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北祁连山元古代末—寒武纪海相火山作用与成矿作用的关系 总被引:2,自引:0,他引:2
元古代末-寒武纪是北祁连山与海相火山岩有关的块状铜金金属硫化物矿床的主要成矿时期。含矿火山岩系产于大陆裂谷作用的初期阶段。这一时期陆壳拉强速度缓慢,碱性玄武岩浆可停滞于地壳中,导致地壳深熔,由此大量酸性岩浆产生。酸性岩浆上升、喷出并形成火山岩穹的中心,然后,基性岩浆喷溢,并覆盖在酸性火山岩之上,由此形成双层的火山岩穹。火山央穹驱使海底热卤水对流和循环,同时火山喷出物提供了丰富的成矿元素,进而一系列 相似文献
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北祁连山元古代末-寒武纪海相火山作用与成矿作用的关系 总被引:1,自引:0,他引:1
元古代末-寒武纪是北祁连山与海相火山岩有关的块状铜多金属硫化物矿床的主要成矿时期。台矿火山岩系产于大陆裂谷作用的初期阶段。这一时期陆壳拉张速度缓慢,碱性玄武岩浆可停滞于地壳中,导致地壳深熔,由此大量酸性岩浆产生。酸性岩浆上升、喷出并形成火山岩穹的中心。然后,基性岩浆喷溢,并覆盖在酸性火山岩之上,由此形成双层的火山岩穹.火山岩穹驱使海底热卤水对流和循环,同时火山喷出物提供了丰富的成矿元素,进而一系列受海底热卤水对流循环系统控制的矿体产生。笔者提出,大陆裂谷的初期阶段的海相火山作用提供了矿床形成的基本条件,即成矿元素及驱使成矿元素搬运和富集的海底热卤水对流循环系统。随着裂谷拉张强度加大,大量拉斑质岩浆形成并快速上升,深部地壳难于被熔融,只有少量或缺失酸性岩浆.因此,当大陆裂谷拉张速度快时,对成矿作用不利。 相似文献
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南秦岭元古宙板内火山作用特征及构造意义 总被引:18,自引:2,他引:18
南秦岭元古宙火山岩主要由两大类岩石构成,一类为SiO245%-57%的基性火山岩系,另一类为SiO267%-78%的酸性火山岩系,主要岩石类型为细碧岩、玄武岩和石英角班岩、流纹岩。基性火山岩整体上属拉斑玄武岩系列,酸性火山岩属钙碱系列。火山岩强烈富集稀土元素,尤其是轻稀土元素,酸性火山岩和基性火山岩有相似的稀土元素特征,显示了源区特征的不同。基性火山岩富集强不相容元素,相对亏损Nb和Ti, 成于大陆裂谷环境,具有大陆拉斑玄武岩的特征。同位素特征表明基性火山作用与地幔柱活动密切相关。南秦岭的中、晚元古代大陆拉张及由古地幔柱活动所引发的陆裂火山岩浆活动是古秦岭洋打开的先兆。 相似文献
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通过详细的野外剖面观察和室内岩石地球化学研究,将碧口群火山岩划分为3个火山旋回,每个旋回下部为基性火山岩(细碧岩及细碧质凝灰岩),上部为酸性火山岩(石英角斑岩或石英角斑质凝灰岩).基性火山岩富集LREE及LIL.第一旋回基性火山岩属碱性系列,第二、三旋回基性火山岩属拉斑玄武岩系列.基性火山岩浆形成于与洋岛玄武岩类似的地幔柱源,其中第三旋回基性火山岩浆晚期受岩石圈地幔混染;酸性火山岩为地壳重熔作用的产物.碧口群火山岩属大陆裂谷双峰式火山岩系,是中一新元古代扬子地块北缘大陆拉张作用的产物.这种拉张作用是秦岭造山带从震旦纪开始的大规模扩张作用的先兆. 相似文献
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碧口群火山旋回及其地质构造意义 总被引:13,自引:2,他引:11
通过详细的野外剖面观察和室内岩石地球化学研究,将碧口碧火山岩划分为3个火山旋回,每个旋回下部为基性火山岩(细碧岩及细碧质凝灰岩),上部为酸性火山岩(石英角斑岩或石英角斑质凝灰岩)。基性火山岩富集LREE及LIL。第一旋回基性火山岩属碱性系列,第二、三旋回基性火山岩属拉斑玄武岩系列。基性火山岩浆形成于与洋岛玄武岩类似的地幔柱源,其中第三旋回基性火山岩浆晚期受岩石圈地幔混染;酸性火山岩为地壳重熔作用的产物。碧口群火山岩属大陆裂谷双峰式火山岩系,是中一新元古代扬子地块北缘大陆拉张作用的产物。这种拉张作用是秦岭造山带从震旦纪开始的大规模扩张作用的先兆。 相似文献
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碧口群火山岩性质及形成环境 总被引:1,自引:0,他引:1
中元古代—新元古代碧口群火山岩系分布在扬子地块北缘、秦岭造山带南侧。碧口群火山岩系具大陆裂谷火山岩特点,形成于大陆裂谷作用构造环境。火山岩系特征为:① 具双峰式火山岩组合,火山岩系由基性火山岩(细碧岩及细碧质凝灰岩)及酸性火山岩(石英角斑岩及石英角斑质凝灰岩)组成。② 基性火山岩包括两个岩浆系列的岩石,即碱性玄武岩浆系列及拉斑玄武岩浆系列。③ 火山岩富集LREE及LIL。微量元素及同位素(SmNd,RbSr)研究表明,基性火山岩形成于相似于洋岛玄武岩源的地幔柱源,酸性火山岩为地壳重熔的产物。扬子地块北缘分布有碧口群、西乡群等中元古代—新元古代大陆火山岩系,表明在这一时期大陆裂谷拉张火山作用发育,成为秦岭地壳的主要增生成壳期。 相似文献
