Metamorphic P–T–t–d evolution of (U)HP metabasites from the South Tianshan accretionary complex (NW China) — Implications for rock deformation during exhumation in a subduction channel

The late Carboniferous accretionary system of the South Tianshan orogen (North-Western China) underwent complex structural and polymetamorphic evolution. Combined petrological, geochronological and microstructural analysis of (ultra)high-pressure (UHP) metabasites (eclogites and blueschists) enclose...

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Published in:Gondwana research 2017-07, Vol.47, p.161-187
Main Authors: Soldner, Jérémie, Oliot, Emilien, Schulmann, Karel, Štípská, Pavla, Kusbach, Vladimír, Anczkiewicz, Robert
Format: Article
Language:English
Subjects:
(U)HP metamorphic belt
Earth Sciences
Eclogite
Electron backscatter diffraction
Garnet geochronology
Mineralogy
Petrography
Sciences of the Universe
Tectonics
Thermodynamic modelling
Tianshan massif
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Summary:The late Carboniferous accretionary system of the South Tianshan orogen (North-Western China) underwent complex structural and polymetamorphic evolution. Combined petrological, geochronological and microstructural analysis of (ultra)high-pressure (UHP) metabasites (eclogites and blueschists) enclosed in metapelites show a relict coarse-grained eclogitic fabric S2 surrounded by a dominant fine-grained eclogite and blueschist facies retrograde fabric S2. The S2 fabric is reworked by upright folds F3 that are responsible for a major shortening of the whole accretionary system. For both the eclogite and blueschist, peak and retrograde P–T conditions have been thermodynamically constrained at 25–26kbar and 425–500°C and 10–13kbar and 500−550°C respectively, suggesting a shared exhumation history. The garnet-whole rock-amphibole isochron in the blueschist yielded Lu–Hf and Sm–Nd ages of 326.0±2.9Ma and 318.4±3.9Ma respectively, interpreted to date the prograde to peak metamorphic assemblage. The retrograde path of the eclogite is characterized by heterogeneous omphacite recrystallization into a mylonitic fine-grained matrix and crystallization of blue amphibole. Microstructures in both pristine porphyroclastic and recrystallized fine-grained domains in the eclogite indicate a gradual evolution from constriction-dominated (L>S-type) to flattening-dominated (S>L-type) type of deformation, increase of fabric intensity reflected by gradually growing M-indexes and the development of lattice preferred orientation (LPO) typical for dislocation creep under slightly hydrated conditions. Recrystallization of the matrix in the blueschist is homogeneous, which indicates a matrix dominated channel flow during exhumation. These LPOs evolutions suggest a significant mechanical coupling with the upper plate concomitant with oroclinal bending of the Kazakh orocline. Lock up of Kazakh orocline is responsible for further stress increase resulting in horizontal shortening of South Tianshan accretionary wedge and development of D3 upright folding and steepening of the whole sequence. [Display omitted] •The South Tianshan (U)HP belt underwent two deformation events D2 and D3.•Metabasites reached (U)HP peak conditions at 25–26kbar and 425–500°C at ca. 320Ma.•Prograde constrictional fabrics suggest stretching of deeply subducted crust.•Retrograde plane strain to oblate fabrics suggests active simple shear and flattening.•Mechanical coupling with upper plate is coeval with bending of th
ISSN:1342-937X
1878-0571
DOI:10.1016/j.gr.2016.07.007