A study of primary halo anomaly structure of the Lannitang porphyry copper deposit in northwest Yunnan, China
-
摘要: 烂泥塘矿床是云南香格里拉地区典型的斑岩型铜矿床,主矿体产于在地表以下300~500米,地表矿化带仅见脉状铜矿体和铜矿化体。为研究云南香格里拉烂泥塘斑岩铜矿床的原生晕异常结构,本文以异常结构模式理论和方法为基础,对矿床地表和坑道岩矿石样品开展了元素组合、异常特征和水平分带规律研究。结果表明,烂泥塘铜矿床地球化学系统的结构由成矿元素及其共伴生元素富集与亏损的原生晕组成,Cu和Mo的正异常占据了核心部位,Sc、Ti、V、Cr、W的负异常在空间上与Cu和Mo的正异常重合;S的正异常,Mn、Co、Zn、Cd的负异常出现在Cu、Mo正异常的边缘;Zn、Cd的正异常以及Ag、Pb、Hg、Sb的正异常在成矿带外围出现,Ag、Pb、Hg、Sb属于远矿指示元素;铜矿化带中CaO、K2O、Na2O的含量相对较低,为低背景或负异常,而其外围地区为中背景区或高背景区。研究结果显示,用Cu和Mo的几何平均值与Sc、Ti、V、Cr四个元素几何平均值的比值作为地球化学指标所圈定的衬值地球化学异常,能够更好地指示铜矿化体的空间位置。Abstract: The Lannitang deposit in Shangri-La county, Yunan Province, is a typical porphyry copper deposit. The main orebodies are distributed 300~500 meters below the surface and the vein-type orebodies develop in the surface. In order to decipher the primary halo anomaly structure, based on the theory and method of anomaly structure, the element association, anomaly characteristics and horizontal zonation of surface of tunnel rocks and ore samples of the deposit are conducted.Research results show that the structure of the geochemical system of the Lannitang copper deposit consists of a primary halo of enriched and depleted ore-forming elements and their associated elements. The positive anomalies of Cu and Mo occupy the ore primary haloes, and the negative anomalies of Sc, Ti, V, Cr and W coincide with the positive anomalies of Cu and Mo. Positive anomalies of S, and negative anomalies of Mn, Co, Zn and Cd appear at the edge of positive anomalies of Cu and Mo. The positive anomalies of Zn, Cd, Ag, Pb, Hg, and Sb appear in the periphery of the metallogenic belt. Ag, Pb, Hg, and Sb belong to distal indicator elements or supra ore halo elements. The contents of CaO, K2O and Na2O of the samples in the copper mineralization zone are relatively low, which belong to low background or negative anomaly, while the peripheral area belong to middle background area or high background area.It is suggest that the ratio of the geometric mean of Cu and Mo to the geometric mean of Sc, Ti, V and Cr can be used as a marker to delineate the contrast geochemical anomaly, which can better define the spatial location of copper mineralization bodies.
-
Key words:
- porphyry copper deposit /
- primary halo /
- anomaly structure /
- Lannitang /
- northwestern Yunnan province
-
-
Bounessah M, Atkin B P, 2003. An application of exploratory data analysis (EDA) as a robust non-parametric technique for geochemical mapping in a semi-arid climate[J]. Applied Geochemistry,18:1185-1195.
Chen Y Q, Huang J N, Liang Z, 2008. Geochemical characteristics and zonation of primary halos of pulang porphyry copper deposit, northwestern yunnan province, southwestern china[J]. Journal of China University of Geosciences, 19(4):371-377.
Goldberg I S, Abramson G Y, Los V L, 2003. Depletion and enrichment of primary haloes:their importance in the genesis of and exploration for mineral deposits[J]. Geochemistry:Exploration, Environment, Analysis,3(3):281-293.
Parsapoor A, Khalili M, Maghami M, 2017. Discrimination between mineralized and unmineralized alteration zones using primary geochemical haloes in the Darreh-Zar porphyry copper deposit in. Kerman, southeastern Iran[J]. Journal of Afric Earth Sciences, 132:109-126.
陈健, 2019. EDA异常下限分析在地质找矿中的应用[J].矿产勘查, 10(8):1961-1966.
弓秋丽, 朱立新, 马生明, 等, 2009. 斑岩型铜矿床地球化学勘查中岩石化学指标[J].物探与化探, 33(1):31-34.
郭剑衡, 冷成彪, 张兴春, 等, 2019. 滇西北烂泥塘斑岩铜金矿床铁氧化物 LA-ICP-MS微量元素特征及其地质意义[J].黄金科学技术, 27(5):659-677.
侯增谦, 杨岳清, 曲晓明, 等, 2004. 三江地区义敦岛弧造山带演化和成 矿系统[J].岩石学报, 78 (1):109-120.
黄书俊, 郦今敖, 傅金宝, 等, 1983. 斑岩铜矿床原生晕分带模式及其控制因素[J].地球化学, 3:221-228.
马生明, 朱立新, 刘崇民, 等, 2009. 斑岩型 Cu(Mo)矿床中微量元素富集贫化规律研究[J].地球学报, 30(6):821-830.
马生明, 朱立新, 刘海良, 等, 2011. 甘肃北山辉铜山铜矿地球化学异常结构研究[J].地球学报, 32(4):405-412.
孟明亮, 王春林, 凡韬, 等, 2018. 云南烂泥塘斑岩型铜矿床岩体地球化学特征及矿床成因分析[J].矿产地质, 9(2):223-231.
李文昌, 尹光候, 卢映祥, 等, 2009. 中甸普朗复式斑岩体演化及40Ar-39Ar同位素依据[J].地质学报, 83(10):421-1429.
刘崇民, 2006. 金属矿床原生晕研究进展[J].地质学报,80(10):1528-1541.
刘光永, 戴茂昌, 祁进平, 等, 2014. 福建省紫金山铜金矿床原生晕地球化学特征及深部找矿前景[J].物探与化探, 38 (3):434-440.
刘仲存, 毛启贵, 吕晓强, 等, 2020. 东天山赤湖地区原生晕异常结构特征对寻找斑岩型铜钼矿床的指示意义[J].矿产勘查, 11(3):551-559.
俞一凡, 费光春, 李佑国, 等, 2016. 云南中甸岛弧烂泥塘斑岩铜矿床岩体氧逸度特征及成矿意义[J].矿物岩石, 36(1):28-36.
张宏飞,高山, 2012. 地球化学[M].北京:地质出版社, 1-410.
曾普胜, 王海平, 莫宣学, 等, 2004. 中甸岛弧带构造格架及斑岩铜矿前景[J].地球学报, 25(5):535-540.
-
计量
- 文章访问数: 902
- PDF下载数: 40
- 施引文献: 0
下载: