m Fig. 10. Areal-elevation curve of Breidamerk- urjökull, where its three main branches are shown separately. Mynd 10. Línurit yfir hœðarskiptingu Breiða- merkurjökuls. the recession OF VATNAJÖKULL It can be considered highly probable that the recession of Breidamerkurjökull is well re- presentative for the glacial shrinkage on other parts of Vatnajökull. The measured recession of Breidamerkurjökull has therefore been used as a basis for the computation of the total recession of Vatnajökull during the period 1894—1968. The results of these computations are represented in Table 4, where this period is subdivided into two successive intervals 1894— 1932 and 1932—1968, and the recession for each period estimated to be proportional to the retreat of Breidamerkurjökull. By assuming the same glacial thinning in each altitude interval as for Breidamerkurjökull, the total shrinkage of Vatnajökull has been 268 km3 (Table 3). The areal-elevation curve of Vatnajökull was obtained from Bauer’s measurements (1955). If on the other hand the average thinning of Vatnajökull as a whole was assumed to be equal to that of Breidamerkurjökull (Table 2), the calculated total recession amounted to as much as 350 km3. The two approaches thus differ considerably. Both these results are shown in Table 4 where the latter is given in brackets. A probable reason for this difference is the fact that Breidamerkurjökull covers that part of Vatnajökull, where the precipitation is at its maximum. The average elevation of the firnline is for that reason considerably lower there than on Vatnajökull. Fig. 10 reveales a very great difference in the areal-elevation of the three main glaciers forming Breidamerkur- jökull. To some degree this difference may be caused by difference in the elevation of their subsurface. Yet difference in precipitation is a more decisive factor because it is undoubtedly far the least on the accumulation area of Nordlingalaegdarjökull, which lies farther away from the coast and furthermore in a rain- shadow. It is difficult to evaluate which of these differing results is the more reliable be- cause of the interplay of many meteorological factors. Both methods of calculation should be given some credit. Thus the actual shrinkage of Vatnajökull in all likelihood amounts to somewhere between 268 and 350 km3 of ice. DISCUSSION According to Bauer’s (1955) calculations the total volume of Vatnajökull is 3520 km3 of ice. The recession is thus 8—10%. To waste the Kingdom of Vatnajökull with the same rate of melting to that after 1930 would take 500— 600 years. The annual average thinning (Table 4) of Vatnajökull during the period 1932—1963 was 60—80 cm/year in water equivalent. The thinning of Langjökull was about 60 cm/year for the period 1922—1966 while on Hofsjökull the thinning was somewhere between 25—60 cm/year in the years 1938—1945, but the maps of the latter are unreliable (Sigbjarnarson JÖKULL. 20. ÁR 59

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