The distribution of lead and thallium in mantle rocks: Insights from the Balmuccia peridotite massif (Italian Alps)

Zaicong Wang; Marina Lazarov; Lena K. Steinmann; Harry Becker; Zongqi Zou; Xianlei Geng

doi:10.2138/am-2018-6423

Details

Original language	English
Pages (from-to)	1185-1199
Number of pages	15
Journal	American mineralogist
Volume	103
Issue number	8
Early online date	30 Jul 2018
Publication status	Published - 28 Aug 2018

Abstract

Sulfides in mantle rocks sometimes have unradiogenic Pb isotopic compositions and, assuming specific conditions, may represent a low U/Pb reservoir that might balance the radiogenic Pb isotope reservoirs of the silicate Earth. A critical requirement to test this hypothesis is knowledge of typical Pb contents in sulfides from different types of mantle rocks and estimates of their contribution to the Pb budget of the mantle rocks. However, data on the distribution of Pb between mantle minerals in mantle rocks from different geologic settings are scarce. In this study, new Pb and Tl concentration data from well-characterized unserpentinized spinel-facies peridotites and pyroxenites from the Balmuccia mantle tectonite (Ivrea-Verbano Zone, Italian Alps) are presented as an example to better understand the Pb distribution in minerals and rocks of the upper mantle. Most peridotites display variable bulk-rock Pb contents (13-97 ng/g), which tend to be lower than Pb contents in the websterites (60-254 ng/g) and clinopyroxenites (174-657 ng/g). The pyroxenites show broadly positive correlations of Pb with Al ₂O ₃, Ce, and also S contents. In situ laser ablation-ICP-MS data indicate low Pb contents in olivine, orthopyroxene, and spinel (mostly below the detection limits of 50 ng/g); whereas Pb contents are higher in clinopyroxene (from <50 to 920 ng/g) and in sulfides (typically a few micrograms per gram and sometimes higher in chalcopyrites). Mass-balance calculations indicate that silicates predominantly control Pb contents in bulk rocks (>70-80% of the Pb), with a minor role for sulfides (mostly <20%). This result from Phanerozoic subcontinental lithosphere mantle rocks is consistent with data on abyssal peridotites. As in some previous studies, bulk-rock Pb contents calculated from constituent phases of peridotites are often lower than the measured values. This imbalance mainly reflects trapped fluid inclusions in silicate minerals and, perhaps also fine-grained crystallization products of trapped melt along grain boundaries. Bulk-rock Tl contents in peridotites (0.05-3.5 ng/g) are lower than in pyroxenites (0.66-7.9 ng/g) and display no correlations with Al ₂O ₃ and S contents. The bulk-rock data probably reflect the highly heterogeneous distribution of Tl in sulfides (<0.01-110 μg/g), and, as for Pb, the effect of trapped fluid inclusion. Because the Pb budget in mantle rocks is mainly controlled by silicates, mantle sulfides with unradiogenic Pb isotopic compositions likely cannot balance radiogenic Pb isotopic compositions of oceanic basalts.

Keywords

Chalcophile Elements, Peridotite, Planetary Processes as Revealed by Sulfides, lead, pyroxenite, sulfide, thallium

ASJC Scopus subject areas

Earth and Planetary Sciences(all)
Geochemistry and Petrology
Earth and Planetary Sciences(all)
Geophysics

Cite this

The distribution of lead and thallium in mantle rocks: Insights from the Balmuccia peridotite massif (Italian Alps). / Wang, Zaicong; Lazarov, Marina; Steinmann, Lena K. et al.
In: American mineralogist, Vol. 103, No. 8 , 28.08.2018, p. 1185-1199.

