新疆东准噶尔老鸦泉富碱花岗岩型锡矿床地质及成矿流体

老鸦泉碱性花岗岩位于新疆北部东准噶尔地区。老鸦泉碱性花岗岩体及其内卡姆斯特、干梁子锡矿床的矿石和岩石的岩矿鉴定、稀土元素以及流体包裹体的系统研究表明,老鸦泉碱性花岗岩及其内的花岗斑岩及含矿石英岩、云英岩化锡矿体、石英脉锡矿体,实际上是富碱花岗质岩浆逐渐分异演化的同源和最终产物,锡成矿流体为中-高温、低盐度。碱性岩浆晚期分异的大量气水热液富锡、富硅、富碱、富含F、Cl、SO²₄离子及离子团,其氧逸度高、酸度高、温度高,这种热液引起花岗岩体的硅化、云英岩化等自变质作用,在该作用中随温度、压力的降低及CH₄等还原性气体及CO₂气体的逃逸,改变了成矿流体的氧化-还原环境,流体向相对还原及碱性条件转化,在新的氧化还原、酸碱度界面条件下,其携带的锡的络合物不稳定而分解,锡沉淀成矿。     

Neoproterozoic granites of the Lajeado intrusive suite,north-center Brazil: A late Ediacaran remelting of a Paleoproterozoic crust

In north-central Brazil, a number of granite plutons, which intrude Paleoproterozoic gneiss-granulite terrains of the Goiás Massif, crop out along a thermal axis parallel to the Transbrasiliano Lineament. Single zircon lead evaporation ages from three granitic bodies span between 552 and 545 Ma. Sm–Nd model ages (T_DM) vary between 2.1 and 1.7 Ga and negative εNd_{(0.55 Ga)} values between −10 and −13 show that Paleoproterozoic crust was involved in the genesis of these granites. These plutons, which form the Lajeado Intrusive Suite are part of an important Ediacaran magmatic event in central-northern of the Tocantins Tectonic Province, composed of metaluminous to slightly peraluminous granites with geochemical characteristics similar to A-type granites, whose crystallization occurred under low water activity during magmatic emplacement. The granitic intrusive bodies are related to a crustal extensional/transtensional tectonic event at the end of the Neoproterozoic. They may have connection with the granitic plutons of similar age (0.56–0.52 Ga) in northwestern Ceará state, on the other side of the Paleozoic Parnaíba Basin in northwest of Borborema Province, along the Transbrasiliano Lineament.     

Leaching behavior of Li and Ga from granitic rocks and sorption on kaolinite: Implications for their enrichment in the Jungar Coalfield,Ordos Basin

The granite collected from the Yinshan Mountain and kaolinite has been selected for the leaching and adsorption experiment,respectively,aiming to clarify the enrichment processes of Li and Ga during the deposition.Results suggest both Li and Ga could be leached out from granite by using different acid solutions of different p H and kaolinite can adsorb Li and Ga with varying degrees.Lithium and Ga had the highest leaching ratio when p H=1.Special geological events(e.g.volcanic eruptions and wildfires),which could result in very low p H values of water in peatland,may have accelerated the release of Li and Ga from the source rocks.Kaolinite has the highest adsorption fraction was obtained at p H=8.The different characteristics of Li and Ga displayed in the leaching and adsorption experiments probably result from the different occurrences and enrichment processes of Li and Ga in the coals.Lithium was probably enriched before the Li carriers(e.g.kaolinite)had been transported into paleomires because of its high leaching ratio and high adsorption fraction under neutral and alkaline conditions,whereas Ga was more likely concentrated by kaolinite and other carriers after it had been transported into the peat mires.     

Anatomy of garnets in a Jurassic granite from the south-eastern margin of the North China Craton: Magma sources and tectonic implications

The Late Jurassic Jingshan granite located at the south-eastern margin of the North China Craton contains abundant garnets which can be subdivided into three types based on texture and composition: (i) euhedral garnet in mafic biotite and garnet rich enclave (Grt I), (ii) coarse-grained garnet (Grt II) in the host granite, and (iii) small euhedral garnet in aplite (Grt III). In general, Grt I has higher FeO, CaO and lower MnO contents than Grt II. Grt III has higher Mn, but lower Ca contents than others. Grt I has lower MREE and HREE contents than Grt II. Grt III has prominent and distinctly negative Eu anomaly as well as higher MREE composition compared to the others. Systematic variations in oxygen isotope compositions are observed among the three garnet types, with δ¹⁸O values of <3.8‰ in most of Grt I, 3.8–4.7‰ in most Grt II (for inclusion-free garnets), and typically >4.7‰ in Grt III. Some of the Grt II and Grt III display two distinct zonings with cores having similar major and trace element compositions to Grt I.Cathodoluminescence (CL) images revealed that the zircons from different garnet-bearing samples possess fine-scale oscillatory zoned magmatic rims with inherited cores. In situ zircon U–Pb dating and trace element analyses show that the dark-luminescent magmatic rims all have Jurassic concordia ages (∼160 Ma) and similar trace element patterns. Most of the inherited cores also display similar Triassic ages of 210–236 Ma, which is similar to the ages of ultrahigh pressure (UHP) metamorphic rocks of the Dabie–Sulu orogen (230 Ma). In addition, Jurassic concordia ages were also found in a zircon inclusion in Grt I, implying that the Grt I was formed shortly before the main magmatic event. The age data suggest that the three different garnet types may be genetically related and modified by cogenetic magmatic events.Based on the zircon U–Pb ages from different garnet-bearing samples, the major element, trace element, oxygen isotope, and zoning textures of the three kinds of garnet we suggest that Grt I may be peritectic garnet, whereas Grt II and III are probably the results of magmatic dissolution–precipitation processes and re-equilibration of garnets with changing magmatic conditions during melting, differentiation, crystallization, and cooling within the granite. We conclude from the oxygen isotopic character of the garnets and ages of the zircons that the source rocks for the Jingshan granites are from Dabie–Sulu orogen representing the South China Craton.     

