Fold-and-thrust belt deformation of the Hongliuhe Group: a Permian tectonic closure record of the Central Asian Orogenic Belt, NW China

Cleven, Nathan

January 2011

The Early Permian strata of the Hongliuhe Group, NW China, experienced a thin-skinned fold-and-thrust belt style of deformation that recorded the final stages of amalgamation of the Beishan orogenic collage, a part of the Central Asian Orogenic Belt. The Hongliuhe Group was syn-orogenically deposited on an undetermined foreland, with the Mazongshan arc terrane acting as the hinterland. In this study results from detailed mapping combined with a regional analysis elucidate involvement of a northward-dipping subduction system with the collision. Well-preserved fold-and-thrust belt style deformation mapped in the upper stratigraphy of the Hongliuhe Group exhibits dominantly south-southeast verging structure, including shear folding, low-angle thrust ramping, imbrication and duplexing. Restoration of a portion of a mapped outcrop-scale cross-section estimates the accommodation of a minimum of 24% shortening. Lower stratigraphy shows discrete, steeper, north-over-south dip-slip ductile shear zones that bound packages of less deformed Hongliuhe Group strata. Fault displacement is considered to have been prolonged enough to juxtapose basal formations in northerly hangingwalls against upper formations in southerly footwalls. Faulting is closely associated with the creation of large-scale brittle-ductile eye-fold structures that are postulated to be sheath folds. The most examined and mapped structure, 16km wide, is a synclinal structure with axes plunging steeply towards its center. The ellipticity of the exposed bedding traces increases towards the center of the eye-fold, implying a structural relationship with metamorphic shear zones. Except for large-scale folding, the bulk of its strata remain relatively undeformed and have preserved primary soft-sediment deformation structures indicating younging towards the center on both limbs of the synclinal structure. Stratigraphic reconstruction of the Hongliuhe Group that considers the significant faulting shows that the Group's basal conglomerates unconformably overlie a Late-Carboniferous volcanic assemblage. The clast lithotypes of the conglomeratic successions change from polymictic metamorphic rocks at the base to monomictic granitoid clasts mid-section, showing the gradual unroofing sequence of the provenance. The stratigraphic reconstruction shows a general fining upward sequence, transitioning from terrestrial to nearshore marine depositional environments that, and in conjunction with the conglomeratic successions, suggests that the tectonic setting for deposition of the Hongliuhe Group is a foreland basin. Considering the deformation styles reported in this study, the Hongliuhe Group is interpreted to be a foreland fold-and-thrust belt. Stratigraphic reconstruction of the Hongliuhe Group that considers the significant faulting shows that the Group’s basal conglomerates unconformably overlie a Late Carboniferous volcanic assemblage. The clast lithotypes of the conglomeratic successions change from polymictic metamorphic rocks at the base to monomictic granitoid mid-section, showing the gradual unroofing sequence of the provenance. The stratigraphic reconstruction shows a general fining upward sequence through nearshore depositional environments that, and in conjunction with the conglomeratic successions, give interpretation that the tectonic setting for deposition of the Hongliuhe Group is a foreland basin. Considering the deformation styles reported in this study the Hongliuhe Group is interpreted to be a foreland fold-and-thrust belt.

Central Asian Orogenic Belt

Altaids

Fold-thrust-belt

Structural geology

Beishan

Orogeny

Earth Sciences

Fold-and-thrust belt deformation of the Hongliuhe Group: a Permian tectonic closure record of the Central Asian Orogenic Belt, NW China

Cleven, Nathan

January 2011

The Early Permian strata of the Hongliuhe Group, NW China, experienced a thin-skinned fold-and-thrust belt style of deformation that recorded the final stages of amalgamation of the Beishan orogenic collage, a part of the Central Asian Orogenic Belt. The Hongliuhe Group was syn-orogenically deposited on an undetermined foreland, with the Mazongshan arc terrane acting as the hinterland. In this study results from detailed mapping combined with a regional analysis elucidate involvement of a northward-dipping subduction system with the collision. Well-preserved fold-and-thrust belt style deformation mapped in the upper stratigraphy of the Hongliuhe Group exhibits dominantly south-southeast verging structure, including shear folding, low-angle thrust ramping, imbrication and duplexing. Restoration of a portion of a mapped outcrop-scale cross-section estimates the accommodation of a minimum of 24% shortening. Lower stratigraphy shows discrete, steeper, north-over-south dip-slip ductile shear zones that bound packages of less deformed Hongliuhe Group strata. Fault displacement is considered to have been prolonged enough to juxtapose basal formations in northerly hangingwalls against upper formations in southerly footwalls. Faulting is closely associated with the creation of large-scale brittle-ductile eye-fold structures that are postulated to be sheath folds. The most examined and mapped structure, 16km wide, is a synclinal structure with axes plunging steeply towards its center. The ellipticity of the exposed bedding traces increases towards the center of the eye-fold, implying a structural relationship with metamorphic shear zones. Except for large-scale folding, the bulk of its strata remain relatively undeformed and have preserved primary soft-sediment deformation structures indicating younging towards the center on both limbs of the synclinal structure. Stratigraphic reconstruction of the Hongliuhe Group that considers the significant faulting shows that the Group's basal conglomerates unconformably overlie a Late-Carboniferous volcanic assemblage. The clast lithotypes of the conglomeratic successions change from polymictic metamorphic rocks at the base to monomictic granitoid clasts mid-section, showing the gradual unroofing sequence of the provenance. The stratigraphic reconstruction shows a general fining upward sequence, transitioning from terrestrial to nearshore marine depositional environments that, and in conjunction with the conglomeratic successions, suggests that the tectonic setting for deposition of the Hongliuhe Group is a foreland basin. Considering the deformation styles reported in this study, the Hongliuhe Group is interpreted to be a foreland fold-and-thrust belt. Stratigraphic reconstruction of the Hongliuhe Group that considers the significant faulting shows that the Group’s basal conglomerates unconformably overlie a Late Carboniferous volcanic assemblage. The clast lithotypes of the conglomeratic successions change from polymictic metamorphic rocks at the base to monomictic granitoid mid-section, showing the gradual unroofing sequence of the provenance. The stratigraphic reconstruction shows a general fining upward sequence through nearshore depositional environments that, and in conjunction with the conglomeratic successions, give interpretation that the tectonic setting for deposition of the Hongliuhe Group is a foreland basin. Considering the deformation styles reported in this study the Hongliuhe Group is interpreted to be a foreland fold-and-thrust belt.

