西藏驱龙矿区流纹斑岩及英安流纹斑岩年代学研究及其地质意义

驱龙超大型斑岩铜矿床是冈底斯斑岩铜矿带上最为重要的矿床,矿区侵入岩较发育,但流纹斑岩及英安流纹斑岩的形成时代存在争议。在野外及岩相学观察基础上,结合LA-ICP-MS锆石U-Pb测年,获得流纹斑岩年龄值为169.9±0.61 Ma,英安流纹斑岩年龄值分别为166.0±1.8 Ma及173.8±0.56 Ma,黑云母花岗闪长岩年龄值为16.98±0.15 Ma。结合前人年代学研究,认为流纹斑岩及英安流纹斑岩可能在早侏罗世即开始活动,一直持续到晚侏罗世。而黑云母花岗闪长岩的形成时代与前人研究一致,皆为中新世。此外,驱龙矿区岩浆岩演化经历了早-晚侏罗世、中新世早期和中新世中期三个阶段,其中,中新世早期岩浆活动与成矿时代具有很好的一致性。最后认为,驱龙矿区岩浆岩活动时间与新特提斯洋俯冲阶段及印度-亚洲大陆碰撞后汇聚过程中发生的岩浆作用阶段相对应。岩浆活动与成矿受到这两大构造活动事件的影响。     

大兴安岭地区与火山-次火山作用有关的铜钼矿床成矿规律

大兴安岭铜钼矿床主要与古生代和中生代浅成侵入岩和火山-次火山岩有关,矿床形成于陆缘岩浆岩带、造山带和深大断裂带中.成矿期主要为加里东期、华力西期和燕山期.矿化围岩为花岗闪长岩、花岗闪长玢岩、二长花岗岩、安山岩、英安岩、流纹岩、安山玢岩、流纹斑岩和火山碎屑岩.围岩蚀变主要有硅化、绢云母化、钾长石化、水白云母化、伊利石化、绿泥石化、碳酸岩化.矿石中主要工业元素为Cu和Mo,伴生有益组分为Ag、Au、Re等.成矿类型有：①斑岩型铜钼矿床;②火山-次火山热液型铜钼矿床.大兴安岭铜钼矿床主要由陆缘岩浆岩带、造山带、深大断裂带的火山-次火山作用及小型侵入作用形成,成矿流体沿着火山机构、岩浆侵入构造、区域构造等运移,热动力、压力、扩散力等使成矿流体产生上升运动和局部循环运动,成矿流体的迁移、萃取、扩散、交代作用等使成矿物质产生富集.     

智利艾斯康迪达铜矿床地质特征与成矿模式

艾斯康迪达矿床是位于智利北部安第斯铜矿带的世界第三大斑岩型铜矿床,铜储量3156.7×104t,其形成主要与始新世晚期—渐新世的石英二长岩-花岗闪长斑岩岩株有关,构造上受多梅科断层系统的控制。该矿床拥有典型斑岩型铜钼矿床的热液蚀变类型,包括钾长石化、黑云母化、石英-绿泥石-绢云母化、泥化与青磐岩化。与成矿有关的侵入岩年龄在38Ma左右,辉钼矿Re-Os年龄为36.1~33.7Ma。流体包裹体特征表明,该区域矿床成矿热液分为早期高温的岩浆热液和晚期岩浆热液与地下水混合的低温低盐度热液2期。高场强元素的负异常、稀土元素La/Yb值特征与Sr-Nd同位素比值特征表明,成矿斑岩是混入少量壳源物质的幔源岩浆演化来的。形成于南北向多梅科断层与北西向线性构造交会位置的转换拉伸环境,对艾斯康迪达矿床成矿斑岩的侵位具有关键性作用。     

Fractional crystallization and magma mixing in the Tigalak layered intrusion,the Nain anorthosite complex,Labrador

