Both the lava and associated breccia are coarsely porphyritic with numerous, 2-4 mm sized, olivine phenocrysts and even larger (up to 1.5 cm) but somewhat scarcer augite phenocrysts. This distinc- ttve phenocryst content and the lack of plagioclase phenocrysts contrasts with the basaltic lava type in all the younger units. Although most of the lavas in the area are at least partly vesicular, the Unit A lava is distinctive both tn the large size of some of the vesicles, some being UP to 2 cm across, and the fact that they are invari- ably lined with zeolites or more rarely lined, or even totally filled, with pale yellow brown banded pala- gonite. Chabazite of pseudocubic form is the most abundant zeolite, and is associated with thompson- 1 te, phillipsite and commonly also calcite. Scarce development of zeolites including analcite was also seen in the overlying Unit B, in particular near where Skógafjallsgil emerges onto the glacier flood plain. Zeolites are however, absent from all the succeeding volcanic units. Unit B: This volcanic unit is separated from the underlying coarsely porphyritic unit by a well de- fined erosion surface with clear glacial striae where the erosion level is on relatively massive basalt. There is no evidence ofsub-aerial weathering or tuff deposits, or indeed of any regular tillite. However, the lowest few feet of the overlying palagonite tuíf- breccia formation contain scattered boulders, some With ice striated surfaces, of various lava types and some large augite and olivine crystals which have clearly been derived from the underlying unit. It therefore seems likely that ice conditions and glacial erosion prevailed after the formation of Unit A and that glacial till boulders lying on the glaciated pave- uicnt were incorporated in the base of this next eruptive unit. rhis Unit as a whole consists largely of yellow- brown palagonite tuíf-breccias again with irregul- arly shaped, highly fractured, basalt lava masses, which become somewhat more regular and promin- ent towards the top of the unit. The basalt type is typical of that found in all but the lowest Unit, at some levels being essentially aphyric, although oft- en in fact microporphyritic, elsewhere being more uoticeably porphyritic with labradorite plagioclase, augite and olivine phenocrysts, commonly roughly 5-10 vol.% of each of 2 mm maximum grain size. This unit as a whole appears to thin drastically both to the west and south ofjökulhaus North, but this is almost certainly largely a post-eruption erosional feature rather than a primary feature. Unit C\ The underlying Unit B appears to have suffered extensive subaerial erosion prior to the eruption of the volcanic rocks of unit C. The evid- ence suggests that the earliest Unit C rocks were erupted subaerially rather than sub-glacially over an eroded surface. Thus the junction between Units B and C is an irregular and rather complex erosion surface. It is marked in place by a thick fluvioglacial conglomerate horizon, in particular in the stream around the south side of Jökulhaus South and on the flanks ofjökulhaus North. On the south side of Sólheimajökull local pockets of black volcanic tuffs are preserved above the con- glomerate horizon, including a striking lapilli tuff on the eastern flank ofjökulhaus South. In addition the presence of a really thick coherent basalt flow forming much of the north-east corner ofJökulhaus South, the local evidence of haematite development indicative of sub-aerial weathering, and the general presence of more regular basalt flow units than in the other volcanic units together suggest that most of the volcanic rocks of Unit C, were erupted sub- aerially during an Interglacial period. However, palagonite tuff-breccias become more prominent again towards the top of this unit indicating that glacial conditions were probably beginning to pre- vail once again. Thus the volcanic rocks of this unit may have been erupted over an extended period of time, un- like those of Unit B which may conceivably have formed as the result of a single sub-glacial eruptive episode. However, apart from some slightly more plagioclase-rich (about 15-20 vol. % plagioclase phenocrysts) thin basalts flows in the “valley-fill” sequence, there is little significant variation appar- ent in the basalt magma type throughout Unit C. The basalt erupted was either porphyritic with plagioclase and augite phenocrysts, and olivine generally either scarce or absent, or essentially aphyric. Unit D: The impressively thick sequences of pala- gonite tuff-breccias exposed in the deeply dissected canyons to the west of the glacier flood plain large- ly belong to this unit. The erosion surface which separates Units C and D is best observed in the virtually dry first canyon west of the Jökulsa river. It is a well defined glaciated surface with good glacial striae apparent in places. Although it has a roughly horizontal disposition in the canyon it is still far from being ideally planar. It becomes increasingly irregular as it is traced north-eastwards and on the west side of Skógafjallsgil, where the river emerges JÖKULL 33. ÁR 63

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