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北秦岭—南祁连早古生代裂谷造山带火山岩与小洋盆蛇绿岩套特及纬向对比 总被引:11,自引:0,他引:11
北秦岭-南祁连位于我国著名巨型纬向造山带的中段,是以寒武-奥陶纪时期为主形成的裂谷造山带,它经历了板内大陆裂谷→陆间裂谷→火山弧→造山带的开合过程。寒武纪拉张形成碱性,拉斑玄武岩系列及小洋盆蛇绿岩套,奥陶纪闭合形成钙碱性与钾玄岩系列中酸性火山岩及火山弧岩套,并见高镁安山岩。南祁连为单裂谷,北秦岭为双裂谷,北秦岭裂谷从东到西,拉张速度和距离变小,闭合速度变大,火山爆发强度及火山岩的酸度,钾量,壳源组分也顺序增大。其拉张距离与红海型相似,而闭合速度近似安第斯型。古地幔以多种类型叠加为特征,曾有过先强烈亏损,后又富集的过程。从大别山-北秦岭-南祁连-柴北缘纬向对比可知.本区的基性与酸性火山岩浆,分别为地幔与地壳部分熔融形成;中性岩主要为基性岩浆AFC作用产物。从东到西,裂谷依次张开,火山喷发时代逐渐变新,拉张速度和距离变大,闭合速度也变大。从而火山岩的碱度变小.蛇绿岩套从无到有。古地幔由DMM 与EMI混源为主,变为DMM与EMⅡ混源为主。 相似文献
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华北克拉通不同时代基性火山岩存在向富集方向演化的趋势,并出现明显的Ar-Pt界限和新生代异常.元古宙基性火山岩比太古宙富集大部分高场强元素(HFSE)和轻稀土元素(LREE),REE分异程度显著增加,而且相容性接近的不相容元素(如Nb,Ta)的相对不相容性发生了改变.新生代玄武岩HFSE及Ni高度富集,REE强烈分异,δ(Eu)值最高.Ar-Pt界限可能与地幔熔融时物理条件(如氧逸度)的改变和地幔富集作用有关.新生代玄武岩独特的地球化学特征可能主要反映了地幔源区的特殊性———“似OIB型”富集地幔,其形成既可能有携带远洋沉积物的俯冲古老玄武岩洋壳部分熔融残余的贡献,也可能有直接循环(如通过拆沉作用)的陆壳物质的贡献,同时还可能涉及了地幔柱活动的影响. 相似文献
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湘西隘口新元古代基性-超基性岩墙年代学和地球化学特征:岩石成因及其构造意义 总被引:4,自引:2,他引:2
湘西隘口地区基性-超基性岩墙锆石LA-ICP-MSU-Pb年龄为831.6±9.7Ma,与桂北、赣东北基性岩墙具有相似的形成时代(约830~825Ma),组成了扬子陆块南缘新元古代呈带状断续分布的基性岩墙群。隘口地区的基性-超基性岩墙化学成分上属于碱性系列,超基性岩具有比基性岩明显高的MgO、Cr和Ni含量,所有样品都展示出相似的稀土和微量元素配分模式,部分样品具有轻微的Nb的负异常和明显的P、Ti的负异常,表明岩浆在演化的过程中遭受过不同程度的地壳的混染。该区基性-超基性样品具有明显高的相似于软流圈地幔的εNd(t)值,则暗示其母岩浆来源于长期亏损的软流圈地幔。结合其微量元素及其对应的比值和εNd(t)值与板内裂谷碱性玄武岩和洋岛玄武岩非常相似的特征,以及扬子周缘大规模相同时代岩浆作用的特点,我们认为这些新元古代火成岩是地幔柱有关的裂谷岩浆作用的产物,地幔柱或超级地幔柱的作用导致了Rodinia超大陆最终的裂解。 相似文献
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大兴安岭北部中生代火山岩特征及岩浆演化 总被引:12,自引:0,他引:12
据火山岩岩石组合、地球化学特征、喷发旋回特征及岩浆来源,将大兴安岭北部中生代火山岩划分为三个岩浆演化旋回。晚侏罗世塔木兰沟—吉祥峰旋回火山岩为碱性系列亚碱性系列,岩浆来源于上地幔并有陆壳物质的混染;早白垩世的上库力旋回火山岩为高钾钙碱性系列,岩浆来源于地壳的部分熔融;早白垩世伊列克得旋回火山岩为碱性到亚碱性过渡系列,岩浆来自于地幔并受地壳的混染。综合研究表明,大兴安岭北部中生代火山岩形成于板内环境,早白垩世火山岩可能形成于大陆裂谷环境。 相似文献
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川西新元古代双峰式火山岩成因的微量元素和Sm-Nd同位素制约及其大地构造意义 总被引:44,自引:0,他引:44