The Tigalak intrusion is a dominantly dioritic layered body, about 80 km² in area, which ranges in composition from norite to granodiorite. Local areas of the layered rocks display upward fractionation from norite to ferrodiorite. Periodic reversals of mineral composition trends record the emplacement of less fractionated dioritic magma. Heterogeneous mixtures of dioritic and granodioritic rocks occur widely in mappable lenses and layers that alternate up section and along the strike with more uniformly layered rocks. In these mixtures, chilled dioritic pillows occur abundantly in a hybrid cumulate matrix of granodiorite to diorite composition. Cross-cutting granodioritic dikes grade upward into stratigraphically-bound lensoid masses of the hybrid cumulates. It appears that the hybrid rocks formed as a result of the emplacement of the granodioritic magma through lower cumulates into the dioritic magma chamber and that the dioritic pillows represent chilled bodies of Ferich dioritic magma that commingled with cooler granodioritic magma and settled to the floor of the Tigalak magma chamber. The restricted distribution of these mixtures of hybrid cumulates and chilled pillows indicates that mixing between granodioritic and dioritic liquids was limited in time and lateral extent. Periodic injections of granodioritic liquids may have collected as a separate layer below the roof of the magma chamber and above dioritic magma.     

黑龙江多宝山斑岩铜矿的铜金属来源与富集规律

黑龙江多宝山斑岩铜矿位于兴——蒙海西期造山带的东端。该区早古生代的演化受制于兴——蒙洋向东偏北消减于布列亚-佳木斯地块之下,火山弧呈近北西向;晚古生代的演化受制于兴——蒙洋向北西消减于克鲁伦——额尔古纳地块之下,构造线为北东走向。多宝山矿床的金属铜是多来源的,主要矿源层是中奥陶世弧火山岩,次要矿源层是早泥盆世裂谷火山岩。中海西期的中性侵入岩也提供了部分矿源,但它对成矿更主要的贡献是三期脉动式的热液活动成为高背景场中铜元素迁移和富集的主要动力。金属铜在从围岩中汲取出来富集就位于斑岩体周围的同时,在矿区及邻区较大范围内形成铜元素的降低区。多宝山斑岩铜矿的成矿期是中海西期。晚海西-印支期和燕山期的构造-岩浆事件中有其它类型的铜(或铜-多金属)矿床形成,并使多宝山斑岩铜矿遭受改造。     

Late Mesozoic Ore‐forming Events in the Ningwu Ore District,Middle‐Lower Yangtze River Polymetallic Ore Belt,East China: Evidence from Zircon U‐Pb Geochronology and Hf Isotopic Compositions of the Granodioritic Stocks

Late Mesozoic volcanic-subvolcanic rocks and related iron deposits, known as porphyry iron deposits in China, are widespread in the Ningwu ore district (Cretaceous basin) of the middle–lower Yangtze River polymetallic ore belt, East China. Two types of Late Mesozoic magmatic rocks are exposed: one is dioritic rocks closely related to iron mineralization as the hosted rock, and the other one is granodioritic (-granitic) rocks that cut the ore bodies. To understand the age of the iron mineralization and the ore-forming event, detailed zircon U-Pb dating and Hf isotope measurement were performed on granodioritic stocks in the Washan, Gaocun-Nanshan, Dongshan and Heshangqiao iron deposits in the basin. Four emplacement and crystallization (typically for zircons) ages of granodioritic rocks were measured as 126.1±0.5 Ma, 126.8±0.5 Ma, 127.3±0.5 Ma and 126.3±0.4 Ma, respectively in these four deposits, with the LA-MC-ICP-MS zircon U-Pb method. Based on the above results combined with previous dating, it is inferred that the iron deposits in the Ningwu Cretaceous basin occurred in a very short period of 131–127 Ma. In situ zircon Hf compositions of εHf(t) of the granodiorite are mainly from ?3 to ?8 and their corresponding 176Hf/177Hf ratio are from 0.28245 to 0.28265, indicating similar characteristics of dioritic rocks in the basin. We infer that granodioritic rocks occurring in the Ningwu ore district have an original relationship with dioritic rocks. These new results provide significant evidence for further study of this ore district so as to understand the ore-forming event in the study area.     

