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 2015

藏南查拉普金矿床载金矿物特征与金的赋存状态

周天成,孙祥,郑有业,吴松,耿学斌,于淼

Keywords: 地球化学,载金矿物,金的赋存状态,卡林型金矿,黄铁矿,毒砂,电子探针分析,查拉普金矿

Full-Text Cite this paper Add to My Lib

Abstract:

黄铁矿和毒砂是卡林型和造山型金矿床重要的载金矿物。文章通过电子探针(EPMA)分析研究了藏南查拉普金矿床不同类型黄铁矿和毒砂中Au、As、S、Fe等元素的含量变化和分布规律,发现不同阶段的黄铁矿具有不同的结构特征和元素组成特点。沉积成岩期黄铁矿(Py1)主要呈草莓状、胶状,常构成环带状黄铁矿的核心,其中金的含量最高,显示了金在沉积成岩期的大量富集。热液期早阶段黄铁矿(Py2)主要呈自形-半自形的立方体,与Py1元素(S、Fe、As)组成相近,显示了一定的继承演化关系。热液期主阶段黄铁矿(Py3)与毒砂共生,多呈自形-半自形的五角十二面体、立方体,常包裹早期的黄铁矿形成环带结构。Py3中As的含量明显升高,其增加量近似等于S的减少量,说明As主要进入黄铁矿晶格替代了S的位置。各个阶段的黄铁矿和毒砂中Au的分布在EPMA微束的分辨率下均显示是不均匀的,Au在Py1和大部分Py2中主要以纳米级自然金(Au0)的形式存在;而在Py3中主要以(Au+)的形式存在,少部分以纳米级自然金(Au0)形式存在。Py1的结构及元素组成与典型卡林型金矿和造山型金矿沉积成岩期黄铁矿的特点相似,而Py3的大量发育则符合卡林型金矿的特征。

References

[1]	Cline J S. 2001. Timing of gold and arsenic sulfide mineral deposition at the Getchell Carlin-type gold deposit, north-central Nevada[J]. Econ. Geol., 96: 75-89.
[2]	Cline J S, Hofstra A H, Muntean J L, Tosdal R M and Hickey K A. 2005. Carlin-type gold deposits in Nevada: Critical geologic characteristics and viable models[M]. 100th Anniversary Volume: 451-484.
[3]	Emsbo P, Hofstra A H, Lauha E A, Griffin G L and Hutchinson R W. 2003. Origin of high-grade gold ore, source of ore fluid components, and genesis of the Meikle and neighboring Carlin-type deposits, northern Carlin trend, Nevada[J]. Econ. Geol., 98: 1069-1105.
[4]	Fu S H, Gu X X, Wang Q, Xia Y, Zhang X C and Tao Y. 2004. The Typomorphic characteristics of gold-bearing pyrites from Shuiyindong gold deposit, SW Guizhou[J]. Acta Mineralogica Sinica, 24(1): 75-80 (in Chinese with English abstract).
[5]	Hofstra A H and Cline J S. 2000. Characteristics and models for Carlin type gold deposits[J]. Reviews in Economic Geology, 13: 163-220.
[6]	Barker L L, Hickey K A, Cline J S, Dipple G M, Kilburn M R, Vaughan J R and Longo A A. 2009. Uncloaking invisible gold: Use of nanosims to evaluate gold trace element and sulfur isotopes in pyrite form carlin-type gold deposits[J]. Econ. Geol., 104: 897-905.
[7]	Chen M H, Mao J W, Chen Z Y and Zhang W. 2009. Mineralogy of arsenian pyrites and arsenopyrites of Carlin-type gold deposits in Yunnan-Guizhou-Guangxi "golden triangle"area, southwestern China[J]. Mineral Deposits, 28(5): 539-557 (in Chinese with English abstract).
[8]	Hua S G, Wang L J, Jia X F, Chen L and Li J W. 2012. Occurrence and enrichment mechanism of gold in Qiuling Catlin-type gold deposit, Zhen\'an Country, Shanxi Province, China[J]. Earth Science-Journal of China University of Geoscinces, 37(5):989-1002 (in Chinese with English abstract).
[9]	Kesler S E, Fortuna J, Ye Z, Alt J C, Core D P, Zohar P, Borhauer J and Chryssoulis S L. 2003. Evaluation of the role of sulfidation in deposition of gold, screamer section of the Betze-Post Carlin-type deposit[J]. Econ. Geol., 98: 1137-1157.
[10]	Large R R, Maslennikov V V, Robert F, Danyushevsky L V and Chang Z. 2007. Multistage sedimentary and metamorphic origin of pyrite and gold in the Giant Sukhoi Log deposit, Lena Gold Province, Russia[J]. Econ. Geol., 102: 1233-1267.
[11]	Large R R, Danyushevsky L, Hollit C, Maslennikov V, Meffre S, Gilbert S, Bull S, Scott R, Emsbo P, Thomas H, Singh B and Foster J. 2009. Gold and trace element zonation in pyrite using a laser imaging technique: Implications for the timing of gold in orogenic and Carlin-style Sediment-Hosted deposits[J]. Econ. Geol., 104: 635-668.
[12]	Large R R, Thomas H, Craw D, Henne A and Henderson S .2012. Diagenetic pyrite as a source of metals in orogenic gold deposits, Otago Schist, New Zealand[J]. Geology and Geophysics, 55: 137-149.
[13]	Li J G, Wang Q H, Chen J K, Yao P and Peng Y M. 2002. Study of metrallogenic and prospecting models for the Shalagang antimony deposit, Gyangze, Tibet[J]. Journal of Chengdu University of Technology, 29(5): 533-538 (in Chinese with English abstract).
