Stability and isotopic dating of monazite and allanite in partially molten rocks: examples from the Central Alps

Berger, Alfons; Rosenberg, Claudio; Schaltegger, Urs

doi:10.1007/s00015-009-1310-8

Cited by 24 publications

(19 citation statements)

References 28 publications

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“…Cherniak et al 2004). Our interpretation is also consistent with the Oligocene age of upper amphibolite-facies metamorphism in the southern and south-eastern parts of the Lepontine dome (Hänny et al 1975;Köppel et al 1981;Gebauer 1996;Berger et al 2009;Rubatto et al 2009). …”

Section: Timing Of Migmatisationsupporting

confidence: 90%

“…Barrow-type metamorphic conditions increase southwards from upper greenschist-to upper amphibolite-facies. In the southern central part, the Lepontine dome is characterised by migmatisation Burri et al 2005) that took place through fluid-assisted melting at about 700°C and 6-8 kbar (Nagel et al 2002;Burri et al 2005) between 32 and 22 Ma (Hänny et al 1975;Köppel et al 1981;Gebauer 1996;Berger et al 2009;Rubatto et al 2009). Further to the south, the Lepontine dome is truncated by the Insubric line (Fig.…”

Section: Geological Settingmentioning

confidence: 99%

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Tectonometamorphic history of the Gruf complex (Central Alps): exhumation of a granulite–migmatite complex with the Bergell pluton

et al. 2013

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We describe field occurrences of sapphirinebearing granulites, charnockites and migmatites in the Gruf complex, Central Alps and present a new geological map and a structural analysis of the entire Gruf complex for the first time. We have carried out an accurate analysis of the relationships between granulite facies metamorphism, migmatisation and deformation within the complex, in relation to the intrusion of the Bergell pluton. Granulites and charnockites display fabrics different from those defined by the regional foliation and lineation, which are, typically for migmatites, disordered on the mesoscale. On a regional scale, strike variations are also related to the structural complexity of migmatites within which no major antiform could be identified. Irregular interfingering of subparallel leucosome veins and back-veining along the contact between the Gruf migmatites and the Bergell tonalite are evidence for contemporaneous emplacement and crystallisation at about 740°C and 6.5-7.5 kbar in Oligocene times (ca 30 Ma). Metamorphic conditions in the charnockites and granulites ([920°C for 8.5-9.5 kbar) largely exceed these regional metamorphic conditions and are dated at 282-260 Ma. We propose that the ascending Bergell pluton entrained the polymetamorphic, granulitic lower crust enclosed within the peripheral migmatitic Gruf complex.

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Section: Timing Of Migmatisationsupporting

confidence: 90%

Section: Geological Settingmentioning

confidence: 99%

Tectonometamorphic history of the Gruf complex (Central Alps): exhumation of a granulite–migmatite complex with the Bergell pluton

et al. 2013

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“…Handy and Oberhänsli 2004; and references therein) and is therefore not addressed in this study. The metamorphic evolution can be subdivided into two distinct stages: (1) Latest Cretaceous-Late Eocene subduction-related pressure-dominated metamorphism and deformation (see review in Berger and Bousquet 2008; and references therein) that affected oceanic lithosphere formed during the opening of the Alpine Tethys as well as small parts of the immediately adjacent Europe-derived continental lithosphere; and (2) OligoceneMiddle Miocene temperature-dominated, Barrow-type metamorphism (Köppel et al 1981;Hunziker et al 1992;Berger et al 2009;Janots et al 2009;Rubatto et al 2009) related to the collision between Europe and Adria. Collision involved accretion of massive volumes of crustal material derived from the lower, European plate (e.g.…”

Section: Introductionmentioning

confidence: 98%

3-D assessment of peak-metamorphic conditions by Raman spectroscopy of carbonaceous material: an example from the margin of the Lepontine dome (Swiss Central Alps)

Wiederkehr

Bousquet

Ziemann

et al. 2011

Int J Earth Sci (Geol Rundsch)

