Recent Decrease in the Lead Concentration of Antarctic Snow |
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| Authors: | C Barbante C Turetta G Capodaglio G Scarponi |
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| Institution: | 1. Department of Environmental Sciences , University of Venice Ca' Foscari , S. Marta 2137, I-30123, Venice, Italy;2. Study Centre for Environmental Chemistry and Technology-CNR, University of Venice Ca' Foscari , S. Marta 2137, I-30123, Venice, Italy;3. Study Centre for Environmental Chemistry and Technology-CNR, University of Venice Ca' Foscari , S. Marta 2137, I-30123, Venice, Italy;4. Faculty of Mathematical, Physical and Natural Sciences , University of Ancona , Via Brecce Bianche, I-60131, Ancona, Italy |
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| Abstract: | Abstract Differential Pulse Anodic Stripping Voltammetry (DPASV) was applied to determine the lead concentration in recent snow at two sites in the Victoria Land region, East Antarctica. Snow samples were collected during the 6th Italian Scientific Expedition to Antarctica (austral Summer 1990–91) along the wall of 2.5 m-deep hand-dug pits and by coring to a depth of about 11 m. The measurements revealed that lead content in Antarctic snow increased continuously from 1965 (about 3 pg/g) to the early 1980s (maximum about 8 pg/g), after which a marked, rapid decrease took place during the second half of 1980s, down to 2–4 pg/g in 1991. Estimates of the lead contributions from rocks and soils, volcanoes and the marine environment, together with analysis of statistical data on non-ferrous metal production and gasoline consumption, and the corresponding lead emissions into the atmosphere of the Southern Hemisphere, show that a net anthropogenic component is present and support the hypothesis that the trend observed in Antarctic snow may be related to lead consumption in gasoline, which firstly was on the rise, then declined owing to the increased use of unleaded gasoline. |
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| Keywords: | Lead DPASV snow Victoria Land Antarctica |
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