LEGEND 1 ; ]|] Basaltlava (4flows) |ooo | Tilllte Cong I omer ate/Sand stone J Eault 100.000—120.000 years. For the upper part of the Plio-Pleistocene, information about the frequency of glaciations is available only from the Tjörnes sequence on Iceland’s north coast. There 6 glaci- ations are reported for the period from the Gilsá event up to the end of the Matuyama epoch (~ 1.8—0.7 m.y. ago). During the Plio-Pleistocene the topographic en- vironment of Iceland must have changed mark- edly. Instead of the flat lava plains of the Tertiary, from now on subglacial volcanism created an un- even topography with elongate ridges or conical hills of hyaloclastite and pillow lava. Glacial erosion began to dissect the Tertiary basalts and the fjord landscape gradually developed. Volcanism during the Plio-Pleistocene was not only confined to the axial rift zones. Two outliers occur, one on the Snaefellsnes Peninsula in western Iceland and the other in the Skagi area in northern Iceland (Fig. 1). In both areas the volcanic products overlie unconformably deeply eroded Tertiary basement. In Snaefellsnes the lavas are transitional between tholeiite and alkalic rocks; in Skagi they are tholeiites. The young volcanism of Snaefellsnes was more or less continuous throughout the Plio- Pleistocene until Holocene. Two central volcanoes (Setberg) developed in the middle part of Snae- fellsnes in the lower Plio-Pleistocene. They were subsequently eroded and are capped by a younger sequence. A glacial marine deposit forms a base to this young sequence which totals about 800 m in thickness and is crowned by the active Snaefells- jökull strato-volcano (1446 m) on the tip of the peninsula. Detailed sections through this thick sequence remain to be worked out. Volcanism in the Skagafjördur area resumed in the Matuyama epoch and reached into the Upper Pleistocene. The ~ 250 m thick sequence of lava flows, conglomerates and tillites is floored by a marine deposit (Fig. 10). Feeder dykes, plugs and vent fillings exposed among the young volcanics Fig. 10. East-West cross section through the Plio- Pleistocene sequence of Skagi the topmost flow (4) is of Upper Pleistocene age (Brunhes epoch age). From Everts, 1972 (modified). indicate that the volcanism accompanied late N-S normal faulting of which there is evidence both east and west of the fjord. The island of Grímsey north of Iceland is com- posed of Plio-Pleistocene basalt lavas and interba- saltic detrital rocks of possibly fluvioglacial origin. Preliminary datings on the basalts yield an age of 1 m.y. and less. The rocks dip to the SW towards a N-S graben feature, the Eyjafjördur Deep, which probably marks a former spreading axis in line with the Kolbeinsey Ridge. This spreading axis existed at least until late Plio-Pleistocene time when it was replaced by a set of en echelon fissure swarms con- necting the Kolbeinsey Ridge with the neovolcanic zone east of the Tjörnes Peninsula (Fig. 6). In Plio-Pleistocene time the opening of a rift zone began to the southwest of Vatnajökull parallel with the rift zone south of Langjökull. Double rifting has persisted on this segment of the ridge axis since. The young age of the eastern branch is apparent from the age and attitude of the flanking piles of volcanic rocks which range in age back to probably no more than 2 m.y. and are untilted. A marine ingression is known to have occured in the extreme south as is evident from Plio-Pleistocene fossilife- rous sedimentary rocks brought up as xenoliths during volcanic eruptions in Mýrdalur and Vest- mannaeyjar Islands. An unconformity is nowhere seen between an old basement and rocks produced on the young axis. However, west of it the lava pile becomes progressively younger away from this axis or towards NE parallel with it; the younging is towards the parallel Reykjanes-Langjökull and the Central Iceland volcanic zones which show an un- diminished rate of extrusion, at least during the lower Plio-Pleistocene. Uþper Pleistocene The Upper Pleistocene series comprises rocks formed during the Brunhes magnetic epoch which began 0.7 m.y. ago, excluding the Postglacial. It 16 JÖKULL 29. ÁR

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