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1.
铜厂沟斑岩型铜钼矿是格咱岛弧燕山晚期Mo多金属成矿作用的典型代表,矿床中与Cu-Mo矿化相关的蚀变作用广泛发育。文章在对该矿床岩相学研究的基础上,选择TiO2作为蚀变过程中惰性组分、运用Gresens方程对元素迁移进行定量分析。主量元素迁移特征显示在钾硅酸盐化蚀变阶段和石英—绢云母化蚀变阶段中Al2O3、K2O、Na2O、P2O5、SiO2持续迁入,青磐岩化阶段Fe2O3、MgO、CaO迁入富集;微量元素在钾硅酸盐化阶段显示为Mo、Ba、W、Ra、Nb、Ta、LREE元素明显迁入,且Ba、W与Mo的富集有明显的相关性,石英—绢云母化蚀变阶段Pb、Zn富集成矿,青磐岩化阶段Cu富集成矿,铜厂沟斑岩型铜钼矿矿化蚀变与成矿元素迁移特征研究对该区深部地球化学勘查指标制定、成矿信息及矿体边界确定等具有重要的参考意义。  相似文献   

2.
文章对安徽马头斑岩型钼铜矿床花岗闪长斑岩体和粉砂岩在矿化蚀变过程中常量元素的迁移规律进行了探讨。马头矿床元素质量迁移计算结果表明,在钼铜矿化蚀变过程中常量元素均发生不同程度的带入带出,迁移规律明显。在花岗闪长斑岩中,从钾化带、绢英岩化带到青磐岩化带,均为带入的常量元素有K2O、CaO、SiO2、H2O+,而Na2O明显带出,说明矿化与去钠化、钾长石化等蚀变密切相关。在粉砂岩中,蚀变岩明显带出的有Na2O、CaO、MgO、Fe2O3、H2O+等,而且黄铁辉钼矿化粉砂岩在常量元素的迁移程度远比青磐岩化粉砂岩大。马头矿床成矿系统质量变化定量计算结果表明,花岗闪长斑岩和粉砂岩系统的质量变化整体上表现为净带入与净带出,且净带出量大于净带入量,因此马头矿床成矿系统总体上是净带出的,即马头矿床钼铜矿化产出在元素总体负异常体系中。该项研究成果为揭示矿化蚀变过程中元素的作用机制提供了线索,并且可能成为深部成矿潜力定量评价的有效途径之一。  相似文献   

3.
库勒萨依序列斑岩体δ平均3.05,属于钙碱性系列岛弧浅成岩。 SiO2含量为57.06%~70.74%,高Al2O3、Na2O、Sr和相对富集LREE,低MgO、Y、Yb,强烈亏损HREE。Na2O/K2O>1,Sr/Y平均57.67,正Eu异常,因而具有典型O型埃达克岩特征。库勒萨依序列斑岩体与Mo异常套合好,已发现钼矿体,找矿前景良好。该埃达克岩的确立,对深化西天山区域成矿规律和指导今后找矿具有借鉴和指导意义。  相似文献   

4.
西藏东部新生代玉龙铜矿带有玉龙、扎拉尕、莽总、多霞松多和马拉松多等斑岩型铜(钼)等多金属矿床,寄主岩石具交代地幔源锶、钕、铅同位素组成特征,岩石化学成分均富碱、高钾和K2O/Na2O比值远大于1,而且从早期到晚期的斑岩中SiO2和K2O含量增加,TiO2、Al2O3、FeO (Fe2O3+ FeO)、MgO、CaO和Na2O含量减少,以及Cu等矿化多伴随晚期斑岩地质体的内外接触带产出。  相似文献   

5.
曲晓明  侯增谦  辛洪波 《矿床地质》2006,25(Z3):419-422
锆石SHRIMP U-Pb定年和岩石地球化学研究发现冈底斯造山带发育两套埃达克岩。早期的年龄为(46.8±1.0)Ma,地球化学上以低K2O、高Na2O、富Ba、Sr、Pb和Sr/Y比值高为特征,缺少铜矿化;晚期的年龄为(15.3±0.3)Ma, 地球化学以富K2O、低Na2O、Ba相对亏损和Sr/Y比值低为特征,是冈底斯斑岩铜矿的成矿母岩。成因上早期埃达克岩与由俯冲洋壳熔融形成的埃达克岩相似,晚期埃达克岩生成于下地壳底侵镁铁质岩石的部分熔融。  相似文献   