多宝山斑岩铜矿床成因模式

多宝山斑岩铜矿床位于蒙古—鄂霍茨克(古亚洲)地槽东部。矿区周围出露的地层以中古生界为主,在复背斜核部出露有奥陶系。从多宝山矿区向东南40公里为新开岭隆起,隆起呈北东东走向,上面地层多属下古生界和前古生界,而其东南广大地区地层多属石炭二叠系。多宝山矿区含矿的花岗岩体,经K-Ar法年龄测定,为292百万年,属中石炭世。由此可见,在多宝山矿床形成期间,多宝山矿区应位于正负构造单元接壤处偏隆起一侧。     

Zircon U–Pb,Molybdenite Re–Os and K‐feldspar 40Ar/39Ar Dating of the Bolong Porphyry Cu–Au Deposit,Tibet, China

The Bolong porphyry Cu–Au deposit is a newly discovered deposit in the central Tibetan Plateau, and is ranked as the second largest copper deposit discovered to date in the Bangong‐Nujiang metallogenic belt in China. Three granodiorite porphyry phases occur within the Bolong porphyry Cu–Au deposit. Phyllic alteration is widespread on the surface of the deposit, and potassic alteration occurs at depth, associated with granodiorite porphyries. The copper and gold mineralization is clearly related to the potassic and phyllic alteration. Multiple chronometers were applied to constrain the timing of magmatic–hydrothermal activity at the Bolong deposit. Zircon U–Pb geochronology reveals that the granodiorite porphyry phases were emplaced at ca. 120 Ma. Re–Os data of four molybdenite samples from quartz–molybednite veinlets yielded an isochron age of 119.4 ± 1.3 Ma. The plateau age of hydrothermal K‐feldspar from the potassic alteration zone, analyzed by ⁴⁰Ar/³⁹Ar dating, is 118.3 ± 0.6 Ma, with a similar reverse isochron age of 118.5 ± 0.7 Ma. Therefore, the magmatic–hydrothermal activity occurred at ca. 120–118 Ma, which is similar in age to the neighboring Duobuza porphyry copper deposit. The period of 120–118 Ma is therefore important for the development of porphyry Cu–Au mineralization in the central Tibetan Plateau, and these porphyry deposits were formed during the final stages of the northward subduction of the Neo‐Tethys Ocean.     

西藏铁格隆南超大型铜(金、银)矿含矿斑岩岩石成因及其对多龙地区早白垩世成矿动力学机制的启示

铁格隆南是西藏多龙矿集区新发现的超大型斑岩-浅成低温热液型铜(金、银)矿床。作为班公湖-怒江成矿带西段早白垩世重大成矿事件的典型代表,铁格隆南矿床以及整个多龙矿集区的含矿斑岩岩石成因及成矿动力学机制仍存在明显争议。本文以铁格隆南矿床为核心,基于详细的矿床地质特征和岩石学特征,利用锆石的SHRIMP U-Pb年代学厘定花岗闪长斑岩侵位时代为121. 2±2. 4Ma,与区域早白垩世含矿斑岩岩浆侵位时间一致。同时,详细的岩石地球化学分析表明,铁格隆南矿床及多龙矿集区,含矿斑岩以花岗闪长斑岩为主,含少量闪长玢岩和花岗斑岩,属于高钾-钙碱性或钾玄岩系列,富集轻稀土和大离子亲石元素(Rb、Ba、U),亏损重稀土及高场强元素(Nb、Ta、Ti),具典型的弧岩浆特征。此外,其岩石地球化学特征及Sr-Nd-Pb-Hf同位素组成揭示,含矿斑岩的岩浆源区可能与俯冲板片流体交代的富集岩石圈地幔部分熔融有关。最后,详细的岩石学"探针"及区域岩浆活动特征表明,多龙矿集区白垩世重大成矿作用动力学机制与班公湖-怒江洋北向俯冲板片的折返(130～110Ma)有关。     

大兴安岭岔路口巨型斑岩钼矿床角砾岩相的划分、特征及成因

岔路口矿床是大兴安岭北段新发现的巨型斑岩钼矿床（Mo金属量246万t,工业品位0.087%）,其形成与晚侏罗世晚期侵入的细晶斑岩和花岗斑岩关系最为密切。岔路口矿床中发育多种类型的角砾岩,包括岩浆角砾岩和热液角砾岩。通过对这些角砾岩详细的填图和鉴定,并根据其角砾类型、基质、胶结物和结构差异,又将热液角砾岩分为A相、B1相、B2相和E相4个亚相。其中,A相角砾岩形成最早,是细晶斑岩流体释放的产物,以无矿石英胶结物为特征。随后,花岗斑岩侵位形成了以长英质岩浆（含石英、长石斑晶）为胶结物的岩浆角砾岩,花岗斑岩流体的释放造成的超压作用和流体演化,形成了胶结物组合分别为石英+辉钼矿+黄铁矿、绢云母+伊利石+黄铁矿+萤石和绿泥石+碳酸盐+黄铁矿+闪锌矿+方铅矿+萤石的B1相、B2相和E相角砾岩。在角砾岩形成过程中,流体化作用造成的角砾混合和磨损是B1相和B2相角砾岩中复杂成分角砾和大量岩粉基质产生的原因。富基质的角砾岩虽然由于渗透性的降低,造成自身钼品位较低,但它代表了流体聚集的位置;在角砾岩形成过程中,它是高渗透性带,可以作为流体运移的通道,在成矿过程中起重要作用。略深的岩体侵位深度、单次较小释放量流体的多次注入、富氟的岩浆-热液系统及围岩先存薄弱构造是岔路口斑岩钼矿床内角砾岩主要呈脉状产出的原因。     

An attempt to analyze the development of geology as a science

The Eocene (42 to 41 Ma) El Salvador porphyry copper deposit in the Indio Muerto district, northern Chile (26° 15′ S Lat.), formerly thought to have formed at the culmination of a 9-m.y. period of episodic magmatism, is shown by new mapping, U-Pb and K-Ar geochronology, and petrologic data to have formed during the younger of two distinct but superposed magmatic events-a Paleocene (～63 to 58 Ma) and an Eocene (44 to 41 Ma) event. In the district, high-K Paleocene volcano-plutonic activity was characterized by a variety of eruptive styles and magmatic compositions, including a collapse caldera associated with explosive rhyolitic magmatism (El Salvador trapdoor caldera), a post-collapse rhyolite dome field (Cerro Indio Muerto), and andesitic-trachyandesitic stratovolcanos (Kilometro Catorce-Los Amarillos sequence). Pre-caldera basement faults were reactivated during Paleocene volcanism as part of the collapse margin of the caldera. Beneath Cerro Indio Muerto, where the porphyry Cu deposit subsequently formed, the intersection of two major basement faults and the NNE-striking rotational axis of tilted ignimbrites of the Paleocene El Salvador caldera localized emplacement of post-collapse rhyolite domes and peripheral dikes and sills. Subsequent Eocene rhyolitic and granodioritic-dacitic porphyries intruded ~14 m.y. after cessation of Paleocene magmatism along the same NNE-striking structural belt through Cerro Indio Muerto as did the post-collapse Paleocene rhyolite domes. Eocene plutonism over a 3-m.y. period was contemporaneous with NW-SE-directed shortening associated with regional sinistral transpression along the Sierra Castillo fault, lying ～10 km to the east. Older Eocene rhyolitic porphyries in the Indio Muerto district were emplaced between 44 and 43 Ma, and have a small uneconomic Cu center associated with a porphyry at Old Camp. The oldest granodioritic-dacitic porphyries also were emplaced at ～44 to 43 Ma, but their petrogenetic relation to the rhyolitic porphyries and younger granodioritic-dacitic porphyries in the district is unclear. The main porphyry Cu-Mo-related granodioritic-dacitic stocks in Quebrada Turquesa on Cerro Indio Muerto intruded, cooled, and were mineralized within ～1 m.y. between 42 and 41 Ma. Volumetrically minor late- to post-mineral porphyries are slightly more mafic than earlier granodioritic-dacitic porphyries, a compositional trend possibly repeated on several scales and more than once over the 3-million-year Eocene magmatic history of the Indio Muerto district. This compositional trend requires either addition of basaltic material into an open-system silicic magma chamber or tapping of progressively deeper levels of a vertically zoned magma chamber. Eocene porphyry magmas were more hydrous and their residual source mineralogy richer in garnet than the relatively anhydrous Paleocene rocks, whose source was rich in pyroxene. The presence of inherited zircons in Paleocene and Eocene rocks requires interaction with crustal rocks of Paleozoic and/or Proterozoic age.

