TABLE 1 Chernical composition of precipitation, monthly averages. Rjúpnahæð Vegatunga Jan. May July Oct. Jan. May July Oct. Na 10.3 7.2 1.6 4.0 8.1 1.5 0.7 2.1 Iv 0.4 0.4 0.1 0.2 0.3 0.4 0.1 0.1 Ca 0.5 0.5 0.5 0.3 1.3 0.3 0.7 0.3 Mg 1.2 - 0.3 0.6 1.0 - 0.1 0.3 C1 11.6 13.6 2.3 6.7 9.0 4.0 0.9 3.7 S04 3.1 3.2 2.2 3.5 1.5 1.9 The range of silica concentration is 0.9 to 17 ppm SÍO2, the highest value found in a river draining andesitic volcanic rocks, the lowest value from a gianitic region. Other elements such as the alkalies show relatively low con- centrations, the highest Na being 3.05 ppm from andesitic terrain and the highest K 1.72 ppm frorn granite. The authors conclude that the compositions of the country rock and the rocks suceptibilitv to hydrolysis control the amount of dissolved solicls in the glacier river water. From studies on hydrothermal alteration in active thermal nreas it is evident, that under such conditions andesites and basalts are the mots readily attacked rock types. This depends principally on the fact that the femic minerals are more readilv dissolvecl than the feldspars and quarz on the one hand and on the other because calcic plagioclase is less resistant to hydrothermal att.ack than sodic plagioclase or the alkalifeldspars (Sigvaldason and White 1961). Although these results apply specifically to hydrothermal systems, a similar pattern appears to hold for the low temperature systems of the glacier rivers. The mineralogy of rock debris carried in suspension by the rivers is therefore of major importance with regard to interpretation of the results of the chemical analysis of the water. For the study of mineral composition fine grained sand from the nver bed was sampled. Further- more the finest material carried in suspension was filtered off and x-ray diffraction photo- graphs obtained. The three rivers clealt with in this paper are Múlakvísl and Skálm, draining the outlet glacier Höfðabrekkujökull, and Fúli- leekur draining the Sólheimajökull glacier. Although the three rivers drain an area, which in general terms is cotnposed of basaltic mate- rial, soine clifferences in the mineralogical com- position of the rocks were observed. Skálm and Múlakvisl are the main streams draining the southern part of the glacier. The sandur plain formed by the rivers, and by the glacial bursts, is composed principally of volcanic ash material originating from Katla. The main component of the sand at Skálm is brown translucent glass with subordinate amounts of a basic plagio- clase and olivine. The glass is fresh and does not show any sign of hydration or alteration. X-ray diffraction photographs of the finest sus- pension carried by the river show the strongest feldspar lines along with the 001-reflection of an expandable montmorin mineral at 14 A in the air dry state. After treatment with ethylene- glykol the lattice expands to 17 Á. The 060 re- flection lies at 1.544 Á. At Múlakvísl the sandfraction is composed of similar material except for some fragments of altered glass derived from the palagonite hills to the west of the river. The finest suspended mate- rial is composed of glass, plagioclase and some expandable montmorin mineral with the same x-ray properties as the material from Skábn. The sandur plain formed by the Fúlilœkur outwash does not contain as much fresh ash as does Mýrdalssandur. The sandfraction of the river load is composed chiefly by altered glass, feldspar and olivinegrains, some calcite and zeo- lites(?). The finest fraction is here composed chiefly of the same expandable montmorin mi- neral as found before, the main difference being a much higher cjuantity of this mineral as com- parecl to Skálm and Múlakvisl. CHEMICAL ANALYSIS OF WATER SAMPLES. The water was samplecl in polyethylene bot- tles and analysis was usually started within two days from sampling. Alkalinity ancl pH were determined immediately upon arrival in the la- boratory. Before determination of other com- ponents the suspended particles had to be fil- tered off in order to obtain clear solution. Be- 12 JOKULL 1963

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