6.
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。  相似文献   

7.
广东沿海地区基性岩脉地球化学及成因   总被引:4,自引:1,他引:3  
曹建劲  胡瑞忠  谢桂青  刘燊 《岩石学报》2009,25(4):984-1000
广东沿海地区基性岩脉的成岩年龄是146~54 Ma,主要形成于白垩纪,次为侏罗纪和第三纪。可将工作区基性岩脉的形成时代分为5期:第一期146Ma,第二期138~132Ma,第三期112~105Ma,第四期99~82Ma,第五期75~54Ma。根据K2O/Na2O比值和K2O含量,以及不相容元素分配模式的“Nb-Ta”异常,可以划分出两类基性岩脉。第一类K2O/Na2O比值<0.5和K2O含量<1.3%,在微量元素MORB标准化图解中具有弱的“Nb-Ta”负异常。第二类K2O/Na2O比值>0.5和K2O含量>1.3%,在微量元素MORB标准化图解中具有显著的“Nb-Ta”负异常。在K2O-SiO2图解中,第一类基性岩脉样品落入中钾岩石范围,第二类基性岩脉样品落入高钾岩石或钾玄岩范围。基性岩脉分布的重要特点是中钾基性岩脉分布于本区北部上地幔拗陷区,而高钾基性岩脉分布于本区南部地幔隆起区或斜坡区。两类基性岩脉有着不同的岩浆来源。在本区北部,软流圈物质入侵和熔蚀Ⅰ型富集地幔混合形成中钾基性岩脉,随着时代的由老至新和熔蚀作用的不断进行,岩浆中Ⅰ型富集地幔成分增加。晚期,岩浆活动向连平、新丰一带迁移。在本区南部,软流圈物质入侵并熔蚀Ⅱ型富集地幔,形成具有软流圈物质和Ⅱ型富集地幔混合特征的高钾基性岩脉。随着熔蚀作用的不断进行,岩浆中Ⅱ型富集地幔成分增加,晚期基性岩浆活动向三水裂谷、南澳裂谷迁移。  相似文献   

8.
河北省含铁岩系的地球化学特征   总被引:1,自引:0,他引:1  
依据河北省区域岩石地球化学调查成果,讨论了区内不同成因类型含铁岩系的地球化学特征。其中重要的沉积变质铁矿地层中Al2O3、Ti、P、V、Cr、Ni、Cu、Zn的质量分数和w(Fe2O3)/w(FeO)、w(Sr)/w(Ba)、w(La)/w(Y)较高,Rb、Li、Cs、Sc的质量分数及w(K2O)/w(Na2O)较低;海相沉积型铁矿地层中强烈富集Sb、Li、B、Hg、Sr和K2O,同时贫化FeO、Na2O、CaO、Mn、Rb等元素;主要接触交代型铁矿围岩中CaO、MgO的质量分数较高,SiO2、Al2O3、K2O、Mn、Ti、P、V、Cr、Zr、Ba、REE的质量分数及w(Fe2O3)/w(FeO)较低。这些地球化学特征反映其特定的地质构造环境。  相似文献   