吕梁地区古元古代花岗岩浆作用——来自同位素年代学的证据

古元古代吕梁变质地块位于华北克拉通中部构造带中段的西缘，其中有大量的古元古代花岗闪长质到花岗质的侵入体。根据花岗岩岩石组合和同位索地质年代学资料，吕梁地区古元古代的花岗岩浆事件可分四个阶段。在早期拉张阶段，2364Ma的盖家庄片麻状花岗岩侵位，并伴随有大陆边缘裂谷型的吕梁群的火山活动。拉张一挤压转化阶段的花岗岩浆活动，代表性产物是2150Ma左右的赤坚岭片麻状花岗闪长岩；中期的挤压阶段的花岗岩浆活动，代表性产物是2063Ma的道仁沟石英二长岩、1906Ma的惠家庄似斑状黑云母花岗岩和1848Ma的市庄细粒花岗闪长岩等；晚期的拉张阶段的花岗岩浆活动，主要有1805Ma的大草坪斑状花岗岩和1800Ma的芦芽山斑状花岗岩、云中山花岗岩等。锆石SHRIMP U-Pb年代学研究结果表明，以往划分的关帝山杂岩是由不同时期的花岗岩所组成，应以解体。可将其划分为挤压阶段的惠家庄岩体、市庄岩体和后造山阶段的大草坪岩体等。     

江西省钽铌矿床类型及时空分布规律

对本省钽铌矿床根据矿床成因采取四级划分原则进行了详细分类,按成矿作用分内生矿床和外生矿床二大类,按矿床成因及成矿地质条件分二个亚类,根据成矿阶段分七种矿床类型,根据与矿化有关的母岩体的标型矿物分十四种矿体类型,其中蚀变的花岗岩型钽铌矿床是主要类型,其次是伟晶岩型钽铌矿床,细晶岩型矿床因矿物细小,目前尚难利用.各种类型钽铌矿床(点)主要是位于构造隆起带内,分布于怀玉山、武功山、武夷山、于山和九岭等5个钽铌成矿带中.从华力西期至燕山期均有产出,其中以燕山中期为主要成矿期.     

北秦岭马河钼矿区花岗岩类的锆石U-Pb年龄、地球化学特征及其地质意义

本文对北秦岭马河钼矿区桃官坪中-细粒二长花岗岩和西沟斑状二长花岗岩进行了LA-ICP-MS锆石U-Pb年龄测定,分别获得了157±1Ma(NSWD=13)和153±1Ma(NSWD=14)的谐和年龄,表明其为晚侏罗世侵入体。马河钼矿的形成与这两个侵入体密切相关,据此限定该钼矿床成矿时代略晚于157~153Ma,为侏罗世晚期成矿。桃官坪和西沟花岗岩具有高硅(68.12%~76.33%),富碱(Na₂O+K₂O=6.35%~10.38%)的特征,K₂O/Na₂O变化较大(0.91~1.89),A/CNK在0.85~1.14之间,为准铝质-弱过铝质高钾钙碱性系列。微量元素上富集U、Pb、Hf等高场强元素,亏损Rb、Ba、K、Sr、P等大离子亲石元素。稀土元素配分曲线为轻稀土相对富集的右倾型,多数具有弱的负铕异常(δEu=0.5~0.9),少数样品具有弱正铕异常(δEu=1.05~1.08)。与华北地块南缘与钼矿有关的花岗岩相比,二者均具有高硅、高钾、富碱的特征。但马河钼矿区成矿花岗岩比华北地块南缘的稍基性,这可能是导致马河钼矿的矿床规模比华北地块南缘较小的原因之一。     

江西西华山花岗岩的演化与脉钨矿床的成矿关系

江西西华山脉钨矿床的形成与含钨花岗岩浆演化密切相关,“附加侵入”二云母或白云母碱性长石花岗岩的出现,对脉钨矿床的形成具有重要意义。脉钨矿床形成的全过程可概况为:从深熔—重熔花岗质岩浆产生→岩浆不断的分异并多次上侵→含钨岩浆的结晶分异(主侵入成岩)→碱质自交代→低熔岩浆的形成和气热分馏(附加侵入成岩)→细晶岩等的贯入和成矿流体最后从岩浆中彻底分离→成矿流体上升充填交代及其性质的演变→黑钨矿(长石)石英脉的形成。     

吉林省桦甸地区太古宙花岗质片麻岩的侵位与变形研究

根据岩石组合，分布，接触，包裹关系以及结构和构造，吉林省桦甸地区太古宙花岗质林岩为角闪英云闪长质片麻岩类和黑云母花岗闪长质片麻岩类，角闪英云闪长质片麻岩类为变形前侵入体，黑云母花岗闪长质片麻岩类为同变形侵入体，两类花岗质片麻岩的侵位是晚太古宙近东西向构造变形相伴生的岩浆活动事件。