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系统研究了西藏冈底斯带石炭纪—二叠纪火山岩的时空分布、岩相学、元素及Sr、Nd、Pb 同位素地球化学和构造环境、源区性质,并与喜马拉雅带二叠纪火山岩进行了对比研究。冈底斯带石炭纪—二叠纪火山岩近东西向集中分布在冈底斯构造带中北部地带,空间上从东至西火山活动的强度和规模渐次减小,时间上从早至晚火山活动的强度和规模总体由弱到强。冈底斯带石炭纪—二叠纪火山岩形成于活动大陆边缘的岛弧构造环境,从早到晚岛弧造山作用经历了初始岛弧→早期岛弧→成熟岛弧的发展演变过程,火山岩浆来源于富集型地幔部分熔融作用,原始岩浆在形成和演化的过程中有俯冲洋壳及随带的深海沉积物和再循环进人地慢的地壳物质组分的强烈混染,明显不同于受地壳物质组分强烈混染的喜马拉雅带二叠纪陆缘裂陷型火山岩。综合研究冈底斯带及其邻区近年来的最新调查与研究成果,从北向南拟建了石炭纪—二叠纪冈底斯岛弧→雅鲁藏布江弧后裂谷盆地→喜马拉雅陆缘裂陷盆地的弧盆系时空结构演化模式,探讨了冈瓦纳大陆北缘石炭纪—二叠纪活动大陆边缘的岛弧造山作用与青藏高原古特提斯演化的耦合关系及其动力学机制,讨论了冈底斯带松多乡榴辉岩的形成过程。 相似文献
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西藏冈底斯带石炭纪—二叠纪岛弧造山作用:火山岩和地球化学证据 总被引:5,自引:1,他引:4
系统地研究了西藏冈底斯带石炭纪-二叠纪火山岩的时空分布,岩相学,元素及Sr、Nd、Pb同位素地球化学,以及构造环境、源区性质,并与喜马拉雅带二叠纪火山岩进行了对比研究.冈底斯带石炭纪-二叠纪火山岩近东西向集中分布在冈底斯构造带的中北部,空间上从东至西火山活动的强度和规模渐次减小,时间上从早至晚火山活动的强度和规模总体由弱到强.冈底斯带石炭纪-二叠纪火山岩形成于活动大陆边缘的岛弧构造环境,从早到晚岛弧造山作用经历了初始岛弧→早期岛弧→成熟岛弧的发展演变过程,火山岩浆来源于富集型地幔的部分熔融物质,原始岩浆在形成和演化的过程中有俯冲洋壳、随带的深海沉积物和再循环进入地慢的地壳物质组分的强烈混染,明显不同于受地壳物质组分强烈混染的喜马拉雅带二叠纪陆缘裂陷型火山岩.综合分析冈底斯带及其邻区近年来的最新调查与研究成果,从北向南拟建了石炭纪-二叠纪冈底斯岛弧→雅鲁藏布江弧后裂谷盆地→喜马拉雅陆缘裂陷盆地的弧盆系时空结构演化模式,探讨了冈瓦纳大陆北缘石炭纪-二叠纪活动大陆边缘的岛弧造山作用与青藏高原古特提斯演化的耦合关系及其动力学机制,讨论了冈底斯带松多乡榴辉岩的形成过程. 相似文献
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中国东南部晚中生代-新生代玄武岩与壳幔作用 总被引:46,自引:2,他引:44
中国东南部的火山活动在早中生代时期仅有很小规模,晚中生代最早的、较大规模的岩浆活动始于中侏罗世早期,至早白垩世是火山岩浆活动的鼎盛期,在近100个Ma的时间内形成了大面积分布的晚中生代火山-侵入岩,而在新生代则以面积较小的玄武岩浆喷出活动为主,局限分布于沿海一带。以晚中生代湘南、赣南和闽西南的近EW向火山岩带和浙、闽沿海地区的近NNE向火山岩带,以及新生代近NNE向火山岩带为研究对象,对这些火山岩的地球化学特征对比研究,结合时空分布,讨论了它们的起源及其与壳幔相互作用的关系,以及它们形成的构造环境,其结果显示,EW向晚中生代火山岩带(180~170Ma)的西段玄武岩独立产出,且明显属碱性系列;而中段和东段玄武岩和流纹岩伴生,其中的玄武岩均为亚碱性系列的拉斑玄武岩。它们形成于板内拉张构造环境,是中国东南部特提斯构造域向太平洋构造域转换、晚中生代大规模岩浆作用的序幕。研究表明,该火山岩带自西向东表现出不同程度的壳幔相互作用,玄武岩在成岩过程中有少量陆壳组分加入。NNE向晚中生代火山岩带(130~90Ma)主要为流纹质岩石,安山岩和玄武岩很少。即使是双峰式火山岩也以酸性岩为主,玄武岩仅占全部火山岩体积的30%以下。其中的玄武岩主要属钙碱性系列,少数属拉斑系列。它们形成于火山弧构造环境,是中国东南部受太平洋构造域影响发生大规模火山岩浆作用的主旋律。其中玄武岩岩浆成分受到了较高程度的陆壳物质混染,同时代的中性火山岩是由底侵的玄武岩岩浆和陆壳物质来源的酸性岩浆发生岩浆混合作用而形成的,反映了强烈的壳幔相互作用。NNE向新生代火山岩带,分布在浙闽沿海,以碱性系列玄武岩为主,均含幔源包体,并受NNE向大陆边缘断裂构造的控制。它们形成于板内裂谷环境,是中国东南沿海由晚中生代火山弧构造环境转换为新生代板内裂谷环境的标志,起源于软流圈地幔,并有EMII岩石圈地幔的混合组分,但基本没有受到陆壳物质的混染。 相似文献
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中基性火山岩成分的ATK图解与构造环境 总被引:14,自引:0,他引:14
本文主要讨论中基性火山岩与构造环境的关系.岩浆作用与构造作用有内在的联系.事实证明,岩浆岩的特点可以判定构造环境的性质.中基性火山岩广泛分布于不同的构造单元.基于191个采自不同构造环境的中基性火山岩的全岩化学成分,利用 AI_2O_3—Tio_2×10—K_2O×10(氧化物质量百分数)作成ATK三角图解,可以发现大洋的、大陆的、岛弧或造山带的中基性火山岩的成分点分别集中成三个区.又将不同构造环境其它典型的中基性火山岩在ATK图上投点验证,对上述三种构造环境有比较好的区别效果. 相似文献
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班公湖—怒江缝合带作为青藏高原的主缝合带之一,其研究对班公湖—怒江特提斯洋的演化和造山带的研究具有重要意义。本文首次对该缝合带西段昂龙岗日地区沙木罗组火山岩进行系统的野外地质调查,并结合全岩地球化学分析,探讨火山岩的成因、构造环境及地球动力学背景。沙木罗组火山岩从底部至顶部共划分出3个火山喷发亚旋回,岩性为安山岩和安山质火山碎屑岩。地球化学分析表明3个亚旋回的火山岩均为钙碱性系列,LREE和不相容元素相对富集,而相对亏损HREE和Nb、P、Ti等高场强元素,具岛弧火山岩的地球化学特征。第一喷发亚旋回火山岩具典型的高镁安山岩特征,暗示是大洋板块俯冲作用的产物,从第一喷发亚旋回至第三喷发亚旋回构造环境由大洋岛弧过渡为大陆边缘弧,火山岩形成于大洋地壳向大陆地壳之下俯冲的背景,且洋壳初始俯冲的时间不晚于晚侏罗世末。岩浆起源于受俯冲板片流体交代的亏损地幔—弱富集地幔,来自俯冲板片的流体上升,引起上覆地幔楔物质发生部分熔融,形成幔源岩浆,在密度差的作用下幔源岩浆向上运移,底侵下地壳,引发下地壳物质发生部分熔融,并与之发生混合作用,形成了研究区火山岩的母岩浆,在岩浆源区或岩浆上升过程中遭受了地壳物质的混染作用,且岩浆演化以部分熔融作用为主,结合区域大地构造背景认为沙木罗组火山岩的形成与班公湖—怒江特提斯洋盆向北向羌塘地块之下俯冲关系密切,沙木罗组角度不整合覆盖在木嘎岗日岩群之上不能作为班公湖—怒江特提斯洋盘闭合的证据。 相似文献