系统的微量元素和Sm-Nd同位素分析表明,川西地区早震旦世苏雄组双峰式火山岩中的大多数玄武岩具有高的正εNd(T)值(+5~+6)、大离子亲石元素和LREE富集,与现代典型的洋岛玄武岩和大陆溢流玄武岩省中的碱性玄武岩有非常相似的地球化学和同位素组成特征。酸性火山岩的εNd(T)值较低(+1.1~+2.6),地球化学特征总体上与A2-型花岗岩相似,它们是受地壳混染的OIB型玄武质岩浆在地壳中部的一个“双扩散”岩浆房通过结晶分异形成的。苏雄组双峰式火山岩形成于典型的大陆裂谷环境,非常类似于现代与地幔柱活动有关的高火山活动型裂谷火山岩,扬子块体西缘 800Ma前的裂谷作用和火山活动应是约825Ma前的华南地幔柱活动引发的结果。 相似文献
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羌塘东部治多县直根尕卡一带二叠纪栖霞期火山岩主要由中基性火山碎屑岩及熔岩组成,火山岩地球化学研究表明,其主元素表现为高TiO_2和低TiO_2两种特征,球粒陨石标准化稀土配分模式为LREE富集型.MORB标准化的微量元素配分型式为大洋隆起型,显示岩浆形成于板内裂谷构造环境.Sr、Nd、Pb同位素地球化学研究表明火山岩显示明显的亏损地幔源区特征.综合研究表明直根尕卡一带二叠纪栖霞期火山岩形成于大陆边缘拉张构造(或陆缘始裂谷)环境,岩浆起源于地幔,属地幔柱作用的产物. 相似文献
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The bimodal volcanoplutonic (basalt-peralkaline rhyolite with peralkaline granites) association of the Noen and Tost ranges was formed 318 Ma ago in the Gobi-Tien Shan rift zone of the Late Paleozoic-Early Mesozoic central Asian rift system, the development of which was related to the movement of the continental lithosphere over a mantle hot spot. A specific feature of the Late Paleozoic rifting was that it occurred within the Middle-Late Paleozoic active continental margin of the northern Asian paleocontinent. Continental margin magmatism was followed after a short time delay by the magmatism of the Gobi-Tien Shan rift zone, which was located directly in the margin of the paleocontinent. Such a geodynamic setting of the rift zone was reflected in the geochemical characteristics of rift-related rocks. The distribution of major elements and compatible trace elements in the rift-related basic and intermediate rocks corresponds to a crystallization differentiation series. The distribution of incompatible trace elements suggests contributions from several sources. This is also supported by the heterogeneity of Sr and Nd isotopic compositions of the rift-related basaltoids: εNd(T) ranges from 4.4 to 6.7, and (87Sr/86Sr)0, from 0.70360 to 0.70427. The geochemical characteristics of the rift-related basaltoids of the Noen and Tost ranges are not typical of rift settings (negative anomalies in Nb and Ta and positive anomalies in K and Pb) and suggest a significant role of the rocks