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Journal Article

Variscan crustal thickening in the Maures-Tanneron massif (South Variscan belt, France): new in situ monazite U-Th-Pb chemical dating of high-grade rocks Available to Purchase

Emilien Oliot, Jérémie Melleton, Julie Schneider, Michel Corsini, Véronique Gardien, Yann Rolland
Published: 01 March 2015
Bulletin de la Société Géologique de France (2015) 186 (2-3): 145–169.
DOI: https://doi.org/10.2113/gssgfbull.186.2-3.145
... and disentangling their evolution within large-scale orogens. In situ U-Th-Pb chemical dating on monazites using Electron Probe Micro-Analyser (EPMA) has been performed on eight samples throughout the Variscan Maures-Tanneron massif (SE France) in order to date the medium to high-tectonothermal events related...
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View PDF for article title, Variscan crustal thickening in the Maures-<span class="search-highlight">Tanneron</span> <span class="search-highlight">massif</span> (South Variscan belt, France): new in situ monazite U-Th-Pb chemical dating of high-grade rocks
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Book Chapter

Thermal and mechanical evolution of an orogenic wedge during Variscan collision: an example in the Maures–Tanneron Massif (SE France) Available to Purchase

Author(s)
Julie Schneider, Michel Corsini, Alexandre Reverso-Peila, Jean-Marc Lardeaux
Book: The Variscan Orogeny: Extent, Timescale and the Formation of the European Crust
Series: Geological Society, London, Special Publications
Publisher: Geological Society of London
Published: 01 January 2014
DOI: 10.1144/SP405.4
EISBN: 9781862396814
... Abstract Synthesis of structural, petrological and geochronological data for the Maures–Tanneron Massif and its integration in the framework of adjacent massifs (i.e. Sardinia and Corsica) has allowed us to propose a new model of evolution for the southern Variscan belt. After Siluro-Devonian...
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Abstract
View PDF for content titled, Thermal and mechanical evolution of an orogenic wedge during Variscan collision: an example in the Maures–<span class="search-highlight">Tanneron</span> <span class="search-highlight">Massif</span> (SE France)
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Abstract Synthesis of structural, petrological and geochronological data for the Maures–Tanneron Massif and its integration in the framework of adjacent massifs (i.e. Sardinia and Corsica) has allowed us to propose a new model of evolution for the southern Variscan belt. After Siluro-Devonian subduction associated with high-pressure–low-temperature (HP/LT) metamorphism M 0 ( c. 10–15 °C km −1 ) and subsequent Carboniferous nappes stacking, the belt underwent strong reworking related to back-thrusting. Nappes stacking and back-thrusting were associated with typical Barrovian metamorphism M 1 ( c. 20–30 °C km −1 ) starting at 360 Ma that progressively evolved to higher temperature metamorphisms M 2 ( c. 40–60 °C km −1 ) and M 3 ( c. 60–80 °C km −1 ) during 330–300 Ma in the internal part of the belt. Progressive increase of the thermal gradient is interpreted as a consequence of gravitational instabilities triggered in the partially molten orogenic root. Continuous compressive forces applied to the belt allowed vertical extrusion of the orogenic root in fold-dome structures. The mass transfer is accommodated by orogen-parallel transpressive shearing synchronous with M 3 during Late Carboniferous time. The orogenic wedge is characterized by two main tectono-metamorphic units decoupled by a major shear belt: an Internal Zone with migmatites and syntectonic granitoids, where HP relicts have been exhumed, and an External Zone that escaped the late HT event and preserved precious structures.

Journal Article

Metamorphic and structural evolution of the Maures-Tanneron massif (SE Variscan chain): evidence of doming along a transpressional margin Available to Purchase

Yann Rolland, Michel Corsini, Antoine Demoux
Published: 01 May 2009
Bulletin de la Société Géologique de France (2009) 180 (3): 217–230.
DOI: https://doi.org/10.2113/gssgfbull.180.3.217
...Yann Rolland; Michel Corsini; Antoine Demoux Abstract The Variscan metamorphic and structural evolution of the Maures-Tanneron massif is divided in two main post-collisional phases: (1) a MP-MT regional gradient is developed during nappe-piling process between 350 and 320 Ma, followed by (2) LP-HT...
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View PDF for article title, Metamorphic and structural evolution of the Maures-<span class="search-highlight">Tanneron</span> <span class="search-highlight">massif</span> (SE Variscan chain): evidence of doming along a transpressional margin
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Journal Article