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新疆巴里坤红井子地区石炭纪火山岩及其大地构造环境分析 总被引:7,自引:1,他引:7
通过对红井子地区石炭纪人山岩岩石学、岩石化学、稀土元素、微量元素等特征分析;认为该区石炭纪火山岩具岛弧火山岩和裂谷火山岩两种不同属性,其形成构造环境也存在明显差异。该区火山岩分别形成于三个不同的构造环境,即准噶尔岛弧带、博格达裂谷带及喀尔力克岛弧带。 相似文献
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中祁连北缘奥陶纪岩浆弧地层 总被引:4,自引:1,他引:3
奥陶纪是祁连山加里东期构造带俯冲-碰撞格局奠定时期。通过区域填图和沉积环境分析及岩石地球化学研究,系统分析了沉积及岩浆作用过程, 认为在肃北县野牛台地区的晚奥陶世地层是中祁连地块西段北缘岩浆弧的组成部分。该地层为一套浅变质的基性-中性火山岩、碎屑岩及少量含化石灰岩组合,由下部海相安静深水还原环境向上部近岸水下河道-滨岸过渡,上部夹有冲积扇-河流相沉积,物源区为近源的岩浆弧和古老结晶基底,反映出自下向上水体变浅、盆地收缩的进积序列。其中的火山岩自下向上由基性向中性转变、由岛弧拉斑-钠质碱性玄武岩向钾质碱性玄武岩过渡,反映出与挤压构造环境相关的成熟岩浆弧火山岩组合特点。晚奥陶世岩浆弧地层、侵入岩与其北的同期构造蛇绿混杂岩带的相伴产出,暗示北祁连西段该时期洋壳在北部向北俯冲的同时,南部还向南俯冲并形成汇聚大陆边缘。 相似文献
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Volcanogenic massive sulfide (VMS) deposits are one of the most important base–metal deposit types in China, are major sources of Zn, Cu, Pb, Ag, and Au, and significant sources for Co, Sn, Se, Mn, Cd, In, Bi, Te, Ga, and Ge. They typically occur at or near the seafloor in submarine volcanic environments, and are classified according to base metal content, gold content, or host-rock lithology. The spatial distribution of the deposits is determined by the different geological settings, with VMS deposits concentrated in the Sanjiang, Qilian and Altai metallogenic provinces. VMS deposits in China range in age from Archaean to Mesozoic, and have three epochs of large scale mineralization of Proterozoic, Palaeozoic and Mesozoic. Only Hongtoushan Cu–Zn deposit has been recognized so far in an Archaean greenstone belt, at the north margin of the North China Platform. The Proterozoic era was one of the important metallogenic periods for the formation of VMS mineralization, mainly in the Early and Late Proterozoic periods. VMS-type Cu–Fe and Cu–Zn deposits related to submarine volcanic-sedimentary rocks, were formed in the Aulacogens and rifts in the interior and along both sides of the North China Platform, and the southern margin of the Yangtze Platform. More than half of the VMS deposits formed in the Palaeozoic, and three important VMS–metallogenic provinces have been recognized, they are Altai–Junggar (i.e. Ashele Cu–Pb–Zn deposit), Sanjiang (i.e. Laochang Zn–Pb–Cu deposit) and Qilian (i.e. Baiyinchang Cu–Zn deposit). The Triassic is a significant tectonic and metallogenic period for China. In the Sanjiang Palaeo–Tethys, the Late Triassic Yidun arc is the latest arc–basin system, in which the Gacun-style VMS Pb–Zn–Cu–Ag deposits developed in the intra-arc rift basins, with bimodal volcanic suites at the northern segment of the arc. 相似文献
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Spatial-temporal Frame,Evolution and Mineralization of the Northern Qilian Metallogenic Province 总被引:1,自引:0,他引:1
