内蒙古满洲里地区中生代中基性火山岩成因及构造地质背景     

李长华  卫三元  陈贵海  翁义军  姜山  杨志亮 《国外铀金地质》2010,(1):19-24

内蒙古满洲里地区位于大兴安岭中生代火山岩带的中北段,晚侏罗世—早白垩世火山岩浆活动强烈,由于NE向切壳断裂长期活动,导致中基性火山岩沿断裂呈线状分布。就上侏罗统塔木兰沟组、上库力组中段及下白垩统伊列克得组中基性火山岩浆岩的组合、旋回和岩石地球化学等方面的特征,论证了该地区中生代中基性火山岩浆岩形成的构造地质背景和成因。因此,认为晚侏罗世中基性火山岩形成于板内拉张的构造环境,岩浆来源于上地幔,且有地壳物质混熔。  相似文献   

Process identification through rejection of model structures in a mid‐mountainous rural catchment: observations of rainfall–runoff response,geophysical conditions and model inter‐comparison     

Thomas Graeff  Erwin Zehe  Dominik Reusser  Erika Lück  Boris Schröder  Gerald Wenk  Hermann John  Axel Bronstert 《水文研究》2009,23(5):702-718

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新疆阿舍勒铜矿容矿围岩蚀变的低钠晕及其意义   总被引：2，自引：0，他引：2  

王登红 《矿物岩石》1995,15(1):18-25

新疆阿舍勒铜矿的容矿围岩是一个套双峰式海相火山岩组合，围岩蚀变由多期次叠加和变质作用的影响而变得极为复杂，以细碧质碉石的青盘岩化、石英角斑质火山碎屑岩的黄铁绢英财化为主要特点，更有意义的是：原岩属钠质火山岩系，但容矿围岩无论是酸性次火山岩还是基性火山岩，蚀后都具有低钠的共同特点，这对于同类矿床具有找矿意义，低钠晕是海底火山喷气过程中高温气液交代而成，可作为海底火山喷发矿床的一个成因和找矿标志。  相似文献   

新命名地层单位──三塘湖组   总被引：3，自引：0，他引：3  

孙巧缡 《新疆地质》1995,(3)

经首次全国地层多重划分对比研究，在东准噶尔地层小区建议使用新命名地层单位──三塘湖组，用以代表一套以陆相中酸性火山熔岩及火山碎屑岩为主的火山岩系（局部有基性火山岩）．时限大致为早二叠世．文中介绍了三塘湖组的定义、划分沿革。层型剖面及分布变化。  相似文献   

Minerogenesis of Shilu iron ores with special reference to Sm-Nd isotope geochemical characteristics of Shilu Group bimodal volcanic rocks in Hainan Island   总被引：1，自引：0，他引：1  

Fang Zhong  Xu Shijin  Chen Kerong  Xia Bangdong  Zhao Jianxin  M. T. McCulloch 《中国地球化学学报》1994,13(3):223-235

Presented in this paper are Sm-Nd isotope and major, trace and rare-earth element analyses of bimodal volcanic rocks of the Shilu Group and other stratigraphic units in northwestern Hainan Island, South China. It is shown that there are some N-MORB-type basalts (spilites) in the western part of the bimodal volcanic belt, in addition to some E-MORB-type and initial rift-type tholeiites (IRT) in the middle and eastern parts. Sm-Nd model ages of these basalts range from 545 Ma to 460 Ma. The other extremes of the bimodal volcanics are porphyritic quartz rhyolites. which are characteristic of crustal material source. Sm-Nd model ages of the rhyolites range from 1562 Ma to 1371 Ma. The bimodal volcanic rocks are almost distributed in rifts or faulted depressions, as well as in the Upper Paleozoic rift of Hainan Island. Tholeiites of the Shilu Group can be compared with Cenozoic basalts in the middle and southern parts of the Red Sea Rift Belt in petrology, elemental geochemistry and Sm-Nd isotope geology. Shilu iron ores are closely associated with N-MORB-type basalts located in the western bimodal volcanic belt. It is very interesting to note that the Shilu Fe-Co-Cu deposit can also be compared with Atlantis II Deep in the Red Sea Rift Belt. Therefore, the present authors believe that the Shilu deposit is a kind of hydrothermal deposit related to ocean volcanic belt, where the geotectonic setting belongs to initial extensional rifts in the oceanic crust. On the other hand, the largest Fe-Co-Cu ore deposit in China used to be influenced by Hercynian granites after mineralization, as is clearly observed on both ε Nd (T)-1/Nd and ε Nd (T)-¹⁴⁷Sm/¹⁴⁴Nd diagrams. This project was jointly funded by the National Natural Science Foundation of China and Research School of Earth Sciences. Australian National University, Australia.  相似文献   

