Insight of enriched basalts into the nature and evolution of mantle lithosphere beneath craton margins

IF 6 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Hong-Kun Dai, Jianping Zheng, Qing Xiong, Linlin Hu, Xiang Zhou
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Abstract

Refractory lithospheric deep roots are the cornerstone for the prolonged stability of cratons and mantle xenoliths are normally the key targets for study on the evolution of such deep roots. In regions with few mantle xenoliths, the basalts enriched in radiogenic isotopic compositions due to marked lithospheric mantle contribution are crucial to unmask the lithospheric mantle evolution based on a comprehensive study involving petrology, geochemistry and thermodynamic modelling. Here, the Early Cretaceous basalts from the northwest North China Craton with few mantle xenoliths are taken as an example to show the significance of enriched basalts on the study of lithospheric mantle. These basalts are characterized by high silica and alkali contents (SiO2=45.8–59.8 wt.%, K2O+Na2O=4.81–9.88 wt.%), arc-type trace-element patterns and enriched radiogenic isotope compositions (e.g., εNd=−2.64–−12.88,87Sr/86Sr=0.7063–0.7093). The TiO2 and FeO (total) contents are higher than those of natural and experimental melts from refractory mantle peridotite but comparable to those of partial melts of fertile mantle rocks. The high contents of fluid-loving elements (e.g., Rb and Ba) suggest source metasomatism by aqueous fluids. Combined with thermodynamic modelling and regional tectonic history, these enriched basalts likely record simultaneous decompression melting of asthenosphere and low-extent melting of thin and fertile lithospheric mantle fluxed by aqueous fluids from the subducted Paleo-Asian oceanic slab. The newly unmasked lithospheric mantle under the western NCC contrasts with the coeval thick and refractory one supporting the eastern NCC, and highlights that the craton destruction, especially the loss of its ancient refractory mantle root, should take place in a diachronous manner related to the craton-girded subduction episodes. Our study illustrates the potential of enriched basalts to recover the nature and evolution of mantle lithosphere beneath craton margins and associated tectonic histories.

富集玄武岩对克拉通边缘下地幔岩石圈性质和演变的启示
难熔岩石圈深根是环形山长期稳定的基石,而地幔异岩石通常是研究这类深根演化的关键目标。在地幔异岩石较少的地区,由于明显的岩石圈地幔贡献而富含放射性同位素成分的玄武岩对于在岩石学、地球化学和热力学建模等综合研究的基础上揭示岩石圈地幔演化过程至关重要。这里以华北克拉通西北部地幔异岩石较少的早白垩世玄武岩为例,说明富集玄武岩对岩石圈地幔研究的意义。这些玄武岩具有高硅碱含量(SiO2=45.8-59.8 wt.%,K2O+Na2O=4.81-9.88 wt.%)、弧型痕量元素模式和富放射性同位素组成(如εNd=-2.64--12.88,87Sr/86Sr=0.7063-0.7093)等特征。TiO2和FeO(总)含量高于难熔地幔橄榄岩的天然熔体和实验熔体,但与肥沃地幔岩石的部分熔体相当。高含量的亲流体元素(如铷和钡)表明,源头是水流体的变质作用。结合热力学模型和区域构造历史,这些富集玄武岩很可能同时记录了星体层的减压熔融和薄而肥沃的岩石圈地幔的低度熔融,这些熔融是由来自俯冲的古亚洲大洋板块的水成流体流出的。西部新近揭开面纱的岩石圈地幔与支撑东部新近揭开面纱的同时期厚而难熔的岩石圈地幔形成了鲜明对比,突出表明了克拉通的破坏,尤其是其古老的难熔地幔根部的消失,应该是以与克拉通腰带俯冲事件相关的非同步方式发生的。我们的研究说明了富集玄武岩在恢复克拉通边缘下地幔岩石圈的性质和演变以及相关构造历史方面的潜力。
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来源期刊
Science China Earth Sciences
Science China Earth Sciences GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
9.60
自引率
5.30%
发文量
135
审稿时长
3-8 weeks
期刊介绍: Science China Earth Sciences, an academic journal cosponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China, and published by Science China Press, is committed to publishing high-quality, original results in both basic and applied research.
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