from its deep gorge, the erosion surface has quite a steep southerly dip as it rises up onto Skógafjall. Thus clearly Skógafjall was already a prominent topographic ridge at the time of eruption of U nit D. On the southern slopes of Skógafjall the erosion surface is marked by a prominent dark weathering conglomerate, the so-called „Black-Band” con- glomerate. Pockets of conglomerate and sometimes also bedded black tuffs are also intermittently pre- served on the erosion surface in the canyon. At one place conglomerate was observed filling a narrow but deep fissure down into the underlying Unit C rocks although the actual erosion surface at this locality had been wiped clean ofglacial debris. Massive basalt is relatively scarce in the lower and in particular middle parts of this unit, but the tops of the canyons are cut through a fairly regular basalt flow, or perhaps series of associated flow units, the eruption of which probably marked the end of the episode of volcanic activity which pro- duced this unit. Thus the ridges between the cany- ons are largely capped with basalt and show crude trap featuring. Thus unit as a whole is some 100 m thick near the mouths of the canyons but undoubtedly thickens northwards. Eruption over a glaciated surface and the thickness and predominance of palagonite tuff- breccias among the volcanic products clearly indi- cates eruption beneath a thick ice sheet. Thin beds of black tuffs observed in places intercalated within bedded yellow palagonite tuffs may perhaps be int- erpreted as already cold volcanic ashes washed off the surface of the ice sheet during the eruption. This observation and the fact that the sandurs in the Sólheimajökull area, which are thought to have been formed as a result of massive glacier floods tiggered by sub-glacial eruptions, consists of con- siderable thickness of unpalagonitised black vol- canic ashes and fragments, together indicate that the palagonite forming reaction (that is the leaching and hydration of basaltic glass) cannot have occ- urred instantaneously or even rapidly when basalt ashes and fragments were in contact with water or steam but must have occurred during the slow-cool- ing of the thick pile of hot, or at least warm, porous and water saturated fragmented volcanic rocks sub- sequent to the eruption (ci.Jakobsson 1978). The basalt magma type erupted in Unit D appe- ars to have been largely non-porphyritic, although minute laths of plagioclase are sometimes visible in hand specimen. Towards the bottom of the unit, however, the basalt is rather more porphyritic with labradorite plagioclase, augite and olivine pheno- crysts. The common sequence of events for a sub-glacial eruption, such as exemplified by the Unit D, was probably as follows. Firstly a fissure eruption ben- eath a thick ice sheet with initially the lava flowing sub-glacially, semi-consolidating and brecciating due to rapid cooling in an aqueous environment as the overlying ice sheet starts to melt. Thus the lower part of Unit D shows irregular highly jointed lobes of basalt doming up into the surrounding tuffs and breccias in which the black glassy matrix of the vesicular basalt fragments of varying sizes has sub- sequently been marginally, or even completely, re- placed by yellow-brown palagonite. Similarly the black glassy skins round the large lava lobes or in places more regular pillows have also subsequently been either completely or partly replaced by pala- gonite. A notable feature of this predominantly palagonite tuff-breccia unit, shown in the steep walls of the canyons, is how in the middle and upper parts of the volcanic pile the tuff-breccias are commonly at least crudely stratified. In places quite regular stratification with broad channel structures and even graded bedding may be seen. Thus as the eruption proceeded it seems likely that the water activity built up due to continued melting of the ice sheet leading to the rapid reworking and redeposit- ion of some of the tuffbreccias. In some places the stratified tuff-breccias can be seen to be banked up quite steeply against the earlier consolidated mass- es of basalt and unstratified breccia. It is in the upper stratified tuffs-breccias that one finds the pockets of reworked black tuffs, thich were comm- ented on earlier. At some stage the eruption must have broken through the ice sheet, so that in the final stages it seems likely that the volcanic pile was built up above the level of the ice sheet and glacial melt water and one had the sub-aerial eruption ofa series of lava flow units, forming the so-called „capping" basalt. Unit E: Following Unit D glacial conditions seem to have become established once again so that this unit, again consisting largely of palagonite tuff- breccias, was likewise formed as a result of a major sub-glacial eruption. The basalt magma type, simil- ar to that in Unit D, was essentially aphyric al- though scarce olivine phenocrysts may be observed. The erosion surface at the base ofthis unit is marked by a thick conglomerate band, the so-called „Dipp- ing“ conglomerate, which dips fairly steeply west- wards down the western flank of Skógafjall. Thus 64 JÖKULL 33. ÁR

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