西藏谢通门县斯弄多大型叠加改造型铅锌矿床特征及找矿方向

斯弄多铅锌矿区位于冈底斯斑岩型矿床成矿带中。矿区花岗斑岩和闪长玢岩的地球化学特征表明,斯弄多铅锌矿与冈底斯斑岩型矿床为同一成矿体系,均形成于印—亚大陆主碰撞期和碰撞期后的构造体制转化阶段;岩浆来源于原岩以杂砂岩和泥质岩为主的前寒武纪念青唐古拉群变质结晶基底和下地壳基性岩类的部分熔融。成矿物质主要来源于雅鲁藏布江新特提斯洋对冈底斯弧俯冲板片的部分熔融并交代岛弧带上的基底岩系。矿床的形成分为3期:第一期为中石炭世,与碳酸盐岩沉积同时期的海底热水喷流沉积作用形成初始矿源层;第二期为构造活动成矿期,分2个成矿阶段:第一阶段为晚白垩世—始新世,即印-亚大陆主碰撞形成的早期与斑岩有关的岩浆热液型铅锌矿;第二阶段的铅锌矿化发生在主碰撞期后的伸展拉张阶段,由于花岗斑岩的侵位,使铅锌矿化进一步活化迁移、叠加、富集,与围岩接触部位形成夕卡岩型铅锌矿体,矿体的形成多受矿区内复杂的断裂构造控制,矿床类型主要为构造破碎带热液充填型和夕卡岩型;第三期为表生期,主要为原生硫化矿体的氧化流失和贫化。在I号矿带的深部、南部和北部异常区具有扩大矿床规模的远景。     

辽西兴城地区新太古代花岗质杂岩特征与成因

辽西兴城台里地区新太古代花岗质杂岩主要分为黑云长石片麻岩和花岗闪长质片麻岩两类,是华北克拉通新太古代花岗质地壳的重要组成部分。花岗闪长质片麻岩类均为“模糊的”渐变过渡,没有侵入体的一般特点,与黑云长石片麻岩类相互混杂伴生,显示协调的变形或过渡关系。显微组构研究发现两类片麻岩均可分为两种不同的结构相类型: 原生结构相及新生结构相。从黑云长石片麻岩类到花岗闪长质片麻岩类具有新生结构相逐渐增多、原生结构相逐渐减少的变化规律。在常量元素上,两类片麻岩SiO₂ 与MnO、CaO、TiO₂、Fe₂O₃、MgO 的变化特征具有线性分布的趋势; 在微量及稀土元素含量变化特征上,两类片麻岩具有相似的特点。花岗闪长质片麻岩类在成因上属于深熔型花岗岩,其源岩可能为一套副变质的硬砂岩。     

中国大陆科学钻探主孔正片麻岩磁性及深部流体活动

通过对中国大陆科学钻探工程主孔花岗质片麻岩进行详细的岩石磁学研究及岩石矿物学分析表明: 花岗质片麻岩磁化率(0.570×10-7~120.450×10-7m3·kg-1, 平均29.996×10-7m3·kg-1)在主孔所有岩石中仅次于蛇纹石化石榴石橄榄岩, 而其天然剩余磁化强度(0.002×10-3~2.109×10-3Am2·kg-1, 平均0.210×10-3Am2·kg-1)则是所有岩性中最低的.磁化率随温度变化曲线、交变退磁曲线及磁滞回线特征表明, 花岗质片麻岩中磁性矿物组合主要成分为磁铁矿, 小部分样品中含有赤铁矿, 其中磁铁矿以多畴为主, 伪单畴磁铁矿仅在少量样品中出现.和同为完全退变质岩的角闪岩(完全退变质榴辉岩)相比, 花岗质片麻岩具有相似的磁性矿物组合, 但其磁铁矿的颗粒明显较大.多畴磁铁矿的形成, 可能和超高压变质岩折返过程中, 花岗质片麻岩较强的流体活动相关.部分分布于花岗质片麻岩主体岩性段外的样品, 具有较高的天然剩余磁化强度, 则可能反映了花岗质片麻岩及周围榴辉岩之间的流体交换.      

