Figure 12. Regional distribu- tion of chloride in groundwa- ter. Values in ppm. — Svœðisdreifing klóríðs í grunnvatni. Gildi íppm. on the whole the concentrations show a reasonable dis- tribution and relations to hydrogeological conditions. The regional distributiondemonstrates the above men- boned effects pretty well: Low contents in the high- lands and in non-thermal fissure zones, high contents m moorlands and in the runoff from active central vol- canoes. Low contents are found in the highly perme- able surroundings of Langjökull, northem Mýrdals- jökull and westem Vatnajökull. There they could be mdicative of a glacial origin of the groundwater. At the base of the glaciers and in the subglacial aquifers the groundwater is at least semiconfined. Vegetation, as a source of carbon, is of course absent. Low carbon dioxide contents should therefore indeed be expected in the glacial groundwater (Fig. 12). The chloride content is thought to be indicative °f the marine component in the groundwater. In the Precipitation shadows north of the great glaciers the chloride content is less than 2 ppm. This could be the result of differentiation by the glacial melt, but similar values are also found on Tröllaskagi and Nýja- hæjarfjall (Fig. 10). The unaltered bedrock on top of Nýjabæjarfjall is well permeable, so that an excessive surficial runoff is probably not the case. The concen- Iration in the groundwater should therefore represent the concentration in the precipitation pretty well. The chloride content decreases gradually and con- stantly towards these areas which low content, and it is not probable that the precipitation has completely lost all its chloride when reaching them. In the precip- itation shadows the potential evapotranspiration may exceed the precipitation, so that a considerable con- centration could indeed be expected in the groundwa- ter. There is then hardly any space left for more than 0.5-1 ppm chloride dissolved from the bedrock and it could easily be less. In general the chloride content diminishes with the distance from the sea and with higher altitudes. The inflow of geothermal water, increases the chloride content locally, and even regionally. This could be the case in the Kverkfjöll-Dyngjufjöll area (Fig. 10.), but there an extremely high ratio of evapotranspiration could indeed be another potential explanation. The chloride contents increase with increasing snow/rain ratio (Matthess, 1973), which again increases withthe elevation. This could to a certain degree be offset by the reductive altitude effect. Outside the glaciers the latter is obviously stronger. It is therefore to be expected, that the glacial groundwater is relatively low in chloride content. JÖKULL, No. 40, 1990 129

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