An enhanced chemical maturation of juvenile arc crust recorded by the Urad Houqi intrusive suite in Langshan arc, Central Asia

Min Liu, Shao-cong Lai, Shuai Ma, Fang-yi Zhang, R. Zhu, Yu Zhu, Jiangfeng Qin, Bo Xu, Hang Yang
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Abstract

Continental arc magmatism is crucial in producing juvenile continental crust of andesitic to dacitic composition, yet its impact on the formation of the modern mature continental crust, which is more enriched in potassic and granitic components, remains poorly understood. We examined a suite comprised of norite gabbro, gabbroic diorite, high-Mg diorite, dioritic enclave, and medium-K to high-K granites (the Urad Houqi suite) from the Langshan arc in the southern Central Asian Orogenic Belt (CAOB). Zircon U-Pb geochronology indicates that the Urad Houqi suite was formed ca. 278−268 Ma by a continuous magmatic event, marking the final episode of the late Paleozoic continental arc magmatism in the southern CAOB induced by the subduction of the Paleo-Asian Ocean. The suite exhibits a more potassic and fertile composition compared to typical continental arc magmas, and shows a continuous increasing K2O/Na2O ratio and incompatible element concentrations, including K, Rb, Th, and U, with increasing SiO2 content. The geochemical evolution of the suite offers valuable insights into the maturation process of the juvenile arc crust. By combining zircon Hf and bulk-rock Sr-Nd-Pb isotope studies, we demonstrated that the various lithologies within the Urad Houqi suite recorded a three-stage enhancement of the geochemical fertility of the juvenile Langshan arc crust: (1) generation of the initially fertile primary melt from the mantle wedge metasomatized by the recycled subducted sediments; (2) trans-crustal open-system hybridization processes, including peritectic reaction and magma mixing, that further fertilized the derived melts in addition to fractional crystallization; and (3) diverse petrogenetic processes that contributed to the fertility of the granitic magmas, including polybaric fractionation of the primary magma, anatexis of ancient crust, and extraction of high-silica melts from the shallow mush system. The three-stage maturation of the juvenile Langshan arc crust was typically coupled with the accelerated subduction of the Paleo-Asian Ocean since the earliest Permian. Our study finds that the Urad Houqi suite can serve as an example of modern continental crust maturation at continental arc settings.
中亚兰山弧乌拉后旗侵入岩组记录的幼弧地壳化学成熟度增强现象
大陆弧岩浆活动对产生安山岩至黑云母成分的幼年大陆地壳至关重要,但其对现代成熟大陆地壳(钾长石和花岗岩成分更为丰富)形成的影响仍鲜为人知。我们研究了中亚造山带(CAOB)南部兰山弧的一个由诺长玢岩、辉长岩闪长岩、高镁闪长岩、闪长岩飞地以及中K至高K花岗岩组成的岩组(乌拉后旗岩组)。锆石U-Pb地质年代学表明,乌拉特后旗岩套是在大约278-268 Ma的连续岩浆活动中形成的,标志着古生代大陆弧岩浆活动在古亚洲洋俯冲作用的诱导下在中亚造山带南部的最后阶段。与典型的大陆弧岩浆相比,该岩浆群呈现出更多的钾质和肥沃成分,并显示出随着二氧化硅含量的增加,K2O/Na2O比率和不相容元素(包括K、Rb、Th和U)浓度持续上升。该岩浆群的地球化学演化为了解年轻弧壳的成熟过程提供了宝贵的信息。通过结合锆石Hf和大块岩石Sr-Nd-Pb同位素研究,我们证明乌拉后旗岩套内的各种岩性记录了年轻兰山弧壳地球化学肥力增强的三个阶段:(1) 最初肥沃的原生熔体产生于地幔楔,由回收的俯冲沉积物变质而成;(2) 跨地壳开放系统杂化过程,包括包晶反应和岩浆混合,在分块结晶之外进一步肥沃了衍生熔体;(3) 多种岩石成因过程促进了花岗岩岩浆的肥沃度,包括原生岩浆的多巴分馏、古地壳的无定形化以及从浅淤泥系统提取高硅熔体。幼年兰山弧壳的三阶段成熟通常与最早二叠纪以来古亚洲洋的加速俯冲相耦合。我们的研究发现,乌拉后旗岩组可作为现代大陆弧环境下大陆地壳成熟的范例。
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