Ce anomalies and trace element distribution in sardinian lithiophorite-rich Mn concretions
Academic Article
Publication Date:
2015
Short description:
Ce anomalies and trace element distribution in sardinian lithiophorite-rich Mn concretions / Mongelli, G., Sinisi, R., Mameli, P., Oggiano, G.. - In: JOURNAL OF GEOCHEMICAL EXPLORATION. - ISSN 0375-6742. - 153:(2015), pp. 88-96. [10.1016/j.gexplo.2015.03.004]
abstract:
Supergene concentrations of lithiophorite found in alluvial conglomerates and residual sandy clay deposits of
Messinian age in northern Sardinia, were investigated for minero-chemical composition and fractionation processes.
The Mn concentration occurs as cement in conglomerate, coatings on pebbles and as concretions in
clays. In the mineralisation, some transition metals including Ni, Cu, and Zn along with Ba, U, Pb, and REEs, are
enriched relative to the composition of the upper continental crust. Zn and Ni co-vary with Mn, suggesting
that they are hosted in lithiophorite. Also the REEs, with the exception of Ce, co-vary with Mn. Ce, due to its
redox chemistry, fractionates relative to the other REEs and precipitates as cerianite during Mn4+ reduction.
Mn mineralisation has a different Ce signature as expressed by the Ce anomaly, which varies between 0.22 and
11.75. A two-stage model was proposed for explaining the Ce anomaly fluctuations. Precipitation of the samples
with positive Ce anomalies occurred in the first stage fromorganicmatter-free fluidswhich favored the oxidation
of cerium on the Mn phase surface; in the second stage, instead, Ce-depleted solutions, resulting from the first
stage, were responsible for the precipitation of samples with negative Ce anomalies.
Messinian age in northern Sardinia, were investigated for minero-chemical composition and fractionation processes.
The Mn concentration occurs as cement in conglomerate, coatings on pebbles and as concretions in
clays. In the mineralisation, some transition metals including Ni, Cu, and Zn along with Ba, U, Pb, and REEs, are
enriched relative to the composition of the upper continental crust. Zn and Ni co-vary with Mn, suggesting
that they are hosted in lithiophorite. Also the REEs, with the exception of Ce, co-vary with Mn. Ce, due to its
redox chemistry, fractionates relative to the other REEs and precipitates as cerianite during Mn4+ reduction.
Mn mineralisation has a different Ce signature as expressed by the Ce anomaly, which varies between 0.22 and
11.75. A two-stage model was proposed for explaining the Ce anomaly fluctuations. Precipitation of the samples
with positive Ce anomalies occurred in the first stage fromorganicmatter-free fluidswhich favored the oxidation
of cerium on the Mn phase surface; in the second stage, instead, Ce-depleted solutions, resulting from the first
stage, were responsible for the precipitation of samples with negative Ce anomalies.
Iris type:
1.1 Articolo in rivista
Keywords:
Mn mineralisation; Lithiophorite; REEs fractionation; Sediments; Sardinia; Italy
List of contributors:
Mongelli, G; Sinisi, R; Mameli, Paola; Oggiano, Giacomo
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