[14]	Ma G T. 2007. Mineralization characteristics and ore genesis of Chalapu hardrock gold deposit, Lhunze Country, Southern Tibet[D]. Supervisor: Zheng Y Y. Wuhan: China University of Geosciences. 28p (in Chinese with English abstract).
[15]	Mao S D, Yang R S, Qin Y and Guo J H. 2009. Characteristics of gold-bearing mineral and occurrence of gold in the Yangshan gold field, Gansu Province[J]. Acta Petrologica Sinica 25(11): 277-2790 (in Chinese with English abstract).
[16]	Nie F J, Hu P, Jiang S H, Li Z Q, Liu Y and Zhou Y Z. 2005. Type and temporal-spatial distribution of gold and antimony deposits(prospects) in southern Tibet, China[J]. Acta Geologica Sinica, 79(3): 373-385 (in Chinese with English abstract).
[17]	Palenik C S, Utsonomiya S, Reich M, Kesler S E and Wang L. 2004. "Invisible" gold revealed: Direct imaging of gold nanoparticles in a Carlin-type deposit[J]. American Mineralogist, 89: 1359-1366.
[18]	Qi X X, Li J F, Meng X J and Yu C L. 2009. Cenozoic tectonic evolution of the Tethyan Himalayan foreland fault-fold belt in southern Tibet, and its constraint on antimony-gold polymetallic minerogenesis[J]. Acta Petrologica Sinica, 24(7): 1638-1648 (in Chinese with English abstract).
[19]	Reich M, Kesler S E, Utsunomiya S, Palenik C S, Chryssoulis S L and Ewing R C. 2005.Solubility of gold in arsenian pyrite[J]. Geochimica et Cosmochimica Acta, 69(11): 2781-2796.
[20]	Simon G, Kesler S E and Chryssoulis S. 1999.Geochemistry and textures of gold-bearing arsenian pyrite, Twin Creeks, Nevada: Implications for the deposition of gold in Carlin-type deposits[J]. Econ. Geol., 94: 405-421.
[21]	更多...
[22]	Su W C, Xia B, Zhang H T, Zhang X C and Hu R Z. 2008. Visible gold in arsenian pyrite at the Shuiyindong Carlin-type gold deposit, Guizhou, China: Implications for the environment and processes of ore formation[J]. Ore Geology Reviews, 33: 667-679.
[23]	Sun X M, Wei H X, Zhai W, Shi G Y, Liang Y H, Mo R W, Han M X and Zhang X G. 2010.Ore-forming fluid geochemistry and metallogenicm echanism of Bangbu large-scale orogenic gold deposit in southern Tibet, China[J].Acta Petrologica Sinica, 26(6): 1672-1684 (in Chinese with English abstract).
[24]	Thomas H V, Large R R, Bull S W, Maslennekov V V, Berry R F, Fraser R, Froud S and Moye R. 2011. Pyrite and pyrrhotite textures and compositionin sedimentary rocks, laminated quartz veins, and gold reefs at the Bendigo mine, Australia: Insights for ore genesis[J].Econ. Geol., 106: 1-31.
[25]	Wells J D and Mullens T E. 1973. Gold-bearing arsenian pyrite determined by microprobe analysis, Cortez and Carlin gold mines, Nevada[J]. Econ. Geol., 68: 187-201.
[26]	Xu G F and Shao J L. 1980. Typomorphic characteristics of pyrites and their geological significance[J]. Geological Review, 26(6): 541-546 (in Chinese with English abstract).
[27]	Yang Z S, Hou Z Q, Gao W, Wang H P, Li Z Q, Meng X J and Qu X M. 2006. Metallogenic characteristics and genetic model of antimony and gold deposits in south Tibetan detachment system[J]. Acta Geologica Sinica, 80(9): 1377-1392(in Chinese with English abstract).
[28]	Yin A. 2001. Geologic evolution of the Himalayan: Tibetan orogen in the context of phanerozoic continental growth of Asia[J]. Acta Geoscientia Sinica, 22(3): 193-230 (in Chinese with English abstract).
[29]	Zhang G Y. 2012. Metallogenic model and prospecting potential in southern Tibet Au-Sb polymetallic belt[D]. Supervisor: Zheng Y Y.Wuhan: China University of Geoscinces.34p (in Chinese with English abstract).
[30]	Zhang J J. 2007. A review on the extensional structures in the northern Himalaya and southern Tibet[J]. Geological Bulletin of China, 26(6): 639-649 (in Chinese with English abstract).
[31]	Zheng Y Y, Zhao Y X, Wang P, Fan W Y, Chen J, Cao X L and Zhang X B. 2004. The research of metallogenic regularity and the great progress of ore finding in metallogenic belt in southern Tibet, China[J]. Earth Science:Journal of China University of Geoscience, 29(1): 44-45 (in Chinese with English abstract).
[32]	Zheng Y Y, Sun X, Tian L M, Zheng H T, Yu M, Yang W T, Zhou T C and Geng X B. 2014. Mineralization, deposit type and metallogenic age of the gold antimony polymetallic belt in the eastern part of north Himalayan[J]. Geotectonica et Metallogenia, 38(1): 108-118 (in Chinese with English abstract).
[33]	Zheng Y Y, Duo J, Ma G T, Chen J and Dai F H. 2007. Mineralization characteristics, discovery and age restriction of Chalapu hardrock gold deposit, southern Tibet[J]. Earth Science-Journal of China University of Geoscinces, 32(2): 185-189 (in Chinese with English abstract).
[34]	Zou F, Sun X M, Zai W, Lang Y H, Wei H X, Mo R W, Zhang X G and Yi J Z.2011. Geochemistry of ore-forming fluid and metallogenic mechanism for Zhemulang gold deposit in southern Tibet, China[J]. Actor Petrologica Sinica, 27(9): 2775-2785 (in Chinese with English abstract).陈懋弘, 毛景文, 陈振宇, 章伟. 2009. 滇黔桂"金三角"卡林型金矿含As黄铁矿和毒砂的矿物学研究[J]. 矿床地质, 28(5): 539-557.
[35]	付绍洪, 顾雪祥, 王乾, 夏勇, 张兴勇. 2004. 黔西南水银洞金矿床载金黄铁矿标型特征[J]. 矿物学报, 24(1):75-80.
[36]	华曙光, 王力娟, 贾晓芳, 陈蕾, 李建威. 2012. 陕西镇安丘陵卡林型金矿金的赋存状态和富集机理[J]. 中国地质大学学报(地球科学), 37(5):989-1002.
[37]	李金高, 王全海, 陈健坤, 姚鹏, 彭勇民. 2002. 西藏江孜县沙拉岗锑矿床成矿与找矿模式的初步研究[J]. 成都理工学院学报, 29(5):533-538.
[38]	马国桃. 2007. 藏南隆子县查拉普金矿床特征及矿床成因(硕士论文)[D]. 导师:郑有业. 武汉:中国地质大学. 28页.
[39]	毛世东, 杨荣生, 秦艳, 郭俊华. 2009. 甘肃阳山金矿田载金矿物特征及金赋存状态研究[J]. 岩石学报, 25(11):2776-2790.
[40]	聂凤军, 胡朋, 江思宏, 李振清, 刘妍, 周永章. 2005. 藏南地区金和锑矿床(点)类型及其时空分布特征[J]. 地质学报, 79(3):373-385.
[41]	戚学祥, 李天福, 孟祥金, 于春林. 2009. 藏南特提斯喜马拉雅前陆断褶带新生代构造演化与锑金多金属成矿作用[J]. 岩石学报, 24(7):1638-1648.
[42]	孙晓明, 韦慧晓, 翟伟, 石贵勇, 梁业恒, 莫儒伟, 韩墨香, 张相国. 2010. 藏南邦布大型造山型金矿成矿流体地球化学和成矿机制[J]. 岩石学报, 26(6):1672-1684.
[43]	徐国风, 邵洁莲. 1980. 黄铁矿标型特征及实际意义[J]. 地质评论, 26(6):541-546.
[44]	杨竹森, 侯增谦, 高伟, 王海平, 李振清, 孟祥金, 曲晓明. 2006. 藏南拆离系锑金成矿特征与成因模式[J].地质学报, 80(9):1377-1392.
[45]	尹安. 2001. 喜马拉雅-青藏高原造山带地质演化[J].地球学报, 22(3):193-230.
[46]	张刚阳. 2012. 藏南金锑多金属成矿带成矿模式与找矿前景研究(博士论文)[D]. 导师:郑有业. 武汉:中国地质大学. 34页.
[47]	张进江. 2007. 北喜马拉雅及藏南伸展构造综述[J].地质通报, 26(6):639-649.
[48]	郑有业, 赵永鑫, 王苹, 范文玉, 陈静, 曹新志, 张晓保. 2004. 藏南金锑成矿带成矿规律研究及找矿取得重大进展[J]. 地球科学中国地质大学学报, 29(1):44-45.
[49]	郑有业, 多吉, 马国桃, 陈静, 代芳华. 2007. 藏南查拉普岩金矿床特征、发现及时代约束[J]. 地球科学-中国地质大学学报, 32(2):185-189.
[50]	郑有业, 孙祥, 田立明, 郑海涛, 于淼, 杨万涛, 周天成, 耿学斌. 2014. 北喜马拉雅东段金锑多金属成矿作用矿床类型与成矿时代[J].大地构造与成矿学, 38(1):108-118.
[51]	周峰, 孙晓明, 翟伟, 梁业恒, 韦慧晓, 莫儒伟, 张相国, 易建洲. 2011. 藏南折木朗造山型金矿成矿流体地球化学和成矿机制[J].岩石学报, 27(9):2775-2784.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133