湘中印支期关帝庙岩体地球化学特征及成因

关帝庙岩体位于湘中盆地,据年龄资料可分为中三叠世末和晚三叠世中期两个形成时期。中三叠世花岗岩中发育闪长质暗色微粒包体,自早至晚依次为细中粒角闪石黑云母花岗闪长岩、细中粒斑状角闪石黑云母二长花岗岩、细-细中粒(斑状)黑云母二长花岗岩。晚三叠世花岗岩自早至晚依次为细中粒-粗中粒斑状二云母二长花岗岩、细粒二云母二长花岗岩。岩石高硅、富铝、高钾,(Na2O+K2O)含量为6.80%~8.87%,平均7.74%;K2O/Na2O比值在1.35~2.66之间,平均为1.58;ASI值为0.99~1.40。总体属镁质、高钾钙碱性系列过铝质花岗岩类。中三叠世花岗岩Ba、Nb、Sr、P、Ti表现为明显亏损,Rb、(Th+U+K)、(La+Ce)、Nd、(Zr+Hf+Sm)、(Y+Yb+Lu)等则相对富集。中、晚三叠世花岗岩ΣREE含量为121.60~197.56μg/g,平均为158.70μg/g;δEu值0.28~0.68,平均为0.53;(La/Yb)N值为5.94~17.53,平均13.80。中三叠世花岗岩ISr值为0.71302~0.71758,εSr(t)值为121~186,εNd(t)值为-9.95~-8.74,t2DM为1.72~1.82Ga。C/MF-A/MF图解显示源岩主要为碎屑岩、少量基性岩和泥质岩。地质地球化学特征表明,印支期关帝庙花岗岩属S型花岗岩,形成于碰撞-后碰撞构造环境。     

Prospecting ideas and research progress of extra-large Ta-Nb deposit in Renli of Hunan Province

Renli extra-large Ta-Nb deposit is rich in tantalum, niobium and beryllium resources. The Ta₂O₅ resource is of extra-large scale and the Ta₂O₅ resource reaches large scale. In order to further study the occurrence characteristics, metallogenic regularity and the prospect of comprehensive utilization of mineral resources of rare metals in Renli extra-large Nb-Ta deposit, the authors have carried out the research work of geochemical analysis, EPMA, fluid inclusion study, isotope dating and mineral processing experiment. Based on the systematic review of the research progress in Renli extra-large Ta-Nb deposit, the authors also discussed the following prospectiong ideas of the deposit. There are many associated minerals in Renli Nb-Ta deposit, and the recovery rate of rare metals and the comprehensive utilization rate of mineral resources are high. Therefore it has great value of development and utilization, and the efficient exploration and development that characterized by green, environmentally friendly and no tailings can be carried out in Renli Ta-Nb deposit as a typical example. Renli mining area is rich in tantalum, niobium and beryllium resources and has great prospecting potential. With increasing geological exploitation funding, it’s probable to make new prospecting progress of Ta-Nb-Be-Li rare metal. The next work will focus on the control of the deep ore bodies of No.2, 3, 5 and 6 main ore veins in the mining area in order to make new progress in tantalum niobium beryllium ore prospecting. The research work of concealed spodumene muscovite albite pegmatite in western or southwestern mining area will be strengthened in order to make a breakthrough in spodumene muscovite albite pegmatite type lithium ore prospecting.     

花岗岩与金铜及钨锡成矿的关系

文章从对国内外若干与金铜钨锡矿床有关的花岗岩Sr、Yb含量的统计出发,按照花岗岩新的分类,归纳了花岗岩与成矿的关系。指出金铜成矿与埃达克型和喜马拉雅型花岗岩有关,钨锡成矿与南岭型花岗岩有关。其原因主要取决于成岩和成矿的深度以及氧逸度条件。金铜和钨锡成矿的深度不同,因此,金铜和钨锡不可能在同时同地出现,但可以叠加在一起。作者认为,成岩和成矿是两回事,成岩基本上是一个物理过程,而成矿主要体现为化学反应;成岩需要热,而成矿需要热、流体以及合适的矿源3个条件,缺一不可。在一个地区,成岩作用可以很普遍,但是,成矿可能很局限。成岩与成矿有关不是成因有关而是时空有关。成矿与成岩同时、或成矿早于成岩、或晚于成岩,都是合理的,而区分含矿岩体和不含矿岩体可能是没有意义的。文中还讨论了金能否来源于围岩的问题及找矿思路的问题,指出就矿找矿仍然是行之有效的找矿方法。     

青藏高原羌塘中部蜈蚣山花岗片麻岩锆石U-Pb定年——泛非与印支事件的年代学记录

羌塘盆地位于青藏高原北部,是研究青藏高原古特提斯洋演化及冈瓦纳大陆与欧亚大陆界线的关键区域,其基底的时代和性质直接决定了羌南—保山板块的大地构造属性和冈瓦纳大陆的范围。笔者通过对羌塘中部蜈蚣山花岗片麻岩捕虏体的锆石LA-ICP-MSU-Pb定年,确定该花岗片麻岩形成于晚三叠世(209.1±2.8Ma),是冈瓦纳大陆与欧亚大陆汇聚事件的物质记录,与羌塘中部已有的研究结果相一致;同时还在花岗片麻岩中发现了冈瓦纳大陆泛非运动晚期(464.5±4.8Ma)的年龄记录,是羌塘地区首次发现泛非运动的物质记录,并且该年龄可以与滇西怒江、保山以及印度板块内部和喜马拉雅造山带中发育的大量早古生代花岗质岩石相对比,表明羌南—保山板块与印度大陆具有很好的亲缘性。以上研究成果为探讨羌塘地区的基底属性和确定冈瓦纳大陆与欧亚大陆碰撞的时限提供了新的证据。     