Paleocene and Eocene igneous rocks in the Indio Muerto district were emplaced during distinct magmatic-tectonic events that are unrelated, although spatially associated. The districtscale Paleocene and Eocene eruptive styles and geochemical and mineralogic characteristics mimic characteristics of similar-aged igneous rocks throughout northern Chile (20°30′ S Lat. to 27° S Lat.), attesting to the regional nature of the Paleocene and Eocene events. Porphyry Cu mineralization in the district furthermore is associated not only with an Eocene granodioriticdacitic (42 to 41 Ma) complex, but also with one of an older Eocene (44 to 43 Ma) rhyolitic porphyry, implying that a long period of precursor magmatism is not required for generation of the El Salvador porphyry Cu-Mo deposit. Rather, the episodic magmatism preceding porphyry Cu mineralization reflects repeated structural localization through time of superimposed highlevel volcano-plutonic complexes in an active magmatic arc.     

The Chalukou deposit in the North Great Xing’an Range of China: A protracted porphyry Mo ore-forming system in a long-lived magmatic evolution cycle

The Chalukou deposit is located in the North Great Xing’an Range of the Xing’an-Mongolia Orogen bordering and to the northeast of the North China Craton. The deposit is a high-F-type porphyry Mo deposit hosted by the Chalukou composite igneous body containing small intrusive bodies genetically related to Mo mineralization. The composite igneous body includes pre-mineralization dolerite, monzogranite and syenogranite, syn-mineralization rhyolitic porphyry, granitic porphyry and fine-grained monzogranite, and post-mineralization rhyolitic porphyry, quartz porphyry, dioritic porphyry and andesitic porphyry. Detailed laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) U-Pb zircon dating of the igneous components of the composite igneous body was carried out to determine the temporal framework for magmatism in the Chalukou region. The new LA-ICP-MS U-Pb ages constraint documented here, together with the published ages, indicate that there was a protracted porphyry Mo ore-forming event of approximately 7 million years between ca. 152 when the ore related rhyolitic porphyry was emplaced and ca.145 Ma when molybdenite ceased being deposited. The dating reveals that the mineralization is a part of relatively long-lived magmatic cycle involving the emplacement of small doleritic stocks at ca. 165 Ma that progressively evolved into extensive granitic intrusions at ca. 164 Ma, and then diminished with the emplacement of mineralization-related porphyries to ca. 152 Ma. The emplacement of barren Early Cretaceous magmatism, represented by volcanic units in the ca. 136 Ma Guanghua Formation and porphyries, followed the mineralized magmatism.The syn-mineralization porphyry units associated with Mo contain zircons assaying ∼15 times higher in U and Th than the pre-mineralization magmatic phases. This indicates that there was a significant enrichment of Mo, U and Th in the magma, and directly associated with ore fluid exsolution. The return to their normal levels in the three elements in the post-mineralization magmatic phases indicates that they were exhausted from the magma chamber in the later phases. A genetic model is proposed for the enormous introduction of ore metals and enrichment at the Chalukou deposit. The protracted and multiphase igneous activity during the long-lived magmatism reflects a multistage enrichment of metal, and may play a crucial role in the formation of a volatile-enriched, fertile and large-volume magma chamber beneath the Chalukou deposit. Such a chamber is envisaged to be required for the formation of porphyry Mo deposits in general.     

德兴铜矿、银山铜铅锌矿床的岩浆岩岩石化学特征及其成岩成矿机理探讨

德兴斑岩铜矿和银山铜铅锌矿床位于江南古陆与钱塘坳陷之过渡带,赣东北深大断裂的北西盘。德兴斑岩铜矿与燕山期(169Ma)浅成花岗闪长斑岩侵入体具有成因联系,侵入体属低硅钠质组合,铝质参数A[A=Al-(K+Na+2Ca)]值变化于-13—93,表现为铝次饱和到不饱和特征,镁铁质参数B(B=Fe+Mg+Ti)值变化于100—265,二者构成负斜率岩浆演变趋势线,表明岩浆起源于上地幔或下地壳。银山矿床的形成与燕山期(145—142Ma)陆相火山一次火山岩系有关,其属高硅钾质火山岩组合,铝质参数A值变化于7—17     

