Fractionation and Assimilation Processes in the Alkaline Augite Syenite Unit of the Ilimaussaq Intrusion, South Greenland, as Deduced from Phase Equilibria

The early augite syenite unit in the 1·13-Ga-old Il i ´ maussaq intrusive complex, South Greenland, consists of a magmatic assemblage of ternary alkali feldspar + fayalitic olivine + augite + titanomagnetite + apatite + baddeleyite ± nepheline ± quartz ± ilmenite ± zircon. Feldspar, nepheline and QU...

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Bibliographic Details
Published in:Journal of Petrology
Main Authors: MARKS, MICHAEL, MARKL, GREGOR
Format: Text
Language:English
Published: Oxford University Press 2001
Subjects:
ARTICLES
Greenland
Ilimaussaq
Wall Rocks
Online Access:http://petrology.oxfordjournals.org/cgi/content/short/42/10/1947
https://doi.org/10.1093/petrology/42.10.1947
Description
Summary:The early augite syenite unit in the 1·13-Ga-old Il i ´ maussaq intrusive complex, South Greenland, consists of a magmatic assemblage of ternary alkali feldspar + fayalitic olivine + augite + titanomagnetite + apatite + baddeleyite ± nepheline ± quartz ± ilmenite ± zircon. Feldspar, nepheline and QUILF thermometry yield <rm>T</rm> = 1000–700°C, at <rm>P</rm> = 1 kbar, which is derived from fluid inclusion data from other parts of the complex. Ternary feldspar was the first major liquidus phase. It crystallized at temperatures between 950 and 1000°C from a homogeneous magma with <rm>a</rm> SiO 2 = 0·8 and <rm>f</rm> O 2 about 1·5–2 log units below the fayalite–magnetite–quartz (FMQ) buffer. Later, closed system fractionation produced nepheline-bearing assemblages with <rm>a</rm> SiO 2 = 0·4 and log <rm>f</rm> O 2 = FMQ – 3 to FMQ – 5. Assimilation of wall rocks produced local variations of melt composition. Four traverses through the unit were sampled parallel to the assumed direction of crystallization. They exhibit significant differences in their mineral assemblages and compositions. The chemical zoning and calculated intensive parameters of four sample suites reflect both closed system fractional crystallization and local assimilation of wall rocks.

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