Alteration of naruo porphyry Cu (Au) deposit in the duolong ore-concentration area,tibet北大核心CSCD

The Naruo Cu( Au) deposit is a large porphyry deposit in Bangonghu-Nujiang suture, and it is an important part of Duolong ore •concentration area. In this study, alteration and mineralization zoning were constrained by detailed field investigation and indoor petrography observation in order to characterize the alteration and establish alteration-zoning model for exploration. The deposit has typical porphyry hydrothermal alteration system with successively alteration zoning of potassium silicate zone( with later propylitization) to sericite zone( with later propylitization) , propylitic zone, and hornfel zone from inner outward. The mineralization is closely related to potassium silicification and sericitization.     

Geochronology of granite and associated Sn mineralization in the Shuangyuanchong Sn deposit and its implication for Sn-W prospecting potential in the Shizhuyuan-Hehuaping area,the Nanling region,South ChinaSCIEI北大核心CSCD

南岭成矿带是全球最重要的钨锡成矿带之一,区内钨锡成矿条件优渥,是开展钨锡找矿勘查的重要目标区。然而如何开展钨锡找矿工作,尤其是在已有矿床周缘圈定成矿远景区,是钨锡成矿作用研究以及找矿勘查工作关注的重要科学问题。双园冲矿床位于南岭成矿带中西段,处于荷花坪与柿竹园两个大型锡钨多金属矿田中间,并与两个矿田处于同一构造体系,但目前对该矿床的研究程度较低,由此也制约了其矿床成因研究及该区的找矿部署。本次研究获得双园冲云英岩化花岗岩的锆石和独居石原位LA-ICP-MS U-Pb年龄分别为161.2±2.5Ma和157.1±1.8Ma,与云英岩型矿石中锡石原位LA-ICP-MS U-Pb年龄(158.9±2.9Ma)一致,二者均形成于晚侏罗世,表明其具有密切的成因关系,这一年龄也与南岭成矿带钨锡成矿大爆发时代(150-160Ma)一致。综合对比双园冲锡矿及与其空间相邻的柿竹园和荷花坪锡多金属矿田特征显示,三者成岩成矿时代一致,岩体侵位和矿体分布均受NE向断裂控制,矿体也均赋存于中-上泥盆统碳酸盐岩地层中,并且成矿花岗岩具有相似的岩石学特征和岩浆源区。综合以上信息,本文提出三个矿床可能形成于同一次岩浆热液活动,成矿岩体可能来自地壳深部同一个大岩浆房,柿竹园和荷花坪之间的区域具有发育晚侏罗世花岗岩体及相关钨锡矿的较大潜力。根据双园冲锡矿及其周缘大型锡钨矿床浅部脉状Pb-Zn-Fe-Mn矿化和深部矽卡岩-云英岩型Sn-W矿化的特征,提出研究区乃至整个南岭地区浅部脉状Pb-Zn-Fe-Mn矿化是深部Sn-W找矿勘查的有利部位。     

Recognition of the early permian volcanic rocks and Its geological significance in chifeng region of inner Mongolia北大核心CSCD

In order to investigate the geological significance of the large area of volcanics in the Uplift bell of Mingshan in western Chifeng,When carrying out the I :5 million regional mineral geological survey in the area,Through the research work of field geology investigation, petrology, LA-1CP-MS zircon U-Pb isotopic dating and regional stratigraphic correlation and so on.Found that the volcano rocks in the area is different from the Late Jurassic-Early Cretaceous volcanic rocks. And the obvious green alteration phenomenon was developed : The dating results of the Hornblende andesite in the lower parts is 273. 6±2. 2 Ma,it should belong to the Permian Elitu formation^ The Volcanics in the area belong to Calc-Alkaline-high-k calc-Alkaline series volcanic rocks. And volcanic magma experienced the separation and crystallization of minerals, it was the product of the continuous evolution of cognate magma, having the Characteristics that from bottom to top Intermediate-Mafic to Acidic magmatic evolution and the REE content increased gradually 0 Studies suggest that the Formation of volcanic rocks in the area is related to the ancient Asian Ocean to the North China block subduction in the Late Paleozoic period . It should be formed in the Archean to Proterozoic crystalline basement and late devonian magma Kemelting eruption, the tectonic environment formation of the volcanics in this area was andreessen arcc.     

