Adsorptive cathodic stripping voltammetry (AdCSV) with HDME and a chloranilic acid ligand was used in the trace analysis of uranyl ions at pH1⁄42 in low-ionic-strength groundwaters around mining areas. Upon optimization, the limit of detection around 0.10 mg L1 was found with linearity up to 10mgL1. In the abandoned mining area of Val Vedello (Orobic Alps, Italy), measured uranium concentrations in water ranged from 0.3 mg L1 above the uranium mineralization levels to 145 mg L1 in groundwaters percolating from mine galleries. Such uranium concentrations are related to natural weathering effects of CO2 and/or hydrogen carbonate ion on uranium mineralizations under oxic conditions. A marked seasonal dependence was then found, in agreement with literature data on a pre-operational survey dating back to 1980–1981. No significant chemical impact of the abandoned mining activity on groundwater quality could be found. Accordingly, no significant increase in contaminants derived from the heat-burn of explosives, such as chloride and nitrate, in groundwaters from mine galleries was found.
RELEASE AND SPECIATION OF URANIUM IN LOW-IONIC STRENGHT GROUNDWATERS AT AN ABANDONED URANIUM MINE IN VAL VEDELLO (OROBIC ALPS-ITALY)BY ADSORPTIVE CATHODIC STRIPPING. VOLTAMMETRY (AdCSV)
MARTIN, SILVANA;
2007
Abstract
Adsorptive cathodic stripping voltammetry (AdCSV) with HDME and a chloranilic acid ligand was used in the trace analysis of uranyl ions at pH1⁄42 in low-ionic-strength groundwaters around mining areas. Upon optimization, the limit of detection around 0.10 mg L1 was found with linearity up to 10mgL1. In the abandoned mining area of Val Vedello (Orobic Alps, Italy), measured uranium concentrations in water ranged from 0.3 mg L1 above the uranium mineralization levels to 145 mg L1 in groundwaters percolating from mine galleries. Such uranium concentrations are related to natural weathering effects of CO2 and/or hydrogen carbonate ion on uranium mineralizations under oxic conditions. A marked seasonal dependence was then found, in agreement with literature data on a pre-operational survey dating back to 1980–1981. No significant chemical impact of the abandoned mining activity on groundwater quality could be found. Accordingly, no significant increase in contaminants derived from the heat-burn of explosives, such as chloride and nitrate, in groundwaters from mine galleries was found.Pubblicazioni consigliate
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