黑龙江金厂金矿床地质特征及成因探讨

通过对矿体围岩花岗闪长岩，花岗斑岩类和隐爆角砾岩筒控矿－容矿构造及矿石组分的研究，将金厂矿床金矿化类型分为破碎蚀变岩型，裂隙充填型和角砾岩型；对矿物学和同位素地球化学的研究结果表明，成矿物质主要来源于深部（岩浆源），在成矿作用早期阶段成矿流体主要为岩浆水，晚期阶段有部分大气水的加入，金厂金矿床是中生代火山－次火山活动的产物，矿床属浅成温岩浆期后热液型金矿床。     

阿尔泰山南缘中—酸性斑岩的地球化学特征及其岩石成因探讨

阿尔泰山南缘中—酸性斑岩侵入于中泥盆统北塔山组火山岩地层中,斑岩体规模较小,主要岩石类型为闪长斑岩、石英闪长斑岩、花岗闪长斑岩、石英二长斑岩等。对哈腊苏、卡拉先格尔、喀腊萨依、托斯巴斯陶和乔夏哈拉等5个与铜矿有关矿区的斑岩研究表明,其地球化学特征既有相似性,又有不同的特点,其中SiO2含量为534%~662%,A/CNK为098~127(大多数小于1),稀土元素表现为轻稀土相对富集、不具Eu异常的特点。微量元素表现为明显的Nb和Ta的负异常。但是Harker图解以及稀土元素配分曲线表明,不同地区的斑岩不存在演化关系。斑岩的Sr和Nd同位素组成基本上与与其共生的玄武岩相同,因此根据实验岩石学以及稀土模拟结果推测,它们可能是岛弧阶段底侵的基性岩石部分熔融形成的,源区相当于下地壳无水的角闪岩相,但含有少量的石榴子石,其中石榴子石和角闪石比例的差别可能是导致不同地区斑岩地球化学特征差别的主要原因。     

黑龙江金厂金矿床地质特征及成因探讨

通过对矿体围岩花岗闪长岩、花岗斑岩类和隐爆角砾岩筒控矿-容矿构造及矿石组分的研究,将金厂矿床金矿化类型分为破碎蚀变岩型、裂隙充填型和角砾岩型;对矿物学和同位素地球化学的研究结果表明,成矿物质主要来源于深部(岩浆源),在成矿作用早期阶段成矿流体主要为岩浆水,晚期阶段有部分大气水的加入.金厂金矿床是中生代火山-次火山活动的产物,矿床属浅成低温岩浆期后热液型金矿床.     

粤北大宝山矿区花岗闪长斑岩LA-ICP-MS锆石U-Pb年龄及其地质意义

对粤北大宝山钼钨多金属矿区的花岗闪长斑岩进行了锆石阴极发光显微结构观察和LA-ICP-MS锆石微区U-Pb定年.在锆石阴极发光图像中, 两个花岗闪长斑岩样品中的锆石颗粒具有明显的振荡环带, 为典型的岩浆锆石.LA-ICP-MS U-Pb定年结果显示: 大宝山花岗闪长斑岩样品中具岩浆环带锆石区域12个分析点的206Pb/238U加权平均年龄为175.8±1.5 Ma(MSWD=0.037), 船肚花岗闪长斑岩样品中具岩浆环带锆石区域16个分析点的206Pb/238U加权平均年龄为175.0±1.7 Ma(MSWD=0.41).它们的形成时代约175 Ma, 为燕山早期第Ⅰ阶段(180~170 Ma)产物.本次对大宝山矿区花岗闪长斑岩形成时代的准确厘定, 为大宝山和船肚花岗闪长斑岩原本连为一体被后期构造错断的认识提供了新证据, 岩体错断部位是矿区Mo-W矿进一步勘探的重要方向.结合相关研究表明, 其成岩成矿动力学背景与邻区岩体相似, 为南岭地区同一期岩石圈伸展-减薄事件的产物.同时启示我们, 在南岭地区还存在燕山早期第一阶段(180~170 Ma)利于形成Mo-W矿的花岗岩类小岩体未被揭露.      

