Abstract
In order to constrain the finite deformation pattern of the Variscan basement of the Agly massif, a detailed structural analysis over the whole Agly massif was performed. Our investigation combined geological mapping, reappraisal of published and unpublished data completed with our own structural work. Results are provided in the form of new tectonic maps and series of regional cross-sections through the Agly massif. At variance from previous studies, we identified three deformation fabrics named D1, D2 and D3. The D1 deformation is only relictual and characterized by a broadly northwest-southeast striking and eastward dipping foliation without any clear mineral and stretching lineation direction. D1 might be attributed to thickening of the Variscan crust in a possible orogenic plateau edge position. The D2 deformation is a heterogeneous non-coaxial deformation, affecting the whole massif, that produced a shallowly dipping S2 foliation, and an anastomosed network of C2 shear zones that accommodated vertical thinning and N20 directed extension. D2 is coeval with LP-HT metamorphism and plutonism at ca. 315–295 Ma. D2 corresponds to the extensional collapse of the partially molten orogenic crust in a global dextral strike-slip at the scale of the whole Variscan belt. The D2 fabrics are folded and steepened along a D3 east-west trending corridor, called Tournefort Deformation Zone (TDZ), where the Saint-Arnac and Tournefort intrusives and surrounding rocks share the same NE-SW to E-W subvertical S3 foliation. Along the D3 corridor, the asymmetrical schistosity pattern and kinematic criteria suggest a D3 dextral kinematics. The D3 deformation is a record of E-W striking dextral shearing that facilitated and localized the ascent and emplacement of the diorite and granitic sheet-shaped plutons. D3 outlasted D2 and turned compressional-dominated in response to the closure of the Ibero-Armorican arc in a transpressional regime. The progressive switch from D2 thinning to D3 transpression is attributed to the lessening of gravitational forces at an advanced stage of extensional collapse that became overcome by ongoing compressional tectonic forces at the southern edge of the Variscan orogenic plateau.
Highlights
In hot and mature orogens, the dynamic nature of lateorogenic evolution results in the preservation of a complex set of spatially and temporally partitioned deformational, metamorphic and magmatic events
The Variscan Pyrenean belt would represent the outer border of the orogenic plateau that share similar structural, metamorphic and magmatic features with the Montagne Noire gneiss dome located at the plateau-foreland transition (Whitney et al, 2015)
The present study investigates the three-dimensional deformation of the Agly massif as an example of the orogenic plateau foreland during late-Carboniferous-early Permian time
Summary
In hot and mature orogens, the dynamic nature of lateorogenic evolution results in the preservation of a complex set of spatially and temporally partitioned deformational, metamorphic and magmatic events. The eastern North Pyrenean Massif and in particular the Agly massif may represent a direct southward prolongation of the southern FMC massifs This external domain still lacks detailed structural constrains on late-Variscan history in order to understand the complex three-dimensional internal deformations in the Variscan orogen edge that interlinked gravitydriven extensional collapse, voluminous partial melting, magma emplacements, thermal softening and plate-boundary forces under wrench tectonic. Metamorphism have been related to the Paleozoic Variscan orogeny (e.g. de Saint Blanquat, 1989, 1993; de Saint Blanquat et al, 1990), some studies highlight the possible impact of Cretaceous extension on the structuration on the Variscan Agly massif basement (Delay, 1989; Vauchez et al, 2013; Odlum and Stockli, 2019). We further discuss this secondary point in the light of our new structural data
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