Abstract
We quantified leaching and mass fractions of trace elements in melted acidified ice core samples measured by Inductively Coupled Plasma Sector Field Mass Spectrometry (ICP-SFMS). This assessment was conducted using nine ice core sections retrieved from various high-altitude drilling sites in South America, Africa, Asia and Europe.Twenty trace elements (Ag, Al, As, Bi, Cd, Co, Cr, Cu, Fe, Mn, Mo, Pb, Rb, Sb, Sn, Ti, Tl, U, V and Zn) were determined. During a 1½ month acid leaching period our assessment shows distinct increases in the concentration of various trace elements (10% for Cd; 30% for Pb; 50–80% for As, Cu, Mo, Mn, Tl and U; 80–90% for Bi, Rb, Sb, Sn and Zn; 100–160% for Al, Cr, Co, Ti and V; 200% for Fe). The exception is Ag, which shows a 50% decrease. We found that the observed relative increases in trace element concentrations are: (i) independent of the absolute trace element concentrations and micro-particle levels/size of the samples, and (ii) unlikely to affect reconstructions of the crustal/non-crustal origin of trace elements based on the use of the crustal enrichment factor.After 1½months of leaching, the measured trace element concentrations were found to be only a fraction of the estimated total concentration and that the mass fractions determined vary largely from element to element (on average 80–90% for As and Mn; 50–70% for U, Fe, Ti and Tl; 20–50% for Al, Cd, Co, Cr, Cu, Mo, Pb, Rb, V and Zn; 15% for Bi and 2% for Ag). These observations imply: (i) a significant underestimation of the mass fluxes of these trace elements to high altitude glaciers and (ii) a likely dependency of the mass fractions on the typical crystallographic position of each trace element within the micro-particles contained in the ice core samples.
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