地球科学进展 >
2016 , Vol. 31 >Issue 3: 320 - 334
DOI: https://doi.org/10.11867/j.issn.1001-8166.2016.03.0320.
闽西南基性岩脉中捕获锆石SIMS U-Pb年龄及Hf、O同位素特征
作者简介:张文慧(1970-),女,山东日照人,讲师,主要从事岩石地球化学方面的研究.E-mail:zhangw5@163.com
收稿日期: 2016-01-20
修回日期: 2016-02-26
网络出版日期: 2016-03-10
基金资助
国家自然科学基金项目“福建紫金山矿集区岩浆锆石Hf-O同位素及微量元素研究——寻找岩浆含矿事件指纹”(编号:41173036);福建省自然科学基金项目“福建省紫金山铜金矿岩浆锆石Hf同位素及微量元素研究”(编号:2013J01160)资助
版权
Zircon SIMS U-Pb Age, Hf and O Isotopes of Mafic Dikes, Southwest Fujian Province
First author:Zhang Wenhui (1970-), female, Rizhao City, Shandong Province, Lecturer. Research area include petro geochemistry.E-mail:zhangw5@163.com
Received date: 2016-01-20
Revised date: 2016-02-26
Online published: 2016-03-10
Supported by
Project supported by the National Natural Science Foundation of China “Unraveling the mineralisation event signature in the Zijianshan area, Fujian Province, Hf-O isotope and trace element study of Magmatic Zircons in the Mesozoic Granitoid Rocks” (No.41173036);The Natural Science Foundation of Fujian Province “Hf isotope and trace element study of Magmatic Zircons in the Zijianshan mine, Fujian Province” (No.2013J01160)
Copyright
测定了闽西南地区5件基性岩脉的全岩主微量元素,锆石U-Pb年龄和Hf,O同位素。5件岩脉主要为辉绿岩,其全岩SiO2含量为45%~53%,稀土元素显示轻稀土富集的右倾配分模式。基性岩脉中大部分锆石具明显振荡环带和扇状环带,为典型岩浆结晶锆石特征。锆石U-Pb年龄(96~2 400 Ma)分布较为分散。除少量锆石年龄(96~142 Ma)可能指示岩脉形成年龄外,其余均为捕获锆石。捕获锆石年龄主要分布在4个范围:早元古代(2 467~1 796 Ma),中晚元古代—震旦纪(1 343~647 Ma),志留纪—晚三叠世(427~225 Ma),晚侏罗世(159~140 Ma)。Hf-O同位素显示早元古代锆石来源于接近球粒陨石均一储库的地幔。中晚元古代以后年龄的锆石其Hf-O同位素均具有亏损地幔岩浆与地壳组分混合的特征;志留纪—晚侏罗世锆石主要来源于S型壳源花岗岩的重熔;早白垩世晚期的锆石εHf(t) 值与δ18O值清晰地显示出亏损地幔与地壳岩浆混合的趋势。闽西南基性岩脉中锆石的二阶段Hf亏损地幔模式年龄(TDM2)峰值主要分布在1.6~1.9 Ga,说明早元古代晚期幔源岩浆作用形成的基性岩地壳可能是形成后期花岗岩的主要源区。
关键词: SIMS锆石U-Pb测年; Hf-O同位素; 基性岩脉; 闽西南
张文慧 , 王翠芝 , 李晓敏 , 刘文元 . 闽西南基性岩脉中捕获锆石SIMS U-Pb年龄及Hf、O同位素特征[J]. 地球科学进展, 2016 , 31(3) : 320 -334 . DOI: 10.11867/j.issn.1001-8166.2016.03.0320.
The study in this paper determined whole rock major and trace elements, zircon U-Pb age and Hf, O isotopes of 5 mafic dikes in the southwestern Fujian province. The 5 dikes are mainly diabase and the whole rock SiO2 content are between 45%~53%. Most zircons of the mafic dikes display obvious oscillatory zoning and fan-shaped zoning, and have the typical magmatic zircon crystallization characteristics. Zircon U-Pb age is dispersed with 96~2 400 Ma range. In addition to the minimum age (96~142 Ma) which might be the age of the formation of dikes, the remaining are captured zircon. The captured zircon age was mainly distributed in 4 groups: Early Proterozoic (2 467~1 796 Ma); Middle and late Proterozoic (1 343~647 Ma); Silurian to late Triassic Epoch (427~225 Ma); and Late Jurassic (159~140 Ma). Hf-O isotope shows that the early Proterozoic zircon was derived from the mantle of the homogeneous chondrite reservoir, and the others show magmatic mixing characteristics between depleted mantle and crust. Zircon’s εHf(t) and δ18O of the early Late Cretaceous clearly show the mixing trend of depleted mantle and crustal magma. The peak of zircon Hf two-stage depleted mantle model age TDM2 was mainly distributed in the 1.6~1.9 Ga. The Early Proterozoic mafic crust might be the main source for latter granite.