Research output: Contribution to journal › Article › Research › peer review

Wang, Z, Lazarov, M, Steinmann, LK, Becker, H, Zou, Z & Geng, X 2018, 'The distribution of lead and thallium in mantle rocks: Insights from the Balmuccia peridotite massif (Italian Alps)', American mineralogist, vol. 103, no. 8 , pp. 1185-1199. https://doi.org/10.2138/am-2018-6423

Wang, Z., Lazarov, M., Steinmann, L. K., Becker, H., Zou, Z., & Geng, X. (2018). The distribution of lead and thallium in mantle rocks: Insights from the Balmuccia peridotite massif (Italian Alps). American mineralogist, 103(8 ), 1185-1199. https://doi.org/10.2138/am-2018-6423

Wang Z, Lazarov M, Steinmann LK, Becker H, Zou Z, Geng X. The distribution of lead and thallium in mantle rocks: Insights from the Balmuccia peridotite massif (Italian Alps). American mineralogist. 2018 Aug 28;103(8 ):1185-1199. Epub 2018 Jul 30. doi: 10.2138/am-2018-6423

Wang, Zaicong ; Lazarov, Marina ; Steinmann, Lena K. et al. / The distribution of lead and thallium in mantle rocks: Insights from the Balmuccia peridotite massif (Italian Alps). In: American mineralogist. 2018 ; Vol. 103, No. 8 . pp. 1185-1199.

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abstract = "Sulfides in mantle rocks sometimes have unradiogenic Pb isotopic compositions and, assuming specific conditions, may represent a low U/Pb reservoir that might balance the radiogenic Pb isotope reservoirs of the silicate Earth. A critical requirement to test this hypothesis is knowledge of typical Pb contents in sulfides from different types of mantle rocks and estimates of their contribution to the Pb budget of the mantle rocks. However, data on the distribution of Pb between mantle minerals in mantle rocks from different geologic settings are scarce. In this study, new Pb and Tl concentration data from well-characterized unserpentinized spinel-facies peridotites and pyroxenites from the Balmuccia mantle tectonite (Ivrea-Verbano Zone, Italian Alps) are presented as an example to better understand the Pb distribution in minerals and rocks of the upper mantle. Most peridotites display variable bulk-rock Pb contents (13-97 ng/g), which tend to be lower than Pb contents in the websterites (60-254 ng/g) and clinopyroxenites (174-657 ng/g). The pyroxenites show broadly positive correlations of Pb with Al 2O 3, Ce, and also S contents. In situ laser ablation-ICP-MS data indicate low Pb contents in olivine, orthopyroxene, and spinel (mostly below the detection limits of 50 ng/g); whereas Pb contents are higher in clinopyroxene (from <50 to 920 ng/g) and in sulfides (typically a few micrograms per gram and sometimes higher in chalcopyrites). Mass-balance calculations indicate that silicates predominantly control Pb contents in bulk rocks (>70-80% of the Pb), with a minor role for sulfides (mostly <20%). This result from Phanerozoic subcontinental lithosphere mantle rocks is consistent with data on abyssal peridotites. As in some previous studies, bulk-rock Pb contents calculated from constituent phases of peridotites are often lower than the measured values. This imbalance mainly reflects trapped fluid inclusions in silicate minerals and, perhaps also fine-grained crystallization products of trapped melt along grain boundaries. Bulk-rock Tl contents in peridotites (0.05-3.5 ng/g) are lower than in pyroxenites (0.66-7.9 ng/g) and display no correlations with Al 2O 3 and S contents. The bulk-rock data probably reflect the highly heterogeneous distribution of Tl in sulfides (<0.01-110 μg/g), and, as for Pb, the effect of trapped fluid inclusion. Because the Pb budget in mantle rocks is mainly controlled by silicates, mantle sulfides with unradiogenic Pb isotopic compositions likely cannot balance radiogenic Pb isotopic compositions of oceanic basalts.",

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author = "Zaicong Wang and Marina Lazarov and Steinmann, {Lena K.} and Harry Becker and Zongqi Zou and Xianlei Geng",

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T1 - The distribution of lead and thallium in mantle rocks: Insights from the Balmuccia peridotite massif (Italian Alps)

AU - Wang, Zaicong

AU - Lazarov, Marina

AU - Steinmann, Lena K.

