帮助 关于我们

返回检索结果

柿竹园多金属矿床成矿作用~(40)Ar/~(39)Ar年代学研究
~(40)Ar/~(39)Ar dating of mineralization of Shizhuyuan polymetallic deposit

查看参考文献39篇

王敏 1   白秀娟 2   云建兵 3   赵令浩 4   李岩林 5   王周元 5   蒲志平 1   邱华宁 1 *  
文摘 石英是热液矿床的常见矿物,分布广泛。石英流体包裹体~(40)Ar/~(39)Ar定年技术为解决矿床年龄测定难题开辟了新的途径,但以前的研究工作缺少共生钾矿物年龄对比验证。本文选择柿竹园多金属矿床共生白云母和石英进行~(40)Ar/~(39)Ar测年分析对比研究。白云母激光阶段加热坪年龄为(153.7±0.9) Ma,代表了成矿年龄。采用真空击碎技术提取石英流体包裹体进行~(40)Ar/~(39)Ar年龄测定,获得了逐渐下降型年龄谱,在反等时线图上数据点构成高度线性相关的等时线,年龄为(152.3±5.7)Ma,代表了原生包裹体的年龄。石英原生流体包裹体等时线年龄与共生白云母年龄一致,表明石英流体包裹体~(40)Ar/~(39)Ar技术是行之有效的矿床定年方法。此外,K-Cl-~(40)Ar图解可以区分石英中的原生、次生包裹体,并获得次生包裹体年龄为~100 Ma,与矿区钾长石脉年龄一致,指示了一次后期热液活动的时间。
其他语种文摘 Quartz is a common mineral in hydrothermal deposits. ~(40)Ar/~(39)Ar dating technique for fluid inclusions in quartz by crushing in vacuo provides a new approach to dating mineralization of hydrothermal deposits. However,rare K-rich minerals are available for ~(40)Ar/~(39)Ar dating to confirm the validity of this new technique in previous studies. In this study the authors selected paragenetic quartz and muscovite in a piece of ore collected from the Shizhuyuan polymetallic deposit for ~(40)Ar/~(39)Ar dating. For the muscovite sample laser stepwise heating results in a very flat age spectrum with a plateau age of (153.7±0.9) Ma (la). For the quartz sample crushing in vacuo yields an age spectrum marked with abnormal old apparent ages, which declines step-by-step for the first ten steps (steps 1 - 10),and is followed by a plateau for the last ten steps (steps 11 ~20). The data points for steps 11 ~20 constrain a well-defined isochron corresponding to an age of (152.3±5.7) Ma with an initial 40Ar/36Ar value of 291.7, which can be interpreted as the contributions from the primary fluid inclusions without excess ~(40)Ar inside. The isochron age for the primary fluid inclusions in quartz is well concordant with that of paragenetic muscovite, indicating that the quartz ~(40)Ar/~(39)Ar stepwise crushing technique is an effective method for obtaining ages of primary fluid inclusions in hydrothermal deposits. In addition, the primary and secondary fluid inclusions could be distinguished into two groups by plots based on correlations among the ratios of K, Cl and Ar. The ages of secondary fluid inclusions are obtained from these plots (~100 Ma),which are concordant with the ~(40)Ar/~(39)Ar plateau age of the K-feldspar vein, suggesting a post-hydrothermal activity in formation of the ore deposit.
来源 地球化学 ,2016,45(1):41-51 【核心库】
关键词 ~(40)Ar/~(39)Ar ; 流体包裹体 ; 真空击碎技术 ; 柿竹园
地址

1. 中国科学院广州地球化学研究所, 同位素地球化学国家重点实验室, 广东, 广州, 510640  

2. 中国地质大学(武汉), 构造与油气资源教育部重点实验室, 湖北, 武汉, 430074  

3. 大庆油田有限责任公司勘探事业部, 黑龙江, 大庆, 163453  

4. 国家地质实验测试中心, 北京, 100037  

5. 湖南柿竹园有色金属有限责任公司, 湖南, 郴州, 423037

语种 中文
文献类型 研究性论文
ISSN 0379-1726
学科 地质学
基金 国家973计划 ;  国家自然科学基金创新研究群体项目 ;  中国科学院“135规划”
文献收藏号 CSCD:5618585

参考文献 共 39 共2页

1.  Schandl E S. A textural and geochemical guide to the identification of hydrothermal monazite: Criteria for selection of samples for dating epigenetic hydrothermal ore deposits. Econ Geol,2004,99(5):1027-1035 被引 12    
2.  Pelleter E. Hydrothermal zircons: A tool for ion microprobe U-Pb dating of gold mineralization(Tamlalt-Menhouhou gold deposit - Morocco). Chem Geol,2007,245(3/4):135-161 被引 28    
3.  Li J W. Laser ablation ICP-MS titanite U-Th-Pb dating of hydrothermal ore deposits: A case study of the Tonglushan Cu-Fe-Au skarn deposit, SE Hubei Province, China. Chem Geol,2010,270(1/4):56-67 被引 57    
4.  Luck J M. The study of molybdenites through the ~(187)Re_~(187)Os chronometer. Earth Planet Sci Lett,1982,61(2):291-296 被引 22    
5.  Stein H J. Re-Os ages for Archean molybdenite and pyrite,Kuittila-Kivisuo, Finland and Proterozoic molybdenite,Kabeliai, Lithuania: Testing the chronometer in a metamorphic and metasomatic setting. Miner Deposita,1998,33(4):329-345 被引 83    
6.  Stein H J. The remarkable Re-Os chronometer in molybdenite: How and why it works. Terra Nova,2001,13(6):479-486 被引 230    
7.  Du A D. Preparation and certification of Re-Os dating reference materials: Molybdenites HLP and JDC. Geostand Geoanal Res,2004,28(1):41-52 被引 269    
8.  Leach D L. Sediment-hosted lead-zinc deposits: A global perspective. Econ Geol,2005,100th Anniversary:561-607 被引 97    
9.  邱华宁. ↑(40)Ar/↑(39)Ar法测定矿物流体包裹体年龄. 科学通报,1989,34(9):687-687 被引 27    
10.  邱华宁. 滇西上芒岗金矿床石英流体包裹体 ↑40Ar-↑Ar 成矿年龄测定. 科学通报,1994,39(3):257-260 被引 21    
11.  邱华宁. 东川铜矿床同位素地球化学研究:Ⅱ.Pb-Pb、~(40)Ar-~(39)Ar法成矿年龄测定. 地球化学,1997,26(2):44-50 被引 2    
12.  邱华宁. “东川式”层状铜矿~(40)Ar-~(39)Ar成矿年龄测定. 矿物岩石地球化学通报,2001,20(4):358 被引 13    
13.  Qiu H N. Paleozoic ages and excess 40Ar in garnets from the Bixiling eclogite in Dabieshan, China: New insights from 40Ar/39Ar dating by stepwise crushing. Geochim Cosmochim Acta,2006,70(9):2354-2370 被引 26    
14.  Qiu H N. Sphalerite ~(40)Ar/~(39)Ar progressive crushing and stepwise heating techniques. Earth Planet Sci Lett,2007,256(1/2):224-232 被引 32    
15.  王昌烈. 柿竹园钨锡钼铋多金属矿床地质,1987:1-173 被引 3    
16.  毛景文. 湖南柿竹园矽卡岩-云英岩型W-Sn-Mo-Bi矿床地质和成矿作用. 矿床地质,1996,15(1):1-15 被引 29    
17.  李红艳. 柿竹园钨多金属矿床的Re-Os同位素等时线年龄研究. 地质论评,1996,42(3):261-267 被引 134    
18.  Li X H. Precise Sm-Nd and U-Pb isotopic dating of the supergiant Shizhuyuan polymetallic deposit and its host granite, SE China. Geol Mag,2004,141(2):225-231 被引 95    
19.  Yin J W. K-Ar ages of plutonism and mineralization at the shizhuyuan W-Sn-Bi-Mo deposit,Hunan Province, China. J Asian Earth Sci,2002,20(2):151-155 被引 12    
20.  邱华宁. 新一代Ar-Ar实验室建设与发展趋势:以中国科学院广州地球化学研究所Ar-Ar实验室为例. 地球化学,2006,35(2):133-140 被引 48    
引证文献 9

1 双燕 湘南新田岭大型钨矿流体包裹体地球化学特征 地球化学,2016,45(6):569-581
被引 9

2 武丽艳 稀有气体同位素地球化学在矿床学研究中的应用进展 岩石学报,2019,35(1):215-232
被引 10

显示所有9篇文献

论文科学数据集

1. 湘东北横洞钴矿床白垩纪时期流体包裹体数据

数据来源:
国家青藏高原科学数据中心
PlumX Metrics
相关文献

 作者相关
 关键词相关
 参考文献相关

版权所有 ©2008 中国科学院文献情报中心 制作维护:中国科学院文献情报中心
地址:北京中关村北四环西路33号 邮政编码:100190 联系电话:(010)82627496 E-mail:cscd@mail.las.ac.cn 京ICP备05002861号-4 | 京公网安备11010802043238号