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The influence of back-arc extension direction on the strain partitioning associated with continental indentation: Analogue modelling and implications for the Circum-Moesian Fault System of South-Eastern Europe

Nemanja Krstekanić, Ernst Willingshofer, Liviu Maţenco, Marinko Toljić, Uroš Stojadinović

2022Journal of Structural Geology13 citationsDOIOpen Access PDF

Abstract

Continental indentation is associated with deformation transfer from shortening to strike-slip faulting and is often affected by subduction related processes such as slab roll-back driven back-arc extension. We use crustal-scale analogue modelling to investigate the effects of extension direction on the strain partitioning and deformation transfer during indentation. The modelling results show that extension parallel to the strike-slip margin of the indenter creates subsidence distributed in several areas which may connect to form a large sedimentary basin behind the indenter. This transtensional basin with v-shape geometry narrows gradually towards the strike-slip margin of the indenter. In contrast, models with extension perpendicular to the strike-slip margin distributes transtensional deformation away from the indenter. Our results are in good correlation with the evolution of the Carpatho-Balkanides orocline of South-Eastern Europe, where the Circum-Moesian Fault System accommodates oroclinal bending during indentation against the Moesian Platform. In this area, the modelling explains the coeval and contrasting extensional features observed along the strike-slip margin and behind the indenter (i.e. the Getic Depression and the Morava Valley Corridor), driven by the roll-back of the Carpathian embayment and Adriatic slabs.

Topics & Concepts

GeologySeismologySlip (aerodynamics)Fault (geology)Echelon formationStrike-slip tectonicsLineationTranstensionShear (geology)GeometryTectonicsPetrologySinistral and dextralThermodynamicsMathematicsPhysicsGeological Formations and Processes ExplorationGeological and Geochemical AnalysisPaleontology and Stratigraphy of Fossils
The influence of back-arc extension direction on the strain partitioning associated with continental indentation: Analogue modelling and implications for the Circum-Moesian Fault System of South-Eastern Europe | Litcius