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    锡铁山SEDEX铅锌矿床成矿物质来源研究——铅同位素地球化学证据

    The genesis of the Xitieshan SEDEX lead-zinc deposit in Qinghai Province: lead isotope evidence

    • 摘要: 提要:青海锡铁山超大型铅锌矿床产于柴达木盆地北缘早古生代造山带中,发育一套完整的喷流沉积系统,包括管道相、近喷口相与远喷口相以及喷流沉积岩等。对不同对象中硫化物系统的铅同位素测定研究表明,锡铁山矿床铅同位素组成总体较集中,可细分为两组,均呈线性分布:大部分的样品,包括非层状矿、网脉状石英钠长岩、代表供给系统的脉体、基性岩等,以及绝大部分的层状矿体,组成一组,线性回归方程为(207Pb/204Pb)=1.254(206Pb/204Pb)-7.296,相关系数0.997。分布于铅锌矿体及大理岩上盘的含浸染状黄铁矿化的炭质片岩、一个层状矿体样品组成一组,线性回归方程为(207Pb/204Pb)=0.123(206Pb/204Pb)+13.347,相关系数0.902。两条直线交点的同位素组成为206Pb/204Pb=18.253,207Pb/204Pb=15.590,208Pb/204Pb=38.370。结合成矿模型的研究认为,矿床的铅同位素具有造山带与上地壳混合来源的特点,显示喷流成矿过程中铅及成矿金属物质主要由喷流卤水提供,少量物质来自海水;在喷流系统的远端或喷流活动的间歇期,前寒武纪变质岩也可能提供了少量物质。而层状矿体与非层状矿体经历了相同的演化历史,均形成于喷流沉积过程中,非层状矿体属未喷出海底的热液矿体,而不是后期改造的结果。断层沟地区的矿化是后期改造重新定位的,铅同位素组成在改造过程中得到进一步的均一化。

       

      Abstract: Abstract:The Xitieshan superlarge Pb-Zn deposit is located in the north margin of Qaidam basin, Qinghai Province, and originally contained about 50 million tons of ore with the grade of 8% Zn and 10% Pb. It was formed in a rift basin in the Ordovician period. It has been recognized that there is a complete exhalation sedimentary system that includes breccias pipe-stockwork, non-bedded and bedded ores and marble from exhalation sediments. Pb isotope compositions of sulfides can be divided into two groups, one consists of most of the samples and includes most of the bedded ore and all of the non-bedded ore, pipe breccias and veins in marble under the non-bedded ore. They assume a linear array characterized by (207Pb/204Pb)= 1.254(206Pb/204Pb)-7.296 with the regression coefficient of 0.977 (n=19). The other group includes carbonaceous schist occurring above the marble and non-bedded ore and pyrite from bedded ore, and assumes a linear array of (207Pb/204Pb)=0.123(206Pb/204Pb)+13.347 with the regression coefficient of 0.902 (n=5). The Pb isotope composition of the intersection point of the two arrays is 206Pb/204Pb=18.253,207Pb/204Pb=15.590,and 208Pb/204Pb=38.370. A study of Pb isotope geochemistry suggests that the first array, consisting of most of the ore samples, represents a two-component mixing line in which the less radiogenic component can be identified as orogenic lead reservoir probably coming from Tianjianshan Group through the exhalation brine. The radiogenic end-member can be identified as upper crust lead reservoir probably derived from seawater. The lead and the ore-forming metals mainly came from the exhalative brine during the sedimentary-exhalative metallization, with a small amount derived from the seawater. Precambrian metamorphic rocks might also have contributed a little material in the distal vents of the exhalative system or during the intermission of exhalation. The bedded ore body and the non-bedded ore body, which endured the same geological evolution, were all formed during the exhalative sedimentation. Instead of being generated from the late reformation, the non-bedded ore body was probably hydrothermal ore body without experiencing submarine eruption. The mineralization in Duancenggou was relocated along the schistosity in the late reformation, and the lead isotope was further homogenized.

       

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