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1.
板内造山作用与成矿 总被引:14,自引:3,他引:14
中国大陆广泛分布强烈的板内变形和造山作用,传统的板块构造理论常常将其解释为板块边缘汇聚力的远程效应。然而,中国大陆的板内造山作用与汇聚板块边界之间缺乏可预期的动力学联系,不能简单地解释为大陆碰撞或板块俯冲的远程效应。本文提出另一种可供选择的解释,认为板内变形主要取决于岩石圈不均一性。相邻的板块拼合在一起形成统一板块之后,区域地质演化进入板内阶段。板块碰撞导致的岩石圈不均一性和重力不稳定性可以触发强烈的板内变形甚至造山作用,其延迟时间的长短取决于岩石圈不稳定性的程度和地球深部的热扰动。与板缘造山带相比,板内造山作用缺少板块俯冲-碰撞过程,板内造山带的演化历史相对简单,通常是以岩石圈拆沉作用开始,以地壳的垂向增生为特征,最后以岩石圈拆沉作用结束或形成重力不稳定岩石圈。因此,板内造山作用一般沿着古造山带发育。古造山带岩石圈结构低成熟度的特点不仅是岩石圈不稳定性的主要原因之一,而且由于挥发分和含矿元素的富集在活化过程中具有很强的成矿潜力。板内造山带的成矿作用依赖于深埋在岩石圈-软流圈系统不同深度水平上含矿流体的突然释放,主要发生在造山作用初始阶段和造山后伸展阶段。 相似文献
2.
初论板内造山带 总被引:55,自引:10,他引:45
讨论了关于板内造山带含义的不同认识。指出板内造山带是一种特殊类型的造山带,而不是板缘造山带或板间造山带持续发展的结果。简要介绍分别发育在4 个大陆的不同时代的板内造山带,总结板内造山带在区域大地构造位置、造山带构造格局、构造变形与变质作用、岩浆活动与沉积作用、造山带构造演化等方面与板缘造山带的差异。板内造山带形成于相对较老且强硬的岩石圈板块内部,造山带内部构造单元不具有平行于造山带走向分布的特征,即不具有线状构造格局,构造变形具有地台基底乃至整个地壳卷入的厚皮构造性质,同造山区域变质作用微弱,同造山岩浆活动、沉积作用和构造变形均无极性演化趋势。岩石圈拆沉作用(delamination) 可较好地解释板内造山带的火山活动特征。尽管板块间相互作用( 俯冲或碰撞)所产生的水平挤压应力似乎更易于阐明板内造山带的收缩变形特征;但是,板块间相互碰撞或俯冲产生的边界应力可否有效地被远程传递,尚有待进一步研究和解决。将板块间相互作用的水平应力场与岩石圈纵向物质与能量调整( 重力、热力等) 因素作综合考虑,可能是解决板内造山带造山作用机制的有效途径 相似文献
3.
板块构造学说的大陆碰撞作用和槽台学说的地槽回返作用不能解释秦岭-大别山造山带的成因机制。壳幔拆离构造导致陆内A型俯冲是陆内型造山作用的成因机制。 相似文献
4.
造山带研究一直是地质科学的中心课题,数百年来建立了许多造山理论与研究方法,从地槽回返造山到板块俯冲碰撞造山。随着深部地质和大陆岩石圈研究的进展,80年代发现了陆内强烈变形和水平位移,提出了薄皮拆离滑脱构造、逆冲推覆构造、鳄鱼构造、韧性剪切带、多种伸展构造等等,表明大陆岩石圈并非简单刚性块体,而是纵横向极不均一,具有 相似文献
5.
