Mantle evolution beneath a back-arc basin: Highly siderophile elements and Os isotope of Dongco ophiolitic peridotites, Tibet

Coexistence of mantle peridotites with distinct evolutionary histories is commonly observed in global ophiolites, especially in supra-subduction zone (SSZ) settings. The Dongco ophiolite in central Tibet has been interpreted to form within a Jurassic slow-spreading back-arc basin. This study presents comprehensive geochemical data of two types of peridotites from the Dongco ophiolite to investigate processes that occurred in the asthenosphere beneath a back-arc basin. Type-1 peridotites contain 5–9 vol% clinopyroxene and have spinel Cr# values <0.21, which are more fertile in compositions compared to Type-2 peridotites. Type-1 peridotites are characterized by relatively flat whole-rock REE patterns, but variably LREE-depleted patterns for pyroxenes. Their HSE patterns are slightly fractionated. Type-1 peridotites are estimated to have experienced 2–8 % degrees of melting under water-poor conditions, similar to mid-ocean ridge (MOR) peridotites. In contrast, Type-2 peridotites contain less than 2 vol% clinopyroxene and have spinel Cr# >0.55. They display U-shaped whole-rock REE patterns and LREE-enriched patterns for pyroxenes. Their HSE patterns are highly fractionated, with positive platinum anomalies and supra-chondritic Pt/Pd and Ru/Ir ratios. Type-2 peridotites are estimated to have undergone 20–24 % degrees of melting under hydrous conditions, resembling typical SSZ peridotites. Both types of Dongco peridotites have similar ranges of ¹⁸⁷Os/¹⁸⁸Os ratios, yielding Re depletion ages (T_RD) of 0.2–1.0 Ga. We interpret the Dongco peridotites represent residues of distinct mantle sources generated at different stages during the evolution of a back-arc basin. Type-2 peridotites represent residues of mantle wedge after hydrous melting and thus represent SSZ- peridotites; Type-1 peridotites are relics of the asthenosphere after low degrees of melting that were negligibly affected by slab-released fluids or hydrous melts, and belong to MOR- peridotites. The tectonic juxtaposition of SSZ- and MOR-type peridotites in the Dongco ophiolite supports the hypothesis of partial replacement of sub-arc mantle by the upwelling asthenosphere during back-arc spreading.