meet in Vatnajökull (8300 km2) which comprises over 70% of all the glacierized area in Iceland. Vatnajökull is the largest ice mass in the world after Antarctica and the Greenland Inland Ice. The average ice thickness of Vatnajökull is about 420 m. The ice is 800—900 m thick above the deepest valleys and the maximum thickness is about 1000 m. The main part of the ice cap is located on top of a highland plateau at 700—800 m elevation. Only 10% of the rock-bed ranges above the 1100 m ele- vation which marks the present level of the firn line in the southern part of Vatnajökull. On the other hand, about 70% of the glacier surface lies above the 1100 m elevation. CLIMATIC CONDITIONS AND GLACIER ACTIVITY The climate in Iceland can be described as cold- temperate. The average temperature for the warmest summer month is only about 110 C along the southern coast and 8—9° C at the northern coast. On the highest parts of the main ice caps the average temperature is close to or below freezing throughout the year. The cyclonic activity is at maximum during the autumn and the winter months. About 80% of the annual precipitation falls in the months from September through May. At higher levels on the glaciers most of the precipitation falls as snow. The maximum precipitation (Fig. 2) is found at the southern slopes of Vatnajökull and Mýrdalsjökull where the firn line lies at 1100 m above sea level. On Hofsjökull and the northern outlets of Vatnajökull the firn line is at about 1300 m, and at 1200 m on Langjökull. In the precipitation shadow north of Vatnajökull the annual precipitation is down to 400 mm and the orographic snow line lies above 1700 m. In the northern glacier region the snow line has again fallen down to 900—1000 m on the valley glaciers in Tröllaskagi and down to the lowest level in Ice- land of 550—600 m at Drangajökull in the north- west. At Snæfellsjökull the firn line is at 900—1000 m elevation. Glaciers in Iceland are dynamically quite active. The most active glacier outlets flow southwards from the high plateaus of Mýrdalsjökull and Vatnajökull. Only one quarter of the accumulation is melted inside the accumulation areas so enor- mous amountsof ice are transported by the outlets JÖKULL 29. ÁR 75

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