9.
中甸普朗还原性斑岩型铜矿床:矿物组合与流体组成约束   总被引:11,自引:8,他引:3  
刘江涛  杨立强  吕亮 《岩石学报》2013,29(11):3914-3924
成矿流体高氧逸度是斑岩铜矿床模式的一个基本原则。虽然亚洲单个矿体储量最大的普朗铜矿床的成矿母岩——普朗复式岩体具氧化性岩浆特点,但其矿物组合及流体成分却与还原性斑岩型铜金矿床一致:矿石中以发育大量磁黄铁矿为特征,构成黄铜矿-磁黄铁矿-黄铁矿为主的矿物组合,不发育表征高氧逸度的原生磁铁矿和硫酸盐(硬石膏等)矿物;成矿流体中含较多CO2、CO和CH4等还原性组分,氧逸度低于铁橄榄石-磁铁矿-石英缓冲剂。成矿流体中还原性组分可能来源于普朗复式岩体周围的含碳质千枚岩或深部铁镁质岩浆。还原性流体中铜元素的溶解度比氧化性流体中的低,但金元素的溶解度不受氧化还原条件的影响;而CH4可使SO2还原形成S2-,为辉钼矿的形成提供物质基础;可能是导致普朗铜矿床Cu品位偏低而伴生大量Au、Mo矿化的主要原因之一。普朗铜矿床还原性特征的厘定有益于深入研究其矿床成因、乃至区域斑岩型铜矿床成矿机制。  相似文献   

10.
雪岭矿区位于康滇地轴云南段东川矿区南缘,区内主要出露震旦系和寒武系沉积地层,其浅部可见铜多金属脉状矿化沿断裂带和辉绿岩脉产出,深部勘探发现了全隐伏在陡山沱组中的层状铜矿。铜矿化以黄铜矿、斑铜矿为主,呈浸染状、网脉状、薄层状和星点状赋存于深灰色破碎状白云岩、黑色炭泥质岩和石英脉中,矿体具明显沉积及热液叠加改造特征。常量元素分析显示岩矿石SiO2、Fe2O3、FeO、K2O等含量较高,而Na2O、CaO和MgO含量偏低;微量元素分析显示围岩Cu、Pb、Zn、Ag元素含量较高,富集U、Y等元素,亏损Nb、Zr、Ti、Yb等高场强元素和Sr,矿石样品则富集U、Nd等高场强元素,亏损Ba、K、Sr等大离子亲石元素和Nb;球粒陨石标准化的稀土元素配分模式为轻稀土富集、重稀土亏损的右倾形态,且呈现出铕的强烈亏损。陡山沱组改造型脉状矿体方解石和黄铁矿样品δDV-SMOW值分别为-137.3×10-3和-110.2×10-3,δ18O值分别为-11.3×10-3和-1.29×10-3,显示成矿流体来源于大气降水形成的层间封存水;矿石富集重硫,硫主要来源于海相硫酸盐的还原作用,部分受到深部昆阳群古铜矿床硫和生物硫的影响;铅来源于放射性成因铅较高的源区,具壳幔混合铅的特征,且矿石、围岩、昆阳群古铜矿的铅同位素组成具一定亲缘性,显示成矿物质主要来源于下伏昆阳群古铜矿,部分来源于围岩。综合研究认为,该铜矿与滥泥坪矿区所含陡山沱组铜矿相似,均为昆阳群古铜矿残余风化壳在海解作用下铜质析出,在成岩及构造作用下活化迁移并沿炭泥质还原性岩石、石英脉及构造有利位置沉淀富集所致。本区找矿重点应为深部陡山沱组铜矿以及下伏昆阳群古铜矿床。  相似文献   

11.
The Pulang (普朗) porphyry copper deposit, located in the southern segment of the Yidun-Zhongdian (义敦-为中甸) island arc ore-forming belt of the Tethys-Himalaya ore-forming domain, is a recently discovered large copper deposit. Compared with the composition of granodiorite in China, the porphyry rocks in this area are enriched in W, Mo, Cu, Au, As, Sb, F, V, and Na2O (K1≥1.2). Compared with the composition of fresh porphyry rocks in this district, the mineralized rocks are enriched in Cn, Au, Ag, Mo, Pb, Zn, W, As, Sb, and K2O (K≥1.2). Some elements show clear anomalies, such as Zn, Ag, Cu, Au, W, and Mo, and can be regarded as pathfinders for prospecting new ore bodies in depth. It has been inferred from factor analysis that the Pulang porphyry copper deposit may have undergone the multiple stages of alteration and mineralization: (a) Cu-Au mineralization; (b) W-Mo mineralization; and (c) silicification and potassic metasomatism in the whole ore-forming process. A detailed zonation sequence of indicator elements is obtained using the variability index of indicator elements as follows: Zn→Ag→Cu→Au→W→Mo. According to this zonation, an index such as (Ag×Zn) D/(Mo×W) D can be constructed and regarded as a significant criterion for predicting the Cu potential at a particular depth.  相似文献   

