Petrogenesis of early syn-tectonic monzonite-granodiorite complexes – Crustal reprocessing versus crustal growth

•Synorogenic granodiorites (Damara orogen) originate through crustal reproccessing.•Assimilation of crustal material was significant and includes lower crustal rocks.•Rare monzodiorites and monzonites were generated from the lithospheric mantle.•Limited crustal growth shows that a common subduction...

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Veröffentlicht in:Precambrian research 2020-12, Vol.351, p.105957, Article 105957
Hauptverfasser: Jung, S., Romer, R.L., Pfänder, J.A., Berndt, J.
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Sprache:eng
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Zusammenfassung:•Synorogenic granodiorites (Damara orogen) originate through crustal reproccessing.•Assimilation of crustal material was significant and includes lower crustal rocks.•Rare monzodiorites and monzonites were generated from the lithospheric mantle.•Limited crustal growth shows that a common subduction zone setting is unlikely.•Flat subduction tectonics may explain the chemical and isotope composition. The 563.7 ± 6.1 Ma old, early-syntectonic Mon Repos complex is a predominantly metaluminous, magnesian, calc-alkalic granodioritic to granitic intrusion. Major and trace element variations imply that the rocks evolved through fractional crystallization processes involving amphibole, biotite, Fe-Ti oxides, zircon, and apatite. Rocks less evolved than granodiorite show evidence of hornblende accumulation. Initial Sr (87Sr/86Sr: 0.7090–0.7111) and Nd (εNd: −5.3 to −12.3) isotopic compositions of the granodiorites and granites are highly heterogeneous and vary with SiO2 contents indicating that assimilation of older crustal components occurred. Initial 206Pb/204Pb (16.65–17.65) and 207Pb/204Pb ratios (15.52–15.60) are similar to other mafic-intermediate complexes from the Damara belt. One monzodiorite and two quartz monzonites are K2O-, LILE-, and HFSE enriched and have similar SiO2 contents as the granodiorites. These samples are similar to post-collisional mafic magmas from elsewhere in the world. Their ε Nd values (−3.8 to −4.3), 87Sr/86Sr ratios (0.7051–0.7073) and trace-element characteristics imply that their unexposed parental melts are derived from a lithospheric mantle source that was contaminated and metasomatized by crustal material during ancient subduction processes. The data are explained by assuming a “flat” subduction model where melting predominantly involves ancient continental mantle lithosphere and crust with limited, if any, melting of the underlying asthenospheric mantle. During flat subduction, a sliver consisting of buoyant oceanic lithosphere was amalgamated with the base of the ancient continental lithosphere of the overriding plate. The oceanic mantle lithosphere and the oceanic crust dehydrated (but did not melt) and these fluids lowered the solidus of the overlying continental mantle lithosphere and crust. This scenario can explain the occurrence of rare K2O- and LILE-enriched monzodiorites and quartz monzonites with crustal-like isotopic compositions observed in this study as well as some more alkaline rocks in the belt. Because the met
ISSN:0301-9268
1872-7433
DOI:10.1016/j.precamres.2020.105957