Sun Haitian Wu Jieren Li Jinping Institute of Mineral Deposits Chinese Academy of Geological Sciences Beijing Xi''an Institute of Geology Mineral Resources Chinese Academy of Geological Sciences Xi''an Shaanxi Institute of Mineral Deposits Chinese Academy of Geological Sciences Beijing 《《地质学报》英文版》1997,71(2):204-216
Four metallogenic epochs occurred in different tectonic environments during theevolution of the Northern Qilian metallogenic province through the geological time. The Mid-dle Proterozoic metallogenic epoch witnessed the tectonic environment of crustal breakupcaused by mantle diapirism, in which ultramafic-mafic rocks were intruded along beep faultbelts and the superlarge Jinchuan magmatic Cu-Ni sulphide deposit was formed. In theMiddle-Late Proterozoic metallogenic epoch the crust was further broken to form anintracontinental rift, in which the Chenjiamiao style massive Cu-Fe sulphide deposits hosted bybasic volcanic tuff were formed in the lower volcano-sedimentary sequence, while the largesedex type Jingtieshan style Fe-Cu deposits were formed within the upper abyssal carbon-richargillaceous sedimentary sequence. The Early Palaeozoic saw the aulacogen environment, with-in which the Baiyinchang style superlarge massive base and precious metal sulphide depositshosted by quartz keratophyric tuff were formed in the Middle-Late Cambrian rifted island arcand the massive Cu-Zn sulphide deposits and magmatic chromite deposits associated with theophiolite suite were formed in the Early-Middle Ordovician, and the Honggou style massiveCu-Fe sulphide deposits hosted by spilite were formed in the Late Ordovician back-arc basinenvironment. In the Late Palaeozoic-Meso-Cenozoic, the metallogenic province went into anintracontinental orogenic stage characterized by compressive tectonic environment, in whichthere occurred carbonate-quartz vein type and tectono-alteration gold deposits associated withductile-shear structures. 相似文献
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Epithermal deposits in North Xinjiang, NW China 总被引:23,自引:0,他引:23
Y. J. Chen F. Pirajno G. Wu J. P. Qi X. L. Xiong 《International Journal of Earth Sciences》2012,101(4):889-917
The North Xinjiang region (NW China) is an important part of the Central Asia Orogenic Belt, situated at the junction of Siberia, Tarim and Kazakhstan plates. It is an area characterized by multiple stages of Phanerozoic continental growth, during which several porphyry and epithermal systems were formed. The relationship of these mineral systems to the geodynamic evolution of the region has not yet been well understood. In this paper, we list the main geological characteristics of 21 significant epithermal precious and base metal deposits in North Xinjiang, and classify them into high-sulfidation