华北板块南缘熊耳群火山岩研究的若干问题   总被引：3，自引：1，他引：3  

赵太平  屠森 《地质论评》1994,40(5):446-455

本文基于大量的区域地质学，岩石学和地球化学资料，陈述熊耳群的一些重要资料，阐明作用者对一些争议问题的看法，同时指出今后值得注意的一些研究内容。研究表明，熊耳群火山岩以橄榄玄粗岩，安粗岩和粗面英安岩，流纹岩为主，其次为高钾玄武安山岩，高钾安山岩，高钾英安岩；火山岩系列主要为橄榄玄粗岩系，其次为高钾钙碱性岩系；熊耳群是扩张应力背景的产物，但火山岩的地球化学特征表明，能耳期或熊耳期以前的陆下岩石圈地幔历  相似文献   

辽吉古裂谷中的双峰式火山岩及岩浆演化   总被引：1，自引：0，他引：1  

Li Shouvi 《吉林大学学报(地球科学版)》1994,(2)

辽吉古裂谷中发育双峰式火山岩。这些火山岩以酸性火山岩为主，间夹基性火山岩。它们都属碱性火山岩系列，与都城秋穗在碱性岩成因类型的讨论中划分出的三种成因类型对比，明显类似于跨越型，并与我国康滇古裂谷带碱性大山岩相近，初步认为形成辽吉古裂谷中双峰式火山岩的岩浆可能是上地慢派生岩浆在上升侵位过程中，受陆壳物质混染而成的壳慢混合岩浆。  相似文献   

Subsurface structure of the volcanic centre of the České Středohoří Mountains, North Bohemia, determined by geophysical surveys     

J. Mrlina  V. Cajz 《Studia Geophysica et Geodaetica》2006,50(1):75-88

Former geophysical surveys performed in the region of the volcanic centre of the České Stř edohoří Mts. in North Bohemia (the Ohře Rift zone) showed that anomalous volcanic bodies and features can be effectively identified within sedimentary environment. For this reason we carried out new geophysical measurements in the area of the main mafic intrusion of essexitic character. The target was the exact location and geometry of the intrusion and its relation to other components of the volcanic centre. We used gravity, magnetic, shallow seismic and electromagnetic techniques. The new gravity and magnetic data were tied to the old databases so that we could investigate the area as a whole complex. Electromagnetic measurements were applied in the area of the expected extent of the intrusion, and the seismic measurements in the central part of the intrusion. Based on all the data, mainly on gravity modelling, we delineated not only the surface and subsurface extent of the intrusion, but we also defined the hidden relief of the intrusion. It was found that the intrusion is formed by a single body that has a few protrusions, and not by a set of separate individual intrusions, as indicated by surface outcrops. However, the body of the intrusion is affected by a major fault that caused lithological differences on both sides (essexite/monzodiorite). In detail we show the depth of the debris cover and the thickness of the weathered zone in the central part of the essexite body. We also derived indications of tectonic elements in the area of the intrusion in the main structural/tectonic direction in the region. The results will be utilized to establish a 3D geological model of the whole volcanic centre. This investigation may serve as an example of non-seismic geophysical exploration applied to the study of volcanic centres surrounded by sedimentary rocks.  相似文献   

Upper Cretaceous Magmatic Series and Associated Mineralisation in the Carpathian – Balkan Orogen     

Tudor BERZA  Emil CONSTANTINESCU  SLerban–Nicolae VLAD 《Resource Geology》1998,48(4):291-306