Multiple and prolonged porphyry Cue Au mineralization and alteration events in the Halasu deposit,Chinese Altai,Xinjiang,northwestern China

The Halasu area is located in the southeastern margin of the Chinese Altai in Xinjiang, China. It is part of the Altaid orogenic collage where a number of porphyry-type Cue Moe Au deposits have been discovered in recent years. Geological mapping and drilling indicate the presence of various mineralized porphyritic intrusions in the Halasu Cue Au deposit, which is currently under exploration. Ue Pb dating of zircon crystals from four different mineralized porphyries reveals three significantly different ages of magmatic intrusion, i.e., ca. 372e382 Ma granodioritic porphyry and porphyritic granite, ca. 266 Ma quartz monzonitic porphyry, and ca. 216 Ma quartz dioritic porphyry. Ree Os dating of molybdenite from veinletdissemination ores in the granodioritic porphyry yields an age of mineralization of ca. 377 Ma, and Ar e Ar dating of K-feldspar from K-feldsparequartzechalcopyrite veins produces ages of ca. 269 and ca.198 Ma. The mineralization(and alteration) ages correspond broadly to the three episodes of magmatic intrusion, suggesting three overprinting porphyry mineralization events that are significantly separated in time. The first episode of porphyry intrusion and mineralization may be related to the magmatic arc being above a plate subduction zone, and the second was formed in a late-collisional environment during the closing of the Junggar Ocean, whereas the third episode of mineralization took place in the postcollisional stage. This case study suggests that in orogens where major porphyry deposits have been found in magmatic arc environments, the potential of discovering late- to post-collisional porphyry deposits cannot be neglected; conversely, in orogens where most porphyry deposits have late- to postcollisional ages, more attention should be paid to porphyries that were formed earlier in magmatic arc environments.     

赣东北朱溪铜钨矿区花岗闪长斑岩LA-ICP-MS锆石U-Pb定年及地质意义

赣东北朱溪超大型铜钨矿位于江南古岛弧带塔前—赋春成矿带中段,该矿床的发现可进一步验证"南钨北扩"观点并对"南钨北铜"格局提出挑战,但前人对与朱溪铜钨矿成矿作用有关的花岗岩缺少精确的年代学研究,导致对其地球动力学背景理解不够深入。本研究通过详细的野外调查、岩心编录和岩矿鉴定,并利用激光剥蚀电感耦合等离子体质谱(LA-ICP-MS)锆石U-Pb法对朱溪铜钨矿区侵入元古代双桥山岩群中的铜矿化花岗闪长斑岩进行测年,获得了锆石206Pb/238U加权平均年龄为847.2±9.4 Ma(MSWD=0.111),代表了其侵位结晶的年龄,属新元古代。分析认为:朱溪铜钨矿区铜矿化花岗闪长斑岩是新元古代早期华南古洋壳俯冲消减及扬子陆块与华夏陆块发生碰撞作用下的岩浆产物,这次岩浆活动与区域上塔前—赋春成矿带成矿作用关系密切,并为钦—杭成矿带提供了成矿物质基础。本次对其成岩年龄的限定,为研究朱溪超大型铜钨矿矿床提供了新证据。     

西藏改则县波龙斑岩型铜金矿床地球化学特征及成因浅析

波龙铜金矿床是喜马拉雅特提斯成矿域班-怒成矿带西段产出的大型铜金矿床,是多龙铜金矿集区的重要组成部分,找矿潜力巨大。波龙矿区内的含矿斑岩体基本上全岩矿化,矿体呈不规则筒柱状产于早白垩世花岗闪长斑岩体中及其与下侏罗统曲色组砂岩的接触带内。目前控制矿体长度1200m,向深部延伸大于1000m(倾向200o),最大连续厚度为473.47m,未穿透矿体。矿体平面投影呈似椭圆状,面积约1.2km2。本文通过对波龙铜金矿床地质、矿床地球化学特征的研究,认为该矿床的形成与斑岩体侵位、岩浆期后成矿流体的演化有关,矿床类型属于斑岩型铜金矿。矿石构造为斑岩铜矿典型的细脉-浸染状构造。金属矿物以黄铜矿为主,次为黄铁矿、斑铜矿、辉钼矿、磁铁矿、镜铁矿等,非金属矿物有石英、长石、绢云母、黑云母、硬石膏等。通过硅酸盐分析,里特曼组合指数—戈蒂里图解表明波龙斑岩型铜金矿的花岗闪长斑岩属钙碱性系列,形成于岛弧环境;稀土元素地球化学特征反映以岩浆热液成矿作用为主。