12.
烂泥塘矿床是云南香格里拉地区典型的斑岩型铜矿床,主矿体产于在地表以下300~500米,地表矿化带仅见脉状铜矿体和铜矿化体.为研究云南香格里拉烂泥塘斑岩铜矿床的原生晕异常结构,本文以异常结构模式理论和方法为基础,对矿床地表和坑道岩矿石样品开展了元素组合、异常特征和水平分带规律研究.结果表明,烂泥塘铜矿床地球化学系统的结构...  相似文献   

13.
Classic porphyry Cu–Mo deposits are mostly characterized by close temporal and spatial relationships between Cu and Mo mineralization. The northern Dabate Cu–Mo deposit is a newly discovered porphyry Cu–Mo polymetallic deposit in western Tianshan, northwest China. The Cu mineralization postdates the Mo mineralization and is located in shallower levels in the deposit, which is different from most classic porphyry Cu–Mo deposits. Detailed field investigations, together with microthermometry, laser Raman spectroscopy, and O‐isotope studies of fluid inclusions, were conducted to investigate the origin and evolution of ore‐forming fluids from the main Mo to main Cu stage of mineralization in the deposit. The results show that the ore‐forming fluids of the main Mo stage belonged to an NaCl + H2O system of medium to high temperatures (280–310°C) and low salinities (2–4 wt% NaCl equivalent (eq.)), whereas that of the main Cu stage belonged to an F‐rich NaCl + CO2 + H2O system of medium to high temperatures (230–260°C) and medium to low salinities (4–10 wt% NaCl eq.). The δ18O values of the ore‐forming fluids decrease from 3.7–7.8‰ in the main Mo stage to ?7.5 to ?2.9‰ in the main Cu stage. These data indicate that the separation of Cu and Mo was closely related to a large‐scale vapor–brine separation of the early ore‐forming fluids, which produced the Mo‐bearing and Cu‐bearing fluids. Subsequently, the relatively reducing (CH4‐rich) Mo‐bearing, ore‐forming fluids, dominantly of magmatic origin, caused mineralization in the rhyolite porphyry due to fluid boiling, whereas the relatively oxidizing (CO2‐rich) Cu‐bearing, ore‐forming fluids mixed with meteoric water and precipitated chalcopyrite within the crushed zone at the contact between rhyolite porphyry and wall rock. We suggest that the separation of Cu and Mo in the deposit may be attributed to differences in the chemical properties of Cu and Mo, large‐scale vapor–brine separation of early ore‐forming fluids, and changes in oxygen fugacity.  相似文献   

14.
The Chalukou porphyry Mo deposit, located in the northern Great Xing'an Range, is the largest Mo deposit in the Xing'an–Mongolia orogenic belt. Its ore bodies are mainly hosted in the intermediate-felsic complex and Jurassic volcanic sedimentary rocks, of which Late Jurassic granite porphyry, quartz porphyry and fine-grained granite are closely associated with Mo mineralization. The Middle Jurassic monzogranite belongs to shoshonite series, with SiO2 and Al2O3 contents of 69.48 to 74.98% and 12.35 to 14.48%, respectively. The total alkali (K2O + Na2O) content ranges from 7.67 to 10.42%, with K2O/Na2O ratios between 1.07 and 2.81. These rocks are strongly enriched in Rb and K but are depleted in Ta, Nb, P and Ti, with negative Eu anomalies and positive εHf(t). The Late Jurassic granite porphyry, quartz porphyry and fine-grained granite are shoshonite or high-K calc-alkaline series. Their SiO2 and Al2O3 contents range from 73.87 to 78.95% and 10.35 to 13.47%, respectively. The total alkali (K2O + Na2O) contents range from 8.06 to 10.02%, with K2O/Na2O ratios from 1.03 to 8.20. These rocks are strongly enriched in Rb, K and Th, but are depleted in P, Ti, Ba and Sr, indicating clear negative Eu anomalies and positive εHf(t). The Middle–Late Jurassic granitoids in the Chalukou deposit are highly fractionated I-type granitoids, and derived from juvenile lower crust materials that originated from the Neoproterozoic depleted mantle. These granitoids formed in the extension tectonic setting of the post-collision stage of the Mongol–Okhotsk orogenic belt, probably superposed by the back-arc extension related to the subduction of the Paleo-Pacific Plate.  相似文献   