在全球大陆范围内,广泛分布的造山带纪录了板块汇聚的历史和碰撞造山的过程,因此,造山带的研究一直是地球科学经久不衰的重要领域。研究表明,世界上许多造山带是长期活动(300Ma)的复合造山带,活动域的宽度可超过1000km,并具有造山前的热结构,是大陆生长的最好见证。近10年来,全球造山带的研究已摆脱传统地质学和经典板块观念的束缚,面临一个新的起点,即由单一造山带向复合造山带研究转轨,由造山类型、造山作用向造山动力学研究聚焦。复合造山带长期活动的原因、大陆增生机制、造山带的流变学结构和造山热对造山作用的控制等已成为当前大陆复合造山带研究的关键科学问题,复合造山动力学已成为当今地球科学前沿——大陆动力学研究的重要内容。中国中央造山带位于北中国板块与南中国板块之间,是中国大陆上一条十分醒目而又极其重要的巨型(长5000km)构造带。中央造山带是经历了大致600Ma的活动历史,泥盆纪和三叠纪的两次碰撞造山以及白垩纪以来的陆内造山过程而构筑成的典型"复合造山带"。在全球复合造山带中,中国中央巨型造山带具有结构复杂性、活动长期性和非原地型,造山过程多期性以及造山带拼贴与大陆增生方式特殊性的特点,特别是世界最大规模的中央超高压变质带及其两期超高压变质作用的发现,揭示了中央造山带的形成还经历了板块汇聚边界洋壳/陆壳深俯冲至100km以上的地幔深处的两次壮观地质事件,使中央造山带成为全球造山带中最为精彩和不可多得的典型,与青藏高原一样,被国内外地学家们誉为当今中国地学研究的"瑰宝"。中国中央巨型复合造山带可以作为研究复合造山过程与复合造山动力学的重大地学问题的范例,重要的核心科学问题是:中国中央巨型复合造山带的早古生代和三叠纪陆块汇聚、碰撞造山过程以及中新生代陆内造山与周缘盆地互馈;两期高压-超高压变质带的时空关系、形成条件和洋壳/陆壳的俯冲-深俯冲与折返动力学机制;揭示和探讨中国中央复合造山带的长期活动性,造山作用的多期性和叠置性,造山热结构以及复合造山过程;洋壳/陆壳深俯冲、复合造山与大陆增生理论的创新。此外,中央复合造山带的研究对于金属矿产资源的开拓、周缘中新生代盆地含油气资源的战略前景以及现今南北中国的气候、环境、人文、地理、生态和灾害的制约提供新的科学依据与动力学背景。 相似文献
6.
板块构造学说的大陆碰撞作用和槽台学说的地槽回返作用不能解释秦岭-大别山造山带的成因机制。壳幔拆离构造导致陆内A型俯冲是陆内型造山作用的成因机制。 相似文献
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8.
中国东部中生代造山带不同于陆缘俯冲作用和陆间大陆碰撞造山带,也不是陆缘和陆间碰撞造山带发展演化的某一个特定阶段的产物。它是一种由深部软流层上涌造山作用形成的一个新类型的造山带,又称东亚型造山作用。它的造山作用过程是:(1)早中生代(230~180Ma)的前和初始造山幕,深部软流层物质上涌和底侵作用导致冷、强的大陆岩石圈地幔线状破裂与局部拆沉;(2)中、晚侏罗世(180~140Ma)主造山幕,软流层大规模上涌并沿着岩石圈底部壳-幔边界横向侵入和伸展,使垂向差异运动转变为水平挤压作用,结果地壳表层发生大规模的褶皱构造变形和推覆构造,使陆壳加厚形成山根,岩石圈根发生部分拆沉;(3)白垩纪(140~65Ma)的晚期造山幕,加厚的陆壳山根与岩石圈根的大规模拆沉,岩石圈进入全新的从挤压向伸展转变和巨大减薄阶段,软流层大规模上涌成山。 相似文献
9.