Abstract: The Alpine Orogen contains in South East Europe, from the Carpathians to the Balkans–Srednogorie, an Upper Cretaceous, ore bearing igneous belt: a narrow elongated body which runs discontinously from the Apuseni Mountains in the North, to the western part of the South Carpathians (Banat) in Romania, and further South to the Carpathians of East Serbia and still further East to Srednogorie (Bulgaria). This results in a belt of 750 km/30–70 km, bending from N-S in Romania and Serbia, to E-W in Bulgaria. Using the well established century-old terminology of this region, we describe it in this paper as the Banatitic Magmatic and Metallogenetic Belt (BMMB). Plate tectonics models of the Alpine evolution of South East Europe involve Mesozoic rifting, spreading and thinning of the continental crust or formation of oceanic crust in the Tethian trench system, followed by Cretaceous-Tertiary convergence of Africa with Europe and opening of Eastern Mediterranean and Black Sea troughs. The result of successive stages in the collision process is not only the continental growth of Europe from N to S by the docking of several microplates formerly separated from it by Mesozoic palaeo–oceans, but also the rise of mountain belts by overthickening of the crust, followed by orogenic collapse, lateral extrusion, exhumation of metamorphic core complexes and post-collisional magmatism connected to strike-slip or normal faulting. The BMMB of the Carpathian-Balkan fold belt is rich in ore deposits related to plutons and/or volcano-plutonic complexes. Serbian authors have proposed an Upper Cretaceous Paleorift in Eastern Serbia for the Timok zone and some Bulgarian geologists have furnished geologic, petrological and metallogenetic support for this extensional model along the entire BMMB. The existence and importance of previous westwards directed subductions of Transilvanides (=South Apuseni = Mure? Zone) and Severin-Krajina palaeo–oceans, popular in Roman ian literature, seems to have little relevance to BMMB generation, but the well documented northwards directed subduction of the Vardar-Axios palaeo–ocean during Jurassic and Lower Cretaceous is a good pre-condition for the generation, during the Upper Cretaceous, of banatitic magmas in extensional regime, by mantle delamination due to slab break–off. Four magmatic trends are found: a tholeiitic trend, a calc-alkaline trend, a calc-alkaline high–K to shoshonitic trend and, restricted to East Srednogorie, a peralkaline trend. For acid intrusives, the typology is clearly I-type and magnetite–series, pointing to sources in the deep crust or the mantle; however, some high ⁸⁷Sr/⁸⁶Sr ratios recorded in banatites prove important contamination from the upper crust. The calc-alkaline hydrated magmas, most common for banatitic plutons, can be considered as recording three stages of evolution: more primitive – the monzodioritic, dioritic to granodioritic trend (S Apuseni, S Ba–nat, Timok, C and W Srednogorie); more evolved – the granodioritic-granitic trend (N Apuseni, N Banat, Ridanj–Krepoljin); the alkaline trend (E and W Srednogorie, western part of N Banat). Correlating the composition of the host plutons with the types of mineralisation, several environments can be found in the BMMB, function of timing of fluid separation (porphyry versus non-porphyry environments), depth of emplacement, size of intrusion and geology of intruded rock pile, biotite versus hornblende crystallisation, involving the evolution of K/Na ratio in fluids, i. e. development of potassic and phyllic alteration zones: a) non-porphyry environment with granodioritic to granitic magmas, plutonic level, skarn mineralisation prevails; b) porphyry environment with monzodioritic or dioritic to granodioritic magmas, subvolcanic–hypabyssal–plutonic level; porphyry Cu with skarn halo at hypabyssal-subvolcanic level; c) porphyry environment with monzodioritic or dioritic to granodioritic magmas, volcano-plutonic complexes with porphyry copper plus massive sulfide mineralisation at subvolcanic-volcanic level; d) non-porphyry environment with magmas of alkaline tendency, volcanic level, vein (“mesothermal” and “epithermal”) mineralisation.  相似文献   

赣东北-浙西北登山群和松木坞群中火山岩的地球化学   总被引：1，自引：0，他引：1  

赵风清  金文山  甘晓春  孙大中 《华北地质》1997,(2)

赣东北－浙西北新元古代登山群和松木坞群主要由板岩、砂岩、流纹岩、流纹质英安岩、玄武岩和玄武质安山岩组成，火山岩的Ｒｂ－Ｓｒ和Ｓｍ－Ｎｄ等时线年龄以及流纹岩中单颗粒锆石Ｕ－Ｐｂ年龄显示其成岩时代为８００－９００Ｍａ。登山群和松木坞群火山岩呈双峰式产出，其中镁铁质火山岩在化学成分上呈现出演化程度较高的特点（ｅｖｏｌｖｅｄｎａｔｕｒｅ），高强场元素（Ｔｉ、Ｎｂ、Ｔａ等）相对于碱土元素未发生明显亏损，反映其形成于大陆裂谷环境。镁铁质火山岩具低的Ｎｄ值，表明其来源于弱亏损的地幔源，也可能遭受一定程度的地壳混染作用改造。酸性火山岩在化学成分上表现出Ｓ型火山岩特点，但其变化于－１．９～＋２８，指示其为先存的长英质基底分熔作用的产物，但存在强烈的地慢物质添加作用。  相似文献