Ree geochemistry characteristics of stratigraphic samples in the abalieke region,Western Kunlun北大核心

The Abalieke region locats in the central section of the western Kunlun polymetallic (Pb, Zn, Cu, etc) ore belt, an area with major potential for further base metal deposit discoveries. This paper reports REE data for 82 samples from 8 stratigraphic sections for Huoshilafu formation in the Abalieke region. To attempt to solve the origin of ore-forming materials using REE geochemistry. Although total REE contents are quite variable ( Σ REE = 7. 52 × 10-6-220. 70 × 10-6, ΣLREE = 5. 82 × 10-6-198. 46 × 10-6, ΣHREE = 1. 49 × 10-6- 32. 74 × 10-6 and Y = 4. 77 × 10-6-91. 30 × 10-6) , chondrite-normalized REE patterns of the majority of samples are uniformly LREE-enriched (averaging ΣLREE/ΣHREE = 6. 57), with remarkably fractionation of LREE and HREE [averaging (La/Yb)N = 8. 20], slightly negative Eu anomalies (averaging δEu = 0. 77) and insignificant Ce anomalies (averaging δCe = 0. 88). The results demonstrate that REE characteristics of stratigraphic samples from Abalieke region are similar to those of rock and ore samples from other representative deposits (Tiekelike, Tamu, Kalangu, Tuokuziate) in the western Kunlun polymetallic ore belt, which indicate a close genetic relationship between the ore-forming materials and the host strata for the majority of deposits in this belt.     

Geochemistry,petrogenesis and tectonic setting of the peraluminous granites in the nacheng gold deposit,Yongning, Guangdong北大核心

The Nacheng granite locates in the Yong ning area, Guangdong Province. This paper studied petrographical and chronological characteristics of this granite as well as its petrogenesis and geological significance. The Nacheng granite mainly consists of quartz (40%-50%), orthoclase (25%-30%), palgioxlase (15%-20%) with minor accessory minerals of quartz apatite and magnetite. Geochemical analyses show that the manziying granite has high content of SiO2 (75. 56%) , K2O (4.72%), Al2O3 (13. 34%) and total alkali (Na2O+K2O=7. 49%), but relatively low MgO (0. 04%-1. 29%) and CaO (0. 39%-2. 21%). The ratios of K2O/Na 2O are generally higher than 1. The Rittmann indexes are between 1-2. 43, belonging to the high-K calc-alkaline series. The values of A/CNK vary from 1. 12 to 1. 32 with an average of 1. 10, showing the characteristics of peraluminous S type granites. Trace element analyses show that the Nacheng granite has relatively high REE content of 82. 6 × 10-6 225. 68 × 10-1, and displays right-inclined V-shape REE patterns with relatively high fractionations of LREE and HREE[(La/Yb)N = 1. 51-9. 66] and pronounced negative Eu anomalies (δEu = 0. 31-0. 74) in the chondrite-normalized REE diagrams, suggesting a typical crust-derived grandite. The magmas may be divided into two types: "low-temperature" type from mudstones and "high-temperature" type from sandstones. The Nacheng granites were formed from the post-orogenic tectonic setting.     

Metallogenic mechanism of cobalt in the Zhuchong cobalt -rich skarn iron deposit in the Middle -Lower Yangtze River Valley Metallogenic Belt: Constrained by in -situ sulfur isotopes and zircon U-Pb datingSCIEI北大核心CSCD

