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Light Mo Isotopes of Post‐Collisional Ultrapotassic Rocks in Southern Tibet Derived From Subducted Indian Continental Crust

Miaoyan Zhang, Chengcheng Huang, Lu‐Lu Hao, Yue Qi, Qiang Wang, Andrew C. Kerr, Gangjian Wei, Jie Li, Jinlong Ma, Lin Ma, Jing‐Jing Fan

2023Geochemistry Geophysics Geosystems12 citationsDOIOpen Access PDF

Abstract

Abstract Recycling of molybdenum isotopes in continental subduction zones remains debated. In this contribution, we re‐visit the Mo isotope compositions of the Sailipu post‐collisional ultrapotassic rocks in the Himalaya‐southern Tibet orogen. These ultrapotassic rocks have very varying δ 98/95 Mo values of −0.66 to −0.07‰ and Mo/Ce ratios of 0.0008–0.005, which are lower than those of mid‐ocean ridge basalts (MORB; δ 98/95 Mo = −0.20 ± 0.06‰, and Mo/Ce = 0.03) and oceanic subduction‐related (i.e., mantle source involving fluids, residual slab, or oceanic sediments) magmatic rocks (e.g., modern arc lavas, Cenozoic OIB‐type basalts in eastern China and the central Mariana Trough basalts in the back‐arc basin, syn‐collisional andesitic rocks in southern Tibet). Combined with the light Mo isotopes of the Himalayan schists and gneisses, we suggest that the light Mo isotopic signature of the Sailipu ultrapotassic rocks is derived from subducted Indian continental crust. This is consistent with the extremely low δ 11 B (−17.4 to −9.7‰) and B/Nb (0.16–1) values and enriched Sr‐Nd‐Pb isotopes of the Sailipu ultrapotassic rocks. Thus, this study reveals the recycling of light Mo‐B isotopes during continental subduction and demonstrates that Mo‐B isotopes can effectively distinguish between continental and oceanic subduction.

Topics & Concepts

GeologySubductionGeochemistryBasaltContinental crustOceanic crustAdakiteIsland arcMantle (geology)AndesiteCrustVolcanic rockPaleontologyTectonicsVolcanoGeological and Geochemical AnalysisGeochemistry and Elemental AnalysisGeochemistry and Geologic Mapping
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