Metamorphic differentiation at Einasleigh, Northern Queensland
Title:
Metamorphic differentiation at Einasleigh, Northern Queensland
Author:
Kretz, Ralph
Appeared in:
Australian journal of earth sciences
Paging:
Volume 13 (1966) nr. 2 pages 561-582
Year:
1966
Contents:
Biotite-muscovite-garnet gneisses at Einasleigh contain quartz-feldspar veins composed of the same minerals as found in the enclosing rock. The vein-gneiss boundaries are commonly irregular and on a microscopic scale, gradational. Certain amphibolite layers contain quartz-feldspar veins composed of the same minerals as found in the amphibolite. Hornblende-rich extraction zones surround these veins, and material balance calculations show that all or nearly all of the vein-forming matter was locally derived. Variation in the abundance of hornblende and plagioclase in the amphibolite as a function of distance from a quartz-feldspar vein can be expressed by error-function curves, thus suggesting that the mineral-segregation process was diffusion-controlled. During the mineral rearrangement, the Na and Ca contents of plagioclase have evidently remained unchanged, but the vein hornblende has become slightly richer in Fe+3, Mg, and Ca, and poorer in Si and Al relative to hornblende in the adjacent amphibolite. A certain biotite-plagioclase rock forms layers and boudins in the gneisses and contains pegmatite veins composed of the same minerals as found in the host rock. The plagioclase in these veins is more sodic than that in the host rock while the biotite contains slightly more Ti and Fe+2 and less Si and Mg than the biotite of the enclosing rock. The data indicate that significant portions of the vein-forming matter at Einasleigh were locally derived. The chemistry of some minerals has changed slightly during the segregation process, resulting possibly from different diffusion rates for the different mineral-forming constituents.
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