Influence of Geothermal Activity on the Chemistry of three Glacier Rivers in Southern Iceland BY GUDMUNDUR E. S I GVALDASON UNIVERSITY RESEARCH INSTITUTE, RF.YKJAVÍK INTRODUCTION. On October 1961 a volcanic eruption occur- red in the Askia caldera in NE-Iceland. Few weeks before the eruption a hydrothermal fielcl developed on a fault line cutting perpendi- cular to the later volcanic fissure. The study of this thermal activity (Sigvaldason 1964) indi- cated a strong emission of gases such as HoS an CO2, which were partly absorbed in the local ground water. Continuous observations of gas emission from thermal fields adjacent to dor- mant volcanoes might therefore in favorable cases serve as a means of predicting a volcanic eruption. This would be of special interest in volcanic areas where other methods of predict- ion such as tiltmetry are not applicable. A number of icelandic volcanoes fall under this category, the most important being Katla in South-Iceland. Eruptions from this volcano, which is covered by a thick sheet of ice have caused considerable damage and even devastat- ion, to nearby farmsteads, besides cutting off the main traffic lines to the southeastern part of the country. Destruction is primarly caused by glacier bursts, which cause temporary flooding of the lowlands, where everything is swept away by the current, and by ash fa.ll, which may affect a large part of the country. Effective predicting of a natural catastrophe of this magnitude woulcl therefore be most helpful in saving life ancl property by taking necessary precautionary steps in time. During the past centuries Katla has erupted more or less regularily two times each century (Thorarinsson 1959). The last eruption occurred in 1918 and a new eruption is of growing con- cern to all those which might in some way be affected by its violence. Because of the glacial cover on Katla the only method of prediction, which has been applied is seismic recording. Seismographs under dayly observation are situ- atecl in two nearby villages and a warning systeni has been established, which will be put in effect if unusual tremors should be observed. Increased seismicity may, however, not be re- corded until at a very short notice and the necessity for a prediction method, which could indicate the coming eruption days or weeks ahead is obvious. The possibility of increased emission of volcanic gases prior to the eruption might provide means to prediction some time in advance. Thermal areas are known to exist beneath the ice cover of Mýrdalsjökull, but none is directly accessible. Rivers flowing to the south and fed by the glacial melt water do however contain components derived from these thermal areas. One river especially, Fúlilœkur (The Foul River), smells with hydrogen sulfide, which is present in solution in amounts up to 2 ppm H2S. A continuous observation of the chemistry of these rivers would reflect major changes oc- curring in the emission from the thermal areas. Such changes have actually occurred in con- nection with volcanic events under glaciers in South Iceland as indicated by strong H2S and/or SO2 odors of river waters, which normally clo not carry detectable amounts of these com- pounds. The purpose of the present study is to deter- mine the normal concentration levels of various compounds in the river waters over a periocl of one year. Furthermore an attempt will be made to explain the origin of each component founcl in the water, whether it is derived from the thermal areas or from other sources. GENERAL GEOLOGY. Katla is a part of a large volcanic massive, which is covered by two separate glacial sheets, JÖKULL 1963 10

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