Variscan evolution of the Tanneron massif, SE France, examined through U–Pb monazite ages Available to Purchase

ANTOINE DEMOUX, URS SCHäRER, MICHEL CORSINI
Published: 01 March 2008
Journal of the Geological Society (2008) 165 (2): 467–478.
DOI: https://doi.org/10.1144/0016-76492007-045
...ANTOINE DEMOUX; URS SCHäRER; MICHEL CORSINI Abstract The Tanneron massif belongs to the southernmost segment of the Variscan belt in France and is composed of migmatitic orthogneisses and paragneisses cross-cut by a main tonalite–granite complex. Late Carboniferous detrital basins are bounded...
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View PDF for article title, Variscan evolution of the <span class="search-highlight">Tanneron</span> <span class="search-highlight">massif</span>, SE France, examined through U–Pb monazite ages
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Synthesis of existing U-(Th-)Pb dates in the Maures-Tanneron massif. Available to Purchase

Published: 01 March 2015
Table I Synthesis of existing U-(Th-)Pb dates in the Maures-Tanneron massif.
Image
A) Structural sketch of the Rouet Dome (western Tanneron massif). Note the round shape drawn by foliation trajectories and the radial pattern of stretching/mineral lineations around the western Tanneron massif, which is cored by magmatic intrusions (tonalites and granites). In contrast, the deformation pattern along the Joyeuse Fault is featured by a very steep fabric parallel to the fault. The lineation dips appear to be extremely variable, but is relatively steep on average (~ 60°S). B, WSW-ENE cross-section of the Rouet antiform.

A) Structural sketch of the Rouet Dome (western Tanneron massif). Note the ... Available to Purchase

Published: 01 May 2009
F ig . 4. – A) Structural sketch of the Rouet Dome (western Tanneron massif). Note the round shape drawn by foliation trajectories and the radial pattern of stretching/mineral lineations around the western Tanneron massif, which is cored by magmatic intrusions (tonalites and granites
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Metamorphic map of the Maures and Tanneron massif. Isograds correspond to main structural contacts, defining a Barrovian succession from west to east. Two main domains are distinguished : the western domain was mostly not migmatized, except in rare zones, with a progressive transition from anchizonal metamorphic conditions to the West, to catazonal conditions in the East, at the proximity of the Joyeuse-Grimaud Faul; the eastern domain is largely migmatized, east of the Joyeuse-Grimaud Fault. Foliation strike is indicated by the orientation of symbols within units. Foliations are mostly parallel to unit contacts, and have steep plunge (&gt; 70°). Foliations are folded by steep upright folds with vertical axial planes as is emphasized in figure 3. Dome shapes are locally emphasized W of the Grimaud Fault in central Maures, and West of the Tanneron massif (where cordierite is also evidenced). Stretching and mineral lineations are slightly oblique to the foliation strike, and become perpendicular to most tectonic contacts, which emphasize vertical motions (always with the exhumation of the eastern compartment). Data are from Crévola (unpublished data) and new observations.

Metamorphic map of the Maures and Tanneron massif. Isograds correspond to m... Available to Purchase

Published: 01 May 2009
F ig . 6. – Metamorphic map of the Maures and Tanneron massif. Isograds correspond to main structural contacts, defining a Barrovian succession from west to east. Two main domains are distinguished : the western domain was mostly not migmatized, except in rare zones, with a progressive
Image
P-T paths in the Maures-Tanneron massif. A, Representative P-T paths deduced from microscopic analysis of main metamorphic parageneses. 1. MP-MT paths (~ 25–30°C.km−1) deduced from the observation of staurolite destabilization into kyanite + garnet (almandine 0.8) ± rutile, neighboured by leucosom (sillimanite absent), sample TA0 and MA0 on figure 6. 2. Lower pressure gradient, defined by the stability of sillimanite + biotite + K-feldspar migmatites, defining geotherms of 50 to 70°C.km−1, sample TA1 and MA1 on figure 6. 3. Low pressure – high temperature gradients featured by the occurrence of Fe-cordierite in W Tanneron (Rouet) dome (&gt; 80°C.km−1), sample TA2 on figure 6. 4. Greenschist facies assemblages (chlorite-bearing) occurring within and in the hanging-wall part of the Joyeuse-Grimaud Fault, samples TA3 and MA2 on figure 6. After petrographic observations done by Billo [2005] and Olliot [2006]. U-Pb monazite and zircon ages of the MP-MT phase after Moussavou [1998], U-Pb monazite ages of LP MT and HT phases by Demoux et al. [2008], 40Ar/39Ar ages after Morillon et al. [2000] and Corsini et al. [2009]. Peak metamorphic conditions of M2 are comprised between 338-328 Ma, and 320-300 Ma for M3, following U-Pb monazite dating. Argon datings on muscovite of 320-300 Ma reflect generalized exhumation of Middle Crust, with some differential uplift of crustal blocks [see Morillon et al., 2000].

