ion which generally will not have formed be- fore a lapse of many thousand years after the respective ice load was laid down. With this method one finds easiiy and rapidly the depression of a chosen point for various assumptions of T. If a glacier and the depression caused by it at a certain point be known, one finds easily the value of T that best fits the observations. It is clear from the definition of l that this quantity, and with it the depression calculated, is only slightly sensitive to uncertain- des in E, m, and d, while it is especially sensitive to changes in T. Therefore the method is well adapted to the determination of T. — In a note in Jökull 2. ár, 1952 (10) I discussed the depression to be expected from a recent inc- rease of Vatnajökull as suggested by J. Eythors- son. I estimated that a load corresponding to an ice sheet with the area of Vatnajökull and with a thickness of 300 m would, after attainment of equilibrium, cause a depression of the central area by 10—20 m. With the present method I have calculated the equilibrium depression at various points corresponding to the total load of the present glacier, with a thickness of about 600 m inside the marginal zone (8). The result (in metres) is given in Table III. The value 10—20 m, given in my former note corresponds roughly to the assumption T = 30 km. TABLE III. T 10 km 30 km 50 km Centre of glacier 33 m 19 m Mouth of Jökulsá (Breiða- merkursandur) 40 m 22 Höfn in Hornafjörður . . 16 18 11 Djúpivogur 0 12 Reyðarfjörður 7 Seyðisfjörður 3 5 Vík in Mýrdal . .. 4 Akureyri 4 I consider that the most probable value of T is between 10 and 30 km, which, however, is hardly more than a guess. A few further exam- ples may be added. Depression at Vík in Mýrdal under influence of Mýrdalsjökull, 2 m (Assumed average thickness 300 m, T = 30 km). Depress- ion at Akureyri caused by Hofsjökull and Lang- jökull, 1 m (Assumed average thickness 200 m, T = 30 km). In the foregoing I have consiclered the equi- librium depression which is reached only after flow has gone on in the substratum for thous- ands of years. It may now be considered that a slight depression is formed immediately after deposition of the glacier load, namely because of the elastic (non-plastic) yield of the substrat- um. This may be founcl in the following way. Consider a large elastic body bounded by a horizontal (infinite) plane surface. Pressure is applied at a point of this surface. Then the depression of the surface is a known function of the distance from the pressed point (9). We use this general solution and, as in the previous case, integrate the depressions caused by the vertical columns into which we may divide the glacier. We then get the simple expression^w = 1,69 (ro — ri), where w is the depression in metr- es at a point P, caused by a 1000 m thick glacier which covers the complete circular zóne with radii ro and n, with centre at P. The unit of the radii is 10 km. Thus a glacier, 1000 m thick, covering the zone between n = 10 km and r2 = 20 km gives a depression of 1,69 m at the central point. The values of E and m used here are those given earlier in this article. The depression is proportionate to the thick- ness of the glacier, and, if a zone is only partially filled by the glacier, say an arc of 90°, then the contribution to the depression is proportionate to the arc occupied, here V4 of that of the complete zone. I have applied this method to the Vatna- jökull. Its present quantity, as given earlier, will cause the following values of elastic de- pression: At centre of glacier ................. 4,2 m Mouth of Jökulsá ..................... 2,0 — Djúpivogur ........................... 0,9 — A change of 50 m in the thickness of Vatna- jökull will cause a vertical elastic movement of the land at Jökulsá by 17 cm. Thus there ap- pears to be no chance of late climatic fluctua- tions causing immediate detectable changes of sea-level and it is even questionable whether the movement of the land could be found by precision nivellement. With the progress of time the substratum, 4

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