Cobalt, being a vital strategic rare and precious metal, is primarily produced within diverse deposit types through co association. The cobalt -rich skarn iron deposit is a key deposit type with considerable development potential. However, the source and enrichment mechanism of cobalt in skarn iron deposit remain unclear. The Zhuchong cobalt -rich skarn iron deposit is located in the Anqing-Guichi district of the Middle -Lower Yangtze River Valley Metallogenic Belt ( MLYB). It is the first large-scale skarn iron -rich deposit discovered in the metallogenic belt in recent years. Its associated cobalt resources have reached a medium scale. Meanwhile, the cobalt grade in the Zhuchong cobalt -rich skarn iron deposit is the highest among similar deposits in the MLYB, reaching 190g/t. In this study, the zircon U-Pb dating of the ore -forming intrusions and the spatial variation of pyrite in -situ sulfur isotopes in the vertical direction ( drilling section) of the Zhuchong cobalt -rich skarn iron deposit were carried out. The results indicate that the U-Pb ages of the two deep concealed magmatic rock samples are 139. 6 +/- 1. 0Ma and 138. 9 +/- 0. 6Ma, respectively, which occurred during the Early Cretaceous. Vertically, the overall range of pyrite sulfur isotope is +5. 3%similar to + 13. 9%o, and delta S-34 varies greatly from top to bottom, and shows strong heterogeneity, which is obviously different from the sulfur isotope compositions of Anqing skarn Cu -Fe deposit. The pyrite delta S-34 in the cobalt -rich magnetite ore body in the bottom -up mineralization -alteration zone of the Zhuchong deposit ranges from 5. 3%o to 10. 0%o. In the diopside skarn belt near the ore, the delta S-34 range of the vein pyrite spans from 12. 1%o to 13. 9%o. Within the altered diorite, the delta S-34 values of vein pyrite vary from 7. 1%o to 10. 8%o. In the outer skarn, the delta S-34 range of vein pyrite ranges fall between 6. 8%o and 7. 6%o. Within the siltstone of the Yueshan Formation, located in the gypsum -bearing salt layer, the delta S-34 values of pyrite range from 12. 0%o to 12. 7%o. Similarly, the uppermost siltstone vein pyrite of the Tongtoujian Formation exhibits a delta S-34 range of 6. 1%o to 7. 8%o. The sulfur isotope composition of pyrite within the Zhuchong cobalt -rich magnetite ore exhibits an intermediate range between that of the Yueshan pluton and the gypsum -salt layer of the Yueshan Formation. This suggests that the sulfur isotope signature within the ore reflects a mixture of two distinct end members. Statistical analysis of scale and grade within the MLYB cobalt -rich skarn deposits ( Fe -Cu -Co) indicates no apparent correlation between cobalt mineralization and the type of Fe -Cu skarn deposits. Furthermore, the involvement of sulfur through the gypsum -salt layer in the ore -forming hydrothermal fluid does not exhibit a discernible     

Iron–bentonite interactions in the Kawasaki bentonite deposit,Zao area,Japan

Greenish veins occurring in brecciated bentonite were found in the Kawasaki bentonite deposit of the Zao region in Miyagi Prefecture, Japan. Their occurrence possibly indicates the interaction of bentonite with Fe-rich hydrothermal solutions. In order to prove the hypothesis and understand the long-term mineralogical and petrographic evolution of bentonite during such interactions, the greenish veins and the surrounding altered bentonite were analyzed using X-ray fluorescence (XRF), scanning electron microscopy (SEM), X-ray diffraction (XRD), electron probe micro-analysis (EPMA), scanning transmission electron microscopy with energy dispersed spectroscopy (STEM-EDS) and micro X-ray absorption near-edge structure (XANES). The greenish veins resulting from hydrothermal solution are composed of mixed-layer minerals consisting of smectite and glauconite (glaucony), pyrite and opal. The occurrences indicate that glaucony and pyrite formed almost simultaneously from hydrothermal solution prior to opal precipitation. The mineral assemblages of the greenish veins and their surroundings indicate that the hydrothermal activity had most likely taken place at a temperature of less than 100 °C and that the pH and Eh conditions of the reacted solution were neutral to alkaline pH and reducing. The unaltered bentonite is composed mainly of Al smectite and opal. These minerals coexist as a mixture within the resolution level of the microprobe analyses. On the other hand, the bentonite in contact with the greenish veins consists of discrete opal grains and dioctahedral Al smectite containing Fe and was altered mineralogically and petrographically by the hydrothermal activity. Both the clay minerals and the opal were formed by dissolution and subsequent precipitation from the interaction of the original bentonite with the hydrothermal solution.     