Central Asian Orogenic Belt

Altaids

Fold-thrust-belt

Structural geology

Beishan

Orogeny

Earth Sciences

Mécanismes et évolution des chaînes d'accrétion : exemple des chaînes paléozoïques d'Asie Centrale (Ouest Junggar, N-O de la Chine) / Mechanisms and evolution of accretionary orogens : new insights from Palaeozoic belts of Central Asia (West Junggar, NW China)

Choulet, Flavien

12 December 2011

Les chaînes d’accrétion se développent au niveau des zones de subduction océanique et contribuent à la croissance de la croûte continentale. En Asie Centrale, le collage tectonique des Altaïdes comprend de nombreuses chaînes d’accrétion à l’origine de la formation de la croûte continentale asiatique au Paléozoïque. Basé sur l’approche combinée de données géochimiques, géochronologiques, paléomagnétiques et structurales, ce travail permet de caractériser l’architecture d’une chaîne d’accrétion (Junggar Occidental, nord-ouest Chine) et de déchiffrer les étapes de la croissance de la croûte continentale en Asie Centrale. L’étude des zircons détritiques indique une évolution géodynamique polycyclique du Junggar occidental. Le recyclage continu de la croûte juvénile accompagne le transfert épisodique de magmas mantelliques dans la croûte. Ces résultats suggèrent un contrôle de la croissance crustale par la géodynamique régionale. Le cycle paléozoïque inférieur correspond à la fermeture de deux domaines océaniques bordant des arcs intra-océaniques. La tectonique de nappes, la sédimentation syn-tectonique et le magmatisme alcalin intra-plaque caractérisent les collisions successives d’arc et de microcontinent à l’origine de l’arrêt de la subduction au Dévonien inférieur. La subduction des océans Ob-Zaisan au nord et Junggar-Balkash au sud entraîne le développement, de deux marges continentales actives au Dévonien moyen. L’accrétion de matériaux océaniques et terrigènes contribue à l’expansion des complexes d’accrétion. La formation de la virgation kazakh au Paléozoïque supérieur conduit à la subduction oblique de l’Océan Junggar-Balkash. Une déformation transpressive, marquée par des plis à axes verticaux affecte alors le complexe d’accrétion du Junggar Occidental. L’augmentation de la courbure de la virgation est à l’origine de décrochements qui accommodent le transport latéral des unités accrétées. Les rotations relatives entre les différents blocs se poursuivent au Mésozoïque suite à la réactivation intracontinentale de la chaîne. / Accretionary orogens develop at sites of oceanic subduction and they largely contribute to continentalcrust growth. The Altaids tectonic collage covers the whole Central Asia, exposing numerousaccretionary orogens that can account for the Palaeozoic continental crust growth. Multidisciplinaryapproach, using geochronological, geochemical, structural and palaeomagnetic tools was carried out toreveal the architecture of a past accretionary belt (West Junggar, Northwestern China) and to decipher thetiming of continental crust growth in Central Asia. A polycyclic geodynamical evolution is inferred from thedetrital zircon studies and field observation. Continuous recycling of the Palaeozoic juvenile crust is coevalwith episodic addition of mantle-derived materials into the crust and this supports a geodynamic control ofthe continental crust growth. The Early Palaeozoic cycle is characterized by the closure of two oceanicdomains bounding island-arc systems. Early Devonian subduction jamming results from the successivecollisions of an island arc and a microcontinent, which are documented by thrusting, sedimentation coevalwith tectonics and alkaline intraplate magmatism. From Middle Devonian, two active continental marginsdeveloped upon the Early Palaeozoic basement, in response to the subductions of Ob-Zaisan Ocean, to thenorth and Junggar-Balkash Ocean, to the south. Accretionary complexes growth results from the accretion ofoceanic and terrigenous materials. Development of the Late Palaeozoic Kazakh orocline led to obliquesubduction of the Junggar-Balkash Ocean. Consequently, transpression affected the West Junggaraccretionary complex as indicated by folds with vertical axes. Progressive buckling of the orocline gives riseto Late Carboniferous to Permian strike-slip faults, which accommodate lateral unit transport. Relativerotations of the blocs continue after Late Triassic, due to diachronous intraplate reactivation.

Junggar Occidental, N-O Chine

Altaïdes

Zircons détritiques

West Junggar, NW China

Palaeozoic belts of Central Asia

Altaids

Detrital zircon

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