Publication details

Petrographic and Sr-Nd-Pb-Li isotope characteristics of a complex lamproite intrusion from the Saxo-Thuringian Zone: A unique example of peralkaline mantle-derived melt differentiation

Authors

KRMÍČEK Lukáš ROMER Rolf L. CEMPÍREK Jan GADAS Petr KRMÍČKOVÁ Simona GLODNY Johannes

Year of publication 2020
Type Article in Periodical
Magazine / Source Lithos
MU Faculty or unit

Faculty of Science

Citation
Web https://doi.org/10.1016/j.lithos.2020.105735
Doi http://dx.doi.org/10.1016/j.lithos.2020.105735
Keywords Silica-rich lamproite; Baotite; Fractionation; Sr-Nd-Pb-Li isotopes; Orogenic mantle; Bohemian Massif
Description Variscan orogenic lamproites in the Bohemian Massif predominantly occur as 1 to 2 m wide and petrographically uniform dykes along the eastern borders of the Moldanubian and Saxo-Thuringian zones. Variscan orogenic lamproites were derived by preferential melting of subduction-related olivine-free metasomatic vein assemblages stabilised in the lithospheric mantle. These lamproitic melts may subsequently undergo extensive differentiation. In this study, we present the first combined petrographic and Sr-Nd-Pb-Li isotope characteristics of a complex lamproite exposed at ca 100 m long profile near Horni Rokytnice (Czech Republic) in the SaxoThuringian Zone. This lamproite is characterised by the primary mineral assemblage of K-amphibole Kfeldspar +/- aegirine and quartz that petrographically varies from relatively primitive (fine-grained, mafic) to more differentiated (medium- to coarse-grained, felsic) pegmatitic lamproite domains. These domains may represent the product of crystallisation of immiscible liquids that had separated from the mafic melt. The primitive lamproite zone is characterised by the typomorphic minerals - baotite, benitoite, and henrymeyerite. The more differentiated pegmatitic domains are free of aegirine and show replacement of primary red-luminescent (Fe3+-rich) K-feldspar by blue-luminescent (Fe-poor) K-feldspar. Residual fluids rich in Ca, Ti, and HFSE in combination with the decreasing peralkalinity of the lamproite system resulted in the local formation of secondary zircon, titanite and quartz at the expense of the primary Ti-Ba-Zr-K lamproitic mineral assemblages. Lamproites from the Moldanubian and Saxo-Thuringian zones fall on separate mixing trends in the Sr-87/Sr-86((t))- epsilon Nd-(t) diagram, which indicates that the mantle beneath these two zones had been metasomatised by different crustal material. The scatter in the peralkalinity index vs. delta(7) Li diagram indicates that the Li isotope composition is not controlled by mixing of two end members metasome and ambient depleted mantle alone, but may also be affected by late-stage magmatic and hydrothermal processes. The compositionally zoned Horni Rokytnice dyke is special as the petrographically different types show a variation of about 4 delta-units in delta(7) Li due to dyke-internal processes, such as fractionation, which increases delta(7) Li in late-stage lamproitic melts, and post-emplacement interaction with fluids that reduced delta(7) Li in samples that have lost Li. Post-emplacement alteration also led to the disturbance in the Pb isotope systematics of the differentiated orogenic lamproite as indicated by variable over-correction of in situ radiogenic Pb ingrowth.

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