Abstract
The distribution of REE in groundwater of the catchments, which were formed during the long-term operation of copper mines in the Middle Urals (Russia), was studied. The groundwater composition reflects a significant removal of REE from water-bearing rocks, which leads to their enrichment by several orders of magnitude relative to the oceans, surface water and groundwater. Maximum REE values (up to 15 mg/L) were recorded in groundwater discharged to the surface in the collapse zone (pH=3.5). In mine shafts REE values do not exceed 0.3 mg/L. Water of mine wastes occupy an intermediate position: here REE content varies from 0.5 to 6.5 mg/L. The degree of REE fractionation in mine waters is lower than in oceanic, surface and underground waters of the active water exchange zone at much higher contents. The chemical composition of groundwater of the abandoned copper mine is determined by hypogene processes and structure of the mineralized supergene zone, its mineralogical composition, and oxidation-reduction conditions.
Highlights
The distribution analysis of rare earth elements (REE) allows insight into the nature of processes occurring in different geochemical media [1,2,3,4,5]
For fresh groundwater of the active water flow zone of the Russian Far East it was found that the range of normalized REE values is larger, from 10-6 to 10-3 [4]
We have studied the REE distribution of groundwater of the catchments that was disturbed in the process of long-term mining of copper deposits in the Middle Urals [7]
Summary
The distribution analysis of rare earth elements (REE) allows insight into the nature of processes occurring in different geochemical media [1,2,3,4,5]. The REE distribution in ocean waters, normalized to NASC, is characterized by very low values and a large range of changes (from 10-9 to 10-6), in addition, in ocean waters there is a clear tendency of heavy REE enrichment and negative anomaly of cerium.
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