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Thallium isotopic fractionation in soil: the key controls

Publication at Faculty of Science |
2020

Abstract

We studied the key geochemical and mineralogical factors that could affect the fractionation of stable thallium (Tl) isotopes in soil. A set of grassland soil samples enriched in geogenic Tl in combination with selected Tl-containing mineral materials from the Czech Republic (Kluky) were investigated for this purpose.

The results demonstrate significant incorporation of Tl in pedogenic (specific) Mn-oxide, which led to a large accumulation of the heavy Tl-205 isotope (similar to+14 epsilon Tl-205 units), presumably resulting from oxidative Tl sorption. Consequently, we concluded that the Mn-oxide-controlled Tl uptake is the primary cause of the observed Tl-205 enrichment in the middle profile zone, at the A/B soil horizon interface, with up to (+)4 of epsilon Tl-205.

Furthermore, our results displayed a clear relationship between the Tl isotopic fractionation degree and the Mn-oxide soil concentration (R-2 = 0.6), as derived from the oxalate-extractable data. A combination of soil and mineralogical considerations suggests that Tl-205 enrichment in respective soil samples is also partly due to the Tl present in micaceous clay minerals, mainly illite, which is the predominant pedogenic Tl host phase.

In line with our previous results, this Tl behavior can be inferred from systematic Mn-oxide degradation and the associated Tl (enriched in Tl-205) cycling in the studied soils and thus, presumably in the redoximorphic soils in general. (C) 2020 The Authors. Published by Elsevier Ltd.