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International audienceThis study monitors regional changes in the crystallinity of carbonaceous matter (CM) by applying Micro-Raman spectroscopy to a total of 214 metasediment samples (largely so-called Bündnerschiefer) dominantly metamorphosed under blueschist- to amphibolite-facies conditions. They were collected within the northeastern margin of the Lepontine dome and easterly adjacent areas of the Swiss Central Alps. Three-dimensional mapping of isotemperature contours in map and profile views shows that the isotemperature contours associated with the Miocene Barrow-type Lepontine metamorphic event cut across refolded nappe contacts, both along and across strike within the northeastern margin of the Lepontine dome and adjacent areas. Further to the northeast, the isotemperature contours reflect temperatures reached during the Late Eocene subduction-related blueschist-facies event and/or during subsequent near-isothermal decompression; these contours appear folded by younger, large-scale post-nappe-stacking folds. A substantial jump in the recorded maximum temperatures across the tectonic contact between the frontal Adula nappe complex and surrounding metasediments indicates that this contact accommodated differential tectonic movement of the Adula nappe with respect to the enveloping Bündnerschiefer after maximum temperatures were reached within the northern Adula nappe, i.e. after Late Eocene time

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“…These rims are coeval with the Alpine regional metamorphism (32-22 Ma in the southern and south-eastern Lepontine Dome, Hänny et al 1975;Köppel et al 1981;Vance and O'Nions 1992;Gebauer 1996;Berger et al 2009;Rubatto et al 2009) and the emplacement of the adjacent Bergell Pluton (33-30 Ma, Von Blanckenburg 1992; Oberli et al 2004;Gregory et al 2009). Field observations suggest that migmatisation at 720-740°C (Fig.…”

Section: Early Oligocene Metamorphic Rimsmentioning

confidence: 99%

“…Burri et al 2005). The 32-to 22-Ma migmatisation (Hänny et al 1975;Köppel et al 1981;Berger et al 2009;Rubatto et al 2009) mainly occurred at 700-750°C and 6-8 kbar (Fig. 2) through fluid-assisted melting and, in a limited amount, fluid-absent muscovite melting (Nagel et al 2002, Burri et al 2005Berger et al 2008).…”

Section: Geological Settingmentioning

confidence: 99%

U–Pb zircon dating of the Gruf Complex: disclosing the late Variscan granulitic lower crust of Europe stranded in the Central Alps

Galli

Bayon

Schmidt

et al. 2011

Contrib Mineral Petrol

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Permian granulites associated with noritic intrusions and websterites are a common feature of the post-Variscan European crust. Such granulites are common in the Southern Alps (e.g. Ivrea Zone), but occur only in the Gruf Complex in the Central Alps. To understand the geotectonic significance of these granulites, in particular in the context of Alpine migmatisation, zircons from 15 highgrade samples have been U-Pb dated by SHRIMP II analysis. Oscillatory zoned zircons from charnockite sheets, interpreted as melts generated through granulite facies fluid-absent biotite melting at 920-940°C, yield ages of 282-260 Ma. Some of these zircons contain inclusions of opx, unequivocally attributable to the granulite facies, thus confirming a Permian age for the charnockites and associated granulites. Two samples from an enclave-rich orthogneiss sheet yield Cambrian and Ordovician zircon cores. Two deformed leucogranites and six ortho-and augengneisses, which compose two-thirds of the Gruf Complex, give zircon ages of 290-260 Ma. Most zircons have milky rims with ages of 34-29 Ma. These rims date the Alpine amphibolite facies migmatisation, an interpretation confirmed by directly dating a leucosome pocket from upper amphibolite facies metapelites. The Gruf charnockites associated with metre-scale schlieren and boudins of opx-sapphirine-garnet-granulites, websterites and gabbronorites can thus be identified as part of the postVariscan European lower crust. A geotectonic reconstruction reveals that this piece of lower crust stranded in the (European) North upon rifting of the Neotethys, such contrasting the widespread granulite units in the Southern Alps. Emplacement of the Gruf lower crust into its presentday position occurred during migmatisation and formation of the Bergell Pluton in the aftermath of the breakoff of the European slab.

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Stability and isotopic dating of monazite and allanite in partially molten rocks: examples from the Central Alps

Cited by 24 publications

References 28 publications

Tectonometamorphic history of the Gruf complex (Central Alps): exhumation of a granulite–migmatite complex with the Bergell pluton

Tectonometamorphic history of the Gruf complex (Central Alps): exhumation of a granulite–migmatite complex with the Bergell pluton

3-D assessment of peak-metamorphic conditions by Raman spectroscopy of carbonaceous material: an example from the margin of the Lepontine dome (Swiss Central Alps)

U–Pb zircon dating of the Gruf Complex: disclosing the late Variscan granulitic lower crust of Europe stranded in the Central Alps

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