盐源-丽江构造带处于扬子大陆与青藏特提斯的结合部,其造山时代的确定,不仅对正确认识该区的构造性质与发展历史及指导矿产勘查有重要意义,而且有助于判定印度-欧亚板块碰撞事件对欧亚板块内部影响的广度和深度。通过系列构造-成矿测年,结合地层、构造、岩浆活动、成矿作用的综合研究,证实盐源-丽江构造带是新生代陆内造山带,而不是印支造山带。其造山作用主要发生于中-晚始新世之交的喜马拉雅期,与欧亚-印度板块碰撞触发的扬子大陆岩石圈向青藏特提斯岩石圈俯冲有关,表现为地壳多层次拆离、剪切和沉积盖层的滑脱、褶皱和推覆,属陆内造山,系印度-欧亚板块碰撞事件的一种远程效应。 相似文献
10.
《地学前缘》2016,(6):34-41
从地壳对接消减带与地壳叠接消减带的概念出发,讨论了板块构造岩浆旋回,俯冲增生造山和陆-陆碰撞造山分别对应于板块会聚构造的第一次和第二次造山作用;讨论了俯冲增生造山的结构样式,主要由俯冲增生杂岩和岩浆弧构成;陆-陆碰撞造山指相意义的S型花岗岩类的鉴别标志,以及指示板块构造岩浆旋回结束的后造山过碱性A型花岗岩类的识别标志。最后主要基于中国侵入岩大地构造图(1∶250万)及其说明书的成果,简要地讨论了中国三个克拉通性质的陆块区以及与西伯利亚克拉通、印度克拉通之间的大洋区的洋陆转换形成的俯冲增生造山和随后的陆-陆碰撞造山,认为:(1)塔里木克拉通西北缘与西伯利亚克拉通西南缘陆-陆碰撞可能发生在石炭纪,早二叠世可能完成;(2)中国三个克拉通的陆-陆碰撞可能分别发生在早—中三叠世,晚三叠世完成拼合,形成中国主体大陆;(3)早白垩世晚期—晚白垩世完成中国主体大陆与西伯利亚大陆的最终拼合;(4)新生代中国大陆与印度大陆拼合,碰撞造山仍在进行。 相似文献
11.
单业华 《大地构造与成矿学》1997,21(1):9-15
回顾了造山运动概念的历史。尽管一直存在着理解上的分歧,但是大多数地质学家对造山运动都接受其构造成因的定义,而不是地貌成因的定义。造山运动是地壳演化活动阶段的反映。笔者将地洼型造山运动定义为在后地台构造-岩浆活化过程中各种地质作用的总称,并且依据壳体运动的方式和力源,可以将地洼型造山运动划分为离散式、汇聚式和混合式三类。 相似文献
12.
全球早古生代造山带(Ⅰ):碰撞型造山 总被引:6,自引:0,他引:6
自新元古代罗迪尼亚超大陆裂解以来,早古生代是板块构造运动活跃时期,具有板块运动速度较快、构造格局不稳定、块体之间相互作用复杂多变等特征,造山带演化极其复杂,导致全球早古生代古大陆重建现今仍较模糊。特别是,早古生代末450~400 Ma存在全球性准同时的造山运动,已经出现俯冲增生、碰撞、陆内3种类型的全球尺度造山带。本文侧重论述全球早古生代碰撞类型造山带的特征,总结典型碰撞造山带最新的年代学、变质、变形和岩浆作用特征及其时空分布。早古生代全球碰撞型造山带主要分布在南半球的泛非造山带和北半球的加里东期造山带,分别与南方冈瓦纳大陆和北方劳俄古陆的初步集结密切相关,早古生代碰撞造山主要体现在大陆块之间的碰撞作用为特征。这些早古生代碰撞造山带具有近似的碰撞年龄,大致相同的演化过程。其中,南方大陆主体碰撞完成于540 Ma,而北方大陆主体集结完成于420 Ma,从全球构造意义上可能意味着全球一个420~400 Ma的超大陆初步形成。 相似文献
13.