Graphite of the Turgenevskoe and Tamginskoe deposits of the Lesozavodsk area in the Primor’e region

The regional carbonization of the Riphean metamorphic complexes is discussed using as an example the Tamginskoe and Turgenevskoe graphite deposits located in the northern part of the Khanka terrane. It is shown that the noble metal mineralization associates closely with the graphitization. Isotopic, X-ray, and thermal analyses and Raman spectroscopy were first used for investigating the structural state of the graphite with defining its two varieties. The first of them is represented by nanocrystalline fluidogenic graphite that was formed during gas condensate crystallization from deep-seated reduced ore-bearing fluid. The second variety (large-flake graphite) represents a product of metamorphic recrystallization of carbonaceous terrigenous protoliths. The recrystallization was accompanied by the granitization of the sedimentary protolith, mobilization, and the transfer of the carbonaceous and ore matter of the host rocks. It is inferred that the graphitization associated with noble metal mineralization is a polygenic process. The graphite of the first generation associates closely with amorphous diamond-like carbon. This unexpected find may bear genetic information useful for geological and geochemical reconstructions.     

Rare-metal pegmatoid granites,markers of the beginning of the Hercynian within-plate stage in the Ol’khon region of the Baikal area

On the background of Early Paleozoic precollisional, syncollisional, and late collisional igneous rocks prevailing in the region (Khaidai and Shara-Nur granitoids and Birkhin gabbroid complex), rare-metal pegmatoid granite bodies and pegmatites along the southern edge of the Ol’khon region are of particular interest. They have a Middle Paleozoic age (390-391 Ma), cut the Caledonides, and belong to different geochemical types. The Anga unit includes amazonite-containing Li-F-B pegmatites, which are also enriched in Ta, Nb, and W. In the Ol’khon Group, only one K-feldspathic body rich in Rb, Be, Nb, W, Sn, Sc, U, and Th, with large crystals of aquamarine, has been found. The compositions of granite-pegmatite bodies and accessory rare-metal minerals have been studied. The rare-metal granite-pegmatites probably form a peripheral zone of the Hercynian within-plate setting widespread in the eastern Baikal area and related to the influence of the Siberian hot spot.     

Study on the spatial distribution,occurrence and enrichment of Co-Se-Te in the Xinqiao deposit of Tongling ore cluster,Anhui ProvinceSCIEI北大核心CSCD

新桥矿床是长江中下游成矿带铜陵矿集区内典型的大型层控矽卡岩型铜金硫多金属矿床。矿床成矿过程中除了铜、金、铁、硫等主要成矿元素富集成矿以外,钴、硒、碲等关键金属元素也以伴生形式产生了不同程度的富集。前人对新桥矿床开展了大量研究工作,但对矿床中关键金属钴、硒、碲的分布规律、赋存状态和富集机制等方面系统研究尚未开展。本次研究在新桥矿床系统采集距离成矿岩体不同位置的两条代表性剖面(3804、E601)的岩矿石样品,通过光学显微镜观察、扫描电子显微镜、全岩主微量元素化学分析和矿物原位LA-ICP-MS微量成分测试等分析技术方法,查明了矿床中钴、硒、碲等关键金属的空间分布规律和赋存状态,初步探讨了钴、硒、碲的富集机制。新桥矿床中估算伴生Co、Se、Te资源量分别为:2326t、2590t、1463t,达到大-中型规模。近成矿(热)中心3804剖面Co、Se含量自矿体底板→顶板呈逐渐降低的趋势,Te含量变化没有明显规律,Co、Se、Te均主要在黄铁矿矿石中产生富集;远成矿(热)中心E601剖面上Co、Se、Te含量自矿体底板→顶板均呈逐渐降低的趋势,且主要富集高品位黄铁矿矿石中。矿体走向上自成矿(热)中心→远端,Co含量明显降低,Se、Te含量相对增高。矿床中Co、Se主要以类质同象置换的形式赋存于黄铁矿中,Te的赋存状态以独立碲矿物为主,包括辉碲铋矿和碲银矿。Co主要在石英-硫化物阶段产生富集,成矿流体温度较高,流体中Co大部分随黄铁矿沉淀富集于近成矿(热)中心的黄铁矿矿石中,至碳酸盐-硫化物阶段,成矿流体温度降低,流体中Se、Te大部分沉淀富集于远成矿(热)中心的高品位黄铁矿矿石中,其中Se主要随黄铁矿大量沉淀富集,Te较少进入黄铁矿等硫化物中,主要以独立矿物的形式产出。     

Characteristics analysis of extremely cold weather in the Greater Khingan Mountains region北大核心CSCD