P-T paths in the Maures-Tanneron massif. A, Representative P-T paths deduce... Available to Purchase

Published: 01 May 2009
F ig . 8. – P-T paths in the Maures-Tanneron massif. A, Representative P-T paths deduced from microscopic analysis of main metamorphic parageneses. 1. MP-MT paths (~ 25–30°C.km −1 ) deduced from the observation of staurolite destabilization into kyanite + garnet (almandine 0.8) ± rutile
Journal Article

Deciphering the nature and age of the protoliths and peak P−T conditions in retrogressed mafic eclogites from the Maures-Tannneron Massif (SE France) and implications for the southern European Variscides Open Access

Fabrice Jouffray, Jean-Marc Lardeaux, Anne-Sophie Tabaud, Michel Corsini, Julie Schneider
Published: 03 July 2023
Bulletin de la Société Géologique de France (2023) 194 (1): 10.
DOI: https://doi.org/10.1051/bsgf/2023006
...Fabrice Jouffray; Jean-Marc Lardeaux; Anne-Sophie Tabaud; Michel Corsini; Julie Schneider Abstract We present new constraints on the age, nature, and tectonic setting of mafic eclogite protoliths from the Maures-Tanneron Massif, southern Variscan belt. Whole-rock major and trace element...
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View PDF for article title, Deciphering the nature and age of the protoliths and peak P−T conditions in retrogressed mafic eclogites from the Maures-Tannneron <span class="search-highlight">Massif</span> (SE France) and implications for the southern European Variscides
Add to Citation Manager for Deciphering the nature and age of the protoliths and peak P−T conditions in retrogressed mafic eclogites from the Maures-Tannneron <span class="search-highlight">Massif</span> (SE France) and implications for the southern European Variscides
Includes: Supplemental Content
Image
A) General sketch map of the Variscan units in western Europe modified from Matte [1991]. B) Sketch geological map of the Maures-Tanneron massif, modified after Crevola and Pupin [1994], with location (1) of the geological cross-section of figure 3. The symbols indicate the foliation pattern within each unit. C) Synthetic W-E cross-section of the Maures-Tanneron massif.

A) General sketch map of the Variscan units in western Europe modified from... Available to Purchase

Published: 01 May 2009
F ig . 1. – A) General sketch map of the Variscan units in western Europe modified from Matte [1991] . B) Sketch geological map of the Maures-Tanneron massif, modified after Crevola and Pupin [1994] , with location (1) of the geological cross-section of figure 3 . The symbols indicate
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(a) Main Variscan massifs outcropping in western Europe. (b) Geological map of the Maures-Tanneron massif showing the location of the studied samples and related EPMA U-Th-Pb monazite ages. Map modified after Seyler [1986]; Caruba [1983]; Buscail [2000]; Bellot [2005] and the 1/50,000 geological maps of the French Geological Survey. Previous existing U-Th-Pb dates on zircon and/or monazite [from Moussavou, 1998; Demoux et al., 2008; Duchesne et al., 2013] are shown for information. (c) Simplified map of the Maures-Tanneron massif [modified after Schneider et al., 2014] distinguishing the western low- to medium-grade External Zone and the eastern high-grade Internal Zone. Occurrences of relictual eclogites in the Internal Zone and location of the cross-section of the figure 9 are also shown.

