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TitleThe Sudbury Igneous complex: a differentiated impact melt sheet
AuthorTherriault, A M; Fowler, A D; Grieve, R A F
SourceEconomic Geology vol. 97, no. 5, 2002 p. 1521-1540,
Alt SeriesGeological Survey of Canada, Contribution Series 2000231
PublisherSociety of Economic Geologists
Mediapaper; on-line; digital
File formatpdf
NTS41I/10; 41I/11; 41I/14; 41I/15
Lat/Long WENS -81.5833 -80.7500 46.8333 46.5000
Subjectsextraterrestrial geology; igneous and metamorphic petrology; mineralogy; craters; meteorite craters; Archean; igneous rocks; gabbros; norites; granophyres; granodiorites; lithology; petrography; geochemical analyses; Sudbury Igneous Complex; Sudbury Structure; Precambrian
Illustrationssketch maps; photomicrographs; graphs; ternary diagrams; tables; plots
AbstractThe Sudbury structure, Ontario, is the remnant of a 1.85 Ga old impact crater, which originally had a diameter of 200 to 250 km. The Sudbury Igneous Complex occurs within the Sudbury structure. The Sudbury Igneous Complex is a 2.5- to 3.0-km-thick, ~60- × 27-km elliptical igneous-rock body, which consists of four major lithologies (from top to bottom) traditionally termed "granophyre," "quartz gabbro," "norite," and "contact sublayer" (sulfide- and inclusion-bearing noritic rock). With the exception of the latter, all these lithologies are continuous across the structure. Modal analyses reveal that, following the IUGS system of nomenclature, quartz gabbro samples are in fact quartz monzogabbros, a few of the norite samples are quartz gabbros, and most norite samples are quartz monzogabbros. In view of these observations, and in order to clarify the nomenclature, an updated terminology is proposed (from top to bottom): upper unit, middle unit, lower unit, and contact sublayer.
The bulk composition of the Sudbury Igneous Complex, from North Range data, is granodioritic. Continuous and gradational mineralogical and geochemical variations between the lithological units are evidence that the Complex behaved as a single melt system. All the Sudbury Igneous Complex lithologies have the same light to heavy rare earth element (REE) ratio and an overall pattern of increased light REE and depleted heavy REE. The occurrence of primary hydrous minerals (hornblende and biotite), deuteric alteration, and abundant micrographic and granophyric intergrowths demonstrate that the melt was rich in H2O. Moreover, the granophyric and other far-from-equilibrium textures are most likely due to rapid crystallization triggered by exsolution of a volatile phase.
The Sudbury Igneous Complex differs from traditional layered mafic complexes in the following aspects. It has an overall intermediate composition, a hydrous nature, a crustal isotopic signature, normative corundum, and an unusually large volume of granophyre. The Sudbury Complex differs from known terrestrial impact melt sheets only by its great thickness and the presence of chemical, and therefore, mineralogical layering. Reported here for the first time, and similar to those found in impact melt rocks elsewhere, are the occurrences of plagioclase xenocrysts with complex twinning and zoning patterns and planar deformation features in quartz xenocrysts. The well-known ore deposits of the Sudbury region are directly related to the genesis of the Sudbury Igneous Complex. Some ores precipitated from the Sudbury melt, whereas others were concentrated by hydrothermal fluids that percolated through the crystallized complex. It is concluded that the Sudbury Igneous Complex is the best exposed and only well-documented, to date, terrestrial impact melt sheet to have differentiated.

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