Jiaodong Granitoids and Gold Mineralization

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Petrochemical Characteristics and Timing of Middle Eocene Granitic Magmatism in Kooh-Shah, Lut Block, Eastern Iran

The Kooh-Shah region located in a Tertiary volcanic-plutonic belt of the Lut Block in eastern Iran comprises several subvolcanic intermediate to acidic intrusive rocks, diorite to syenite in composition, which have intruded into volcanic rocks. The Kooh-Shah granitoid rocks are characterized by enrichment in large ion-lithophile elements (LILE: e.g. Sr, Ba, Rb) and depletion in high field-strength elements (HFSE: e.g. Nb, Ta, Ti). The chondrite-normalized REE patterns are characterized by moderate LREE enrichment (La/Yb)N=6.01-10.01, medium-heavy REE enrichment, and absence of Eu anomalies. The Kooh-Shah intrusive rocks are metaluminous, shoshonitic with calc-alkaline affinity and high values of magnetic susceptibility, and classified as the magnetite-series of oxidant I-type granitoids. The age of Kooh-Shah granitoid rocks based on zircon U-Pb age dating is 39.7±0.7 Ma (=Middle Eocene) and the ranges of their initial 87Sr/86Sr and 143Nd/144Nd ratios are from 0.704812 to 0.704920 and 0.512579 to 0.512644, respectively, when recalculated to an age of 39 Ma. The initial ?Nd isotope values for the Kooh-Shah intrusive rocks range from -0.18 to 1.09. This geochemical data indicates that the Kooh-Shah granitoid rocks formed from depleted mantle in an island arc setting. The geochemical signature of the studied granitoid rocks represents a characteristic guide for future exploration of copper-gold porphyry-type deposits in the Lut block.     

伊朗扎格罗斯造山带构造演化与成矿

扎格罗斯造山带是特提斯构造域的重要组成,其内赋存有世界级规模的金属矿产资源。本文综述了扎格罗斯造山带构造格架、物质组成、矿床分布及特征,讨论了该区构造演化与成矿。扎格罗斯造山带由南至北由扎格罗斯褶皱冲断带(ZFTB)、萨南达杰-锡尔詹岩浆变质带(SSZ)、乌尔米耶-达克塔尔火山岩浆带(UDMA)和伊朗中部地块四个构造单元组成。新元古代—早寒武世时,萨南达杰-锡尔詹带和伊朗中部地块位于冈瓦纳大陆北缘,受始特提斯洋盆俯冲影响,边缘发育大陆岩浆弧。晚石炭世—二叠纪萨南达杰-锡尔詹带和伊朗中部地块与冈瓦纳大陆裂解,新特提斯洋盆形成。三叠纪伊朗中部地块与北侧的欧亚大陆汇聚,古特提斯洋盆闭合。侏罗纪—白垩纪新特提斯洋盆向北侧的萨南达杰-锡尔詹带俯冲,形成弧岩浆岩及弧后盆地,其中弧前蛇绿岩中发育铬铁矿床,弧后盆地双峰式火山岩中产有块状硫化物矿床,碳酸盐岩内发育梅迪阿巴德密西西比河谷型超大型铅锌矿床。白垩纪末—新生代初洋壳向萨南达杰-锡尔詹带仰冲,含铬铁矿的蛇绿岩就位。始新世末—渐新世新特提斯洋闭合,南侧的阿拉伯板块与北侧的萨南达杰-锡尔詹带和中伊朗地块所在的欧亚大陆碰撞,在阿拉伯板块前缘形成扎格罗斯褶皱冲断带,在欧亚大陆南缘形成乌尔米耶-达克塔尔火山岩浆带。伴随碰撞,在萨南达杰-锡尔詹带的碳酸盐岩中形成类密西西比河谷型铅锌矿床,中中新世以来扎格罗斯地区进入后碰撞阶段,在乌尔米耶-达克塔尔带内发育了包括萨尔切实梅和松贡超大型矿床在内的众多斑岩型铜矿床。     

苏北东海花岗质岩石中主要造岩矿物和副矿物的地球化学特征

苏北东海地区主侵入花岗岩类岩石属Ⅰ型花岗岩类。其主要造岩矿物为阳起角闪石、富镁黑云母、更长石、钾长石和石英。主要副矿物为榍石、磷灰石、锆石、磁铁矿等。主侵入岩体的形成温度为910—690℃,logfo_2=-12,fH_2O=(1.3—1.8)×10~8Pa,log(fH_2O/f_(HF))=3—4。第一类过渡元素富集于角闪石、黑云母和榍石中,而在更长石、钾长石和石英中明显亏损。由于榍石、角闪石、黑云母和更长石对全岩REE含量的贡献最大,因此它们控制了本区花岗岩类岩石的稀土配分模式。前三者富重稀土,负Eu异常较强,斜长石相对富轻稀土,并表现为正Eu 异常。因此可以认为随着花岗质岩浆中铁镁矿物和斜长石的分离,将会导致残余岩浆中第一类过渡元素、重稀土元素和Eu的亏损。     