Extremely cold weather has an important influence on winter production and life in the Greater Khingan Mountains region. This paper uses the daily minimum temperature data of ground observation stations during extreme cold weather from 1974 to 2021 in the Greater Khingan Mountains region, monthly circulation index data, the spatial distribution and temporal variation characteristics of extreme cold days and extreme minimum temperature were analyzed by climate statistical method; The abrupt changes and periods of extreme cold days and extreme minimum temperature were tested by Mann-Kendall method and Morlet wavelet analysis; calculating the recurrence period of extreme minimum temperature by empirical frequency method; correlation method was used to analyze the circulation factors which had significant influence on the number of extremely cold days. The results are followed: (1) The spatial distribution of extreme cold days in the Greater Khingan Mountains region was not uniform, and gradually decreasing from northwest to south. The extreme cold days was at most 717 d in Huzhong, and at least 29 d in Gagadaki, the extreme cold days in the whole region mutated in 1979, and the average annual extreme cold days decreased 14.2 d after the mutation compared with that before the mutation, and the annual extremely cold days have a significant cycle of 2 to 4 years. (2) The extreme minimum temperature in the whole region mutated in 1990, before the mutation the extreme minimum temperature was low and after the mutation began to rise, the significant cycle of annual extreme minimum temperature was 4 to 5 years, the extreme lowest temperature was -49.6 ℃ in Mohe, followed by -49.2 ℃ in Huzhong; the extreme lowest temperature occurs once every 2 years, once every 5 years and once every 10 years in Huzhong, while the extreme lowest temperature occurs once in 20 years, once in 50 years and once in 100 years in Mohe. (3) SCAND teleconnection patterm has a good correlation with extreme cold days in winter(January, February and December)in the Greater Khingan Mountains region. Positive growth of the circulation mode, it has great influence on the extreme cold weather in winter in the Greater Khingan Mountains region. © 2022 Science Press (China).     

Metallogenic age and fluid evolution of the Kangshan Au-polymetallic deposit in the southern margin of the North China Craton: Constraints from monazite U-Pb age,and in-situ trace elements and S isotopes of pyriteSCIEI北大核心CSCD

小秦岭-熊耳山金矿集区位于华北克拉通南缘,发育众多伴生铅锌银等金属的金矿,成为揭示克拉通破坏型金矿成因的天然实验室。产于小秦岭-熊耳山金矿集区内的康山金多金属矿床受控于北东向的中生代脆性断裂,赋存于新太古代变质岩和中元古代火山岩中。成矿过程可分为4个热液阶段:石英±黄铁矿阶段、石英-黄铁矿-黄铜矿-自然金阶段、多金属硫化物-自然金-石英-铁白云石阶段、石英-方解石±萤石阶段。本文获得康山金多金属矿床金成矿阶段热液独居石LA-ICP-MS U-Pb年龄为131.7±4.6Ma,与晚中生代华北克拉通破坏有关的岩浆热液成矿作用时代一致。本次研究开展的各阶段黄铁矿原位微量元素单点和扫面分析,发现第2阶段Au与Co、Ni、As呈正相关关系,且有明显的振荡环带,Cu、Ag、Sb、Pb、Bi这几种元素从黄铁矿颗粒的核部向边缘含量逐渐降低,且黄铁矿颗粒中出现富含这些元素的矿物包裹体,说明该阶段发生流体沸腾作用;而第3阶段黄铁矿中各微量元素含量为所有阶段中最低,黄铁矿无振荡环带且裂隙中有富含各微量元素的硫化物充填,说明各种元素在该阶段均得到充分卸载,且成矿流体的化学性质较稳定。结合前人关于该矿床各阶段流体包裹体分析结果,表明流体沸腾是Au的主要沉淀机制,而流体混合是Pb、Zn、Ag的主要沉淀机制。黄铁矿中微量元素含量指示,从第1阶段到第3阶段流体温度依次降低;第2和第3阶段流体fO2比第1阶段高且后两者相差不大。根据黄铁矿Co、Ni含量及比值的计算,认为第1和第2阶段黄铁矿为岩浆热液成因,第3阶段黄铁矿受围岩物质影响。黄铁矿原位S同位素分析得到第1至第3阶段黄铁矿δ34S分别为+6.6‰-+8.9‰、+5.0‰-+7.2‰和+6.0‰-+8.7‰,均与区域花岗岩类的S同位素值类似。综上所述,本文得出康山金多金属矿床形成于早白垩世与华北克拉通破坏有关的岩浆热液成矿作用。     

