广西苗儿山—越城岭岩基南部加里东期岩浆作用与牛塘界钨矿床形成研究
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- 论文作者:陈喜连 ; 梁华英 ; 林书平 ; 张健
- 年:2016
- 作者机构:中国科学院广州地球化学研究所,中国科学院矿物学与成矿学重点实验室;
- 会议召开时间:2016-10-15
- 会议录名称:2016中国地球科学联合学术年会论文集(二)——专题3:大陆地壳、岩石圈的构造演化与深部探测、专题4:中国大陆成矿系统与成矿过程
- 语种:中文
- 分类号:P618.67
- 学会代码:ZGDW
- 会议名称:2016中国地球科学联合学术年会
- 会议地点:中国北京
- 主办单位:中国地球物理学会、中国地震学会、全国岩石学与地球动力学研讨会组委会、中国地质学会构造地质学与地球动力学专业委员会、中国地质学会区域地质与成矿专业委员会
- 学会名称:中国地球物理学会
- 页数:3
- 文件大小:877k
- 原文格式:D
- 会议级别:全国
摘要
<正>华南地区花岗岩及有关的W-Sn-Be-Nb-Ta-REE矿床特别发育,是世界著名的稀有稀土金属矿集区。华南显生宙以来出露岩体主要为加里东期、印支期和燕山期花岗岩(Xu et al.,1982;王德滋等,2004;李献华等,2007)。前人研究成果表明,华南稀有稀土矿床多与燕山期花岗岩有关(华仁民等,2005;毛景文等,2008),一些学者提出加里东期花岗岩一般不发生钨锡成矿作用(徐克勤等,1963)。近年研究,越来越多加里东期花岗岩相关矿床报道,如白石顶Mo矿床(李晓峰等,2009),油麻岭W矿床(蒋桂新等,2010),德保Cu-Sn矿床(王永磊等,2010),社洞W-Mo矿床(陈懋弘等,
引文
[1]陈懋弘,莫次生,黄智忠,李斌,黄宏伟,2011.广西苍梧县社洞钨钼矿床花岗岩类锆石LA-ICP-MS和辉钼矿Re-Os年龄及其地质意义.矿床地质30(6):963-978.
[2]李献华,李武显,李正祥.2007.再论南岭燕山早期花岗岩的成因类型与构造意义.科学通报52(9):981–999.
[3]李晓峰,冯佐海,李容森,唐专红,屈文俊,李军朝.2009.华南志留纪U-Pb钼的矿化:白石顶钼矿锆石SHRIMP U-Pb年龄和辉钼矿Re-Os年龄证据.矿床地质28(4):403-412.
[4]毛景文,谢桂青,郭春丽,袁顺达,程彦博,陈毓川.2008.华南地区中生代主要金属矿床时空分布规律和成矿环境.高校地质学报14(4):510–526.
[5]华仁民,陈培荣,张文兰,陆建军.2005.论华南地区中生代3次大规模成矿作用.矿床地质24(2):99-107
[6]蒋桂新,陆小平,张慧.2010.兴安油麻岭钨矿类型的多样性及成矿富集规律.矿产与地质,24(4):300-304.
[7]王德滋.2004.华南花岗岩研究的回顾与展望.高校地质学报10(3):305-314.
[8]王永磊,王登红,张长青,屈文俊,胡艳春.2010.广西德保铜锡矿床辉钼矿Re-Os同位素定年及对加里东期成矿的探讨.矿床地质29(5):881-889.
[9]徐克勤,孙鼐,王德滋,胡受奚.1963.华南多旋回的花岗岩类的侵入时代、岩性特征、分布规律及其成矿专属性的探讨.地质学报43(1):1~26.
[10]杨振,王汝成,张文兰,储著银,陈骏,朱金初,章荣清,2014.桂北牛塘界加里东期花岗岩及其矽卡岩型钨矿成矿作用研究.中国科学:地球科学44(7):1357-1373.
[11]Dostal,J.,Chatterjee,A.K.,2000.Contrasting behaviour of Nb/Ta and Zr/Hf ratios in a peraluminous granitic pluton(Nova Scotia,Canada).Chemical Geology 163(1-4):207-218.
[12]Irber,W.,1999.The lanthanide tetrad effect and its correlation with K/Rb,Eu/Eu*,Sr/Eu,Y/Ho,and Zr Hf of evolving peraluminous granite suites.Geochimica Et Cosmochimica Acta 63(3-4):489-508.
[13]Monecke,T.,Kempf,U.,Monecke,J.,Sala,M.,Wolf,D.,2002.Tetrad effect in rare earth element distribution patterns:A method of quantification with application to rock and mineral samples from granite-related rare metal deposits.Geochimica Et Cosmochimica Acta 66(7):1185-1196.
[14]Wu,J.,Liang,H.Y.,Huang,W.T.,Wang,C.L.,Sun,W.,Sun,Y.L.,Li,J.,Mo,J.H.,Wang,X.Z.,2012.Indosinian isotope ages of plutons and deposits in southwestern Miaoershan-Yuechengling,northeastern Guangxi and implications on Indosinian mineralization in South China.Chinese Science Bulletin 57(9):1024-1035.