黔南坳陷是扬子克拉通内由3组不同方向的断裂围限的一个相对稳定的区块。分4个阶段(新元古代,早古生代,晚古生代—三叠纪,侏罗纪—古近纪)重塑了贵州南部及邻区与周边造山作用耦合的盆地演化。广西运动形成北东向构造,是海相沉积建造阶段中的一次重要改造。印支运动使贵阳—镇远断裂和紫云—罗甸断裂反转,奠定了其成为黔南坳陷的北界和西南界断裂的基础。中侏罗世后的逆掩—冲断可分为两期:早期称燕山运动,以北东走向的断裂向北西逆冲和扩展为特征;晚期称燕山末期—喜马拉雅运动,区域上表现为北北东走向的断裂向南东东逆冲,铜仁—三都断裂成为黔南坳陷的东界,印支运动形成的近南北向—北北东向断层向西(偏北)逆冲,构成铜仁—三都断裂的背冲构造。近南北向断层上盘发育的开阔背斜是黔南坳陷内海相油气勘探的最有利靶区。 相似文献
14.
阿尔泰造山带的构造运动 总被引:23,自引:2,他引:23
变形式样、建造类型及同位素年代学数据研究表明,阿尔泰造山带依次经历了5期构造运动,即:喀纳斯运动,形成白哈巴组(O_3)与哈巴河群(Z—O_2)间的角度不整合;大桥运动(S_3—D_(1—2)),形成海西早期类拗拉谷拉张陆壳区;阿尔泰运动(海西中晚期)导致陆内斜向碰撞并形成大型剪切弧型推覆构造系,为强烈造山阶段;泛阿尔泰运动(海西末至印支期)导致山脉整体隆起及剥蚀;喜马拉雅运动,导致新生代以来造山带各断裂系的复活及断块隆起。 相似文献
15.
Abstract Studies of the deformation styles, formation types and isotopic age data indicate that the Altaides has successively experienced 5 stages of orogeny: (1) the Kanas orogeny forming the angular unconformity between the Baihaba Formation (O3) and the Habahe Group (Z-O2); (2) the Daqiao orogeny (S3-D1-2) giving rise to the early Hercynian quasi-aulacogen extensional continental crust of the area; (3) the Altay orogeny (middle- late Hercynian) leading to the oblique intracontinental collision and the formation of large shear arc-shaped thrust system and representing a strong orogeny stage; (4) the pan-Altay orogeny (latest Hercynian-Indosinian) resulting in the uplifting and erosion of the mountains as a whole; (5) the Himalayan movement causing the rejuvenation of fault systems and block uplift of the Altaides since the Cenozoic. 相似文献
16.
Studies of the deformation styles, formation types and isotopic age data indicate that the Altaides has successively experienced 5 stages of orogeny: (1) the Kanas orogeny forming the angular unconformity between the Baihaba Formation (O_3) and the Habahe Group (Z-O_2); (2) the Daqiao orogeny (S_3-D_(1-2) giving rise to the early Hercynian quasi-aulacogen extensional continental crust of the area; (3) the Altay orogeny (middle-late Hercynian) leading to the oblique intracontinentai collision and the formation of large shear arc-shaped thrust system and representing a strong orogeny stage; (4) the pan-Altay orogeny (latest Hercynian-Indosinian) resulting in the uplifting and erosion of the mountains as a whole; (5) the Himalayan movement causing the rejuvenation of fault systems and block uplift of the Aitaides since the Cenozoic. 相似文献
17.