Tracing the source of metals in Geogas from metal deposits in a loess-covered region北大核心CSCD

In order to test the distribution characteristics of metallogenic elements and the application effectiveness of the traee elements and REE for tracing the source of Geogas anomaly, the distribution characteristics of metallogenetic elements .trace elements and REE in different media of the Jiaolongzhang Pb-Zn deposit underneath the loess have been studied in this paper. Results indicate that the distribution characteristics of Geogas anomalous elements over the concealed orebodies are coincided with those of the enriched elements of ores, while the distribution characteristics of trace elements and REE in background Geogas samples are distinctly different from those of other media, indicating that the source of background Geogas materials is influenced by various factors( geological bodies, lab environment and blank reagent). The similar distribution characteristics of the trace elements in the Geogas samples of anomalous areas and in the ores suggested that Geogas anomaly is affected by concealed orebodies in depth. The difference between REE patterns of the Geogas samples of the anomalous area and those of other solid media might be caused by inadequate analytical precision and low collecting efficiency of the instrument. It is believed that the REE tracing method can provide the information on the source of Geogas anomaly if the analytical precision and collecting efficiency of REE could be constantly increased.     

Ore-forming mechanism of Caledonian W-Sn deposit in the Nanling Range: A case study from the Luojiachong deposit,sourthwestern Hunan Province.SCIEI北大核心CSCD

近来南岭地区加里东期钨锡找矿勘查取得较大突破,但其成因机制研究仍相对缺乏。湘西南苗儿山岩体西北部的落家冲矿床是近年新发现的加里东期钨锡矿床,具有良好的钨锡多金属矿找矿前景,其成矿流体的特征和成矿机制有待查明。在详细的野外地质调查基础上,落家冲矿床的成矿过程可划分为四个阶段:蚀变花岗岩-白钨矿阶段(Ⅰ)、云英岩-白钨矿-锡石阶段(Ⅱ)、石英脉-白钨矿阶段(Ⅲ)和石英脉-硫化物阶段(Ⅳ)。本文选取第Ⅰ阶段的锆石和锡石开展了U-Pb定年和锆石Hf同位素分析,对四个成矿阶段的石英矿物进行了流体包裹体以及H-O同位素的研究。获得的锡石U-Pb反等时线年龄(433.0±11Ma)与蚀变花岗岩锆石U-Pb年龄(430.7±2.3Ma)在误差范围内一致,表明矿区的成岩成矿作用均发生于加里东晚期。流体包裹体研究显示第Ⅰ阶段到第Ⅳ阶段,均一温度分别集中在260-380℃、260-320℃、200-320℃和180-220℃之间,呈逐渐降低的趋势,盐度则表现为由第Ⅰ阶段到第Ⅱ阶段陡降,第Ⅱ阶段到第Ⅳ阶段总体变化不大的特点(平均值分别为16.9%、3.9%、4.8%和3.7%NaCleqv)。成岩成矿定年结果、各成矿阶段的成矿流体特征,结合锆石εHf(t)=-7.6--5.0、tDM2=1565-1711Ma,和石英矿物的δ18OH_(2)O值从第Ⅰ阶段(3.97‰-5.34‰)到第Ⅳ阶段(-4.99‰--5.10‰)逐渐降低的特点,以及区域岩体的地球化学特征,本文认为落家冲钨锡矿床是加里东期起源于元古宙地壳重熔的岩浆在经历了高分异演化作用后,流体的沸腾作用以及温度下降造成成矿流体中钨锡等矿质的沉淀所形成。     

Distribution,occurrence and enrichment mechanism of key metals of selenium,tellurium and cobalt in Wushan copper deposit,Jiurui ore concentration area,Jiangxi ProvinceSCIEI北大核心CSCD