Orogenic Gold Mineralization in the Qolqoleh Deposit, Northwestern Iran

The Qolqoleh gold deposit is located in the northwestern part of the Sanandai‐Sirjan Zone, northwest of Iran. Gold mineralization in the Qolqoleh deposit is almost entirely confined to a series of steeply dipping ductile–brittle shear zones generated during Late Cretaceous–Tertiary continental collision between the Afro‐Arabian and the Iranian microcontinent. The host rocks are Mesozoic volcano‐sedimentary sequences consisting of felsic to mafic metavolcanics, which are metamorphosed to greenschist facies, sericite and chlorite schists. The gold orebodies were found within strong ductile deformation to late brittle deformation. Ore‐controlling structure is NE–SW‐trending oblique thrust with vergence toward south ductile–brittle shear zone. The highly strained host rocks show a combination of mylonitic and cataclastic microstructures, including crystal–plastic deformation and grain size reduction by recrystalization of quartz and mica. The gold orebodies are composed of Au‐bearing highly deformed and altered mylonitic host rocks and cross‐cutting Au‐ and sulfide‐bearing quartz veins. Approximately half of the mineralization is in the form of dissemination in the mylonite and the remainder was clearly emplaced as a result of brittle deformation in quartz–sulfide microfractures, microveins and veins. Only low volumes of gold concentration was introduced during ductile deformation, whereas, during the evident brittle deformation phase, competence contrasts allowed fracturing to focus on the quartz–sericite domain boundaries of the mylonitic foliation, thus permitting the introduction of auriferous fluid to create disseminated and cross‐cutting Au‐quartz veins. According to mineral assemblages and alteration intensity, hydrothermal alteration could be divided into three zones: silicification and sulfidation zone (major ore body); sericite and carbonate alteration zone; and sericite–chlorite alteration zone that may be taken to imply wall‐rock interaction with near neutral fluids (pH 5–6). Silicified and sulfide alteration zone is observed in the inner parts of alteration zones. High gold grades belong to silicified highly deformed mylonitic and ultramylonitic domains and silicified sulfide‐bearing microveins. Based on paragenetic relationships, three main stages of mineralization are recognized in the Qolqoleh gold deposit. Stage I encompasses deposition of large volumes of milky quartz and pyrite. Stage II includes gray and buck quartz, pyrite and minor calcite, sphalerite, subordinate chalcopyrite and gold ores. Stage III consists of comb quartz and calcite, magnetite, sphalerite, chalcopyrite, arsenopyrite, pyrrhotite and gold ores. Studies on regional geology, ore geology and ore‐forming stages have proved that the Qolqoleh deposit was formed in the compression–extension stage during the Late Cretaceous–Tertiary continental collision in a ductile–brittle shear zone, and is characterized by orogenic gold deposits.     

Isotope Geochemistry of Granitoids in South China and Their Metallogeny

Abstract: On the basis of data of initial strontium ratios for over 300 plutons, neodymium isotopes for 240 plutons and oxygen isotopes for more than 200 plutons, the granites of South China are divided into six belts which are different from each other in petrology, geochemistry and mineralization. The similar Nd isotopic composition between the peraluminous granites and Proterozoic crust reveals that there is intermediate to felsic composition crust at mid-crustal depth throughout the South China interior. The six granitic belts mentioned above belong to different lithospheric plates with different composition basement. Differences in the extent and nature of interaction between mantle and crusts in different geodynamic setting and the different extent of differentiation of magma have all controlled the characteristics of the granites and their related mineralization.     

新疆阿拉套山花岗岩类的岩石化学

新疆阿拉套山南坡东西向展布的花岗岩石的岩石化学研究表明，本区同时存在Ｉ型和Ｓ型两种类型的花岗岩，其分布受构造环境控制，靠近古板块缝合线为Ｉ型花岗岩分布区、远离古板块缝合线为Ｓ型花岗岩分布区。源岩性质和作用强弱等因素可能是造成岩石化学成分差异的原因。     

A Metamorphic Core Complex Model for the Host of Uranium Mineralization in the Khoshoumi Mountain,Central Iran

