that the Tungufljót is to a greater degree de- pendent on the glacier regime than the other rivers there, especially il it is kept in mincl that the average elevation of the glacier in the Tungufljót drainage area is about 1000 m while the avrerage elevation for Langjökull as a whole is about 1100 m (Bauer 1955). Possible errors in the measurements The preceding calculations of the recession of Langjökull are chiefly based on the available maps. The results of the calculations are there- fore primarily dependent on their correctness. In some details the maps can be expected to be inaccurate. There are especially two factors, which can cause serious errors. 1. The contour lines on the glaciers are often inexact because in locating them very few measured points can be relied on. This can cause considerable deviations on the glacier cap itself, but to a far less degree on the outlet glaciers. 2. The glacier margin is often rnore or less covered with debris, which makes their location on the maps unprecise, especially on those drawn from aerial photographs. I have met with some evidence of this. The author is well aware of the fact that these imperfections greatly weaken the results obtained by these calculations, but with regarcl to the surveying methods the mapping errors can be expected to neutralize each other to a great degree. The iinal outcome should there- fore not be very far from giving the true values. Other Glaciers In order to investigate more thoroughly the efí'ect of the glacier recession on the discharge of Icelandic rivers and for comparison with the above mentioned results a compilation of data from miscellaneous sources concerning other glaciers and outlet glaciers than Langjökull alone has been initiated. It is my hope that this work will be carried on. The following preliminary results were obtained by these in- vestigations. 1. Hofsjökull 1938—1945. Its recession has been found by the same method as with Haga- fellsjökull Eystri. The result is that below the 1100 m elevation the glacier lias decreased in volume for 4315 X 10° m3, which corresponds to 17.6 m3/sec increase in drainage and about 56 cm in average thinning per year. On the other hand sorne accumulation was measured in the elevation between 1100 and 1400 m, but shrinkage above that. If the increase is includ- ed the net recession of the glacier proved to be 2000 x 10° m3, which corresponds to 8.1 m3/sec increase in discharge and about 26 cm in average thinning per year. The area of the glacier decreased from 986 km2 to 945 km2 or about 4% during these seven years. The most part of the Thjórsá drainage area on Hofsjökull was measured separately and there the trend proved to be almost the same as for the glacier as a whole. The glacier area had decreased from 424 km2 to 400 km2 or 5.7%. The recession of the glacier below the 1100 contour line was 1557 X 108 m3, which corresponds to 6.5 m3/sec increase in discharge. About 510 km2, or about 25%, of the drainage area of Thjórsá above Nordlingaalda is covered by glacier. According to this the ice recession has increased its discharge for about 8 m3/sec dur- ing this period, which is about 8% of its total discharge. If on the other hand the accumula- tion measured in the higher elevation was in- cluded in these calculations the net recession of this part of the glacier was only about 140 x 10° m3, which would give less than 1% increase in the discharge of Thjórsá above Nordlingaalda. No statement can be made at this point as to wliich of these two conflicting results is more correct, but according to what has already been discussed errors in mapping are much more likely to occur upon the ice caps than on the outlet glaciers. It is also noteworthy that above 1400 meters, where some nunataks, which can be used as fixed points in survey- ing, are to be found, sorne ice recession was measured. Probably the measurements of the outlet glaciers are the most reliable, although the possibility of some accumulation between 1100 and 1400 m cannot be excluded. 2. Heinabergsjöklar 1903—1945. Heinabergs- jöklar are two outlet glaciers of Vatnajökull in Austur-Skaftafellssýsla. Tlieir lower part, be- low about 720 m on the southern glacier and below about 460 m on the northern glacier, was measured and the reduction in volume provecl to be 2192 X 10° m3 during these 42 JÖKULL 17. ÁR 275

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