[15]Xu K.Q.,Sun N.,Wang D.Z.,Hu,S.X.,Liu,Y.J.,Ji,S.Y..1982.On the origin and metallogeny of the granites in South China.In:Xu K,Tu G,eds.Geology of Granites and Their Metallogenetic Relations.Beijing:Science Press 1-33.
[16]Zajacz,Z.,Halter,W.E.,Pettke,T.,Guillong,M.,2008.Determination of fluid/melt partition coefficients by LA-ICPMS analysis of co-existing fluid and silicate melt inclusions:Controls on element partitioning.Geochimica Et Cosmochimica Acta 72(8):2169-2197.
[17]Zhang,W.L.,Wang,R.C.,Lei,Z.H.,Hua,R.M.,Zhu,J.C.,Lu,J.J.,Xie,L.,Che,X.D.,Zhang,R.Q.,Yao,Y.,Chen,J.,2011.Zircon U-Pb dating confirms existence of a Caledonian scheelite-bearing aplitic vein in the Penggongmiao granite batholith,South Hunan.Chinese Science Bulletin 56(19):2031-2036.
[2]李献华,李武显,李正祥.2007.再论南岭燕山早期花岗岩的成因类型与构造意义.科学通报52(9):981–999.
[3]李晓峰,冯佐海,李容森,唐专红,屈文俊,李军朝.2009.华南志留纪U-Pb钼的矿化:白石顶钼矿锆石SHRIMP U-Pb年龄和辉钼矿Re-Os年龄证据.矿床地质28(4):403-412.
[4]毛景文,谢桂青,郭春丽,袁顺达,程彦博,陈毓川.2008.华南地区中生代主要金属矿床时空分布规律和成矿环境.高校地质学报14(4):510–526.
[5]华仁民,陈培荣,张文兰,陆建军.2005.论华南地区中生代3次大规模成矿作用.矿床地质24(2):99-107
[6]蒋桂新,陆小平,张慧.2010.兴安油麻岭钨矿类型的多样性及成矿富集规律.矿产与地质,24(4):300-304.
[7]王德滋.2004.华南花岗岩研究的回顾与展望.高校地质学报10(3):305-314.
[8]王永磊,王登红,张长青,屈文俊,胡艳春.2010.广西德保铜锡矿床辉钼矿Re-Os同位素定年及对加里东期成矿的探讨.矿床地质29(5):881-889.
[9]徐克勤,孙鼐,王德滋,胡受奚.1963.华南多旋回的花岗岩类的侵入时代、岩性特征、分布规律及其成矿专属性的探讨.地质学报43(1):1~26.
[10]杨振,王汝成,张文兰,储著银,陈骏,朱金初,章荣清,2014.桂北牛塘界加里东期花岗岩及其矽卡岩型钨矿成矿作用研究.中国科学:地球科学44(7):1357-1373.
[11]Dostal,J.,Chatterjee,A.K.,2000.Contrasting behaviour of Nb/Ta and Zr/Hf ratios in a peraluminous granitic pluton(Nova Scotia,Canada).Chemical Geology 163(1-4):207-218.
[12]Irber,W.,1999.The lanthanide tetrad effect and its correlation with K/Rb,Eu/Eu*,Sr/Eu,Y/Ho,and Zr Hf of evolving peraluminous granite suites.Geochimica Et Cosmochimica Acta 63(3-4):489-508.
[13]Monecke,T.,Kempf,U.,Monecke,J.,Sala,M.,Wolf,D.,2002.Tetrad effect in rare earth element distribution patterns:A method of quantification with application to rock and mineral samples from granite-related rare metal deposits.Geochimica Et Cosmochimica Acta 66(7):1185-1196.
[14]Wu,J.,Liang,H.Y.,Huang,W.T.,Wang,C.L.,Sun,W.,Sun,Y.L.,Li,J.,Mo,J.H.,Wang,X.Z.,2012.Indosinian isotope ages of plutons and deposits in southwestern Miaoershan-Yuechengling,northeastern Guangxi and implications on Indosinian mineralization in South China.Chinese Science Bulletin 57(9):1024-1035.
[15]Xu K.Q.,Sun N.,Wang D.Z.,Hu,S.X.,Liu,Y.J.,Ji,S.Y..1982.On the origin and metallogeny of the granites in South China.In:Xu K,Tu G,eds.Geology of Granites and Their Metallogenetic Relations.Beijing:Science Press 1-33.
[16]Zajacz,Z.,Halter,W.E.,Pettke,T.,Guillong,M.,2008.Determination of fluid/melt partition coefficients by LA-ICPMS analysis of co-existing fluid and silicate melt inclusions:Controls on element partitioning.Geochimica Et Cosmochimica Acta 72(8):2169-2197.
[17]Zhang,W.L.,Wang,R.C.,Lei,Z.H.,Hua,R.M.,Zhu,J.C.,Lu,J.J.,Xie,L.,Che,X.D.,Zhang,R.Q.,Yao,Y.,Chen,J.,2011.Zircon U-Pb dating confirms existence of a Caledonian scheelite-bearing aplitic vein in the Penggongmiao granite batholith,South Hunan.Chinese Science Bulletin 56(19):2031-2036.