Holocene eruptions within the Katla volcanic system, S-Eldgjá segment where the 345 km western lavas, including the Álftaver lava field, emanated while all the remaining subaerial segments contributed to the 435 km eastern lavas, including the Meðalland and Landbrot lava field. The lava fields were previously thought to have a combined volume of 14-16 km
(Miller, 1989) but new field observations indicate that it may exceed 18 km
(Thordarson et al., in press). The lava fields are pahoehoe lavas, dotted with, and in places dominated by, rootless vents (pseudocraters), indicating emplacement over wet ground or shallow lakes. The main lobe of the Álftaver lava extends more than 50 km from the source to the south coast, while several shorter lobes with distinct flow fronts occur closer to the source. Activity on the subaerial part apparently outlasted that on the subglacial part and may have continued intermittently for a prolonged period, as implied by the late flow lobes. Jökulhlaups accompanied the Eldgjá eruption but their extent and timing are only partly known. A fan deposited by a major jökulhlaup emerging south of Öldufell (or from below Öldufellsjökull), con- formably overlain by bedded Eldgjá tephra, was most likely emplaced during the early stages of the Eld- gjá eruption. Other potential early flood deposits oc- cur on Mælifellssandur and north of Álftaver. De- bris fans that can be fitted into the eruption sequence were formed during the later stages of the eruption by floods apparently emerging near Öldufell and Sand- fell. Such debris is found on the lower slopes of Atla- ey where it fits into the tephra stratigraphy at the same level as the Eldgjá tephra. There it overlies or in- tercalates the airfall deposit and is also found sand- wiched between lava lobes. Evidence of a jökulhlaup from below Sólheimajökull in the early 10th century is found on the vegetated slopes east of the outwash plain. This is the last verified occurrence of a jökul- hlaup leaving a discernible deposit of volcanic debris in that area (Larsen and Dugmore, unpublished data). The deposit either belongs to the Eldgjá event or the previous Katla eruption (ca. 920). The Eldgjá tephra and lavas have the chemical characteristics of the Katla volcanic system, being a transitional alkali basalt with high iron and titanium content (Table 5 and Jakobsson, 1979). A tephra unit erupted on the caldera segment during a late stage of the explosive phase contains minor amounts of sili- cic (SiO ca 64%) glass interspersed in the basaltic tephra. This component resembles the silicic tephra layers described in the previous section. A character- istic feature of the basaltic tephra units erupted within the caldera is the abundance of small glomerocrysts, mostly plagioclase, in the glass. Contamination of FeTi basalt by acid melt would result in crystalliza- tion of plagioclase. Compositional variations along the Eldgjá fissure as described by Miller (1989) in- dicate contamination by tholeiite, which is most pro- nounced at the northern part of the fissure, confirming Jónasson’s (1974) observations. Course of events in the Eldgjá fires The course of events during the Eldgjá eruption is not known in detail. The first material to appear was tephra erupted on the topographically low fissure seg- ments west of Öldufellsjökull and at S-Eldgjá. Jökul- hlaups from below Öldufellsjökull seem to have ac- companied this activity, and emanation of lava from S-Eldgjá may have begun at the same time. Next to appear was a batch of tephra erupted on the caldera segment, seemingly in a single short burst, while ac- tivity on the first-mentioned segments appears to have been continous. Tephra units indicate that the re- maining subaerial fissure segments became active in a stepwise fashion, first C-Eldgjá, followed by Eld- gjá proper and finally by N-Eldgjá. Lava production probably began with the first appearance of tephra on each segment. The duration of this phase, the progres- sive stage, is not known. By analogy with the 1783- 85 Skaftá fires it may have lasted weeks (Thordarson and Self, 1993). Ejection of airborne material from the caldera segment resumed after the opening of the C-Eldgjá segment. Activity at the caldera may have ceased or been reduced as other segments set in. Al- ternatively, activity on the caldera segment may have been continuous with the greatest part of the material emplaced as hyaloclastic flow(s) through the Kötlu- jökull gap down to Kriki, only a small part of the ma- terial becoming airborne until a later stage. The duration of the Eldgjá event may have been years. The well defined fronts of some of the late lava lobes may be taken as an indication that the under- JÖKULL No. 49 17

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