塔里木盆地西北缘早二叠世后碰撞花岗质岩浆活动及其构造意义

塔里木地块西北缘的阔什布拉克钾长花岗岩富碱（Na2O+K2O平均836％>8％）,富钾（K2O/Na2O=127～147）,准铝质（A/CNK=082～088）,属于高钾钙碱性系列岩浆岩。岩石的稀土含量较高（ΣREE=26390×10-6～44575×10-6）,富集Th、U、Ta、Nb、Hf和Y等高场强元素和大离子亲石元素Rb,具有强的负Eu异常（δEu=0003～0019）,富集高不相容元素（Zr＋Nb＋Ce＋Y=368×10-6～531×10-6>350×10-6),高Ga（Ga/Al×10〖CS％0,0,0,0〗〖CS〗000=417～472>26）,显示出A型花岗岩的地球化学特征。岩石Th/U比值（平均为386）、Nb/Ta比值（平均为1275）和Rb Th富集、Ti亏损指示其壳源成因。对花岗岩进行的LA ICP MS微区原位锆石 U Pb 定年结果表明,花岗岩的结晶侵位年龄为2754±28 Ma。综合西南天山与塔里木盆地早二叠世花岗质岩浆活动的特点,认为早二叠世西南天山的后碰撞岩浆活动不仅在西南天山内部引起了强烈的花岗质岩浆活动,而且对塔里木地块西北边缘的花岗质岩浆活动也有显著的影响。阔什布拉克A型花岗岩也说明西南天山地区的碰撞造山作用在2754±28 Ma之前已经趋于结束,以南天山洋盆为代表的古亚洲洋已基本结束了其演化历史。     

哀牢山中段镇沅金矿晚二叠世花岗斑岩U-Pb年代学、岩石地球化学及其构造意义

云南镇沅地区位于哀牢山构造带中段,是古特提斯哀牢山洋关闭及碰撞造山的关键部位。本文对该地区出露的花岗斑岩进行了年代学、岩石地球化学与同位素地球化学研究。锆石U-Pb年代学给出加权平均年龄为253.3±2.0Ma,表明花岗斑岩形成于晚二叠世。3个花岗斑岩脉共5个样品分析结果表明,其SiO₂含量65.30%～70.79%,全碱含量(K₂O+Na₂O)3.53%～4.39%,Al₂O₃含量13.42%～16.40%,为高钾钙碱性亚碱性系列岩石,成分上与花岗闪长岩类似,为S型花岗岩。稀土元素含量较低,轻重稀土分异程度较高,稀土配分曲线为右倾,无明显Ce异常,具弱负Eu异常,微量元素配分曲线为右倾,大离子亲石元素相对富集,高场强元素相对亏损,与典型地壳相一致。锆石Hf同位素ε_Hf(t)为-1.0～4.1,显示岩浆源区为亏损地幔和古老地壳物质部分熔融。岩石大地构造环境分析表明,该花岗斑岩形成于晚二叠世同碰撞构造环境。     

浙江青田石平川钼矿控矿条件分析

石平川钼矿由燕山晚期第四次侵入碱性长石花岗岩体提供物源和热动力,火山机构、断裂和西山头组第二岩性段为成矿提供了导矿通道和容矿场所。     

大兴安岭北段喀喇其花岗斑岩体地球化学特征、锆石U-Pb年龄及构造背景

本文对大兴安岭北部喀喇其花岗斑岩体进行了岩石学、地球化学及锆石U-Pb年代学的研究,探讨了其形成的构造背景。结果表明:喀喇其花岗斑岩体锆石U-Pb年龄为132 Ma±1 Ma,表明其形成时代应为早白垩世晚期;岩石具有高钾钙碱性系列,过铝质特征;稀土元素属于轻稀土富集型,分布模式为右倾、左陡右平型式,具有较明显的Eu负异常特征。认为该花岗岩为铝质A型花岗岩,属于地壳岩石部分熔融的产物;该期岩浆侵位活动受蒙古—鄂霍茨克构造体系影响,形成于后造山大陆弧或后碰撞弧环境。     

潞西团坡厂铁锌多金属矿成因

矿体产于印支期黑云角闪花岗闪长岩与寒武系(未分,∈?)变质岩接触带,F1压扭性断裂控制矿体的形态和展布。成因类型为热液接触交代一矽卡岩型铁锌矿。     

Are South China granites special in forming ion-adsorption REE deposits?

