OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

矿床地质 2010

西藏沙让斑岩钼矿床锆石SHRIMP定年和角闪石Ar-Ar定年及其地质意义

高一鸣,陈毓川,唐菊兴

Keywords: 地质学,斑岩钼矿,SHRIMP锆石U-Pb年龄,角闪石Ar-Ar年龄,沙让,冈底斯

Full-Text Cite this paper Add to My Lib

Abstract:

采用SHRIMP锆石微区U-Pb测年及角闪石40Ar-39Ar测年对冈底斯成矿带东段工布江达县沙让斑岩钼矿区的角闪石闪长岩体进行了年代学研究。对角闪石闪长岩中单颗粒锆石11个样品点分析,其206Pb/238U年龄范围在（45.39±0.77）～（52.7±3.3）Ma之间,加权平均值为（47.17±0.41）Ma，（n=11，MSWD=2.0）。对角闪石样品采用40Ar-39Ar阶段升温测年，年龄谱呈马鞍形，说明角闪石样品存在过剩氩，加权平均年龄（55.10±0.79）Ma不具地质意义，最低坪年龄（53.25±0.60）Ma接近但大于角闪石的结晶年龄。综合前人研究结果，笔者认为：①角闪石闪长岩体形成年龄为（53.25±0.60）Ma，属于喜马拉雅期,相当于始新世，岩体侵入时间早于含矿主岩体斜长花岗斑岩的形成时间。②受后期花岗斑岩体侵入热事件的影响，锆石的蜕晶化作用导致年龄偏小，角闪石Ar-Ar法最低坪年龄基本代表成岩年龄。③斑岩钼矿的形成与主碰撞期岩浆底侵作用有关，始新世早期，冈底斯成矿带的地壳已经增厚到可以产生地壳熔融的厚度，形成斑岩钼矿。④冈底斯成矿带存在40～65Ma的主碰撞期，显示出念青唐古拉成矿带具有良好的寻找斑岩型钼矿_矽卡岩型多金属矿的潜力。