A metamorphic core complex model is proposed for Khoshoumi Mountain uranium mineralization located in the Bafq–Saghand metallogenic zone of central Iran. Uranium mineralization occurred in the Chapedoni metamorphic complex. Detailed structural analysis of the complex leads to the interpretation that the mineralization is spatially concentrated in a low angle shear zone of mylonitized migmatite, the lower ductile part of the Chapedoni metamorphic complex. The shear zone that has top to the NE sense of shear in the northeastern and southeastern parts of the mountain and top to the WNW sense of shear in the southwestern part is a detachment zone to the Chapedoni Metamorphic Core Complex (CMCC). The Eocene granite is the plutonic core to the CMCC. The shear zone is cut by several NE‐trending left‐lateral strike‐slip faults. This later faulting is interpreted to account for the significant enrichment of uranium in the southern part of the mountain. The bimodal distribution of radiometric data gathered from exploratory drill holes in this part of the mountain constrains this interpretation. That is, the lower value is from the shear zone across the area but the higher value is from the places that the shear zone is cut by the transverse faults.     

我国石墨矿产地质特征及资源潜力分析

石墨是我国重要的大宗优势非金属矿产,其既具有非金属矿物的一般性能,又兼有金属和有机塑料的某些特性,是用途广泛的特殊的非金属矿物原料,是我国新兴产业的重要原材料。我国石墨成因类型主要为区域变质型,其工业价值较大。文章通过对我国石墨矿产分布特征、成矿规律分析进而总结石墨资源潜力特征,认为我国黑龙江、内蒙古、四川等省资源潜力巨大,可实行保护性开采,从而获取经济效益。     

陕西金堆成一黄龙铺地区含钼花岗岩类稀土元素地球化学研究

本文从稀土元素地球化学角度，对金堆城一簧龙铺地区花岗岩类形成机制及其与铂 矿化关系进行研究。结果表明:花岗岩类地质体起源子地壳岩石的深熔作用，其中金堆城花岗斑 岩是岩桨体系内部热重扩散效应的产物，而石家湾斑岩体只是老牛山岩基的分枝脉。’成岩方式制约着斑岩型钥矿床的规模和品位。岩桨期后热液蚀变可造成’原岩稀土总量和轻稀土元素含量降低，但重稀土元素保持相对稳定，因此，岩石稀土元素地球化学可成为评价含铂岩体的重要标志。     

冈底斯带谷露区中新世花岗岩地球化学特征及构造环境

谷露花岗岩是冈底斯构造带上念青唐古拉花岗岩的一部分,分布在当雄-拉萨大型北北东向伸展断裂两侧。岩石类型主要有斑状花岗闪长岩、巨斑黑云母花岗岩、黑云二长花岗岩、含石榴石花岗岩等。花岗岩同位素K-Ar测年结果在11 Ma左右,形成于中新世。花岗岩具有富硅、铝和碱,贫铁、镁、钙的特点,为准铝质高钾钙碱性花岗岩。花岗岩轻稀土富集,重稀土相对亏损,具有较明显的负铕异常。岩石相对富集不相容元素（LILE）,贫化高场强元素（HFSE）,在原始地幔标准化蛛网图上显示Rb、Th强烈富集,Nb与Ta亏损近似,Ba、Sr 和Ti强烈亏损的特点。谷露中新世花岗岩形成于后碰撞构造环境,与该区地壳东西向拉伸阶段的构造环境有关,是碰撞造山后地壳伸展、快速隆升背景下减压深熔的结果。     

新疆东天山二红洼岩体岩浆演化特征与成矿潜力分析

二红洼岩体位于康古尔-黄山韧性剪切带东段,主要由含长二辉橄榄岩、橄榄辉长岩、辉长苏长岩和淡色辉长岩组成。岩石相对富集LREE,亏损高场强元素（Nb、Ta、Ti）。岩体原生岩浆为普通拉斑玄武岩（MgO=7.3%）。通过对元素地球化学和Nd、Sr、Pb同位素体系研究证明,岩浆源区以软流圈物质为主,混入了少量富集岩石圈地幔组分,岩浆遭受了约5%上地壳物质的混染。与同岩带典型含矿岩体对比研究表明,岩体在岩石组合、原生岩浆性质、同化混染程度等方面存在显著差异,这些因素可能制约了成矿潜力。     

Makran ophiolitic basalts (SE Iran) record Late Cretaceous Neotethys plume-ridge interaction

