Recycling of Paleo-Tethyan oceanic crust: Geochemical record from Early−Middle Triassic igneous rocks in the East Kunlun Orogen in western China

Ye-Dan Hu, Li-Tao Ma, Li‐Qun Dai, Zi‐Fu Zhao, Guo-Chao Sun, Bing Gong
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Abstract

Deciphering the contribution of crustal materials to generation of mafic arc igneous rocks at different subduction stages is of great significance to unravel the fate of the subducted paleo-oceanic crust. Here we present an integrated geochemical study on two types of early Mesozoic mafic arc igneous rocks from the East Kunlun Orogen. Zircon U-Pb isotopic analyses yield ages of 252−248 Ma for lamprophyres and 239−238 Ma for diorite porphyries. All the samples display arc-like trace element distribution patterns, high zircon δ18O values, and variably low zircon εHf(t) values. However, significant geochemical distinctions exist in terms of trace element concentrations, radiogenic isotopes, and other geochemical variations between them. The Early Triassic lamprophyres are characterized by significant enrichment in fluid-mobile trace elements and weakly enriched whole-rock Sr-Nd-Hf isotopes, whereas the Middle Triassic diorite porphyries show high contents of light rare earth elements, Th, Zr, and Hf, and more enriched Sr-Nd-Hf isotopes. Furthermore, the lamprophyres exhibit remarkably higher ratios of Ba/Th, Ba/La, K/La, and Sr/Nd and slightly higher ratios of La/Sm, Th/Yb, and Th/La than mid-oceanic-ridge basalt (MORB), while the diorite porphyries display higher La/Sm, Th/Yb, Th/Nd, and Th/La ratios compared to normal MORB but closer to those of seafloor sediments. Taken together, these differences can be attributed to the incorporation of two distinct slab liquids into their mantle sources, including oceanic slab-derived aqueous solutions and minor sediment-derived hydrous melts for the formation of the lamprophyres, and sediment-derived hydrous melts for the formation of the diorite porphyries. As a result, we suggest the lamprophyres were generated during the Early Triassic subduction of the Paleo-Tethyan oceanic crust, while the diorite porphyries may be generated due to rollback of the subducting oceanic slab in response to the closure of the Paleo-Tethyan Ocean basin. Therefore, the studied Early−Middle Triassic mafic igneous rocks provide important evidence for the recycling of the Paleo-Tethyan oceanic slab at different stages.
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古太古宙洋壳的再循环:中国西部东昆仑造山带早三叠世-中三叠世火成岩的地球化学记录
破解不同俯冲阶段地壳物质对岩浆岩弧火成岩生成的贡献,对揭示俯冲古洋壳的命运具有重要意义。在此,我们对东昆仑造山带两类中生代早期岩浆岩弧火成岩进行了综合地球化学研究。锆石U-Pb同位素分析结果显示,灯泡岩的年龄为252-248Ma,闪长岩斑岩的年龄为239-238Ma。所有样品都显示出类似弧形的微量元素分布模式、高锆石δ18O值和不同程度的低锆石εHf(t)值。然而,它们之间在微量元素浓度、放射性同位素和其他地球化学变化方面存在明显的地球化学差异。早三叠世灯心岩的特点是流体流动微量元素明显富集,全岩Sr-Nd-Hf同位素富集程度较弱,而中三叠世闪长岩斑岩则表现出轻稀土元素、Th、Zr和Hf含量较高,Sr-Nd-Hf同位素富集程度较高。此外,与大洋中脊玄武岩(MORB)相比,灯泡岩的Ba/Th、Ba/La、K/La和Sr/Nd比率明显较高,La/Sm、Th/Yb和Th/La比率略高,而闪长岩斑岩的La/Sm、Th/Yb、Th/Nd和Th/La比率较高,但更接近海底沉积物的比率。综合来看,这些差异可归因于其地幔源中掺入了两种不同的板块液体,包括形成灯斑岩的大洋板块源水溶液和少量沉积物源含水熔融物,以及形成闪长岩斑岩的沉积物源含水熔融物。因此,我们认为灯斑岩是在早三叠世古生泰西洋地壳俯冲过程中形成的,而闪长岩斑岩则可能是由于古生泰西洋海盆关闭时俯冲洋板的回滚而形成的。因此,所研究的早三叠世-中三叠世黑云母火成岩为古泰西洋洋板在不同阶段的再循环提供了重要证据。
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