(a) Main Variscan massifs outcropping in western Europe. (b) Geological map... Available to Purchase

Published: 01 March 2015
Fig. 1 (a) Main Variscan massifs outcropping in western Europe. (b) Geological map of the Maures-Tanneron massif showing the location of the studied samples and related EPMA U-Th-Pb monazite ages. Map modified after Seyler [1986] ; Caruba [1983] ; Buscail [2000] ; Bellot [2005] and the 1
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(A) Location of the Maures-Tanneron in southeast France. European Variscan massifs are indicated in grey. (B) Geological map of the Maures-Tanneron Massif showing the External and Internal Zones (modified after Seyler, 1986, Bellot, 2005, Schneider et al., 2014 and Gerbault et al., 2018). Green stars represent the main occurrences of eclogites. The sampling site of interest is indicated.

(A)  Location of the Maures-Tanneron in southeast France. European Variscan... Open Access

Published: 03 July 2023
Fig. 1 (A)  Location of the Maures-Tanneron in southeast France. European Variscan massifs are indicated in grey. (B)  Geological map of the Maures-Tanneron Massif showing the External and Internal Zones (modified after Seyler, 1986 , Bellot, 2005 , Schneider et al. , 2014 and Gerbault
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 U–Pb concordia diagrams for monazite from three samples of the eastern part of the Tanneron massif (east of the La Moure fault). Numbers in square brackets are fraction numbers as listed in Table 1; ab, air abraded fraction. Ages are given at 2σ level.

U–Pb concordia diagrams for monazite from three samples of the eastern part... Available to Purchase

Published: 01 March 2008
Fig. 4.  U–Pb concordia diagrams for monazite from three samples of the eastern part of the Tanneron massif (east of the La Moure fault). Numbers in square brackets are fraction numbers as listed in Table 1 ; ab, air abraded fraction. Ages are given at 2σ level.
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 (a) Geological sketch map and (b) schematic cross-section of the Tanneron massif (adapted from Crévola et al. 1991), showing the major lithotectonic units and the location of the analysed samples. U–Pb monazite ages are from this study and given in million years with error at 2σ level.

( a ) Geological sketch map and ( b ) schematic cross-section of the Tanner... Available to Purchase

Published: 01 March 2008
Fig. 2.  ( a ) Geological sketch map and ( b ) schematic cross-section of the Tanneron massif (adapted from Crévola et al . 1991 ), showing the major lithotectonic units and the location of the analysed samples. U–Pb monazite ages are from this study and given in million years with error at 2σ
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Variscan eclogites and high-pressure granulites in the Alpine domains (modified after Jouffray et al., 2020, and Regorda et al., 2020). Additional information about Variscan eclogites within the External Crystalline Massifs is provided in Table 1. Inset legend: Arm—Armorican Massif; BCBF—Bristol Channel–Bray fault; BM—Bohemian Massif; Ca—Cantabrian terrane; Cib—Central Iberian; Co—Corsica; FMC—French Massif Central; MT—Maures-Tanneron Massif; OM—Ossa Morena; Py—Pyrenees; Sa—Sardinia; Si—Sicilian-Apulian basements; SP—South Portuguese zone; WL—West Asturian–Leonese.

Variscan eclogites and high-pressure granulites in the Alpine domains (modi... Available to Purchase

Published: 01 March 2024
Massif; BCBF—Bristol Channel–Bray fault; BM—Bohemian Massif; Ca—Cantabrian terrane; Cib—Central Iberian; Co—Corsica; FMC—French Massif Central; MT—Maures-Tanneron Massif; OM—Ossa Morena; Py—Pyrenees; Sa—Sardinia; Si—Sicilian-Apulian basements; SP—South Portuguese zone; WL—West Asturian–Leonese.
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a) Regional overview map of southeastern France showing the location of the Saint Antonin basin, Annot basin, and Barrême basin. TM: Tanneron massif; PTG: Plan de la Tour granite; STG: Saint Tropez granite. b) Simplified geologic map. c) Cross-section of the Saint Antonin basin modified after Campredon and Giannerini (1982).

a) Regional overview map of southeastern France showing the location of the... Open Access

Published: 12 September 2018
Fig. 1 a) Regional overview map of southeastern France showing the location of the Saint Antonin basin, Annot basin, and Barrême basin. TM: Tanneron massif; PTG: Plan de la Tour granite; STG: Saint Tropez granite. b) Simplified geologic map. c) Cross-section of the Saint Antonin basin modified
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– Sketch of the Variscan belt in the early Permian reconstruction (modified after Novo-Fernández et al., 2022; autochthon according to Schulmann et al., 2022) showing eclogite occurrences across the orogen. Numbering refers to the first column of Table 1. CAD: Central Armorican Domain; CSB: Corsica-Sardinia Block; FMC: French Massif Central; GTMZ: Galicia-Tras-os-Montes Zone; Lb: Léon block; MTM: Maures-Tanneron Massif; MZ: Moldanubian Zone; NAD: Northern Armorican Domain; OMZ: Ossa Morena Zone; SAD: Southern Armorican Domain; Sd: Sudetes; STZ: Saxo-Thuringian Zone; TBZ: Teplá-Barrandian Zone; VM: Vosges Massif.

