Quantification of Magmatic and Hydrothermal Processes in a Peralkaline Syenite-Alkali Granite Complex Based on Textures, Phase Equilibria, and Stable and Radiogenic Isotopes
The Puklen complex of the Mid-Proterozoic Gardar Province, South Greenland, consists of various silica-saturated to quartz-bearing syenites, which are intruded by a peralkaline granite. The primary mafic minerals in the syenites are augite ± olivine + Fe-Ti oxide + amphibole. Ternary feldspar thermo...
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ftreroch:oai:doc.rero.ch:289412 2023-05-15T16:30:33+02:00 Quantification of Magmatic and Hydrothermal Processes in a Peralkaline Syenite-Alkali Granite Complex Based on Textures, Phase Equilibria, and Stable and Radiogenic Isotopes MARKS, MICHAEL VENNEMANN, TORSTEN SIEBEL, WOLFGANG MARKL, GREGOR 2017-08-02T19:31:45Z http://doc.rero.ch/record/289412/files/egg040.pdf eng eng http://doc.rero.ch/record/289412/files/egg040.pdf 2017 ftreroch 2023-02-16T17:27:30Z The Puklen complex of the Mid-Proterozoic Gardar Province, South Greenland, consists of various silica-saturated to quartz-bearing syenites, which are intruded by a peralkaline granite. The primary mafic minerals in the syenites are augite ± olivine + Fe-Ti oxide + amphibole. Ternary feldspar thermometry and phase equilibria among mafic silicates yield T = 950-750°C, aSiO2 = 0·7-1 and an fO2 of 1-3 log units below the fayalite-magnetite-quartz (FMQ) buffer at 1 kbar. In the granites, the primary mafic minerals are ilmenite and Li-bearing arfvedsonite, which crystallized at temperatures below 750°C and at fO2 values around the FMQ buffer. In both rock types, a secondary post-magmatic assemblage overprints the primary magmatic phases. In syenites, primary Ca-bearing minerals are replaced by Na-rich minerals such as aegirine-augite and albite, resulting in the release of Ca. Accordingly, secondary minerals include ferro-actinolite, (calcite-siderite)ss, titanite and andradite in equilibrium with the Na-rich minerals. Phase equilibria indicate that formation of these minerals took place over a long temperature interval from near-magmatic temperatures down to ∼300°C. In the course of this cooling, oxygen fugacity rose in most samples. For example, late-stage aegirine in granites formed at the expense of arfvedsonite at temperatures below 300°C and at an oxygen fugacity above the haematite-magnetite (HM) buffer. The calculated δ18Omelt value for the syenites (+5·9 to +6·3‰) implies a mantle origin, whereas the inferred δ18Omelt value of <+5·1‰ for the granitic melts is significantly lower. Thus, the granites require an additional low-δ18O contaminant, which was not involved in the genesis of the syenites. Rb/Sr data for minerals of both rock types indicate open-system behaviour for Rb and Sr during post-magmatic metasomatism. Neodymium isotope compositions (εNd1170 Ma = −3·8 to −6·4) of primary minerals in syenites are highly variable, and suggest that assimilation of crustal rocks occurred to variable extents. ... Other/Unknown Material Greenland RERO DOC Digital Library Ferro ENVELOPE(16.233,16.233,66.717,66.717) Greenland |
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Open Polar |
collection |
RERO DOC Digital Library |
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ftreroch |
language |
English |
description |