and low-sulfidation styles, with the latter being predominant. We have selected seven epithermal deposits representing different styles formed under different tectonic regimes and discuss their geology and geochemistry in some detail. The deposit-scale geology and geochemistry of epithermal systems in North Xinjiang are essentially similar to those in other parts of the world. All epithermal deposits in North Xinjiang are hosted in volcanic rocks with ages ranging from Devonian to Triassic, with the Early Carboniferous volcanic sequences being the most important, followed by the Permian and Triassic. The Devonian–Early Carboniferous host rocks belong to the calc-alkaline series that developed in pre-collisional arc-back-arc basin systems; whereas the Permian–Triassic host volcanic rocks of shoshonite series formed in post-subduction regimes. Available isotopic ages of these epithermal systems cluster in two periods: Early Carboniferous (>320?Ma) and Late Carboniferous–Triassic (320–220?Ma), reflecting two metallogenic episodes that occurred during subduction-related accretion and post-subduction collision regimes, respectively. Accordingly, three groups of epithermal deposits in North Xinjiang can be recognized as (1) pre-collisional deposits without or with negligible collisional-related modification, (2) deposits formed in collision regime and (3) ore systems strongly overprinted by fluid flow in post-subduction collision regime. 相似文献
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中国一些主要金属矿床类型及其时空分布规律问题 总被引:3,自引:2,他引:3
中国已发现了许多规模较大的金属矿床,其中以铁-铜-镍、锌-铅、锰-铝和钨-锡-钼十种四组矿床最具特色。它们分别产于前寒武纪古陆和显生宙的地槽褶皱系中。比较发育的成矿期是太古一早元古代、中元古代、晚古生代和中生代。根据许多矿床分别产于以海相喷出沉积为主和喷出、侵入均极发育的不同地质构造环境中,说明一些金属矿床的形成是严格地受地质构造环境控制的。在地质构造演化历史过程中,类似的地质构造环境虽然可以形成近似的矿床,但这仅是少数矿床类型,总的说成矿作用是由简而繁,显生宙比隐生宙出现更多的新矿床类型。因此中国一些金属矿床的时空分布是明显地具有一定的规律性的。 相似文献
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The northwestern corner of New South Wales consists of the paratectonic Late Proterozoic to Early Cambrian Adelaide Fold Belt and older rocks, which represent basement inliers in this fold belt. The rest of the state is built by the composite Late Proterozoic to Triassic Tasman Fold Belt System or Tasmanides.In New South Wales the Tasman Fold Belt System includes three fold belts: (1) the Late Proterozoic to Early Palaeozoic Kanmantoo Fold Belt; (2) the Early to Middle Palaeozoic Lachlan Fold Belt; and (3) the Early Palaeozoic to Triassic New England Fold Belt. The Late Palaeozoic to Triassic Sydney—Bowen Basin represents the foredeep of the New England Fold Belt.The Tasmanides developed in an active plate margin setting through the interaction of East Gondwanaland with the Ur-(Precambrian) and Palaeo-Pacific plates. The Tasmanides are characterized by a polyphase terrane accretion history: during the Late Proterozoic to Triassic the Tasmanides experienced three major