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Evidence of Vertical Slab Tearing in the Late Triassic Qinling Orogen (Central China) From Multiproxy Geochemical and Isotopic Imaging

Kun‐Feng Qiu, Jun Deng, Deng‐Yang He, Gideon Rosenbaum, Xi Zheng, Anthony E. Williams‐Jones, Hao‐Cheng Yu, Dražen Balen

2023Journal of Geophysical Research Solid Earth23 citationsDOIOpen Access PDF

Abstract

Abstract The process of slab tearing profoundly affects interchanges of material and energy between the lithosphere and asthenosphere and has been invoked as a trigger of magmatism in modern and ancient subduction‐collision systems. Horizontal slab tears may occur after continental collision and subsequent slab break‐off, whereas vertical slab tears may occur in response to along‐strike variations in rollback velocity, thereby ripping the subducting lithosphere. Previous studies have documented tearing of subducting slabs in modern convergent settings using geophysical methods, but in ancient collisional belts, where these methods cannot be applied, detection of slab tearing is more difficult, particularly if the oceanic plate was fully subducted and the geological evidence for subduction is limited. Here, we employ multiproxy element‐isotope imaging, as well as zircon petrochronology and whole‐rock geochemistry, to assess evidence of vertical tearing of the Mianlue slab in the Triassic Qinling Orogen in central China. Our results show evidence of anomalous, inferred tear‐related magmatism east of 107°E, at 225–210 Ma. Vertical tearing of the northward subducting Mianlue slab is recorded by geochemically anomalous igneous rocks, and the recognition of N–S to NE–SW trending boundaries defined by Sr‐Nd‐Hf isotopes, elemental ratios (Nb/Ta, and Ca/Al), Mg # , and reduced crustal thickness between 107° and 108°E. The inferred vertical tear may have been driven by slab rollback of the Mianlue slab at 225–210 Ma. The results show that multiproxy element‐isotope imaging (e.g., of ε Nd ( t ), ε Hf ( t ), ( 87 Sr/ 86 Sr) i , Nb/Ta, Mg # , and Ca/Al) can be used to reconstruct the evolution of fossil subduction systems.

Topics & Concepts

GeologySubductionSlabMagmatismSlab windowLithosphereAsthenosphereTearingSeismologyGeophysicsGeochemistryPetrologyTectonicsOceanic crustThermodynamicsPhysicsGeological and Geochemical AnalysisHigh-pressure geophysics and materialsearthquake and tectonic studies