欢迎登录材料期刊网

材料期刊网

高级检索

煌斑岩与金矿化在时间、空间和成因方面关系密切。选择胶东玲珑矿区煌斑岩及其蚀变岩开展56项元素地球化学研究,结果发现胶东玲珑金矿区煌斑岩在成分上相当于高钾玄武质粗面安山岩,相对中国基性岩富K2 O、Fe2 O3、P2 O5、轻稀土、Th、U、Pb、Be、Sr、Ba、Li、Rb、F、Cr,贫Na2 O、Ti2 O、CaO、MnO、重稀土、Nb、Ta、Sc、W、Bi、Zn、Cd、As、Co、V、B。玲珑金矿区蚀变煌斑岩相对新鲜煌斑岩贫Na2 O,富MnO、Pb、Zn、As、W、Sb、Cd、Au、Ag,这表明引起煌斑岩蚀变的这期热液流体富含W、Pb、Zn、Cd、Au、Ag、As、Sb等热液成矿元素。花岗岩风化指数WIG可较好地适用于煌斑岩蚀变过程的研究,且较蚀变指数CIA在反映蚀变程度上更灵敏。

The lamprophyre rock has a co-occurrence relationship with gold deposits in time ,space and genesis . Lamprophyre and its altered rock in Linglong gold cluster in Jiaodong peninsular were investigated and analyzed on 56 geochemical items .The results indicate that lamprophyre in Linglong gold cluster is equivalent to high potassium ba-saltic andesite in composition .With respect to basic rocks in China ,the lamprophyre in Linglong gold cluster is rich in K2O,Fe2O3,P2O5,light REE,Th,U,Pb,Be,Sr,Ba,Li,Rb,F,Cr,and poor in Na2O,TiO2,CaO,MnO,heavy REE, Nb,Ta,Sc,W、Bi、Zn、Cd、As、Co,V,B.The altered lamprophyre is poor in Na 2 O,and rich in MnO,W,Pb,Zn,Cd, Au,Ag,As and Sb relative to the fresh lamprophyre in this study ,which implies that the hydrothermal fluid which re-sulted in the alteration of the lamprophyre must be rich in Pb ,Zn,As,W,Sb,Cd,Au and Ag in Linglong gold cluster . The weathering index of granite ( WIG) was tested to describe the alteration degree of lamprophyre rocks firstly and the results indicate that the WIG is not only suitable to describe the alteration degree of lamprophyre rocks ,but also is more sensitive than the commonly used chemical index of alteration ( CIA) .

参考文献

[1] 黄智龙,朱成明,肖化云,刘丛强.煌斑岩岩浆能携带金吗?--高温超高压实验的证据[J].科学通报,1999(12):1331-1334.
[2] 罗镇宽,关康,苗来成.胶东玲珑金矿田煌斑岩脉与成矿关系的讨论[J].黄金地质,2001(04):15-21.
[3] Taylor W R, Rock N M S, Groves D I .Geochemistry of Archean shoshonitic lamprophyres from the Yilgarn Block,Western Australia:Au abundance and association with gold mineralizat ion[J].Ap-plied Geochemistry,1994,19(2):197-222.,1994.
[4] 申玉科,邓军,徐叶兵.煌斑岩在玲珑金矿田形成过程中的地质意义[J].地质与勘探,2005(03):45-49.
[5] 龚庆杰,周连壮,胡杨,闫磊,张翰奇,贾玉杰.胶东玲珑金矿田煌斑岩蚀变过程元素迁移行为及其意义[J].现代地质,2012(05):1065-1077.
[6] 孙景贵,胡受奚,姚凤良,沈昆.胶东金矿区矿田体系中基性-中酸性脉岩的 碳、氧同位素地球化学研究[J].岩石矿物学杂志,2001(01):47-56.
[7] 迟清华,鄢明才.应用地球化学元素丰度数据手册[M].北京:地质出版社,2007.,2007.
[8] Nesbitt H W,Young G M .Early Proterozoic climates and plate mo-tions inferred from major element chemistry of lutites[J].Nature,1982,299:715-717.,1982.
[9] Nesbitt H W,Markovics G.Weathering of granodioritic crust,long-term storage of elements in weathering profiles and petrogenesis of si-liciclastic sediments[J].Geochimica et Cosmochimica Acta,1997, 61(8):1 653-1 670.,1997.
[10] Duzgoren-Aydin N S,Aydin A,Malpas J .Re-assessment of chemi-cal weathering indices:case study on pyroclastic rocks of Hong Kong[J].Engingeering Geology,2002,63(1):99-119.,2002.
[11] Braun J J,Descloitres M,Riotte J,et al .Regolith mass balance in-ferred from combined mineralogical, geochemical and geophysical studies:Mule Hole gneissic watershed,South India[J].Geochimi-ca et Cosmochimica Acta,2009,73(4):935-961.,2009.
[12] Gong Q J,Deng J,Wang C M,et al .Element behaviors due to rock weathering and its implication to geochemical anomaly recognition:A case study on Linglong biotite granite in Jiaodong peninsula,Chi-na[J].Journal of Geochemical Exploration,2013,128
[13] Taylor S R,McLennan S M .The geochemical evolution of the conti-nental crust[J].Reviews of Geophysics,1995,33(2):241-265.,1995.
上一张 下一张
上一张 下一张
计量
  • 下载量()
  • 访问量()
文章评分
  • 您的评分:
  • 1
    0%
  • 2
    0%
  • 3
    0%
  • 4
    0%
  • 5
    0%