by an eruption, how- ever, and since 1934 they have occurred peri- odically every 5 or 6 years without an eruption taking place at the same time. This also has been the case in the past, even if the length of the period separating the hlaups has varied. The mechanism of jökulhlaups from Gríms- vötn has been under dispute for a long time. The presently accepted explanation is that of Helgi Björnsson (1974). It may be summarized thus (op. cit. p. 1): „In a period of five or six years the water level in the ice-covered caldera lake rises about 100 m. The glacier is lifted off a subglacial ridge east of the lake and water is forced sub- glacially through a 50 km long route beneath Skeidarárjökull, causing vast floods. When the water level ltas fallen about 100 m the water- way is sealed by rapid plastic deformation of the ice at the eastern edge of the Grímsvötn depression. The level is not lowered to the subglacial rim. The primary cause of jökulhlaups front Gríms- vötn is the melting of ice in the geothermal area. The slope of the glacier surface is altered and ice and water flow into the Grímsvötn de- pression." It has been suggested (Thorarinsson 1953) to account for the observed apparent causal rela- tionship between Grímsvötn eruptions and jökulhlaups in Skeidará, that the release of pressure in the caldera upon draining away tlie water, sometimes triggers an eruption. The low- ering of the level of the caldera lake by 140 m JÖKULL 27. ÁR 3

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