The Use of Isotopes of Hydrogen and Oxygen for Hydrological Purposes in Iceland BY GUNNAR BODVARSSON STATE ELECTRICITY AUTHORITY, REYKJAVIK, ICELAND INTRODUCTION The stable isotopes D and O18 as well as the radioactive H3, or tritium, are now becoming important tools in the science of hydrology. In the following a brief discussion will be given of their possible applications in hydrological work in Iceland. Hydrology has two important applications in Iceland. Firstly, the study of the general pattern of flow of near-surface ground water which is of importance for the planning ot' water-power projects. Secondly, the study of the origin and the pattern of flow of subsur- face thermal water. Natural heat has become a prolific natural resource in Iceland and the hydrology of the thermal water is therefore of great importance. The latter type of applica- tion is in many ways quite unique ancl will consequently in the following receive the main attention. GENERAL DATA Before entering the discussion of specific pro- blems it appears useful to state some general data which will appear later in the present report. Thermal activity in Iceland. A discussion of some general aspects of the geothermal ac- tivity in Iceland is given in a report by the present writer (Bodvarsson, 1961). The reader is referred to this report for general informa- tion. Only a few facts that are relevant to the present report will be given in the following. It is believed that mainly two conditions are responsible for the abundant thermal activity in Iceland. Firstly, the main formation of the country, the flood basalts, forms a plateau of a thickness of not less than 2 km. This formation is per- meable along the contacts of individual Iava flows and up through dikes and faults. The permeable structures are scattered throughout the formation and ground water can, therefore, percolate through the entire formation, that is, down to a depth of 2 km, at least. Secondly, the outward flow of terrestrial heat in Iceland appears to be two or three times the average for normal areas. Therefore, a temperatui'e of 100°C to 150°C may in general be encountered at the bottom of the flood basalts. Also, there are in places clear signs of the presence of volcanic intrusives which may lead to considerably higher local temperatures. The combination of the permeability at deptli and the relatively high temperature in the flood basalts appears to be the natural explanation for the unique geothermal activity. At this juncture it is not known how far the subsurface water can percolate. In places there are definite indications of distances of 50 km and possibly more. An important problem to be solvecl is whether the water flows mainly along or transverse to tectonic lines. Near-surface ground water. The main aqui- fers in Iceland are lava-flows and other vol- canic structures of postglacial age. Ordinary sediments are practically absent. The lavas and the volcanic formations are very irregular formations and the pattern of ground-water flow is generally quite obscure. A ground-water inventory is, therefore, often a difficult task. Moreover, the application of dams for water storage on the volcanic formations involves a considerable hazard of leaks. A study of leaks JÖKULL 49

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