of a metasomatized mantle wedge in their source. In addition, there are high-titanium rocks among the rift-related basaltoids, whose geochemical characteristics approach those of the basalts of mid-ocean ridges and ocean islands. This allowed us to conclude that the compositional variations of the rift-related basaltoids of the Noen and Tost ranges were controlled by three magma sources: the enriched mantle, depleted mantle (high-titanium basaltoids), and metasomatized mantle wedge (medium-Ti basaltoids). The medium-titanium basaltoids were formed in equilibrium with spinel peridotites, whereas the high-titanium magmas were formed at deeper levels both in the spinel and garnet zones. It terms of geodynamics, the occurrence of three sources of the rift-related basaltoids of the Noen and Tost ranges was related to the ascent of a mantle plume with enriched geochemical characteristics beneath a continental margin, where its influence caused melting in the overlying depleted mantle and the metasomatized mantle wedge. The formation of rift-related andesites in the Noen and Tost ranges was explained by the contamination of mantle-derived basaltoid melts with sialic (mainly sedimentary) continental crustal materials or the assimilation of anatectic granitoid melts. 相似文献
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辽东地区早元古代火山岩特征及其形成的动力学背景 总被引:3,自引:0,他引:3
辽东地区早元古代火山岩是下元古界辽河群地层的重要组成部分,它们由酸性和基性两套火山岩组成。前者形成于辽河裂谷发育早期的拉张裂陷阶段,属于壳源岩浆成因;后者形成于辽河裂谷发育中晚期的强烈拉张裂陷阶段,属于幔源岩浆成因。重点讨论了基性火山岩的岩石学、矿物学、岩石化学和地球化学特征,结果表明,这些基性火山岩主要为一套海底喷发的基性枕状熔岩,具有大陆拉斑玄武岩和大洋拉斑玄武岩的双重特征,是辽河裂谷由大陆壳向大洋壳演化过程中的产物。火山岩形成的动力学背景与早元古代时期热地幔对流形式的出现以及郯-庐断裂带发生右旋平移剪切活动密切相关。 相似文献
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依据深部构造、火山岩建造与基性和钙碱性、中酸性、酸性火山岩的双峰式火山作用,确定白银厂矿田、矿床形成于切割硅铝层的古裂谷构造环境。其中小铁山、铜厂沟等矿床和折腰山、火焰山矿床两次成矿事件与双峰式火山活动同时发生,成矿作用与酸性火山岩具有时空上的一致性。矿石中CO2流体包裹体除H2O含量高外,与上地幔CO2流体包裹体成分一致;矿石富含大离子亲石元素和具富Mg、K的成矿蚀变元素组合,硫和铅来自下地壳或上地幔。喷气硅质岩锶同位素初始值表明,矿质来源于不均一地幔,S/Se、Co/Ni、Se/Te值亦指示矿质来源于深部。
本文提出矿床形成于强烈扩张的裂谷期,断裂的延深生长使地幔深部产生去挥发作用,释放大量CO2和含金属元素的地幔流体与上地幔基性岩浆向地壳侵入,导致下地壳熔融,形成酸性岩浆。与酸性岩浆喷发的同时,富含挥发份和金属元素的高盐度热卤水,沿断裂上升流入海底沉积成矿。 相似文献
17.
