Litcius/Paper detail

Arc‐Type Magmatism Due to Continental‐Edge Plowing Through Ancient Subduction‐Enriched Mantle

Douwe J.J. van Hinsbergen, Wim Spakman, H. de Boorder, M. van Dongen, Simon M. Jowitt, Paul R.D. Mason

2020Geophysical Research Letters28 citationsDOIOpen Access PDF

Abstract

Abstract The puzzling <7 Ma old “postsubduction” arc magmatism of New Guinea contains geochemical subduction‐type signatures yet did not occur above an active subduction zone. Here we show that these arc magmas formed at the North Australian continental lithospheric edge when it plowed northward through mantle above the detached Arafura slab remnant. This mantle preserved its subduction signature and the edge plowing process generated new melts that ascended via an active transform fault. Arafura slab subduction occurred at an intraoceanic subduction zone that ended ~30–25 Ma ago, when the Australian continental edge was still ~1,000 km to the south. Our absolute plate tectonic reconstruction of continental‐edge plowing suggests that ancient mantle wedges remain semistationary in the upper mantle and can preserve their geochemical signature for tens of Ma, explaining previously enigmatic “postsubduction” arc magmatism.

Topics & Concepts

SubductionGeologyMagmatismMantle (geology)Mantle wedgeLithosphereHotspot (geology)Plate tectonicsContinental arcEarth scienceGeochemistryGeophysicsTectonicsPaleontologyGeological and Geochemical AnalysisHigh-pressure geophysics and materialsGeological and Geophysical Studies
Arc‐Type Magmatism Due to Continental‐Edge Plowing Through Ancient Subduction‐Enriched Mantle | Litcius