episodes of terrane dispersal (Late Proterozoic—Cambrian, Silurian—Devonian, and Late Carboniferous—Permian) and six terrane accretionary events (Cambrian—Ordovician, Late Ordovician—Early Silurian, Middle Devonian, Carboniferous, Middle-Late Permian, and Triassic). The individual fold belts resulted from one or more accretionary events.The Kanmantoo Fold Belt has a very restricted range of mineralization and is characterized by stratabound copper deposits, whereas the Lachlan and New England Fold Belts have a great variety of metallogenic environments associated with both accretionary and dispersive tectonic episodes.The earliest deposits in the Lachlan Fold Belt are stratabound Cu and Mn deposits of Cambro-Ordovician age. In the Ordovician Cu deposits were formed in a volcanic are. In the Silurian porphyry Cu---Au deposits were formed during the late stages of development of the same volcanic are. Post-accretionary porphyry Cu---Au deposits were emplaced in the Early Devonian on the sites of the accreted volcanic arc. In the Middle to Late Silurian and Early Devonian a large number of base metal deposits originated as a result of rifting and felsic volcanism. In the Silurian and Early Devonian numerous Sn---W, Mo and base metal—Au granitoid related deposits were formed. A younger group of Mo---W and Sn deposits resulted from Early—Middle Carboniferous granitic plutonism in the eastern part of the Lachlan Fold Belt. In the Middle Devonian epithermal Au was associated with rifting and bimodal volcanism in the extreme eastern part of the Lachlan Fold Belt.In the New England Fold Belt pre-accretionary deposits comprise stratabound Cu and Mn deposits (pre-Early Devonian): stratabound Cu and Mn and ?exhalite Au deposits (Late Devonian to Early Carboniferous); and stratabound Cu, exhalite Au, and quartz—magnetite (?Late Carboniferous). S-type magmatism in the Late Carboniferous—Early Permian was responsible for vein Sn and possibly Au---As---Ag---Sb deposits. Volcanogenic base metals, when compared with the Lachlan Fold Belt, are only poorly represented, and were formed in the Early Permian. The metallogenesis of the New England Fold Belt is dominated by granitoid-related mineralization of Middle Permian to Triassic age, including Sn---W, Mo---W, and Au---Ag---As Sb deposits. Also in the Middle Permian epithermal Au---Ag mineralization was developed. During the above period of post-orogenic magmatism sizeable metahydrothermal Sb---Au(---W) and Au deposits were emplaced in major fracture and shear zones in central and eastern New England. The occurrence of antimony provides an additional distinguishing factor between the New England and Lachlan Fold Belts. In the New England Fold Belt antimony deposits are abundant whereas they are rare in the Lachlan Fold Belt. This may suggest fundamental crustal differences. 相似文献
16.
