Origins of igneous microgranular enclaves in granites: the example of Central Victoria, Australia

J. D. Clemens, M. A. Elburg, C. Harris

Research output: Contribution to journalArticlepeer-review

51 Citations (Scopus)

Abstract

To investigate their genesis and relations with their host rocks, we study igneous microgranular enclaves (IMEs) in the c. 370 Ma, post-orogenic, high-level, felsic plutons and volcanic rocks of Central Victoria, Australia. The IMEs are thermally quenched magma globules but are not autoliths, and they do not form mixing series with their host magmas. These IMEs generally represent hybrids between mantle-derived magmas and very high-T crust-derived melts, modified by fractionation, ingestion of host-derived crystals and, to a lesser extent, by chemical interactions with their hosts. Isotopic and elemental evidence suggests that their likely mafic progenitors formed by partial melting of subcontinental mantle, but that the IME suites from different felsic host bodies did not share a common initial composition. We infer that melts of heterogeneous mantle underwent high-T hybridisation with melts from a variety of crustal rocks, which led to a high degree of primary variability in the IME magmas. Our model for the formation of the Central Victorian IMEs is likely to be applicable to other occurrences, especially in suites of postorogenic granitic magmas emplaced in the shallow crust. However, there are many different origins for the mingled magma globules that we call IMEs, and different phenomena seem to occur in differing tectonic settings. The complexity of IME formation means that it is difficult to unravel the petrogenesis of these products of chaotic magma processes. Nevertheless, the survival of fine-grained, non-equilibrium mineralogy and texture in the IMEs suggests that their tenure in the host magmas must have been geologically brief.

Original languageEnglish
Article number88
JournalContributions to Mineralogy and Petrology
Volume172
Issue number10
DOIs
Publication statusPublished - 1 Oct 2017

Keywords

  • Australia
  • Central Victoria
  • Granites
  • Granitic rocks
  • Hybridisation
  • Igneous enclaves
  • Magma mingling
  • Magma quenching
  • Magmatic enclaves
  • Microgranular enclaves

ASJC Scopus subject areas

  • Geophysics
  • Geochemistry and Petrology

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