Geomorphology of Fljótsdalshérað, Eastern Iceland, and its Implications IAN ASHWELL Dept. of Geography, University of Salford, Salford, Lancs., M5 4WT, England abstract Field examination of the Fljótsdalur area, with an associated part of Jökuldalur, aided by air photographs and the mechanical analysis of samples of deposits, indicates that the features found, mainly rock-cut chann- els and shelves and water-deposited eskers, (Malarásar), can be explained by a comparatively simple model. Within a thick overall ice cover, an original ice move- ment down valley towards the NE was diverted to the N and even a little W by large amounts of ice flowing from a centre above the E side of the area and by local folding and a closely-spaced pattern of dykes. Many of the crosional and depositional features ofthe whole area can be interpreted in terms of subglacial or englacial water flow from geothermal centres S of the area, associated with the building ofthe Móberg formation during Glacial times. The associated jökulhlaups would have tended to remove any stadial moraines from the valleys during deglaciation, accounting for the absence of such features °f appropriate size from these valleys, and suggesting that glaciofluvial, rather than glacial, deposition is the key to the subsoil in the lowlands, and that evidence for deglaciation timescales is more likely to be found higher up. INTRODUCTION Structure and process are both vital components in the geomorphological development of landscapes, and an attempt is made to integrate them in this paper. No overall geological map in the Iceland 1:250000 series was available for the area, (Fig. 1), although useful published sources exist. The other important aim was to try to establish the processes involved in landscape sculpture without any preconceptions. STRUCTURE Fljótsdalur lies near the boundary between Tertiary and more recent rock systems, but the location and nature of the actual boundary is a matter of some discussion. However Walker (1982) has summarised the situation in terms of erosion surfaces on bedrock varying in age from about 12 m.y. in the northeast to less than 5 m.y. in the southwest of the area, where building of volcanic structures has continued into the present, with migration in that direction of the locus of volcanic activity and the imposition of the Glacial ice cover. The rocks of Fljótsdalur are mainly Tertiary volca- nics, with greater or smaller intercalations, such as the so-called „red partings“ dipping gradually, on average, towards the WSW. The more recent rocks towards the southwest tend to include increasing amounts of glacial deposit, while outside the immediate area the large structures of the Móberg formation, such as the Snaefell massif, rising to 1833 m and of Glacial age, lie to the south and west. The normal pattern of the Tertiary basalt plateau is, however, interrupted in the Fljótsdalur area by the existence of the Thingmúli central volcano core imme- diately to the E and the associated Lagarfljót flexure zome stretching to the NW and a corresponding high intensity of dyke formation, (Walker 1974), as shown in Fig. 2, enlarged from a rather small original. The flex- ure zone shows maximum values of dip, about 25° under Lagarfljót itself, decreasing gradually both to SSW and NE. The general direction and intensity of dykes is shown in Fig. 3, from the same source, with maximum intensity closest to the volcano core. Walker (1982) shows the area to the W of Fljótsdalur as an erosion surface at about 650 m but the more mountainous area to the E, including the relics of the Thingmúli volcano, as part of a much higher surface at 1100 m. The initial construction of both these upland surfaces, however, pre-dated the onset of the Glacial period and thus the higher plateau surface shows many signs of glacial activity, especially the central area of the volcano core, where even today permanent snow and ice remain on the peaks and plateaus rising to 1200 m. JÖKULL 35. ÁR 31

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