北祁连山西段早元古代变质火山岩的地球化学特征及其构造背景 总被引:12,自引:0,他引:12
产于北大河群的早元古代火山岩是北祁连山西段最主要的三期火山岩之一,其地球化学特征表明,该期火山岩的原岩为具有双峰式组合的拉斑玄武岩和中酸笥凝灰岩。两者具有完全不同的稀土分布型式,前者以极低的富集轻稀土为特征,而后者以强烈富集轻稀土的特征;基性火山岩的微量元素分布曲线指示了其形成了裂陷槽环境。结合Nd同位素特征以及区域2得出本区早元古代变质火山岩形成于裂陷槽环境。 相似文献
17.
QIN Dexian LIU ChunxueKunming University of Science Engineering Kunming Yunnan 《《地质学报》英文版》2000,74(3):466-472
The Kangdian axis basement can be divided into two tectonic layers. The lower tectonic layer is the crystalline basement which is made up of the Archaean Dibadu Formation and early Proterozoic Dahongshan Group. The former is a kata-metamorphic basic volcano-sedimentary formation of the old geosyncline (old continental nucleus), and the latter is a medium-grade metamorphosed alkali-rich basic volcanic (emanation)-sedimentary formation of the Yuanjiang-Dahongshan marginal rift. They are in disconformable contact. The upper tectonic layer is the folded basement, and made up of the middle-late Proterozoic Kunyang Group. It is the result of Dongchuan-Yuanjiang intercontinental rifting with discordant contract with the underlying and overlying strata. Along with the evolution of Proterozoic from early to late, four types of emanation-sedimentary deposits in the Kangdian axis rift were formed in turn: (1) emanation-sedimentary iron-copper-gold deposits related to basic volcanic rocks in the Yuanmou-Dahongshan 相似文献
18.
西南三江造山带火山岩—构造组合及其意义 总被引:67,自引:0,他引:67
岩石构造组合是指表示板块边界或特定的板块内部环境特征的岩石结合。中国西南“三江”造山带的火山岩可划分为五种火山岩-构造组合:洋脊型/准洋脊型组合,岛弧及陆缘弧组合,碰撞型组合,碰撞后组合及陆内拉张型组合。阐述了各种火山岩-构造组合的特点及构造含义。对在造山带火山岩岩石-构造组合分析中经常遇到的一些问题,如“构造岩片”研究方法、地球化学判别图解的使用条件、准洋脊型火山型组合的构造含义、蛇绿岩带-火山弧的成对性、岩浆作用的同步性和滞后性、以及火山岩的深部“探针”作用等问题进行了讨论。 相似文献
19.
东昆仑闹仓坚沟组流纹质凝灰岩锆石U-Pb年龄及其地质意义 总被引:1,自引:0,他引:1
应用激光烧蚀多接收器电感耦合等离子体质谱(LA-MC-ICP MS)方法对东昆仑秀沟盆地闹仓坚沟组火山岩样品进行了锆石U-Pb定年研究。流纹质凝灰岩(DG25-4)中锆石的阴极发光图像具有振荡环带结构,属于典型的岩浆锆石。15个岩浆锆石206Pb/238U表面年龄集中在239~249 Ma之间,206Pb/238U加权平均值为243.5 ± 1.7 Ma,它记录了火山岩的形成年龄,说明该地区闹仓坚沟组形成于中三叠世早期。这一研究还在闹仓坚沟组火山岩中发现了早古生代和元古宇继承锆石,提供了昆南地体可能存在元古宇基底的信息。 相似文献
20.
我国海相火山铁铜矿床的成因类型及其某些成矿特征的讨论 总被引:2,自引:0,他引:2
建国以来,我国在火山矿床的地质勘探和研究工作方面都积累了丰富的资料,并且有不少关于矿床成因和类型划分方面的叙述。作者近几年来有机会接触到一些这方面的工作。这里试将海底火山活动的重要产物之一——海相火山铁铜矿床作一个比较系统的成因类型的划分。限于水平,不当之处请批评指正。 相似文献