Molybdenite re-os dating constrains gravitational collapse of the Sveconorwegian orogen, SW Scandinavia

Re-Os dating of molybdenite from small deposits is used to define crustal domains exhibiting ductile versus brittle behaviour during gravitational collapse of the Sveconorwegian orogen in SW Scandinavia. A 1019 +/- 3 Ma planar quartz vein defines a minimum age for brittle behaviour in central Telemark. In Rogaland-Vest Agder, molybdenite associated with deformed quartz and pegmatite veins formed between 982 +/- 3 and 947 +/- 3 Ma in the amphibolite-facies domain (three deposits) and between 953 +/- 3 and 931 +/- 3 Ma west of the clinopyroxene-in isograd (two deposits) in the vicinity of the 0.93-0.92 Ga Rogaland anorthosite complex. The data constrain the last increment of ductile deformation to be younger than 0.95 and 0.93 Ga in these two metamorphic zones, respectively. Molybdenite is the product of an equilibrium between biotite, oxide and sulfide minerals and a fluid or hydrated melt phase, after the peak of 1.03-0.97 Ga regional metamorphism. Molybdenite precipitation is locally episodic. A model for gravitational collapse of the Sveconorwegian orogen controlled by lithospheric extension after 0.97 Ga is proposed. In the west of the orogen, the Rogaland-Vest Agder sector is interpreted as a large shallow gneiss dome, formed slowly in two stages in a warm and structurally weak crust. The first stage at 0.96-0.93 Ga was associated with intrusion of the post-collisional homblende-biotite granite suite. The second stage at 0.93-0.92 Ga, restricted to the southwesternmost area, was associated with intrusion of the anorthosite-mangefite-chamockite suite. Most of the central part of the orogen was already situated in the brittle upper crust well before 0.97 Ga, and did not undergo significant exhumation during collapse. In the east of the orogen, situated against the colder cratonic foreland, exhumation of high-grade rocks of the Eastern Segment occurred between 0.97 and 0.95 Ga, and included preservation of high-pressure rocks but no plutonism. (c) 2005 Elsevier B.V. All rights reserved.