also where the ice i'low has ceased against very steep slopes, as in some places in Hagafell and Jarlhettur, but very distinct changes in colour on the rock surface show the position of the ice margin there. The areas overridden by the glacier are greyish to light-greyish in colour, but the grey-brownish to rusty-brownish weatli- ering colour on the bedrocks is preserved in other places. No single moraine ridge represents the former ice margin along the SW shore of the present Hagavatn, but a 400—500 m broad zone, which consists of moraine material, with numerous kettle holes, is found there. This moraine zone has mostly been built up sub- aqueously in the front of a calving glacier, be- cause the present outlet of Hagavatn was block- ed by the ice and the lake level was somewhat higher than at present. The unusually great masses of moraine material there have probably been accumulated because the glacier advanced through the lake depression pushing the un- consolidated lake sediments together to form that moraine zone. The frontal moraine ridges are in most cases just a single ridge within 5—10 m in height, and they do not show any signs of oscillation of the ice front. No evidence of a glacial ad- vance is found inside tlie frontal moraine ridges. It therefore seems most likely that Haga- fellsjökull Eystri reached its maximum in the last century. According to Bergthorsson (1967) the climatic depression did not finish until in the last decade of the 19th century and no major increase in the temperature occurred un- til about 1920. Therefore the retreat of Haga- fellsjökull Eystri hardly began until after 1890 and was very slow until after 1920 (Thorarins- son 1943). lce-clammed marginal lakes along Hagafellsjökull Eystri Very great changes in the size and position of marginal lakes and in all drainage from them took place as Hagafellsjökull Eystri ad- vanced and retreated again. During its maxim- um extent four marginal lakes were formed in the Jarlhettur Valley between the glacier margin and the Jarlhettur Range (Fig. 3). The estimat- ed area of each of the two largest lakes is 0.1 km2. The marginal lakes have left great numb- ers of abandoned shore lines. Only one of the marginal lakes reached such a height that it was drained by a pass in the Jarlhettur Range (Fig. 3), but it has not been drained through it for a long time as there is only a minor erosion channel in the pass even though the bedrock there is very weak. While the glaciers blocked the Jarlhettur Valley to the NW of Stóra Jarlhetta a glacier river issued from its NE corner and flowed SW along the Jarlhettur Range (Fig. 3). The size and position of Hagavatn has been very variable during the last centuries depend- ing on the regime of Hagafellsjökull Eystri at each time. Fig. 3 shows the position of the lake during the maximum extent of the glacier while Fig. 4 shows the position of Hagavatn as in- dependent of the glacier, but of course several intermediate stages have occurred (Fig. 5). Wright (1935), Kjartansson (1938), Thorarins- son (1939, 1966) and Green (1952) have all written about the history of Hagavatn or some particular events of it. In the present paper only the main points of its history, together with some new observations I have made there, will be summarizecl. When Hagafellsjökull Eystri advanced in the 17th century, it reached first as far as the Nýi- foss Col (Fig. 1) and blocked the present outlet (Green 1952). In this way the lake level was gradually raised until the water could escape through the Leynifoss Col (Fig. 1) which is 9.5 m higher than the Nýifoss Col. The advancing glacier also blocked the Leynifoss Col, leaving the Sanddalur Col and the Mosaskard Col as the lowest open cols from the Hagavatn basin. The Sanddalur Col (Fig. 1) is 20.5 m higher than the Leynifoss outlet and it shows no signs of having been an outlet from the lake at any time. Tlie water divide in this col is cover- ed with uneroded and unwashed moraine de- bris, and Sanddalur itself shows no signs of any major stream erosion. The same can be said about the Mosaskard Col which is situated further to the SW. It is covered by the Lamba- hraun lava, but no traces of surface drainage are to be found there. The skilful cartographer Björn Gunnlaugsson shows on his map, dating from the years 1834— 1835, a river course from Hagavatn through the Sanddalur Col, but the map, which is at a scale of 1:480.000, seems not quite reliable in this 266 JÖKULL 17. ÁR

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