15.
喀拉果如木铜矿是近年在新疆喀喇昆仑地区发现的铜多金属矿.铜矿化赋存在二长花岗斑岩中,矿石呈细脉浸染状、斑点状.矿石矿物主要为黄铜矿,少量黄铁矿、斑铜矿和毒砂.围岩蚀变有硅化、绢云母化和青磐岩化,具有与斑岩铜矿类似的蚀变组合.二长花岗斑岩主要由斜长石、钾长石、石英、黑云母及蚀变的暗色矿物组成.二长花岗斑岩的SiO2(67.28% ~73.08%)、Al2 O3(13.38%~15.53%)、K2O(2.92% ~6.15%)和Na2O(2.78% ~4.89%)含量较高,CaO和TiO2含量较低,属于高钾钙碱性系列;富集大离子亲石元素(LILE),亏损高场强元素(HFSE)和重稀土元素,Nb和Ta负异常,显示准铝质-弱过铝质过渡的特点,岩浆结晶分异作用明显,具有陆缘孤花岗岩的地球化学亲缘性,微量元素显示其为同碰撞-后碰撞花岗岩.成矿岩体锆石LA-ICP-MS测年结果为189.3 ±2.8Ma,成岩成矿作用发生在早侏罗世.结合区域地质演化,本文认为喀拉果如木铜矿形成于南昆仑地体与喀喇昆仑-甜水海地体之间的古特提斯洋消减闭合之后的后碰撞伸展背景,喀喇昆仑在晚三叠世-早侏罗世进入后碰撞造山时期.  相似文献   

16.
The Dawan Mo–Zn–Fe deposit located in the Northern Taihang Mountains in the middle of the North China Craton (NCC) contains large Mo‐dominant deposits. The mineralization of the Dawan Mo–Zn–Fe deposit is associated with the Mesozoic Wanganzhen granitoid complex and is mainly hosted within Archean metamorphic rocks and Proterozoic–Paleozoic dolomites. Rhyolite porphyry and quartz monzonite both occur in the ore field and potassic alteration, strong silicic–phyllic alteration, and propylitic alteration occur from the center of the rhyolite porphyry outward. The Mo mineralization is spacially related to silicic and potassic alteration. The Fe orebody is mainly found in serpentinized skarn in the external contact zone between the quartz monzonite and dolomite. Six samples of molybdenite were collected for Re–Os dating. Results show that the Re–Os model ages range from 136.2 Ma to 138.1 Ma with an isochron age of 138 ± 2 Ma (MSWD = 1.2). U–Pb zircon ages determined by laser ablation inductively coupled plasma mass spectrometry yield crystallization ages of 141.2 ± 0.7 (MSWD = 0.38) and 130.7 ± 0.6 Ma (MSWD = 0.73) for the rhyolite porphyry and quartz monzonite, respectively. The ore‐bearing rhyolite porphyry shows higher K2O/Na2O ratios, ranging from 58.0 to 68.7 (wt%), than those of quartz monzonite. All of the rock samples are classified in the shoshonitic series and characterized by enrichment in large ion lithophile elements; depletion in Mg, Fe, Ta, Ni, P, and Y; enrichment in light rare earth elements with high (La/Yb)n ratios. Geochronology results indicate that skarn‐type Fe mineralization associated with quartz monzonite (130.7 ± 0.6 Ma) formed eight million years later than Mo and Zn mineralization (138 ± 2 Ma) in the Dawan deposit. From Re concentrations in molybdenite and previously presented Pb and S isotope data, we conclude that the ore‐forming material of the deposit was derived from a crust‐mantle mixed source. The porphyry‐skarn type Cu–Mo–Zn mineralization around the Wanganzhen complex is related to the primary magmatic activity, and the skarn‐type Fe mineralization is formed at the late period magmatism. The Dawan Mo–Zn–Fe porphyry‐skarn ores are related to the magmatism that was associated with lithospheric thinning in the NCC.  相似文献   

