Early Ordovician to Early Permian tectonic evolution of the northern Western Kunlun Orogen (NW China): Insights from the Omixia Complex and surrounding rocks

IF 1.4 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Geological Journal Pub Date : 2024-05-27 DOI:10.1002/gj.4983
Miao Sang, Wenjiao Xiao, He Yang, Yin Liu, Peng Huang, Qigui Mao, Zhou Tan, Jingmin Gan, Hao Wang, Rui Li, Zhiheng Ren, Ziyuan Li, Mengqi Gao
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Abstract

The Palaeozoic tectonic evolution of the Western Kunlun Orogen plays an important role in deciphering the Tethyan tectonic evolution. This study provides new geochronology, geochemistry and Lu–Hf isotopic data of igneous rocks from the Omixia Complex in the eastern section of the northern Western Kunlun, as well as detrital zircon ages from turbidites and meta-sediments north of it. From the Omixia Complex, the determined ages of five ultramafic–mafic rock samples are approximately 470, 456, 429, 401 and 382 Ma. Two samples of acidic rocks from the same complex yielded ages of approximately 438 and 378 Ma. One pegmatitic plagiogranite sample exhibits feature of accretionary arc granites, while other samples show geochemical characteristics of island arc tholeiite and E-MORB. Additionally, four turbidite matrix and two limestone samples, with a major peak around ca. 480–500 Ma, have the youngest zircon ages ranging from ca. 481 to 387 Ma, paralleling the age range of igneous rocks in the ophiolitic mélange. The εHf(t) values of these samples reveal a broad spectrum of crustal and mantle processes. The youngest zircon ages of five meta-sedimentary rock samples north of the Omixia Complex range from ca. 581 to 535 Ma, with peak ages concentrated around ca. 0.9–1.0 Ga. Their provenance characteristics differ from the turbidite matrix in the southern Omixia Complex and from the meta-sediments in the northern Tiklik terrane with peak ages of ca. 0.8 Ga. A younger limestone sample yielded youngest zircon age of ca. 294 Ma, which is unconformably overlain the Omixia Complex and surrounding older rocks. Based on these new results, combined with previous data, we propose a new tectonic model for the eastern section of the northern Western Kunlun Orogen, suggesting a continuous evolution process of multi-terrane subduction–accretion collage from the Early Ordovician to the Middle Devonian in the Paleo-Tethys Ocean, which evolved into an Andean-type active margin in the Early Permian, contributing to the substantial continental growth of the southern Tarim Craton.

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西昆仑造山带北部(中国西北部)早奥陶世至早二叠世构造演化:从俄米峡复合体及其围岩中获得的启示
西昆仑造山带的古生代构造演化对解密吐蕃构造演化具有重要作用。本研究提供了西昆仑北部东段俄米峡岩群火成岩的新的地质年代、地球化学和Lu-Hf同位素数据,以及俄米峡岩群北部浊积岩和元沉积岩的锆英石年龄。在俄米峡岩群中,五个超基性岩-黑云母岩样本的测定年龄分别约为470、456、429、401和382Ma。来自同一岩群的两个酸性岩样本的年龄分别约为 438 和 378 Ma。一个伟晶岩长花岗岩样本显示了增生弧花岗岩的特征,而其他样本则显示了岛弧透辉岩和 E-MORB 的地球化学特征。此外,4个浊积岩基质和2个石灰岩样品的锆石年龄在481-387Ma之间,与蛇绿混杂岩中火成岩的年龄范围一致,其主要峰值约在480-500Ma之间。这些样品的εHf(t)值揭示了地壳和地幔的广泛过程。大麦峡复合体以北的五个元沉积岩样品的锆石最年轻年龄在581-535Ma之间,峰值年龄集中在0.9-1.0Ga左右。它们的成因特征不同于奥米克夏复合体南部的浊积岩基质,也不同于蒂克里克地层北部的元沉积物,其峰值年龄约为 0.8 Ga。一个较年轻的石灰岩样本得到的最年轻锆石年龄约为 294 Ma,与奥米克夏岩群及其周围的较古老岩石不整合。根据这些新的研究结果,并结合以前的数据,我们提出了西昆仑造山带北部东段的新构造模型,认为古特提斯洋早奥陶世至中泥盆世是一个多褶皱俯冲-火山喷发拼接的连续演化过程,在早二叠世演化为安第斯型活动边缘,促进了塔里木克拉通南部大陆的大幅增长。
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来源期刊
Geological Journal
Geological Journal 地学-地球科学综合
CiteScore
4.20
自引率
11.10%
发文量
269
审稿时长
3 months
期刊介绍: In recent years there has been a growth of specialist journals within geological sciences. Nevertheless, there is an important role for a journal of an interdisciplinary kind. Traditionally, GEOLOGICAL JOURNAL has been such a journal and continues in its aim of promoting interest in all branches of the Geological Sciences, through publication of original research papers and review articles. The journal publishes Special Issues with a common theme or regional coverage e.g. Chinese Dinosaurs; Tectonics of the Eastern Mediterranean, Triassic basins of the Central and North Atlantic Borderlands). These are extensively cited. The Journal has a particular interest in publishing papers on regional case studies from any global locality which have conclusions of general interest. Such papers may emphasize aspects across the full spectrum of geological sciences.
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