武山铜矿床是长江中下游成矿带九瑞矿集区内典型的层控-接触带矽卡岩型铜多金属矿床,铜资源量达到大型,此外还共生硒、碲、钴、镓、铊等关键金属矿产,具备良好的矿产资源综合利用前景,但矿床中关键金属的分布规律、赋存状态和富集机制等研究尚未开展。本文以武山铜矿床为研究对象,系统采集了矿床南矿带接触带矽卡岩型矿体3条勘探线(W3-2、S4-2、N6-1)、北矿带层控硫化物型矿体3条勘探线(E9-2、E2-1、W4-1)和层控矽卡岩型矿体1条勘探线(E7-3)代表性岩矿石样品。通过光学显微镜和扫描电镜的观察,结合全岩地球化学和矿物原位LA-ICP-MS分析,查明了矿床中硒、碲、钴等关键金属的空间分布规律与赋存状态,初步探讨了硒、碲、钴的迁移沉淀机制。研究结果表明矿床中伴生硒、碲、钴的估算资源量分别为5513t、611t和9597t,均达到大-中型规模;武山矿床是成矿带内硒含量最高、潜在资源量最大的矿床。北矿带矿体中Se、Te、Co含量明显高于南矿带,北矿带中部成矿中心向东西远端,矿体中Se、Te、Co含量规律性增高。矿石中Se、Te、Co含量与S含量具有较强的正相关性,矿石中硫化物的含量是关键金属含量主要控制指标;Se和Co富集于含铜黄铁矿矿石、含铜白云岩矿石、含铜矽卡岩矿石(高硫)中;Te富集于含铜黄铁矿矿石和含铜白云岩矿石中。矿床中硒、碲主要以独立矿物和硫化物中类质同象替换两种赋存形式,钴则主要以Co^(2+)类质同象形式进入黄铁矿矿物晶格。矿床中硒、碲随着成矿流体温度降低、硫逸度升高、氧逸度降低、pH值升高逐渐沉淀富集;钴主要随着硫化物的沉淀富集在黄铁矿中。     

Pyrite characteristics and shale gas significance of the Niutitang Formation in Cengong area,Guizhou ProvinceSCIEI北大核心CSCD

黄铁矿特征研究可为页岩沉积环境恢复与页岩气富集保存规律预测提供依据。以贵州岑巩地区岑页1井牛蹄塘组为研究对象,基于岩心、薄片、扫描电镜及微量元素、硫同位素地球化学,确定牛蹄塘组页岩沉积环境及页岩气富集地质条件。研究表明,牛蹄塘组页岩黄铁矿发育为草莓状、自形-半自形及他形(主要为胶状他形)三种形态,不同形态的黄铁矿形成于不同沉积环境,草莓状黄铁矿形成于缺氧还原环境,自形-半自形黄铁矿形成于贫氧环境,胶状他形黄铁矿指示沉积过程有热液活动的参与。测试井牛蹄塘组整体处于较开放的沉积水体,上段为含氧-贫氧环境,硫同位素整体变轻且发生负漂;中段为较缺氧环境,硫同位素跨度大且发生正漂;下段为还原性更强的沉积环境,硫同位素小幅度负漂。黄铁矿含量与有机质富集密切相关,与黄铁矿有关的孔隙为页岩气吸附、保存及运移提供载体,且草莓状黄铁矿指示的缺氧硫化环境更利于有机质保存。研究工作系统梳理了黄铁矿对牛蹄塘组页岩沉积环境及储层页岩气富集的指示作用,为页岩气勘探提供指示。     

Petrography,chronology and Hf isotope constraints on origin of the ore-bearing granodiorite in Zhibula copper deposit,TibetEI北大核心CSCD

The Zhibula skarn-type copper polymetallic deposit is a large copper deposit. It is located 2-3 km south of the Qulong porphyry copper deposit, in the middle section of the Gandise metallogenic belt in Tibet. The ores are commonly bedded, stratoid and vein-like hosted in the interformational detachment zone between tuff and marble and in the fracture zone. The granodiorite was discovered lately in the drill holes. The contact zone between granodiorite and tuff or marble is skarnized. The skarn-type ore deposit is closely related to the granodiorite as was demonstrated by the gradual change from the tuff, hornfels, and skarn, to the skarnized granodiorite. LA-ICP-MS zircon U-Pb dating yields a weight average 206Pb/238U age of 16.0±0.4 Ma, which is close to the Re-Os isochron age (16.9±0.6 Ma) of molybdenites from the ores. The granodiorite has εHf(t) values in range of 3.2-12 and single-stage model ages between 209-563 Ma, which are similar to those of the Miocene intrusives in the Qulong areas. The zircon Hf isotopic compositions of the granodiorite indicate that the magma is likely resulted from partial melting of the juvenile lower crust. The granodiorites are determined as the ore-forming intrusive of the Zhibula skarn-type deposit, and they are derived from the same magma system with those associate with Qulong deposits. Both of them are are of hydrothermal origin. ©, 2015, Science Press. All right reserved.     