The Puklen complex of the Mid-Proterozoic Gardar Province, South Greenland, consists of various silica-saturated to quartz-bearing syenites, which are intruded by a peralkaline granite. The primary mafic minerals in the syenites are augite ± olivine + Fe-Ti oxide + amphibole. Ternary feldspar thermometry and phase equilibria among mafic silicates yield T = 950-750°C, aSiO2 = 0·7-1 and an fO2 of 1-3 log units below the fayalite-magnetite-quartz (FMQ) buffer at 1 kbar. In the granites, the primary mafic minerals are ilmenite and Li-bearing arfvedsonite, which crystallized at temperatures below 750°C and at fO2 values around the FMQ buffer. In both rock types, a secondary post-magmatic assemblage overprints the primary magmatic phases. In syenites, primary Ca-bearing minerals are replaced by Na-rich minerals such as aegirine-augite and albite, resulting in the release of Ca. Accordingly, secondary minerals include ferro-actinolite, (calcite-siderite)ss, titanite and andradite in equilibrium with the Na-rich minerals. Phase equilibria indicate that formation of these minerals took place over a long temperature interval from near-magmatic temperatures down to ∼300°C. In the course of this cooling, oxygen fugacity rose in most samples. For example, late-stage aegirine in granites formed at the expense of arfvedsonite at temperatures below 300°C and at an oxygen fugacity above the haematite-magnetite (HM) buffer. The calculated δ18Omelt value for the syenites (+5·9 to +6·3‰) implies a mantle origin, whereas the inferred δ18Omelt value of <+5·1‰ for the granitic melts is significantly lower. Thus, the granites require an additional low-δ18O contaminant, which was not involved in the genesis of the syenites. Rb/Sr data for minerals of both rock types indicate open-system behaviour for Rb and Sr during post-magmatic metasomatism. Neodymium isotope compositions (εNd1170 Ma = −3·8 to −6·4) of primary minerals in syenites are highly variable, and suggest that assimilation of crustal rocks occurred to variable extents. ... |
author |
MARKS, MICHAEL VENNEMANN, TORSTEN SIEBEL, WOLFGANG MARKL, GREGOR |
spellingShingle |
MARKS, MICHAEL VENNEMANN, TORSTEN SIEBEL, WOLFGANG MARKL, GREGOR Quantification of Magmatic and Hydrothermal Processes in a Peralkaline Syenite-Alkali Granite Complex Based on Textures, Phase Equilibria, and Stable and Radiogenic Isotopes |
author_facet |
MARKS, MICHAEL VENNEMANN, TORSTEN SIEBEL, WOLFGANG MARKL, GREGOR |
author_sort |
MARKS, MICHAEL |
title |
Quantification of Magmatic and Hydrothermal Processes in a Peralkaline Syenite-Alkali Granite Complex Based on Textures, Phase Equilibria, and Stable and Radiogenic Isotopes |
title_short |
Quantification of Magmatic and Hydrothermal Processes in a Peralkaline Syenite-Alkali Granite Complex Based on Textures, Phase Equilibria, and Stable and Radiogenic Isotopes |
title_full |
Quantification of Magmatic and Hydrothermal Processes in a Peralkaline Syenite-Alkali Granite Complex Based on Textures, Phase Equilibria, and Stable and Radiogenic Isotopes |
title_fullStr |
Quantification of Magmatic and Hydrothermal Processes in a Peralkaline Syenite-Alkali Granite Complex Based on Textures, Phase Equilibria, and Stable and Radiogenic Isotopes |
title_full_unstemmed |
Quantification of Magmatic and Hydrothermal Processes in a Peralkaline Syenite-Alkali Granite Complex Based on Textures, Phase Equilibria, and Stable and Radiogenic Isotopes |
title_sort |
quantification of magmatic and hydrothermal processes in a peralkaline syenite-alkali granite complex based on textures, phase equilibria, and stable and radiogenic isotopes |
publishDate |
2017 |
url |
http://doc.rero.ch/record/289412/files/egg040.pdf |
long_lat |
ENVELOPE(16.233,16.233,66.717,66.717) |
geographic |
Ferro Greenland |
geographic_facet |
Ferro Greenland |
genre |
Greenland |
genre_facet |
Greenland |
op_relation |
http://doc.rero.ch/record/289412/files/egg040.pdf |
_version_ |
1766020289083211776 |