ABSTRACT

The Makran complex in southeast Iran provides a spectacular subduction-related accretionary complex to understand the mechanism of oceanic accretion and the evolution of subduction zones. In this paper, we present new major and trace element data as well as isotopic compositions of mafic volcanic blocks from the Makran ophiolitic mélange complex (OMC). Our aim is to assess the genesis of these rocks and discuss their implications on the evolution of Neotethys Ocean. These volcanic blocks are composed mainly of basalts with minor trachytes. The Makran lavas are occasionally interlayered with tuff layers. Zircons from these tuffs give U-Pb ages of 95 Ma, which is well in accordance with the reposted microfossil data for the interlayered pelagic limestones with pillow lavas. Makran basalts can be geochemically subdivided into four groups; normal to transitional MORB, enriched-MORB, Plume-type MORB and alkaline (-OIB-like) basalts. The OIB-like pillow lavas are represented by high values of Th/Tb (6.3–7.4) which are higher than other basalts (group 1 = 0.3–0.8; groups 2 = 0.7–1.6; group 3 = 1.58–1.36).¹⁴³Nd/¹⁴⁴Nd_(t) ratios for basalts ranges from 0.51247 to 0.51292, whereas ⁸⁷Sr/⁸⁶Sr_(t) isotopic composition of the OMC lavas varies from 0.704433 to 0.709466. The Pb isotopic composition of the lavas are quite high, ranging from 15.49–15.66 for ²⁰⁷Pb/²⁰⁴Pb_(t), 18.09–19.12 for ²⁰⁶Pb/²⁰⁴Pb_(t) and 37.80–39.23 for ²⁰⁸Pb/²⁰⁴Pb_(t). The chemistry of these rocks suggests that they were formed most likely in an oceanic setting with clear plume-ridge interaction. These rocks can form from partial melting of a highly heterogeneous mantle source, which is extensively metasomatized with deep mantle OIB-type components. We suggest these rocks have been generated in an oceanic ridge with plume-ridge interaction, similar to the Iceland-Reykjanes Ridge, before being fragmented and accreted into the Makran accretionary complex.     

The Geochemical and Zircon Trace Elements Characteristics of A-type Granitoids in Boziguoer,Baicheng County,Xinjiang

The Boziguoer A-type granitoids in Baicheng County,Xinjiang,belong to the northern margin of the Tarim platform as well as the neighboring EW-oriented alkaline intrusive rocks.The rocks comprise an aegirine or arfvedsonite quartz alkali feldspar syenite,an aegirine or arfvedsonite alkali feldspar granite,and a biotite alkali feldspar syenite.The major rock-forming minerals are albite,K-feldspar,quartz,arfvedsonite,aegirine,and siderophyllite.The accessory minerals are mainly zircon,pyrochlore,thorite,fluorite,monazite,bastnaesite,xenotime,and astrophyllite.The chemical composition of the alkaline granitoids show that SiO2 varies from 64.55％ to 72.29％ with a mean value of 67.32％,Na2O＋K2O is high （9.85％-11.87％） with a mean of 11.14％,K2O is 2.39％-5.47％ （mean =4.73％）,the K2O/Na2O ratios are 0.31-0.96,Al2O3 ranges from 12.58％ to 15.44％,and total FeOT is between 2.35％ and 5.65％.CaO,MgO,MnO,and TiO2 are low.The REE content is high and the total SREE is （263-1219） ppm （mean =776 ppm）,showing LREE enrichment and HREE depletion with strong negative Eu anomalies.In addition,the chondrite-normalized REE patterns of the alkaline granitoids belong to the ＂seagull＂ pattern of the right-type.The Zr content is （113-1246） ppm （mean =594 ppm）,Zr＋Nb＋Ce＋Y is between （478-2203） ppm with a mean of 1362 ppm.Furthermore,the alkaline granitoids have high HFSE （Ga,Nb,Ta,Zr,and Hf） content and low LILE （Ba,K,and Sr） content.The Nb/Ta ratio varies from 7.23 to 32.59 （mean =16.59） and the Zr/Hf ratio is 16.69-58.04 （mean =36.80）.The zircons are depleted in LREE and enriched in HREE.The chondrite-normalized REE patterns of the zircons are of the ＂seagull＂ pattern of the left-inclined type with strong negative Eu anomaly and without a Ce anomaly.The Boziguoer A-type granitoids share similar features with A1-type granites.The average temperature of the granitic magma was estimated at 832-839℃.The Boziguoer A-type granitoids show crust-mantle mixing and may have formed in an anorogenic intraplate tectonic setting under high-temperature,anhydrous,and low oxygen fugacity conditions.     