References

[1]	侯增谦.杨竹森.徐文艺.莫宣学.丁林.高永丰.董方浏.李光明.曲晓明.李光明.赵志丹.江思宏.孟祥金.李振清.秦克章.杨志明青藏高原碰撞造山带:Ⅰ.主碰撞造山成矿作用 [J].-矿床地质2006(4)
[2]	侯增谦.潘桂棠.王安建.莫宣学.田世洪.孙晓明.丁林.王二七.高永丰.谢玉玲.曾普胜.秦克章.许继峰.曲晓明.杨志明.杨竹森.费红彩.孟祥金.李振清青藏高原碰撞造山带:Ⅱ.晚碰撞转换成矿作用 [J].-矿床地质2006(5)
[3]	侯增谦.赵志丹.高永丰.杨志明.江万印度大陆板片前缘撕裂与分段俯冲:来自冈底斯新生代火山-岩浆作用证据 [J].-岩石学报2006(4)
[4]	侯增谦.曲晓明.杨竹森.孟祥金.李振清.杨志明.郑绵平.郑有业.聂凤军.高永丰.江思宏.李光明青藏高原碰撞造山带:Ⅲ. 后碰撞伸展成矿作用 [J].-矿床地质2006(6)
[5]	简平.刘敦一.孙晓猛滇川西部金沙江石炭纪蛇绿岩SHRIMP测年:古特提斯洋壳演化的同位素年代学制约 [J].-地质学报2003(2)
[6]	孟祥金.侯增谦.李振清西藏驱龙斑岩铜矿S、Pb同位素组成:对含矿斑岩与成矿物质来源的指示 [J].-地质学报2006(4)
[7]	莫济海.梁华英.喻亨祥.谢应雯.张玉泉冈底斯斑岩铜矿带冲江及驱龙含矿斑岩体锆石ELA-ICP-MS及SHRIMP定年对比研究 [J].-大地构造与成矿学2006(4)
[8]	莫宣学.赵志丹.邓晋福.董国臣.周肃.郭铁鹰.张双全.王亮亮印度-亚洲大陆主碰撞过程的火山作用响应 [J].-地学前缘2003(3)
[9]	秦克章.李光明.赵俊兴.李金祥.薛国强.严刚.粟登奎.肖波.陈雷.范新西藏首例独立钼矿——冈底斯沙让大型斑岩钼矿的发现及其意义 [J].-中国地质2008(6)
[10]	邱华宁.戴木童谟.蒲志平云南泸水钨锡矿床微量钾矿物 40Ar-39Ar马鞍型年龄谱的含义 [J].-矿床地质1995(3)
[11]	曲晓明.侯增谦.黄卫冈底斯斑岩铜矿(化)带:西藏第二条“玉龙”铜矿带? [J].-矿床地质2001(4)
[12]	李光明.芮宗瑶西藏冈底斯成矿带斑岩铜矿的成岩成矿年龄 [J].-大地构造与成矿学2004(2)
[13]	李光明,芮宗瑶,林方成,佘宏全,刘波,西藏甲马和驱龙矽卡岩型铜-多金属矿床的Re-Os年龄及意义,2004.
[14]	Berger G W,40Ar-39Ar step bearing of thermally overprinted biotite,hornblende and potassium feldspar from Eldora,Colorado,Earth and Planetary Science Letters,1975.
[15]	Compston W,Williams I S,Mcyer C,U-Pb geochronology of zircons from lunar breccia 73217 using a sensitive high mass-resolution microprobe,Journal of Geophysical Research,1984(Supp).
[16]	Compston W,Williams I S,Kirschvink J L,Zhang Z C and Ma G G,Zircon U-Pb ages of Early Cambrian time-scale,Journal of the Geological Society,1992.
[17]	Dong G C,Mo X X,Zhao Z D,Wang L L and Chen T,Geochronologic constraints on the magmatic underplating of the Gangdese Belt in the India-Eurasia Collision:Evidence of SHRIMP II zircon U-Pb dating,Acta Geologica Sinica,2005(3).
[18]	Harrison T M,Diffusion of 40Ar in hornblende,Contributions to Mineralogy & Petrology,1981.
[19]	Hanson G.N,Simmons K R,Bence A E,40Ar-39Ar spectrum ages for biotite,hornblende and muscovite in a contact metamorphic zone,Geochimica et Cosmochimica Acta,1975.
[20]	Hou Z Q,Lu Q T,Wang A J,Li X B,Wang Z Q and Wang E Q,Continental collision and related metallogeny:A case study of mineralization in Tibetan orogen,Mineral Deposits,2003(4).
[21]	Hou Z Q,Qu X M,Wang S X,Gao Y F,Du A D and Huang W,Re-Os dating for molybdenite from porphyry copper deposit in Gangdese metallogenic belt,Xizang:Ore forming time-limit and application of kinetics,Science in China(Series D),2003.
[22]	Hou Z Q,Mo X X,Yang Z M,Wang A J,Pang G T,Qu X M and Nie F J,Metallogeneses in the collisional orogen of the Qinghai-Tibet Plateau:Tectonic setting,tempo-spatial distribution and ore deposit types,Geology in China,2006(2).