AU - Becker, Harry

AU - Zou, Zongqi

AU - Geng, Xianlei

PY - 2018/8/28

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N2 - Sulfides in mantle rocks sometimes have unradiogenic Pb isotopic compositions and, assuming specific conditions, may represent a low U/Pb reservoir that might balance the radiogenic Pb isotope reservoirs of the silicate Earth. A critical requirement to test this hypothesis is knowledge of typical Pb contents in sulfides from different types of mantle rocks and estimates of their contribution to the Pb budget of the mantle rocks. However, data on the distribution of Pb between mantle minerals in mantle rocks from different geologic settings are scarce. In this study, new Pb and Tl concentration data from well-characterized unserpentinized spinel-facies peridotites and pyroxenites from the Balmuccia mantle tectonite (Ivrea-Verbano Zone, Italian Alps) are presented as an example to better understand the Pb distribution in minerals and rocks of the upper mantle. Most peridotites display variable bulk-rock Pb contents (13-97 ng/g), which tend to be lower than Pb contents in the websterites (60-254 ng/g) and clinopyroxenites (174-657 ng/g). The pyroxenites show broadly positive correlations of Pb with Al 2O 3, Ce, and also S contents. In situ laser ablation-ICP-MS data indicate low Pb contents in olivine, orthopyroxene, and spinel (mostly below the detection limits of 50 ng/g); whereas Pb contents are higher in clinopyroxene (from <50 to 920 ng/g) and in sulfides (typically a few micrograms per gram and sometimes higher in chalcopyrites). Mass-balance calculations indicate that silicates predominantly control Pb contents in bulk rocks (>70-80% of the Pb), with a minor role for sulfides (mostly <20%). This result from Phanerozoic subcontinental lithosphere mantle rocks is consistent with data on abyssal peridotites. As in some previous studies, bulk-rock Pb contents calculated from constituent phases of peridotites are often lower than the measured values. This imbalance mainly reflects trapped fluid inclusions in silicate minerals and, perhaps also fine-grained crystallization products of trapped melt along grain boundaries. Bulk-rock Tl contents in peridotites (0.05-3.5 ng/g) are lower than in pyroxenites (0.66-7.9 ng/g) and display no correlations with Al 2O 3 and S contents. The bulk-rock data probably reflect the highly heterogeneous distribution of Tl in sulfides (<0.01-110 μg/g), and, as for Pb, the effect of trapped fluid inclusion. Because the Pb budget in mantle rocks is mainly controlled by silicates, mantle sulfides with unradiogenic Pb isotopic compositions likely cannot balance radiogenic Pb isotopic compositions of oceanic basalts.

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Research@Leibniz University

The distribution of lead and thallium in mantle rocks: Insights from the Balmuccia peridotite massif (Italian Alps)

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The distribution of lead and thallium in mantle rocks: Insights from the Balmuccia peridotite massif (Italian Alps)

Authors

Research Organisations

External Research Organisations

Details

Abstract

Keywords

ASJC Scopus subject areas

Cite this

By the same author(s)

Weathering-induced Sb isotope fractionation during leaching of stibnite and formation of secondary Sb minerals

Cu isotope fractionation between Cu-bearing phases and hydrothermal fluids: Insights from ex situ and in situ experiments

Antimony Isotope Fractionation during Kinetic Sb(III) Oxidation by Antimony-Oxidizing Bacteria Pseudomonas sp. J1

Experimental Study on the Reaction of Cuprite (Cu2O) with Acetate-Bearing Hydrothermal Fluids at 100-250 °C and 5-30 MPa

Changes in antimony isotopic composition as a tracer of hydrothermal fluid evolution at the Sb deposits in Pezinok (Slovakia)

Experimental Study on the Reaction of Cuprite (Cu₂O) with Acetate-Bearing Hydrothermal Fluids at 100-250 °C and 5-30 MPa