内蒙古克什克腾旗小东沟斑岩型钼矿床的成矿作用

In this paper, the Xiaodonggou porphyry molybdenum deposit located in the Xarmoron molybdenum metallogenic belt is chose as the research area. We have analyzed the petrology of the Xiaodonggou pluton in detail and made chemical analysis of the major and trace elements, Rb-Sr and Sm-Nd isotope, common lead isotope and SHRIMP zircon U-Pb dating et al; in the other hand, we use the molybdenite to make common lead analysis and Re-Os isotopic dating. The Xiaodonggou pluton is rich in silicon, potass, zirconium, and low in REE. In addition, it has no minus Eu abnormity and show a isotopic composition high in εNd(t) and low in Sri, indicating its magma origining from the melting of juvenile thicken lower crust. In the meanwhile, it contained the features of high temperature, quick melting, quick segregation and quick emplacement. The common lead analysis of the pluton orthoclase and molybdenite show that the former transfer from orogen to mantle and the latter come from mantle, which is consistent to the molybdenite sulfur isotopic and quartz oxygen isotopic composition, demonstrating that the rock and ore-forming materials of deposit having different sources, magma from the lower crust mixing with mantle fluid. In plus, we use the physical experiments results of the water-magma reaction to explain the interaction of magma and mantle fluid. In the deep crust, these two systems uplifted in a immiscible state; when they reached low depth, the stream film between fluid-magma collapsed, and the magma was broken into small agglomerates by the fluid, then they mixed thoroughly. The SHRIMP zircon U-Pb dating gave a result of 142±2Ma and the molybdenite Re-Os dating result is 138.1±2.8Ma, corresponding to the big tectonic transition period of 140Ma, when the major stress field changing from south and north to west and east. At this time, the Da Hinggan ling ranges area was under an extensive background, underplating proceeded and mantle materials could add into the magmas forming in the lower crust. So, from the above analysis, we propose the following model for the Xiaodonggou porphyry molybdenum deposit: in the early Cretaceous period, the Da Hinggan ling ranges area was under a extensive background, the adding of mantle fluid containing ore materials into heated lower crust made it melting to produce magmas. Following more mantle fluid got into the magma room and urged the magma to segregate from the source quickly. The fluid and magma uplifted together, when they arrived at shallow depth, the fluid-magma became unstable and the latter was broken into many small agglomerates with fluid connecting them in the interspaces. Because of the H+, K+ and various elements existing in the fluid, it would reacted with the magma and the rock through alteration and ore minerals crystallized out, forming the Xiaodonggou porphyry deposit with disseminated mineralization phenomenon.