[23]	Hou Z Q,Yang Z S,Xun W Y,Mo X X,Ding L,Gao Y F,Dong F L,Li G M,Qu X M,Li G M,Zhao Z D,Jinag S H,Meng X J,Li Z Q and Qin K Z,Metallogenesis in Tibetan collisional orogenic belt:I.Mineralization in main collisional orogenic setting,Mineral Deposits,2006(4).
[24]	Hou Z Q,Pan G T,Wang A J,Mo X X,Tian S H,Sun X M,Ding L,Wang E Q,Gao Y F,Xie Y L,Zeng P S,Qin K Z,Xu J F,Qu X M,Yang Z M,Yang Z S,Fei H C and Li Z Q,Metallogenesis in Tibetan collisional orogenic belt:Ⅱ.Mineralization in late-collisional transformation setting,Mineral Deposits,2006(5).
[25]	Hou Z Q,Zhao Z D,Gao Y F,Yang Z M and Jiang W,Tearing and dischronal subduction of the Indian continental slab:Evidence from Cenozoic Gangdese volcano-magmatic rocks in south Tibet,Acta Petrologica Sinica,2006(4).
[26]	Hou Z Q,Qu X M,Yang Z S,Meng X J,Li Z Q,Yang Z M,Zhen M P,Zheng Y Y,Nie F J,Gao Y F,Jiang S H and Li G M,Metallogenesis in Tibetan collisional orogenic belt:Ⅲ.Mineralization in post-collisional extension setting,Mineral Deposits,2006(6).
[27]	Jian P,Liu D Y,Sun X M,SHRIMP dating of carboniferous Jinsha jiang ophiolite in western Yunnan and Sichuan:Geochronolo-gical constraints on the evolution of the Paleo-Tethys oceanic crust,Acta Geologica Sinica,2003(2).
[28]	Lanphere M A,Dalrymple C B,Identification of excess 40Ar by the 40Ar/ 39Ar age spectrum technique,Earth and Planetary Science Letters,1976.
[29]	Liu X M,Interpretation of discordant U-Pb zircon ages,Progress of Precambrian Research,1998(3).
[30]	Ludwig K R,Users manual for isoplot/Ex:A geochronological toolkit for microsoft excel,Berkeley Geochronology Center Special Publication.Berkeley,CA,USAA,2000.
[31]	Ludwig K R,Squid 1.02:A user manual,Berkeley Geochronological Center Special Publication,2001.
[32]	Li G M,Rui Z Y,Diagenetic and mineralization ages for the porphyry copper deposits in the gangdise metallogenic belt,southern xizang,Geotectonica Et Metallogenia,2004(2).
[33]	Li G M,Rui Z Y,Lin F C,She H Q and Liu B,Re-Os dating of molybdenite from the Jiama and Qulong skarn type deposit in Tibet and its geological significance,Guangzhou:Geological Review,2004.
[34]	更多...
[35]	Meng X J,Hou Z Q,Gao Y F,Huang W,Qu X M and Qu W J,Re-Os Dating for molybdenite from Qulong porphyry copper deposit in Gangdese Metallogenic Belt,Xizang and its metallogenic significance,Geological Review,2003(6).
[36]	Meng X J,Hou Z Q,Li Z Q,Sulfur and lead isotope compositions of the Qulong porphyry copper deposit,Tibet:Implications for the sources of plutons and metals in the deposit,Acta Geologica Sinica,2006(4).
[37]	Mo J H,Liang H Y,Yu H X,Xie Y W and Zhang Y Q,Comparison of Ela-ICP-MS and SHRIMP U-Pb zircon ages of the Chongjiang and Qulong ore-bearing porphyries in the Gangdese porphyry copper belt,Geotectonica Et Metallogenia,2006(4).
[38]	Mo X X,Zhao Z D,Deng J F,Dong G C and Zhou S,Response of volcanism to the India-Asia collision,Earth Sciences Frontiers,2003(3).
[39]	Qin K Z,Li G M,Zhao J X,Li J X,Xue G Q,Yan G,Su D K,Xiao B,Chen L and Fan X,Discovery of sharang large-scale porphyry molybdenum deposit,the first single Mo deposit in Tibet and its significance,Geology in China,2008(6).
[40]	Qiu H N,Dai T M,Pu Z P,The implications of 40Ar-39Ar saddle-shaped age spectra of trace K minerals from the Lushui tungsten-tin deposit,Yunnan Province,Mineral Deposits,1995(3).
[41]	Qu X M,Hou Z Q,Huang W,Is Gangdese porphyry copper belt the second"Yulong" copper belt,Mineral Deposits,2001(4).
[42]	Reddy S M,Kelley S P,Magennis L,Amicro structural and argon laser probe study of shear zone development at the western margin of the Nanga Parbat-Haramosh Massif,western Himalaya,Contributions to Mineralogy & Petrology,1997.
[43]	Rui Z Y,Hou Z Q,Qu X M,Zhang L S,Wang L S and Liu Y L,Metallogenetic epoch of Gangdese porphyry copper belt and uplift of Qinghai-Tibet Plateau,Mineral Deposits,2003(3).
[44]	Song B,Zhang Y H,Wang Y S,Jian P,Mount making and procedure of SHRIMP dating,Geological Review,2002(Supp).
[45]	Tang J X,Li Z J,Zhang L,Huang Y,Deng Q and Lang X H,Geological characteristics of Xiongcun porphyry-epithermal gold deposits,Acta Mineralogica Sinica,2007(Supp).
[46]	Tang J X,Chen Y C,Jiang Y H,Wang R J,Deposit characteristics of the main skarn type deposits in Tibet,北京:地质出版社,2008.
[47]	Tang J X,Huang Y,Li Z J,Deng Q,Lang X H,Chen Y and Zhang L,Element geochemical characteristics of Xiongcun Cu-Au deposit in Xaitongmoin County,Tibet,Mineral Deposits,2009(1).
[48]	Tang J X,Chen Y C,Wang D H,Wang C H,Xu Y P,Qu W J,Huang W and Huang Y,Re-Os dating of molybdenite from the Sharang porphyry molybdenum deposit in Gongbujiangda Country,Tibet and its geological significance,Acta Geologica Sinica,2009(5).
[49]	Wang J Y,Geological characteristics and genesis of porphyry copper deposit and molybdenum deposit,Mineral Resources and Geology,1983(8).
[50]	Williams I S,Claesson S,Isotopic evidence for the Precambrian provenance and Caledonian metamorphism of highgrade paragneisses from the Seve Nappe,Scandinavian Caledonides:Ionmcroprobe zircon U-Th-Pb,Contributions to Mineralogy & Petrology,1987.
[51]	Williams I S,U-Th-Pb geochronology by ion microprobe.McKibben M A,Shanks III W C and Ridley W I.Applications of microanalytical techniques to understanding mineraling processes,Reviews in Economic Geology,1998.
[52]	Wu Y B,Zheng Y F,Research on genesis mineralogy of zircon and it\'s restriction in interpretation of U-Pb zircon ages,Chinese Science Bulletin,2004(16).
[53]	Yang Z M,Hou Z Q,Song Y C,Li Z Q,Xia D X and Pan F C,Qulong superlarge porphyry Cu deposit in Tibet:Geology,alteration and mineralization,Mineral Deposits,2008(3).
[54]	Yang Z M,Hou Z Q,Xia D X,Song Y C and Li Z,Relationship between western porphyry and mineralization in Qulong copper deposit of Tibet and its enlightenment to further exploration,Mineral Deposits,2008(1).
[55]	Zhang L,Tang J X,Deng Q,Huang Y,Lang X H,Jim Lang and Reza Tafti,Study on mineral compositions of the ore from the Xiongcun Cu(Au)deposit in Xietongmen County,Tibet,China,Journal of Chengdu University of Technology(Science & Technology Edition),2007(3).
[56]	Zheng Y Y,Duo J,Wang R J,Cheng S B,Zhang G Y,Fan Z H,Gao S B and Dai F H,New Advances in the study of the gigantic Gangdise porphyry copper metallogenic zone,Tibet,Geology in China,2007(2).
[57]	Zheng Y Y,Zhang Y G,Gao S B,Gong F Z,Qu W J and Pang Y C,The discovery and significance of the Sharang porphyry molybdenum deposit and its rock-forming and ore-forming age restriction,北京:地质出版社,2008.
[58]	印度-欧亚大陆碰撞过程中冈底斯带岩浆底侵作用的年代学限定:SHRIMP锆石U-Pb年龄证据 [J].-地质学报2005(6)
[59]	侯增谦.吕庆田.王安建.李晓波.王宗起.王二七初论陆-陆碰撞与成矿作用--以青藏高原造山带为例 [J].-矿床地质2003(4)
[60]	侯增谦,曲晓明,王淑贤,高永丰,杜安道,黄卫,西藏高原冈底斯斑岩铜矿带辉钼矿Re-Os年龄:成矿作用时限与动力学背景应用,中国科学A辑,2003.
[61]	侯增谦.莫宣学.杨志明.王安建.潘桂棠.曲晓明.聂凤军青藏高原碰撞造山带成矿作用:构造背景、时空分布和主要类型 [J].-中国地质2006(2)
[62]	刘新秒,锆石中放射性成因铅的丢失及对锆石测年的影响,前寒武纪研究进展,1998(3).
[63]	孟祥金.侯增谦.高永丰.黄卫.曲晓明.屈文俊西藏冈底斯成矿带驱龙铜矿Re-Os年龄及成矿学意义 [J].-地质论评2003(6)
[64]	芮宗瑶.侯增谦.曲晓明.张立生.王龙生.刘玉琳冈底斯斑岩铜矿成矿时代及青藏高原隆升 [J].-矿床地质2003(3)
[65]	宋彪,张玉海,万渝生,简平,锆石SHRIMP 样品靶制作、年龄测成年龄及有关现象讨论,地质论评,2002(增刊).
[66]	唐菊兴.李志军.张丽.黄勇.邓起.郎兴海.Jim Lang.Reza Tafiti 雄村式斑岩型-浅成低温热液型铜金矿地质特征 [J].-矿物学报2007(z1)
[67]	唐菊兴,陈毓川,江云华,王瑞江,西藏主要夕卡岩矿床特征,北京:地质出版社,2008.
[68]	唐菊兴.黄勇.李志军.邓起.郎兴海.陈渊.张丽西藏谢通门县雄村铜金矿床元素地球化学特征 [J].-矿床地质2009(1)
[69]	唐菊兴.陈毓川.王登红.王成辉.许远平.屈文俊.黄卫.黄勇西藏工布江达县沙让斑岩钼矿床辉钼矿铼-锇同位素年龄及其地质意义 [J].-地质学报2009(5)
[70]	吴元保.郑永飞锆石成因矿物学研究及其对U-Pb年龄解释的制约 [J].-科学通报2004(16)
[71]	王建业,斑岩铜矿与斑岩钼矿的地质特征及成因,矿产与地质,1983(8).
[72]	杨志明.侯增谦.宋玉财.李振清.夏代详.潘凤雏西藏驱龙超大型斑岩铜矿床:地质、蚀变与成矿 [J].-矿床地质2008(3)
[73]	杨志明.侯增谦.夏代详.宋玉财.李政西藏驱龙铜矿西部斑岩与成矿关系的厘定:对矿床未来勘探方向的重要启示 [J].-矿床地质2008(1)
[74]	张丽,唐菊兴,邓起,黄勇,郎兴海,Jim Lang,Reza Tafti,西藏谢通门县雄村铜(金)矿矿石物质成分研究及其意义,成都理工大学学报(自然科学学报),2007(3).
[75]	郑有业.多吉.王瑞江.程顺波.张刚阳.樊子珲.高顺宝.代芳华西藏冈底斯巨型斑岩铜矿带勘查研究最新进展 [J].-中国地质2007(2)
[76]	郑有业,张刚阳,高顺宝,龚福志,屈文俊,庞迎春,西藏沙让斑岩型钼矿床的发现意义及成岩成矿时代约束,北京:地质出版社,2008.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133