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Emslie, R. F. (1973) Some Chemical Characteristics of Anorthositic Suites and their Significance. Canadian Journal of Earth Sciences, 10 (1) 54-71 doi:10.1139/e73-005

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Reference TypeJournal (article/letter/editorial)
TitleSome Chemical Characteristics of Anorthositic Suites and their Significance
JournalCanadian Journal of Earth Sciences
AuthorsEmslie, R. F.Author
Year1973 (January 1)Volume10
Issue1
PublisherCanadian Science Publishing
DOIdoi:10.1139/e73-005Search in ResearchGate
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Mindat Ref. ID473489Long-form Identifiermindat:1:5:473489:9
GUID0
Full ReferenceEmslie, R. F. (1973) Some Chemical Characteristics of Anorthositic Suites and their Significance. Canadian Journal of Earth Sciences, 10 (1) 54-71 doi:10.1139/e73-005
Plain TextEmslie, R. F. (1973) Some Chemical Characteristics of Anorthositic Suites and their Significance. Canadian Journal of Earth Sciences, 10 (1) 54-71 doi:10.1139/e73-005
In(1973, January) Canadian Journal of Earth Sciences Vol. 10 (1) Canadian Science Publishing
Abstract/Notes Spirited discussion continues about the nature of the relationship of rocks of anorthositic composition to intermediate and silicic rocks comprising so-called mangerites, charnockites, adamellites, etc. Because of close spatial association, all of these rocks may be considered to constitute an 'anorthosite suite' without prejudgement as to genetic implications.About 700 rock analyses, largely from the literature but supplemented by previously unpublished analyses from the Michikamau and Morin intrusions have been used to examine some of the chemical characteristics of the anorthosite suites. The suites are commonly high in iron relative to magnesium and alkalies, high in alumina, and have high K2O/SiO2 ratios over a wide range of SiO2 concentrations. The chemical data together with the physical characteristics of the anorthosite suites are interpreted to mean that the magmas are orogenically generated but emplaced on the flanks of orogenic belts in 'anorogenic' environments. Rapakivi granitic suites are chemically similar to the silicic members of the anorthosite suites.

See Also

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Schrijver, K. (1973) Composition of Garnet in Anorthosite–Charnockite Suites: Bias and Precision in Electron-Probe Microanalysis. Canadian Journal of Earth Sciences, 10 (8) 1257-1266 doi:10.1139/e73-111
Papezik, V. S. (1973) Detrital Garnet and Muscovite in Late Precambrian Sandstone near St. John's, Newfoundland, and their Significance. Canadian Journal of Earth Sciences, 10 (3) 430-432 doi:10.1139/e73-041
Norford, B. S. (1973) The Palatal Structure of some Canadian Hadrosauridae (Reptilia: Ornithischia): Discussion. Canadian Journal of Earth Sciences, 10 (1) 109 doi:10.1139/e73-011
Emslie, Ronald F. (1965) THE MICHIKAMAU ANORTHOSITIC INTRUSION, LABRADOR. Canadian Journal of Earth Sciences, 2 (4) 385-399 doi:10.1139/e65-030
Martignole, J., Schrijver, K. (1973) Effect of Rock Composition on Appearance of Garnet in Anorthosite–Charnockite Suites. Canadian Journal of Earth Sciences, 10 (7) 1132-1139 doi:10.1139/e73-097
Poole, W. H. (1973) Detrital Garnet and Muscovite in Late Precambrian Sandstone near St. John's, Newfoundland, and their significance: Discussion. Canadian Journal of Earth Sciences, 10 (11) 1697-1698 doi:10.1139/e73-162
Heaton, M. J. (1973) The Palatal Structure of some Canadian Hadrosauridae (Reptilia: Ornithischia): Reply. Canadian Journal of Earth Sciences, 10 (1) 109-112 doi:10.1139/e73-012
Keen, C. E., Barrett, D. L. (1973) Structural Characteristics of some Sedimentary Basins in Northern Baffin Bay. Canadian Journal of Earth Sciences, 10 (8) 1267-1278 doi:10.1139/e73-112
Mulligan, R. (1973) Lithium Distribution in Canadian Granitoid Rocks. Canadian Journal of Earth Sciences, 10 (2) 316-323 doi:10.1139/e73-028
Cormier, R. F. (1973) Radiometric Ages of Granitic Rocks, Cape Breton Island: Discussion. Canadian Journal of Earth Sciences, 10 (9) 1470 doi:10.1139/e73-138
Schwarcz, H. P. (1973) Sulfur Isotope Analyses of Some Sudbury, Ontario, Ores. Canadian Journal of Earth Sciences, 10 (9) 1444-1459 doi:10.1139/e73-135
 
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