A. A. Vorontsov V. V. Yarmolyuk D. A. Lykhin S. I. Dril S. A. Tatarnikov G. P. Sandimirova 《Petrology》2007,15(1):35-57
The Northern Mongolia-Western Transbaikalia rift zone is the largest Mesozoic riftogenic structure in eastern Asia and extends for a distance of more than 1200 km. The zone consists of depressions and grabens, which were formed between 233 and 188 Ma and are filled with basaltic and basalt-comendite (bimodal) volcanic associations accompanied by numerous peralkaline granite massifs. Geochemical and isotope (Sr, Nd, and Pb) studies showed that mantle and crustal sources contributed to the formation of the magmatic rocks of the rift zone. The basalts were formed from incompatible element-enriched mantle sources. Geochemical and isotope-geochemical data suggest that the peralkaline salic rocks (comendites and peralkaline grantoids) and basalts are genetically related and were formed by the fractionation of a common parental magma. In addition, the magmatic associations contain peralkaline granites and comendites whose isotope signatures indicate their formation through the crustal contamination of derivatives of basaltic melts. The rift zone has arisen during the formation of the Mongolia-Transbaikalia zoned magmatic area in a complex geodynamic setting, combining collision in the Mongolia-Okhotsk suture with a mantle plume impact. The rift zone occupies the northern periphery of the area, being controlled by the Northern Mongolia-Transbaikalia fault system, which marks the boundaries (sutures) of large terranes in the lithosphere. Asthenospheric traps beneath suture boundaries served as pathways for the penetration of a mantle plume into the upper lithosphere, thus playing an important role in the localization of the riftogenic processes. 相似文献
18.
Petrogenesis of Tertiary Continental Intra-plate Lavas from the Westerwald Region, Germany 总被引:2,自引:2,他引:2
HAASE KARSTEN M.; GOLDSCHMIDT BJORN; GARBE-SCHONBERG C.-DIETER 《Journal of Petrology》2004,45(5):883-905
Tertiary volcanic rocks from the Westerwald region range frombasanites and alkali basalts to trachytes, whereas lavas fromthe margin of the Vogelsberg volcanic field consist of morealkaline basanites and alkali basalts. Heavy rare earth elementfractionation indicates that the primitive Westerwald magmasprobably represent melts of garnet peridotite. The Vogelsbergmelts formed in the spinel–garnet peridotite transitionregion with residual amphibole for some magmas suggesting meltingof relatively cold mantle. Assimilation of lower-crustal rocksand fractional crystallization altered the composition of lavasfrom the Westerwald and Vogelsberg region significantly. Thecontaminating lower crust beneath the Rhenish Massif has a differentisotopic composition from the lower continental crust beneaththe Hessian Depression and Vogelsberg, implying a compositionalboundary between the two crustal domains. The mantle sourceof the lavas from the Rhenish Massif has higher 206Pb/204Pband 87Sr/86Sr than the mantle source beneath the Vogelsbergand Hessian Depression. The 30–20 Ma volcanism of theWesterwald apparently had the same mantle source as the QuaternaryEifel lavas, suggesting that the magmas probably formed in apulsing mantle plume with a maximum excess temperature of 100°Cbeneath the Rhenish Massif. The relatively shallow melting ofamphibole-bearing peridotite beneath the Vogelsberg and HessianDepression may indicate an origin from a metasomatized portionof the thermal boundary layer. KEY WORDS: continental rift volcanism; basanites; trachytes; assimilation; fractional crystallization; partial melting 相似文献
19.
New petrological and isotope–geochemical data are obtained for rocks from the South China Sea shelf zone (Thu, Cu-Lao Re, Hong Jo islands and Katuik–Ile des Cendres island group). These data are correlated with the available published data on the volcanic rocks of the terrestrial part of Vietnam and with data on the basaltoids of the South China Sea, Thailand, and the northern part of Hainan island. Despite the fact that the studied volcanic rocks belong to different structural zones—continental margin, shelf zone, marginal sea—their formation is related to the same type of rift volcanism. Owing to this, the different compositions of the primary magmatic melts indicate, first of all, the heterogeneity of the mantle sources. The uniformity of manifestations of volcanism over the entire studied territory within the age boundaries excludes any zoning at the transition from one structure to another. The leading role of mantle diapirism in the evolution of volcanism throughout the entire Indochina region is shown. It is proposed that the formation of alkaline series and “alkaline” trends of changes in their compositions are consequences of fractionation of melts which originated from an asthenosphere plume chamber. Meanwhile, the tholeiitic magma series are of reactionary origin and “tholeiitic” trends record the processes of mixing of melts generated during melting of the lithospheric mantle with those of a plume chamber. Individual samples show insignificant contamination of melts by crustal material. 相似文献