胶东昆嵛山复式花岗岩体的演化—岩石学和锆石U-Pb年代学研究

Kunyushan composite granite pluton is located in northeast part of the Sulu UHP collisional belt, Jiaodong peninsula, eastern China. It is regarded as the boundary of the Jiaodong block and the Sulu UHP collisional belt. The body is unique in the Dabieshan-Sulu UHP collisional orogen for its feature of multiple intrusions of diverse types granitoid rocks in a long span after UHP the collision between the North China and the Yangtze plates in late Triassic. It can be grouped into four series on the basis of petrology and petrochemistry. They are mid-K calc-alkaline granitoids, strongly peraluminous granites, high-K calc-alkaline granitoids and syenitic granite of shoshonitic series. In this thesis, the later three types of rocks are investigated geochronologically in detail. The grain zircon U-Pb isotope dilution dating technique has been employed in this study. Zircon morphology are presented and discussion on the chemical and physical conditions of the granite formation have been carried out in addtion. Strongly peraluminous granites comprises foliated monzogranite and garnet bearing leucogranite. They occupy more than half of the area of the Kunyushan composite body. Three zircon samples of foliated monzogranites have been analyzed, they yield lower intercept ages mainly in the range of 140-150 Ma. The formation of these rocks was likely to be at 700-600 ℃, implied by zircon morphology. Two zircon samples of the garnet bearing leucogranite yield lower intercept ages from 130 Ma to 140 Ma. Zircon morphology indicate that the liquidus temperature of the magma was about 750 °C. Syenitic granite of shoshonitic series occur in the north central part of the body, and the volume is quite small contrast to other types. One zircon sample was chosen from this rock, and yield lower intercept age of 121+1.8/-2.1 Ma. Zircon morphology indicate that the liquidus temperature of this rock is up to 900 °C, which is much higher than others'. High-K calc-alkaline granitoids can be divided into two types on the basis of rock texture and structure. One is Kf-porphyritic monzogranite. It's outcrop is quite small. Zircon ages of one sample constrain the emplacement of this rock at about 112 Ma. The other is medium-grain to coarse-grain monzogranite. Zircons from it yield lower intercept age of 100.5+2.9/-4.6 Ma. The variation of zircon morphology suggest that these two monzogranites were outcomes of a single magma at different stage. The former emplaced earlier than the latter. The liquidus temperature of the magma was about 800 ℃ Inherited zircon is ubiquitous in the Kunyushan composite body. Most of the samples yield upper intercept ages of late Proterozoic. It was considered that only the Yangtze plate underwent a crustal growth during late Proterozoic among the two plates which involved into the UHP collision. Inherited zircon of about 200 Ma can also be observed in strongly peraluminous and high-K calc-alkaline granitoids. Two samples out of eight yield upper intercept ages of Achaean.

滇东南薄竹山花岗岩岩石学、地球化学特征及其与成矿关系

滇东南地区北西以弥勒－师宗断裂与扬子地块分界，南西以红河断裂为界与哀牢山断块毗邻，南连越北古陆，东部文麻断裂与南岭褶皱系连为一体，是我国重要的锡、银、铅、锌等矿产基地，自西向东分布着个旧、白牛厂和都龙三个超大型银锡多金属矿床，在这三个大型矿床附近各分布着一个大花岗岩体，个旧和老君山岩体已有相当多的研究，而对于薄竹山岩体、薄竹山岩体接触带周边矿床和与临近白牛厂矿床的研究则相对薄弱。本文主要对薄竹山岩体进行岩石学、地球化学研究，并且借助铅同位素，对薄竹山岩体接触带矿床和白牛厂矿床的成矿物质来源作了分析，阐明这些矿床的形成与薄竹山花岗岩体的关系。 薄竹山花岗岩体分两期侵入，第一期岩石类型主要为中粒黑云母二长花岗岩，属于过铝质花岗岩，主要形成于同碰撞阶段；第二期主要为细粒二长花岗岩，形成于板内的伸展环境。与第一期相比，第二期花岗岩更加富硅富碱、贫钙贫镁，稀土配分曲线显示Eu亏损更加强烈，更加富集Rb、Ta、Tb、Y，而亏损Ba、Sr、La、Ce等元素。Sr-Nd同位素显示，两期花岗岩可能分别来源于中元古界地壳和太古宙古老基底。 薄竹山岩体长石铅同位素组成均一，其接触带矿床矿石铅与岩体长石铅分布趋势一致，所以接触带矿石铅可能主要由薄竹山岩体提供。对于白牛厂矿床，除个别样品外，矿区内西北白羊矿段和东南部其他矿段矿石铅组成一致，说明整个白牛厂矿区的矿石铅来源比较单一，并且与薄竹山附近矿化点矿石具有相似的铅同位素分布范围，说明两种矿石铅来源可能相同，都来源于薄竹山花岗岩浆。白牛厂矿区内赋矿地层铅与矿石铅同位素演化趋势完全不同，所以赋矿地层不可能为矿石铅的重要来源。 综合薄竹山岩体及矿石的铅同位素组成特征，我们发现白牛厂矿区内矿石铅主要来自薄竹山岩体，主要为矿区内隐伏岩体提供。白牛厂矿床早期可能发生过喷流沉积作用，但没有带来大量银、铅、锌等成矿物质，后来燕山期花岗岩浆侵入，带来大量银、铅、锌等成矿物质，形成了现在的白牛厂矿床。