TRAUSTI E I NARSSON : Depression of the Earth’s Crust under Glacier Load. Various Aspects The rise of Scandinavia in late- and post- Glacial times has been used by various writers as a basis for calculating the value of viscositv of subcrustal matter. There is general agreement on a value of about 1022 poises. It is tempting to assume that in such a vol- canic country as Iceland a much more fluid substratum would be found. However, the slow- ness of post-Glacial rise in this country seeins definitely to disprove that supposition. The rise of Iceland was a faster process than that of Scandinavia, but not very much so. From the work of G. G. Bárðarson (1,2) and J. Áskelsson (3) it is clear that the depressed land had risen but little at a time when sea temperatures had reached the present values, and when glacier load must have remained negligible for one or two millennia. The shore line was then about 90 m higher than at present, in an area where the highest shoreline found is about 120 m above sea level. But a few thousand years later the shore íine had receded to the present position where it has remained practically stationary since then. This is proved by the general occurrence of thick soil and relatively old peat close to the present coast. Judging by these facts it appears certain that the rise of leeland was not 100 times faster than that of Scandinavia, but may have been of the order of 10 times faster. The latter value leads to a viscosity of the substratum of the order of 1021 poises. The stiffness of the plastic substratum is then comparable to that given for Solenhofen lime- stone. For further comparison we remark that the viscosity thus found is 100 million times that of ice, 100 thousand times that of Iceland spar, and 1000 times that of rock salt. In or- dinary sence the substratum is then absolutely solid. There is not even a thin general layer of notable fluidity. In consequence the reaction of the crust to changes in ice load must be very slow and for full adjustment a lapse of several thousand years would seem to be demanded. More detailed studies of the post-Glacial' rise of Iceland than have been undertaken so-far will probably not affect this conclusion notably. But such studies are most essential to enable the approach to another geophysical problem. In the case of a very extensive ice-sheet the fully developed depression of the land depends on the thickness of ice and on the ratio of the densities of ice and plastic substratum. Elastic properties of the crust have no influence except at the rand of the depression. In the case of a small ice-cap, however, the outcome is different, for with a strong crust we get a wide and shallow depression, while with a weak crust the depression will be deeper and narrower. The Quaternary ice-cap of Iceland and all smaller ones produce depressions whose depth depends markedly on the strength of the crust, and strength means mainly thickness of the non-plastic elastic crust. Thus glacial geology may here enable an important approach to the study of properties of the earth’s crust. From this point of view I have considered relevant facts of Icelandic Glacial geologý (1, 2, 3, 4, 5), but with negative results. Our know- ledge is still far too limited. Not only is the thickness of the maximum ice-sheet unsatis- factorily known, but it is not yet feasible to distinguish between the signs of the last glacia- tion and those of the maximum one. Secondly the depth of the depression caused by the last glaciation is not known with suffici- 2

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