Hydrothermal clays and pyrite in geothermal fields: Their significance for the geochemistry of present-day endogenous processes in southern Kamchatka

The studies reported in this paper were carried out in the Pauzhetka and Nizhne-Koshelevskii geothermal fields situated in the southern Kamchatka Peninsula within the Pauzhetka-Kambalnyi-Koshelevskii geothermal area. Layer-by-layer sampling of clays was carried out by stripping, pitting, and hand-operated drilling of core holes in the Verkhne-Pauzhetka thermal field and the Nizhne-Koshelevskii thermal anomaly, which were studied previously using several geological, geophysical, and hydrogeothermal techniques. Hydrothermal clays were found to compose a nearly continuous sheet on the surface of the thermal field and of the thermal anomaly. The sheet has an average thickness of 1.3 to 1.5 m. The chemical and mineralogic composition of the clays have been characterized. The concentrations of Au, Hg, Pb, and Ag (a total of 41 elements) were determined in clay layers selected every 15–20 cm in vertical sections. The elements show inhomogeneous distributions, both along the strike and in vertical sections of the hydrothermal clay sheet, which can be accounted for by the physicochemical, hydrogeochemical, and temperature conditions prevailing during the generation of these clays in specific areas of the thermal fields. It was found that the hydrothermal clay sheet lying on the ground surface of the geothermal fields has a significance of its own as an independent geological body, not only is it an aquifer and a heat-isolating horizon; it also serves as a dynamically active geochemical barrier in the structure of the present-day hydrothermal system. Pyrite is a concentrator of ore elements in hydrothermal clays, in addition to sulfates of Ca, Fe, Mg, Ba, and Al, and (possibly) alumosilicates.