– Sketch of the Variscan belt in the early Permian reconstruction (modified... Available to Purchase

Published: 01 June 2024
Domain; CSB: Corsica-Sardinia Block; FMC: French Massif Central; GTMZ: Galicia-Tras-os-Montes Zone; Lb: Léon block; MTM: Maures-Tanneron Massif; MZ: Moldanubian Zone; NAD: Northern Armorican Domain; OMZ: Ossa Morena Zone; SAD: Southern Armorican Domain; Sd: Sudetes; STZ: Saxo-Thuringian Zone; TBZ: Teplá
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Block diagram illustrating the geometrical, lithological and metamorphic features of the Maures-Tanneron massif, related to its late transpressional tectonic evolution (320-300 Ma). 1, Unmetamorphosed carboniferous conglomerates; 2, micaschists; 3, Bormes orthogneiss; 4, Leptyno-amphibolite series; 5, Phyllades (p), of metapelitic compositions; 6, ultrabasites, and metagabbros (amphibolites), initially an obducted oceanic crust sequence; 7, migmatites and aluminous granites; 8, tonalites (mantle-derived magmatism, with some crust assimilation).

Block diagram illustrating the geometrical, lithological and metamorphic fe... Available to Purchase

Published: 01 May 2009
F ig . 9. – Block diagram illustrating the geometrical, lithological and metamorphic features of the Maures-Tanneron massif, related to its late transpressional tectonic evolution (320-300 Ma). 1, Unmetamorphosed carboniferous conglomerates; 2, micaschists; 3, Bormes orthogneiss; 4, Leptyno
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Simplified geologic map of the Argentera-Mercantour Massif (after Malaroda et al., 1970; Carosi et al., 2016; Gosso et al., 2019; and refs. therein). Black profiles highlight Valscura (a) and Val du Haut Boréon (b). Abbreviations: FSZ: Fremamorta Shear Zone; VSZ: Valletta Shear Zone (also known as Ferrere-Mollières Shear Zone). Projected coordinate system: WGS 84-UTM32N. Insert: tectonic sketch of the Alps: A: Variscan basement rocks into the axial zone of the Alps; B: Variscan basement rocks at the external margins of the Alps (Ag: Aar-Gothard Massif; Ar: Argentera-Mercantour Massif; Bd: Belledonne Massif; Mb: Mont Blanc Massif; Px: Pelvoux Massif; Sa: Southern Alps); C: Variscan basement rocks external to the Alpine fronts (Mt: Maures-Tanneron Massif, Vs: Vosges); D: lithospheric-scale structures delimiting the axial zone of the Alps (Pf: Penninic Front, Pl: Periadriatic Lineament); E: Alpine fronts.

Simplified geologic map of the Argentera-Mercantour Massif (after Malaroda... Open Access

Published: 22 November 2019
-Mercantour Massif; Bd: Belledonne Massif; Mb: Mont Blanc Massif; Px: Pelvoux Massif; Sa: Southern Alps); C: Variscan basement rocks external to the Alpine fronts (Mt: Maures-Tanneron Massif, Vs: Vosges); D: lithospheric-scale structures delimiting the axial zone of the Alps (Pf: Penninic Front, Pl
Journal Article

A tribute to Philippe Rossi Available to Purchase

Jean-Marc Lardeaux, Pierre Barbey
Published: 01 March 2015
Bulletin de la Société Géologique de France (2015) 186 (2-3): 59–61.
DOI: https://doi.org/10.2113/gssgfbull.186.2-3.59
... of the Variscan belt, Philippe was also interested in the magmatic, metamorphic and tectonic evolution of the French Massif Central, the Armorican massif, the Vosges, the Maure-Tanneron massif, and the Bohemian massif; and thus participated with many French and foreign scientific teams (Besançon, Lyon...
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