Key words: SIMS zircon U-Pb age; Hf-O isotopes; Mafic dikes; Southwestern Fujian.
| [1] | Li Xianhua,Li Wuxian,He Bin.Buiding of the South China Block and its relevance to assembly and breakup of Rodinia supercontinent:Observations,interpretations and tests[J].Bulletin of Mineralogy, Petrology and Geochemistry,2012, 31(6): 543-559. |
| [1] | [李献华,李武显,何斌. 华南陆块的形成与Rodinia超大陆聚合—裂解—观察、解释与检验[J]. 矿物岩石地球化学通报, 2012, 31(6): 543-559.] |
| [2] | Shao Ji’an,Zhang Yongbei,Zhang Lüqiao,et al.Early Mesozoic dike swarms of carbonatites and lamprophyres in Datong area[J].Acta Petrologica Sinica,2003,19(1):93-104. |
| [2] | [邵济安,张永北,张履桥,等. 大同地区早中生代煌斑岩—碳酸岩岩墙群[J]. 岩石学报, 2003, 19(1): 93-104.] |
| [3] | Li Xianhua,Li Wuxian,Wang Xuance,et al.Role of mantle-derived magma in genesis of early Yanshanian granites in the Nanling Range, South China: In situ zircon Hf-O isotopic constraints[J].Science in China( Series D),2009,39(7): 872-887. |
| [3] | [李献华,李武显,王选策,等. 幔源岩浆在南岭燕山早期花岗岩形成中的作用:锆石原位Hf-O同位素制约[J]. 中国科学:D辑,2009,39(7):872-887.] |
| [4] | Fujian Province Geology and Mineral Exploration and Development Bureau. 1∶ 500000 Geological Map of Fujian Province[Z]. Fuzhou: Fujian Province Map Publishing House,1998. |
| [4] | [福建地质矿产勘查开发局.福建1∶ 50万地质图(1998年版)[Z]. 福州: 福建省地图出版社,1998.] |
| [5] | Xiong Xin,Xu Wenyi,Jia Liqiong,et al.Reviews of structural settings of porphyry copper deposits in China[J].Advances in Earth Science,2014, 29(2): 250-264. |
| [5] | [熊欣,徐文艺,贾丽琼,等.斑岩铜矿成矿构造背景研究进展[J].地球科学进展, 2014, 29(2): 250-264.] |
| [6] | Li X, Li Z, He B, et al.The Early Permian active continental margin and crustal growth of the Cathaysia Block: In situ U-Pb, Lu-Hf and O isotope analyses of detrital zircons[J].Chemical Geology,2012,328:195-207. |
| [7] | Li X H, Long W G, Li Q L, et al.Penglai zircon megacrysts: A potential new working reference material for microbeam determination of Hf-O Isotopes and U-Pb age[J].Geostandards and Geoanalytical Research,2010,34:117-134. |
| [8] | Li X H, Liu Y, Li Q, et al.Precise determination of Phanerozoic zircon Pb/Pb age by multicollector SIMS without external standardization[J].Geochemistry, Geophysics, Geosystems,2009,10(4):1-21. |
| [9] | Li Xianhua,Tang Guoqiang,Gong Bing,et al.Qinghu zircon: A working reference for microbeam analysis of U-Pb age and Hf and O isotopes[J].Chinese Science Bulletin,2013,58(20):1 954-1 961. |
| [9] | [李献华,唐国强,龚冰,等. Qinghu(清湖)锆石:一个新的U-Pb年龄和O-Hf同位素微区分析工作标样[J]. 科学通报, 2013,58(20):1 954-1 961.] |
| [10] | Li Q, Li X, Liu Y, et al.Precise U-Pb and Pb-Pb dating of Phanerozoic baddeleyite by SIMS with oxygen flooding technique[J].Journal of Analytical Atomic Spectrometry,2010,25(7):1 107-1 113. |
| [11] | Wiedenbeck M, Allé P, Corfu F, et al.Three natural zircon standards for U-Th-Pb, Lu-Hf, trace element and REE analyses[J].Geostandards and Geoanalytical Research,1995,19(1):1-23. |
| [12] | Ludwig K R.User’s Manual for Isoplot/Ex Rev. 3.75. A Geochronological Toolkit for Microsoft Excel[Z]. Berkeley:Berkeley Geochronological Center, 2012. |
