地学前缘 ›› 2022, Vol. 29 ›› Issue (2): 241-260.DOI: 10.13745/j.esf.sf.2021.10.39
朱小辉1,2(
), 陈丹玲2,*(), 冯益民1, 任云飞2, 张欣1
收稿日期:2021-06-07
修回日期:2021-08-30
出版日期:2022-03-25
发布日期:2022-03-31
通信作者:
陈丹玲
作者简介:朱小辉(1986—),男,博士研究生,主要从事岩石学相关研究。E-mail: zhuxiaohui_012@163.com
基金资助:
ZHU Xiaohui1,2(), CHEN Danling2,*(), FENG Yimin1, REN Yunfei2, ZHANG Xin1
Received:2021-06-07
Revised:2021-08-30
Online:2022-03-25
Published:2022-03-31
Contact:
CHEN Danling
摘要:
祁连山在构造上是一条经历了多期构造旋回叠加的早古生代复合型造山带,花岗质岩浆作用研究对揭示其构造演化具有重要意义。锆石U-Pb年代学统计结果表明,祁连地区花岗质岩浆活动可以分为7个大的阶段,包括古元古代早期(2 470~2 348 Ma)、古元古代晚期(1 778~1 763 Ma)、中元古代晚期-新元古代早期(1 192~888 Ma)、新元古代中期(853~736 Ma)、中寒武世-志留纪(516~419 Ma),泥盆纪-早石炭世(418~350 Ma)以及中二叠世-晚三叠世(271~211 Ma)。其中古元古代早期发育强过铝质高钾钙碱性S型和准铝质低钾拉斑-高钾钙碱性I型花岗岩,记录了早期的陆壳增生及改造事件。古元古代晚期为准铝质-弱过铝质高钾钙碱性-钾玄质A型花岗岩,是Columbia超大陆裂解事件的产物。中元古代晚期-新元古代早期以过铝质-强过铝质钙碱性-钾玄质S型花岗岩为主,新元古代中期以准铝质-强过铝质钙碱性-高钾钙碱性A型花岗岩为主,分别对应Rodinia超大陆的汇聚和裂解事件。中寒武世-志留纪花岗岩是洋陆转换过程中的产物,约440 Ma加厚基性下地壳部分熔融形成的低Mg埃达克岩的广泛出现指示祁连地区全面进入碰撞造山阶段。泥盆纪-早石炭世花岗岩代表后碰撞伸展阶段岩浆岩组合,发育准铝质-强过铝质低钾拉斑-钾玄质等一系列花岗岩。中二叠世-晚三叠世花岗岩以准铝质-弱过铝质钙碱性-高钾钙碱性I型花岗岩为主,有少量弱过铝质高钾钙碱性A型花岗岩,是宗务隆洋俯冲消减以及碰撞后伸展过程的产物。
中图分类号:
朱小辉, 陈丹玲, 冯益民, 任云飞, 张欣. 祁连山地区花岗质岩浆作用及构造演化[J]. 地学前缘, 2022, 29(2): 241-260.
ZHU Xiaohui, CHEN Danling, FENG Yimin, REN Yunfei, ZHANG Xin. Granitic magmatism and tectonic evolution in the Qilian Mountain Range in NW China: A review[J]. Earth Science Frontiers, 2022, 29(2): 241-260.
图1 祁连山花岗岩时空分布图
Fig.1 Spatial-temporal distribution of granitoids in the Qilian Mountain
图2 祁连山元古代花岗岩判别图解(a-d分别引自文献[78,79,80,81]) a—SiO2-K2O图解;b—A/NK-A/CNK图解;c—Sr/Y-Y 图解;d—(K2O+Na2O)/CaO-Zr+Nb+Ce+Y图解。
Fig.2 Discrimination diagrams for Proterozoic granitoids from the Qilian Mountain. Adapted from [78-81].
图3 祁连山元古代花岗岩时代及Nd-Hf同位素统计结果 a—锆石U-Pb年龄频率图;b—全岩εNd(t)-(87Sr/86Sr)i图解;c—锆石Hf二阶段模式年龄频率图;d—锆石εHf(t)-t图解。
Fig.3 Summary of ages and Nd-Hf isotopic compositions for Proterozoic granitoids from the Qilian Mountain
图4 祁连山早古生代花岗岩判别图解(a-d分别引自文献[78,79,80,81]) a—SiO2-K2O图解;b—A/NK-A/CNK图解;c—Sr/Y-Y 图解;d—(K2O+Na2O)/CaO-Zr+Nb+Ce+Y图解。
Fig.4 Discrimination diagrams for Early Paleozoic granitoids from the Qilian Mountain. Adapted from [78-81].
图5 祁连山早古生代花岗岩时代及Nd-Hf同位素统计结果 a—锆石U-Pb年龄频率图;b—全岩εNd(t)-(87Sr/86Sr)i图解;c—锆石Hf二阶段模式年龄频率图;d—锆石εHf(t)-t图解。
Fig.5 Summary of ages and Nd-Hf isotopic compositions for Early Paleozoic granitoids from the Qilian Mountain
图6 祁连山晚古生代—中生代花岗岩判别图解(a-d分别引自文献[78,79,80,81]) a—SiO2-K2O图解;b—A/NK-A/CNK图解;c—Sr/Y-Y 图解;d—(K2O+Na2O)/CaO-Zr+Nb+Ce+Y图解。
Fig.6 Discrimination diagrams for Late Paleozoic-Mesozoic granitoids from the Qilian Mountain. Adapted from [78-81].
图7 祁连山晚古生代—中生代花岗岩时代及Nd-Hf同位素统计结果 a—锆石U-Pb年龄频率图;b—全岩εNd(t)-(87Sr/86Sr)i图解;c—锆石Hf二阶段模式年龄频率图;d—锆石εHf(t)-t图解。
Fig.7 Summary of ages and Nd-Hf isotopic compositions for Late Paleozoic-Mesozoic granitoids from the Qilian Mountain
图8 祁连山花岗质岩浆作用年代学格架
Fig.8 Chronological framework of granitic magmatism in the Qilian Mountain
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