吉尔吉斯斯坦天山富铀二叠系Akkulen正长岩体的岩石成因:岩浆演化与地球动力学背景

IF 2.1 3区 地球科学 Q1 GEOLOGY
Renke Wang, Xiaobo Zhao, Chunji Xue, Qing Sun, Reimar Seltmann, Nikolay Pak, David T.A. Symons, Guoxiong Ma, Yiwei Shi
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引用次数: 0

摘要

摘要中亚造山带南部天山造山带及其邻区广泛分布着二叠系碱性花岗岩类。然而,它们的岩石成因和相关的构造背景仍不明确。为了更好地了解吉尔吉斯斯坦北天山Akkulen富铀正长岩体的岩浆过程和地球动力学演化,对其进行了详细的矿物学、U-Pb锆石定年、原位元素和Sr-Nd-Hf同位素研究。4个独立的氧气压计表明,Akkulen正长岩浆的氧逸度在岩浆上升和冷却过程中由初始低fO2 (NNO +1)演化而来;磷灰石地球化学特征也表明岩浆具有较高的F (2.9 ~ 5.1 wt.%),较低的Cl (0.053 ~ 0.13 wt.%)和无水(<4 wt %)含量。全岩地球化学数据显示,正长岩样品U (38.5 ~ 57.1 ppm)和Th (96.2 ~ 137 ppm)浓度异常高,高F含量和中等氧逸度有利于铀富集。正长岩锆石的206Pb/238U年龄为283.5±2.6 Ma。岩体具有高碱(Na2O + K2O)含量和高Fe/(Fe+Mg)比、高LREE/HREE(~5)、低Sr、Ba和Eu含量的a型花岗岩亲和性。在中元古代两阶段模式年龄(t DM2 = 1.35 ~ 1.47 Ga)下,它们的εNd(t)值为负(- 5.2 ~ - 3.6);在中元古代两阶段模式年龄(t DM2 = 1)下,它们的εHf(t)值为变(- 4.6 ~ +2.4)。2-1.59 Ga),表明这些岩石来自相对古老的地壳,幼年地壳熔体的贡献较小。通过与区域现有资料的对比,我们认为吉尔吉斯北天山碱性二叠系花岗岩类可能是由中元古代变质基底与少量幼年地壳物质在后伸展环境下的大规模部分熔融形成的。塔里木克拉通早二叠世花岗岩类岩浆活动可能是由二叠纪地幔柱活动引起的新元古代基底岩部分熔融所致。关键词:a型花岗花岗岩侵入岩体二叠纪-碰撞后环境天山造山带亮点天山二叠系花岗岩体形成于碰撞后环境揭示了阿库伦正长岩的岩浆演化和铀富集过程。感谢科学编辑Robert J. Stern和两位匿名审稿人的建设性和深刻的评论。感谢赵云、褚海霞、毛晓红、沈俊峰、李晓伟对实验室工作的讨论和协助。披露声明作者未报告潜在的利益冲突。本研究由国家自然科学基金[42372090]、紫金矿业集团股份有限公司[33122022005]和中国地质大学(北京)[YB2023YC046]资助。CX认可新疆维吾尔自治区人力资源和社会保障厅“天池人才”引进项目资助。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Petrogenesis of the U-rich Permian Akkulen syenite intrusion, Tien Shan, Kyrgyzstan: insights into its magmatic evolution and geodynamic setting
ABSTRACTPermian alkaline granitoids are widely distributed throughout the Tien Shan Orogen and adjacent region of the southern Central Asian Orogenic Belt. However, their petrogenesis and related tectonic setting remain equivocal. A detailed mineralogical, U-Pb zircon dating, in situ elemental and Sr-Nd-Hf isotopic studies of the uranium-rich Akkulen syenite intrusion in the Northern Tien Shan of Kyrgyzstan were undertaken to better understand its magmatic processes and geodynamic evolution. Four independent oxygen barometers have shown that the oxygen fugacity of the Akkulen syenitic magma evolved from initial low fO2 (NNO +1) during magma ascent and cooling; Apatite geochemical characteristics also indicate that the magma is relatively high F (2.9–5.1 wt.%), with low Cl (0.053–0.13 wt.%) and anhydrous (<4 wt %) contents. According to whole-rock geochemical data, the syenite samples have abnormally high U (38.5–57.1 ppm) and Th (96.2–137 ppm) concentrations, we suggest that high F content and moderate oxygen fugacity are beneficial for uranium enrichment. Zircon grains from a syenite sample yielded a weighted 206Pb/238U age of 283.5 ± 2.6 Ma. The intrusion has an A-type granite affinity with high alkali (Na2O + K2O) contents and Fe/(Fe+Mg) ratios, high LREE/HREE (~5), and low Sr, Ba, and Eu contents. They have negative εNd(t) (−5.2 to −3.6) values with Mesoproterozoic two-stage model ages (T DM2 = 1.35–1.47 Ga), and variable εHf(t) values (−4.6 to +2.4) with Mesoproterozoic two-stage model ages (T DM2 = 1. 2–1.59 Ga), which suggest these rock derivations from the relatively old crustal with minor contribution from juvenile crustal melts. In comparison with regional available dataset, we propose that the alkaline Permian granitoids in Kyrgyz Northern Tien Shan may have been originated from large-scale partial melting of Mesoproterozoic metamorphic basement with minor juvenile crustal material in a post-extensional setting. In contrast, the Early Permian granitoid magmatism in the Tarim Craton may have been caused by the partial melting of Neoproterozoic basement rocks associated with Permian mantle plume activities.KEYWORDS: A-type granitesyenite intrusionPermianPost-collisional settingTien Shan Orogen Highlights Permian granitoids in the Tien Shan were produced in post-collisional setting.The magmatic evolution and uranium enrichment process of Akkulen syenite are revealed.AcknowledgmentsWe appreciate the science editor Robert J. Stern, and two anonymous reviewers for their constructive and insightful comments. Besides, we are grateful to Yun Zhao, Haixia Chu, and Xiaohong Mao, Junfeng Shen and Xiaowei Li for their discussions and assistance with the lab work.Disclosure statementNo potential conflict of interest was reported by the author(s).Supplementary materialSupplemental data for this article can be accessed online at https://doi.org/10.1080/00206814.2023.2278061Additional informationFundingThis study was financially supported by the Natural Science Foundation of China [42372090], the Zijin Mining Group Co., Ltd. [33122022005] and the China University of Geosciences (Beijing) [YB2023YC046]. CX acknowledges funding under Department of Human Resources and Social Security of Xinjiang Uygur Autonomous Region Introduced Project “Tianchi talent”.
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来源期刊
International Geology Review
International Geology Review 地学-地质学
CiteScore
5.20
自引率
3.80%
发文量
121
审稿时长
3 months
期刊介绍: International Geology Review is a monthly publication dedicated to publishing original and timely research papers as well as in-depth scholarly reviews dealing with the petrotectonic framework of the earth and the distribution of mineral and energy resources within that framework. Particularly emphasised are petroleum geology, economic geology, tectonics, geochemistry and petrology. Geographic coverage is global and work on any part of the world is considered. The journal has been published since 1959.
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