TABLE I Mechanical characteristics of deposits Standard Reference No. Location Height range, m Description Mean size Phi units Deviation (sorting) Plii units Skewness Plii units 2 Egilsáfangi 418 Eroded till 2.2 1.97 -0.24 30n West of Lundur tún 78-81 Laminated glacial-marine drift 4.5 1.64 0.32 31n West of Lundur tún 44-47 Massive glacial marine drift 5.3 1.64 0.35 36n Above Lundur farm 88 Massive glacial marine drift 5.3 1.47 0.34 37n Above Lundur farm 144 Cobble drift 3.7 1.39 0.09 in a pocket below main subglacial flow over Tungufellsflói, or, alternatively, it could be the result of a later stage when, in response to a lowered base-level downstream, the main flow left the rock platform and flowed round its rim, cutting the sharp edge and marginal shelf at about 110 m, rising into the channel across the point of Tungufell at 111 m. Although Röthlisberger, (1972, p. 191), point- ed out that theoretically there should be little upward movement from the sub-glacial valley- guided flow into the partly englacial ice-direct- ed flow, in this case there does seem to be evidence of connection between the two types of flow, especially near the point of Tungufell. If Jökulhlaups, sub-glacial eruptions on the high central plateau, were responsible for the water flow, however, the head of water might be sufficient to account for differences from the theoretical case and for considerable rise and fall of water in the ice sheet. FEATURES NEAR LUNDUR In the high northern valley side to the east of the Lundur church-farm lies the gap of Lundarsneid, at the eastern end of which lie the Hrafnatjarnir lakes (Fig. 1). This gap seems to have been a channel for sub-glacial water and the forms resulting are illustrated in Figs. 4 and 5. Much of the upper hillside is covered in rather rounded material similar in appearance to the cobble drift found elsewliere in the district (Ashwell, 1975). A thick deposit of this material, sample 37n in Table I, lies over part of an ill-defined spur running from the Lundar- sneid gap down to the valley floor. In a ravine on the east side the material appears to be about 20 m thick, but this may well be an effect of slumping or sliding of the material over a hidden rock surface. On the west side of the deposit, tillites are extensively exposed in waterfalls in a small brook. It seems possible that the spur is an early deposit from an ice tongue moving into the valley from the Lundar- sneid gap, but tliat the loose material lying on it and on the upper valley side is a very late glacial deposit. Between the spur and the road on the north side of the valley floor is a series of low hills. There are no clear sections to show the struc- ture but exposures of dark-coloured silty ma- terial (deigulmór) occur on the slope (Figs. 4 and 5). This material, examples of which are samples 30n, 31n and 36n in Table I, is iden- tical to other glaciomarine drift found on the coastal lowland and at the mouths of the val- leys, and attributed to deposition in water from JÖKULL 26. ÁR 5

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