| [13] | Wu F, Yang Y, Xie L, et al.Hf isotopic compositions of the standard zircons and baddeleyites used in U-Pb geochronology[J].Chemical Geology,2006, 234(1/2): 105-126. |
| [14] | Chu N, Taylor R N, Chavagnac V R, et al.Hf isotope ratio analysis using multi-collector inductively coupled plasma mass spectrometry: An evaluation of isobaric interference corrections[J].Journal of Analytical Atomic Spectrometry,2002, 17(12): 1 567-1 574. |
| [15] | Geng Jianzhen,Li Huaikun,Zhang Jian,et al.Zircon Hf isotope analysis by means of LA-MC-ICP-MS[J].Geological Buletin of China,2011, 30(10): 1 508-1 513. |
| [15] | [耿建珍,李怀坤,张健,等.锆石Hf同位素组成的LA-MC-ICP-MS测定[J]. 地质通报, 2011, 30(10): 1 508-1 513.] |
| [16] | Wu Fuyuan,Li Xianhua,Zheng Yongfei,et al.Lu-Hf isotopic systematics and their applications in prtrology[J].Acta Petrologica Sinica,2007, 2(23): 185-220. |
| [16] | [吴福元,李献华,郑永飞,等.Lu-Hf同位素体系及其岩石学应用[J]. 岩石学报, 2007, 2(23): 185-220.] |
| [17] | McDonough W F, Sun S S. The composition of the Earth[J].Chemical Geology,1995, 120: 223-253. |
| [18] | Zhang Feifei, Wang Yuejun,Fan Weiming,et al.Zircon U-Pb geochronology and Hf isotopes of the neoproterozoic granites in the central of Jiangnan Uplift[J].Geotectonica et Metallogenia,2011, 35(1): 73-84. |
| [18] | [张菲菲,王岳军,范蔚茗,等.江南隆起带中段新元古代花岗岩锆石U-Pb年代学和Hf同位素组成研究[J]. 大地构造与成矿学, 2011, 35(1): 73-84.] |
| [19] | Zhang Guishan.Chronology, Geochemistry and Geodynamic Significance of the Mafic-ultramafic Rocks in Fujian Province Since Late Mesozoic[D].Beijing:Institute of Geochemistry, Chinese Academy of Sciences,2006. |
| [19] | [张贵山. 福建晚中生代以来基性—超基性岩的年代学、地球化学及其地球动力学意义[D].北京:中国科学院地球化学研究所,2006.] |
| [20] | Le Maitre R W, Bateman P, Dudek A, et al. Classification of Igneous Rocks and Glossary of Terms[M]. Oxford: Blackwell, 1989. |
| [21] | Valley J W, Kinny P D, Schulze D J, et al.Zircon megacrysts from kimberlite: Oxygen isotope variability among mantle melts[J].Contributions to Mineralogy and Petrology,1998, 133(1/2): 1-11. |
| [22] | Valley J W, Lackey J S, Cavosie A J, et al.4.4 billion years of crustal maturation: Oxygen isotope ratios of magmatic zircon[J].Contributions to Mineralogy and Petrology,2005, 150(6): 561-580. |
| [23] | Yu Bo,Pei Rongfu,Qiu Xiaoping,et al.The evolution series of mesozoic magmatic rocks in the Zijinshan orefield,Fujian Province[J].Acta Geoscientica Sinica,2013, 34(4): 437-446. |
| [23] | [于波,裴荣富,邱小平,等. 福建紫金山矿田中生代岩浆岩演化序列研究[J]. 地球学报, 2013, 34(4): 437-446.] |
| [24] | Li B, Jiang S, Zhang Q, et al.Cretaceous crust-mantle interaction and tectonic evolution of Cathaysia Block in South China: Evidence from pulsed mafic rocks and related magmatism[J].Tectonophysics,2015, 661: 136-155. |
| [25] | Zhang Z, Badal J, Li Y, et al.Crust-upper mantle seismic velocity structure across Southeastern China[J].Tectonophysics,2005, 395(1/2): 137-157. |
| [26] | Zhang Z, Zhang X, Badal J.Composition of the crust beneath southeastern China derived from an integrated geophysical data set[J].Journal of Geophysical Research,2008, 113(B4): 1-25. |
/
| 〈 |
|
〉 |
甘公网安备62010202000687
