Other
Scientific paper
Dec 1980
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1980e%26psl..51..279w&link_type=abstract
Earth and Planetary Science Letters, Volume 51, Issue 2, p. 279-296.
Other
53
Scientific paper
Rare earth element (REE) data, together with data for major elements and 14 other trace elements, are presented for ultramafic, mafic, intermediate, tonalitic, trondhjemitic, anorthositic and microline gneisses, representative of the range of rock types making up the 2.9-b.y. Lewisian granulite complex of northwest Scotland. The data are used to constrain petrogenetic models for the Archaean lower crust.
Ultramafic gneisses have flat REE patterns with 3-5 times chondrite abundance. The more Fe-rich mafic gneisses show slight light-REE enrichment, range up to 40 times chondritic and some have negative Eu anomalies. Intermediate gneisses have more fractionated REE distributions (CeN/YbN = 4-25) but with rather constant heavy REE. Tonalitic gneiss REE patterns are also strongly fractionated, show variable heavy-REE depletion and have positive Eu anomalies. REE patterns of trondhjemitic gneisses are very strongly fractionated (CeN/YbN up to ~ 300), show strong heavy-REE depletion and most have marked positive anomalies. Anorthosites and microcline gneisses have similar REE distributions to the trondhjemites in spite of different major element compositions.
Modelling of the REE and other trace element patterns of processes such as fractional crystallisation and partial melting suggests that whereas the mafic gneisses can be related by low-pressure fractional crystallisation, the more silicic gneisses can only be related by high-pressure partial melting of a mafic source. Most of the gneisses represent liquid compositions; few can be regarded as cumulates or the residues of partial melting. The computed average Lewisian granulite does have a positive Eu anomaly, but this is imparted by the more fractionated tonalites and trondhjemites and not by the more mafic components of the gneiss complex. Elements such as K, Rb, Cs, Th and U are removed from the lower crust by a fluid (CO2-rich) not a melt phase during granulite-facies metamorphism. The Archean lower crust is more silicic than implied by the andesite model for continental growth.
The most suitable tectonic environment to account for the generation and intermixing of the different low-pressure and high-pressure magmas or rock types (and the presence of high-grade metasediments) would be one similar to the Cordilleran belt of South America. Underplating by subduction zone or mantle derived liquids may be a significant process in Archaean continental growth.
Tarney John
Weaver Barry L.
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