Computer Science
Scientific paper
Sep 1980
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1980e%26psl..49..205s&link_type=abstract
Earth and Planetary Science Letters, Volume 49, Issue 2, p. 205-218.
Computer Science
15
Scientific paper
The Caledonian Jotun nappe in the Tyin area of southern Norway has been investigated using U-Pb analysis of zircon and sphene and Rb-Sr measurements of minerals and whole rocks, with special reference to the reaction of the isotope systems to various kinds of metamorphic event. The nappe consists of Precambrian basement rocks and their cover, inversely thrust over the Baltic shield and its parautochthonous, presumably lower Paleozoic sediments during the Caledonian orogeny. While the nappe basement retained its pre-Caledonian structures, the nappe cover was penetratively deformed and metamorphosed to lower greenschist facies conditions.
U-Pb analyses of zircon and sphene of nappe basement rocks point to the crystallization of a syenitic to monzonitic magma at 1694 +/- 20 m.y., the intrusion of gabbros into the syenites and monzonites at 1252-25+28 m.y., and the metamorphism (upper greenschist-lower amphibolite facies) and deformation (gneissification and mylonitization) of the whole complex at 909 +/- 16 m.y. Although this latest event caused strong lead loss in all zircon populations, it had no influence on the Rb-Sr system on a whole rock scale. The Caledonian movements did not disturb the U-Pb system of zircon and sphene but strongly influenced the Rb-Sr system in certain minerals and zircon and/or its inclusions (K-feldspar and brown biotite partially, green biotite completely reset).
In contrast to the nappe basement, zircons from the cover rocks show pronounced lead loss during the Caledonian metamorphism/deformation - U-Pb analysis give discordia lower intercept ages of 415 +/- 21 m.y. and 395 +/- 6 m.y. Again, however, the Rb-Sr whole-rock system has not been reset in Caledonian time. Minerals from the same rocks which provided the zircons give Rb-Sr isochron ages of 390 +/- 11 m.y. and 386 +/- 20 m.y.
Comparison of U-Pb and Rb-Sr results from the nappe basement demonstrates that only the analysis of U-Pb systematics in zircon and especially sphene resolved the 900-m.y. event. Rb-Sr mineral data alone yield ambiguous results.
The results from the nappe cover confirm that U-Pb analyses from penetratively deformed sediments are very useful in dating a metamorphic/tectonic event in lower greenschist facies conditions.
From the measured cell dimensions of the zircon populations it is concluded that lead can be completely retained in zircon during recrystallization.
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