西藏冈底斯成矿带西段矿床类型、成矿作用和找矿方向

在前人已有成果基础上,通过大量的野外地质调查与室内综合研究,初步论述了冈底斯成矿带西段的金属矿床类型、时空分布特征和成矿作用,探讨了下一步找矿方向.研究结果表明,冈底斯成矿带西段金属矿床(点)类型主要有矽卡岩型、斑岩型和浅成低温热液型,矿床在空间分布上具有东西成带,相对集中的特征,成矿时代集中于中、新生代.依据矿床成因及成矿动力学背景,冈底斯成矿带西段有5期关键成矿作用,分别为晚三叠世-晚白垩世与新特提斯洋北向俯冲有关的铜金多金属成矿作用、中侏罗世-早白垩世与中特提斯洋南向俯冲有关的铁铜金多金属成矿作用、早白垩世末-晚白垩世末与羌塘-拉萨地块碰撞有关的铜金钼成矿作用、晚白垩世末-始新世与印度-亚洲大陆碰撞有关的铜铅锌银多金属成矿作用、渐新世末-中新世与印度-亚洲大陆后碰撞伸展有关的铜金钼多金属成矿作用.冈底斯成矿带西段优势矿种是铜、铁、铅锌、金银等,主攻矿床类型为矽卡岩型矿床、浅成低温热液型矿床和斑岩型矿床等.     

阿尔金山南缘长沙沟—清水泉一带镁铁-超镁质杂岩体Cu-Ni-PGE含矿性讨论

尽管阿尔金南缘长沙沟-清水泉一带在空间上彼此分隔的4个镁铁-超镁质岩体(或岩体群)在岩石学、岩相学、地球化学上存在着差异,但它们的形成时代均为中奥陶世(~465 Ma左右)。其中,分布于阿尔金南缘主断裂南侧的清水泉南—长沙沟中段—黄土泉的岩体,超镁铁岩(包括纯橄岩-橄榄岩-辉橄岩-橄辉岩)中的橄榄石Fo值较高(变化于95~85),且自东向西呈现非常有规律的递减;而北侧的清水泉北岩体辉橄岩中橄榄石的Fo值较低(变化于81~79)。结合各岩体的岩石地球化学特征和岩浆演化过程及橄榄石中Ni的含量变化规律,对这些杂岩体形成的地质背景和Cu-Ni-PGE含矿可能性作简要讨论。     

青藏高原西部喜马拉雅期花岗岩类特征及岩石系列

青藏高原西部喜马拉雅期花岗岩类岩石组合为透辉石正长岩－透辉石花岗岩－黑云母（二长）花岗岩,主要造岩矿物有钾长石、斜长石、石英、黑云母、透辉石和角闪石。岩石化学成分富碱、高钾、Ｋ２Ｏ／Ｎａ２Ｏ比值大,微量元素富集Ｒｂ,Ｓｒ、Ｂａ、Ｔｈ、Ｕ和ＬＲＥＥ,Ｓｒ、Ｎｄ同位素组成具有幔源特征,岩石属于钾玄岩（ｓｈｏｓｈｏｎｉｔｅ）系列。     

诸广中段中山地区铀矿床地质特征及找矿潜力分析

文章简要介绍了诸广中段中山地区的地质背景,认为其具有较好的铀成矿地质条件。区内铀矿体具有"三层楼"式的空间分布特征,主要成脉状、透镜体状产出。铀矿石类型主要为碎裂岩型、硅质角砾岩型及微晶石英脉型。通过对控矿因素的详细分析,认为铀矿化受地层、岩体及其内外接触带和构造的多重控制,但以构造控矿为主,蚀变对矿化具有一定的影响;铀矿化富集中心深部及外围尚有较大的找矿空间,具备较大的找矿潜力,有望进一步扩大铀资源规模。     

The Weixi High-silica Granitoids in the Central Sanjiang Orogenic Belt, Southwest China: Implications for Growth of the Continental Crust

High-silica granitoids record the formation and evolution of the continental crust. A new intrusive complex has been recognized among silicic volcanic rocks of the Weixi arc, Southwest China. The intrusions consist of granites, granitic porphyries, and granodiorites. Zircon U-Pb age data indicate that the Weixi granitoids formed at 248–240 Ma and were coeval with silicic volcanic rocks of the Weixi arc. The Weixi granitoids are enriched in Rb, Th, and U, depleted in Ba, Sr, Nb, Ta, and Ti, and have high light/heavy rare earth element ratios and slightly negative Eu anomalies. The Weixi granitoids have negative εNd(t) values (?9.8 to ?7.8) and negative zircon εHf(t) values (?12.02 to ?5.11). The geochemical and isotopic features suggest the Weixi granitoids were derived by partial melting of ancient crustal material. The Weixi granitoids and silicic volcanic rocks were derived from the same magma by crystal accumulation and melt extraction, respectively, and they record the formation of a continental arc in the central Sanjiang orogenic belt.