17.
玉峰金矿位于中亚造山带东天山东缘,是近年来新发现的含银高品位金矿床。该矿床目前已探明6个金矿体,均赋存在石英斑岩中。矿区热液蚀变作用发育,与成矿关系最密切的为黄铁绢英岩化和硅化,显示明显的蚀变分带:以石英硫化物脉为中心,黄铁绢英岩化带在其两侧大致对称分布。本文选取矿体上盘和下盘的石英斑岩、黄铁绢英岩进行了全岩的主、微量元素及成矿元素测试,并对其中的长石和绢云母进行电子探针成分分析。测试结果表明,黄铁绢英岩中的Au含量较蚀变前呈指数级增长,Ag、Cu、As等成矿元素大量增加,CaO、Na_2O、P_2O_5、P_2O_5、Sr、Pb、Th、U、Sb等元素显著迁出,而SiO_2、Al_2O_3、TiO_2含量和稀土元素含量变化较小,表现稳定。热液蚀变过程中,石英斑岩中71%~76%的正长石发生绢云母化,导致K_2O大量迁出;而钠长石几乎全部蚀变为绢云母,造成Na_2O大量迁出。热液流体的贡献使得蚀变岩中MgO、Fe_2O_3~T含量成倍增加,并主要富集在绢云母和/或黄铁矿晶格中。综合分析认为,绢英岩化蚀变带,Au、Cu、As和Bi等元素的综合化探异常,低电阻率、高激化率的地球物理特征可以作为玉峰矿区深部和外围找矿的标志。研究区内的石炭纪石英斑岩带,尤其是在构造叠加部位,热液活动使其更有利于矿化富集,是找矿勘探的有利部位。  相似文献   

18.
西藏邦铺斑岩型钼(铜)矿床位于冈底斯成矿带东段,地理位置上与甲玛铜多金属矿床、驱龙斑岩铜矿床毗邻.矿区岩浆活动频繁,发育不同类型、不同期次的侵入岩体,辉绿玢岩出露于矿区北部,地质研究程度相对较低.为了精确限制其成岩时代,文章通过对辉绿玢岩脉体LA-ICP-MS锆石U-Pb年龄精确测试,获得了19颗锆石206Pb/238...  相似文献   

19.
刘建平  王核  李社宏  仝来喜  任广利 《岩石学报》2010,26(10):3095-3105
喀依孜钼矿床是近年来西昆仑地区新发现的具规模的斑岩型矿床。钼矿化赋存在花岗闪长岩体边部,由南、北两个矿化带组成,矿石呈浸染状,矿石矿物由辉钼矿及少量黄铁矿和黄铜矿组成。矿石Mo品位0.04%~1.53%,局部达10%~15%。围岩蚀变有钾化、黄铁绢英岩化和青磐岩化等斑岩型矿床蚀变组合。含矿岩体为花岗闪长岩,岩石地球化学具高SiO2、Al2O3,富K2O、Na2O,低CaO、TiO2等特点,属于高钾钙碱性系列,微量元素富集大离子亲石元素(LILE),亏损高场强元素(HFSE)和重稀土元素,显示Nb和Ta的负异常,与俯冲带岩浆地球化学特征类似,岩石成因可能与俯冲作用有关。含矿岩体锆石LA-ICPMS定年获得250.7±4.7Ma(MSWD=1.6),3件辉钼矿Re-Os模式年龄分别为254.4±1.9Ma、257.0±3.4Ma、258.5±2.0Ma,成岩成矿发生在晚二叠世末-早三叠世初。综合区域演化特征,本文认为喀依孜斑岩型钼矿床成因与古特斯洋向塔里木板块俯冲有关,形成于塔里木大陆边缘弧环境。  相似文献   

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