A. J. R. White scite author profile

The concept of I-and S-type granites was introduced in 1974 to account for the observation that, apart from the most felsic rocks, the granites in the Lachlan Fold Belt have properties that generally fall into two distinct groups. This has been interpreted to result from derivation by partial melting of two kinds of source rocks, namely sedimentary and older igneous rocks. The original publication on these two granite types is reprinted and reviewed in the light of 25 years of continuing study into these granites.

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Nature and origin of A-type granites with particular reference to southeastern Australia

Collins

Beams

White

et al. 1982

Contr. Mineral. and Petrol.

1,987

784

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Characterization and Origin of Aluminous A-type Granites from the Lachlan Fold Belt, Southeastern Australia

King¹,

White

Chappell³

et al. 1997

Journal of Petrology

1,045

453

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I- and S-type granites in the Lachlan Fold Belt

Chappell

White²

1992

Earth and Environmental Science Transactions of the Royal Socie

1,219

441

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Granites and related volcanic rocks of the Lachlan Fold Belt can be grouped into suites using chemical and petrographic data. The distinctive characteristics of suites reflect source-rock features. The first-order subdivision within the suites is between those derived from igneous and from sedimentary source rocks, the I- and S-types. Differences between the two types of source rocks and their derived granites are due to the sedimentary source material having been previously weathered at the Earth's surface. Chemically, the S-type granites are lower in Na, Ca, Sr and Fe3+/Fe2+, and higher in Cr and Ni. As a consequence, the S-types are always peraluminous and contain Al-rich minerals. A little over 50% of the I-type granites are metaluminous and these more mafic rocks contain hornblende. In the absence of associated mafic rocks, the more felsic and slightly peraluminous I-type granites may be difficult to distinguish from felsic S-type granites. This overlap in composition is to be expected and results from the restricted chemical composition of the lowest temperature felsic melts. The compositions of more mafic I- and S-type granites diverge, as a result of the incorporation of more mafic components from the source, either as restite or a component of higher temperature melt. There is no overlap in composition between the most mafic I- and S-type granites, whose compositions are closest to those of their respective source rocks. Likewise, the enclaves present in the more mafic granites have compositions reflecting those of their host rocks, and probably in most cases, the source rocks.S-type granites have higher δ18O values and more evolved Sr and Nd isotopic compositions, although the radiogenic isotope compositions overlap with I-types. Although the isotopic compositions lie close to a mixing curve, it is thought that the amount of mixing in the source rocks was restricted, and occurred prior to partial melting. I-type granites are thought to have been derived from deep crust formed by underplating and thus are infracrustal, in contrast to the supracrustal S-type source rocks.Crystallisation of feldspars from felsic granite melts leads to distinctive changes in the trace element compositions of more evolved I- and S-type granites. Most notably, P increases in abundance with fractionation of crystals from the more strongly peraluminous S-type felsic melts, while it decreases in abundance in the analogous, but weakly peraluminous, I-type melts.

show abstract

I- and S-type granites in the Lachlan Fold Belt

Chappell¹,

White²

1992

439

345

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A. J. R. White

Two contrasting granite types: 25 years later

Nature and origin of A-type granites with particular reference to southeastern Australia

Characterization and Origin of Aluminous A-type Granites from the Lachlan Fold Belt, Southeastern Australia

I- and S-type granites in the Lachlan Fold Belt

I- and S-type granites in the Lachlan Fold Belt

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