福建东山县澳角村澳角群花岗质石榴黑云片麻岩锆石SHRIMP U-Pb定年及其地质意义

本文对福建东山县澳角村澳角群花岗质石榴黑云片麻岩中17颗锆石进行了SHRIMP U-Pb同位素年龄测定。结果显示锆石Th/U比值变化于0.31~1.01,平均值为0.48,为典型的岩浆锆石;其中16个分析点在谐和图上分布较为集中,206Pb/238U年龄加权平均值为(152.8±1.6)Ma(n=17,MSWD=1.12);结合锆石自形、发育岩浆环带等特点,该年龄被解释为澳角群亲营山组花岗质石榴黑云片麻岩的形成年龄。其所指示的地质意义:(1)福建东山县澳角村澳角群亲营山组花岗质石榴黑云片麻岩形成于晚侏罗纪,而非前泥盆纪;(2)福建东山县澳角村澳角群亲营山组应解体为表壳岩与变质侵入体。     

Zircon U–Pb ages of Miocene granitic rocks in the Koshikijima Islands: Implications for Neogene tectonics in the Kyushu region,southwest Japan

The opening of the Japan Sea separated southwest Japan from the Eurasian continent during the Early to Middle Miocene. Since then, diverse igneous activities have occurred in relation to the subduction of the Philippine Sea Plate beneath southwest Japan. The Okinawa Trough formed in the back-arc region of the Ryukyu Arc since the Late Miocene. In the Koshikijima Islands, off the west coast of Kyushu and near the northern end of the Okinawa Trough, felsic to intermediate igneous rocks with Middle to Late Miocene radiometric ages occur as granitic intrusions and dikes. We obtained zircon U–Pb ages and whole-rock major- and trace-element compositions of Koshikijima granitic rocks to elucidate their magmagenesis. The U–Pb ages of granitic rocks in Kamikoshikijima and Shimokoshikijima and a dacite dike are about 10 Ma, suggesting that most magmatism on the Koshikijima Islands was coeval with early rifting in the Okinawa Trough. We infer that magmagenesis occurred via melting of lower crustal mafic rocks related to rifting in the Okinawa Trough based on the arc-like trace-element compositions of these I-type granites. Andesitic dikes preceded felsic igneous activity on the Koshikijima Islands, and their ages and petrochemistry will help elucidate the magmatism and tectonics in this area throughout the Miocene.     

Oxygen and lead isotope characteristics of granitic rocks from the Nansha block (South China Sea): Implications for their petrogenesis and tectonic affinity

The pre‐Cenozoic history of the South China Sea (SCS) region is the object of continued debate. To trace the evolution of the SCS, a better understanding of the petrogenesis and tectonic affiliation of the granitic rocks that comprise the microblocks within the region is necessary. In this study, we analyzed the whole‐rock oxygen and lead isotope ratios of granitic samples dredged from two locations in the Nansha microblock, one of the microblocks in the SCS. Oxygen isotope data combined with previously published Sr isotope data show that group I rocks (δ¹⁸O = 6.00–7.20‰; average = 6.64‰) originated from a mantle source contaminated by material and/or fluid input from a Mesozoic subduction zone in the southeastern side of the microblock. Group II rocks (δ¹⁸O = 6.86‰–9.13‰; average = 7.75‰) also came from the same source, but they were additionally affected by crustal contamination. The Nansha microblock has high radiogenic lead ratios (²⁰⁶Pb/²⁰⁴Pb_i = 18.602–18.756, ²⁰⁷Pb/²⁰⁴Pb_i = 15.660–15.713, ²⁰⁸Pb/²⁰⁴Pb_i = 38.693–38.893), which indicate that the Nansha microblock is tectonically affiliated with the Nanling–Hainan or South China block. This notion is consistent with the results of a previous Nd isotope study. As a whole, results of our study suggest that some of the other microblocks dispersed in the SCS are also possible fragments of South China block, and thus further studies are needed to better constrain the pre‐Cenozoic evolutionary history of the SCS region.