Ion-adsorption REE deposits associated with clay minerals are the main global HREE producer. The majority of these deposits are formed by the weathering of granites in South China, but whether there is any fundamental difference between the granites in and outside South China is still unclear. Besides, an effective evaluation system of granite mineralization potential is urgently needed for HREE exploration.To answer this question, we compiled a global granite geochemical dataset from within (n = 1932) and outside (n = 6109) South China, together with a dataset of representative REE deposits in South China (n = 128). The geochemical comparation shows that the South China granites share similar REE contents with those of many granites from places outside South China. Such similarity has also been found between REE ore-related and ore-barren granites in South China. This shows that granites from outside South China could also have ore-forming potential. Warm humid climate and quasi-equalized crustal state promote chemical weathering to continuously leach REEs and store them in the weathering crust. The enrichment ratio (Rx) can be used to quantify the climatic effect between orebodies and parent rocks. The calculated average Enrichment Ratios (Rx) of LREE- and HREE-rich deposits are 2.41 and 2.68, respectively. Sufficient REE content in granite is the prerequisite for mineralization, and we propose that the combination of the minimum REE + Y (172 and 108 ppm in LREE- and HREE-rich parent rocks, respectively) and REE oxide ratio (1.32) can reveal the granite metallogenic potential. Together with the suitable tropical and temperate climate area with ion-adsorption REE deposits, we further identified certain regions with high REE mineralization potential outside South China to assist future exploration.     

鞍山地区陈台沟变质表壳岩的年龄

鞍山市东部陈台沟村附近，有一套以斜长角闪岩类、石英岩类和长英质片麻岩类等组成的变质表壳岩（陈台沟表壳岩），它虽被划归为鞍山群但同该地区公认的鞍山群明显不同。它同白家坟花岗岩（３．８Ｇａ）和陈台沟花岗岩（３．３Ｇａ－３．１Ｇａ）为断层接触。采用Ｋｏｂｅｒ提出的单颗粒锆石逐层蒸发－沉积方法，测定了侵入陈台沟表壳岩的两条花岗岩脉（Ａ９２１２－３，Ｃｈ１０）中锆石的年龄，Ａ９２１２－３测定了８粒锆石，年龄为３３５７±４Ｍａ－３３１５±４Ｍａ（误差均为２ｄ，Ｃｈ１０测定了３粒锆石，结果为３３３７±１２Ｍａ，３２２８±３７Ｍａ和１８１３±７Ｍａ。３３５７Ｍａ和３３３７Ｍａ是这两条花岗岩脉侵位时间。１８１３Ｍａ是后期地质作用的时间。陈台沟表壳岩的年龄大于３．３５Ｇａ，建议将陈台沟表壳岩从鞍山群分离出来单独建群。     

Hydrologic and geochemical properties of the San Andreas fault at the Stone Canyon well

The Stone Canyon well penetrates 600 m of highly fractured and severely altered quartz diorite intimately associated with the creeping segment of the San Andreas fault of central California. Geophysical logs reveal a complex hydrology dominated by major fractures. Fluid pressure in some fractures is sufficient to prevent invasion of the formation by heavy drilling mud, implying pore pressures at least 10% higher than hydrostatic ones. At least three chemically distinct waters are encountered, including a chloride brine clearly segregated from the shallow, potable groundwater. Chemical alteration of the quartz diorite persists throughout the well, far below the depth where the water-rock reactions responsible for the ubiquitous chlorite and mixed-layer clays can be considered weathering. Whole-rock ¹⁸O analyses indicate significant interaction of the rocks with a low ¹⁸O fluid within some of the fractured and altered zones, whereas a deeper sample shows¹⁸O enrichment. High pore pressures encountered in Stone Canyon may be due to tectonic compression. Measurements of temporal variations in the pore pressure at the well may provide a means of predicting earthquakes along this segment of the San Andreas fault.     

Metasomatism and the formation of greisen in Grainsgill,Cumbria, England

A section of hornfelsed Skiddaw Slate adjacent to the margin of the Grainsgill Greisen is described and chemical analyses of the various rock types presented. The results confirm that hydrothermal fluids liberated K and Na from the granite to produce the greisen. This gave rise to K metasomatism of the adjacent hornfels and to retrogressive metamorphism over a radius of 200m from the intrusion. Na leached from the hornfels near the intrusion and that liberated during the formation of the greisen are probably the sources of the Na in the brines recorded in fluid inclusions within the nearby quartz-tungsten veins.