Granitoid massif of the Dal’negorsk borosilicate deposit in the Primorye region of Russia: The role of the intrusion in the formation of the boron mineralization

The granitoids of the Dal’negorsk borosilicate deposit are ascribed mainly to the high-K metaluminous rocks of the calcic and alkali-calcic series. The thermo-baro-geo-chemical studies showed that they originated from melts with low contents of water (H₂O < 3.5% H₂O) and CO₂ at 800–850°C and 65–90 MPa. The data on the average contents of elements in the rock-forming minerals and the estimated initial water content in the magma point to the absence of a genetic relation between the intrusion and boron mineralization. The granitoid magma was responsible for the skarn formation and for the mobilization and remobilization of boron under a favorable environment. The K/Ar dating (51.0 ± 10 Ma), the geochemical typification (signatures of within-plate, subduction, and collisional granitoids), and the low water content in the parental melts of the granitoids, in accordance with the scheme of the geodynamic evolution of the region, indicate their formation in the lithospheric plate sliding environment.     

Advances in research of the time scales of porphyry deposits: A case study of the Yulong porphyry Cu-Mo deposit in the eastern TibetSCIEI北大核心CSCD

精确限定多期次岩浆-热液活动的时间尺度一直是剖析斑岩矿床形成过程的热点和难点。借助矿物的高精度同位素定年、热力学数值模拟以及石英的钛扩散模型等方法,斑岩矿床中岩浆-热液活动的时间尺度已经被限定在几万年之内。本文以三江特提斯超大型玉龙斑岩铜(钼)矿床为例,重点识别含矿热液脉中普遍存在的石英,利用钛元素的扩散年代学方法,精确限定斑岩矿床中多期岩浆-热液流体活动的时间尺度。扩散模型表明玉龙斑岩矿床热液活动的时间尺度为32000~870000年,有力支持了超大型斑岩矿床可以在几万至几十万年甚至更短时间内形成的观点。此外,为避免钛扩散模型产生较大的误差,需要在精确测定石英中钛含量的基础上,结合矿床地质背景或其他实验方法合理地估测温度和压力条件。研究认为,将矿物的高精度同位素定年与元素的扩散年代学相结合,可以在更为精细的尺度上完善斑岩矿床岩浆-热液活动的时间框架。     

The Hakkari nonsulfide Zn–Pb deposit in the context of other nonsulfide Zn–Pb deposits in the Tethyan Metallogenic Belt of Turkey

The Hakkari nonsulfide zinc deposit is situated close to the southeastern border of Turkey. Here both sulfide and nonsulfide Zn ≫ Pb ores are hosted in carbonate rocks of the Jurassic Cudi Group with features typical of carbonate-hosted supergene nonsulfide zinc mineralization. The regional strike extent of the mineralized district is at least 60 km. The age of the supergene deposit has not been determined, but it is probable that the main weathering happened during Upper Tertiary, possibly between Upper Miocene and Lower Pliocene. The Hakkari mineralization can be compared to other carbonate-hosted Zn–Pb deposits in Turkey, and an interpretation made of its geological setting. The zinc mineral association at Hakkari typically comprises smithsonite and hemimorphite, which apparently replace both sulfide minerals and carbonate host rock. Two generations of smithsonite are present: the first is relatively massive, the second occurs as concretions in cavities as a final filling of remnant porosity. Some zinc is also hosted within Fe–Mn-(hydr)oxides. Lead is present in cerussite, but also as partially oxidized galena. Lead can also occur in Mn-(hydr)oxides (max 30% PbO). The features of the supergene mineralization suggest that the Hakkari deposit belongs both to the “direct replacement” and the “wall-rock replacement” types of nonsulfide ores. Mineralization varies in style from tabular bodies of variable thickness (< 0.5 to 13 m) to cross-cutting breccia zones and disseminated ore minerals in pore spaces and fracture planes. At Hakkari a As–Sb–Tl(≫ Hg) geochemical association has been detected, which may point to primary sulfide mineralization, quite different from typical MVT.