LI Ruibao PEI Xianzhi LI Zhuochen SUN Yu PEI Lei CHEN Guochao CHEN Youxin LIU Chengjun WEI Fanghui 《《地质学报》英文版》2013,87(2):333-345
The Helegangnaren feldspar granite exposed in the eastern part of East Kunlun, is characterized by high concentrations of SiO2 and alkaline, low abundances of Fe, Mg and Ca, metaluminous-weak peraluminous. Trace elements analysis shows that the granite is depleted extremely in Ba, Sr and Eu, and rich in some large-ion lithophile elements and high field strength elements. Besides, the granite has high Ga contents, the values of 104(Ga/Al) vary from 2.50 to 2.77, which is mainly greater than the lower limit of A-type granites (2.6), and is higher than the I- and S-type granites’ average (2.1 and 2.28, respectively). Rare earth element (REE) is characterized by relatively high fractionations of light REE (LREE) and heavy REE (HREE) (LREE/HREE=9.3–13.60, (La/Yb)N=10.92–18.02), pronounced negative Eu anomalies (δEu=0.08–0.13), and exhibits right-dipping gull pattern. Major elements, rare elements and trace elements features show the granite is ascribed to A-type granite and A2 subtype in tectonic genetic type. They are plotted into post-collision or within-plate area in a variety of tectonic discriminations. Geological and geochemical data comprehensively suggest that the granite is formed in a post-collision extensive tectonic setting. Laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) zircon U-Pb dating yields a weighted mean age of 425?Ma, belonging to Middle Silurian, which is similar to the age of the post-collision geological events in the region. The differences of magmatic rocks in formation age, rocks assemblage and rocks series systematically indicate that the regional tectonic stress regime in the East Kunlun orogenic belt experienced a major transformation from compress to extension in Middle Silurianin, and the Helegangnaren feldspar granite intruded in the early stage of tectonic transformation. 相似文献
18.
Zhang Benren Ouyang Jianping Lou Tingchuan Gao Shan Li Zejiu Han Yinwen
China University of Geosciences Wuhan 《中国地质大学学报(英文版)》1991,(1)
The regional lithospheric chemical heterogeneity in-ers that the East Qinling and its adjacent cratonic re-ions,as suggested by some authors,belong to twoeotectonic units,the North China subdomain includinghe North China Craton and its southern continentalhargin(the North Qinling Belt),and the Yangtzeanubdomain comprising the Yangtze Craton and itsorthern continental margin(the South Qinling Belt).In the North Qinling Belt the metamorphosedolcanic rocks and graywackes of the Early Paleozoicanfeng Group south of the Early Proterozoic QinlingGroup show geochemical characteristics resemblinghose of the are volcanies and are graywackes,espectively.The Early Paleozoic granites intruding in hehe Qinling Group also show similar geochemical fea-tures and similar compositional polarities to theare-type granites.The Erlangping Group north ofthe Qinling Group is a volcanic-sedimentary sequenceproduced in an Early Paleozoic back-are basin basedon geochemical evidence.It is therefore believed thatthe North Qinling B 相似文献
19.
Ana María Sato Hugo Tickyj Eduardo Jorge Llambías Miguel Angelo Stipp Basei Pablo Diego Gonzlez 《Gondwana Research》2004,7(4):1077-1087
The Las Matras Block in Central Argentina constitutes the southernmost part of the Cuyania terrane, which was accreted to the southwestern margin of Gondwana during the Early to Mid Ordovician Famatinian orogeny. The Grenville-aged rocks of the Las Matras Block are represented by the tonalitic to trondhjemitic Las Matras pluton. A new U-Pb conventional zircon age of 1244±42 Ma confirms previous Sm-Nd and Rb-Sr isochron ages of this pluton. Mineral composition data are consistent with the tonalitic-trondhjemitic character of the pluton, and constrain its emplacement level to 1.9 to 2.6 kb. This shallow level of emplacement and the undeformed character of the pluton are distinctive features of this southernmost basement. A regional comparison indicates that the igneous-metamorphic evolution of the Grenville-aged basement rocks of the Cuyania terrane occurred over a period of more than 200 million years, with ages older than 1200 Ma up to those close to 1000 Ma. The shallowest crustal level is found in Las Matras, suggesting a southward shallowing of the exposed level of basement. The deformation and metamorphism associated with the collisional Famatinian orogeny affect both the Cuyania terrane and the adjacent western margin of Gondwana, and the Gondwana margin was also the locus of the related arc magmatism, but the compressive effects of the collision decrease in intensity toward the south. The Famatinian metamorphism and magmatism continue even further south into the Patagonia region, but the southern continuity of the Cuyania terrane into this region remains uncertain. 相似文献
20.
Abstract Retrograde and prograde mineral assemblages from metapelitic and metabasic rocks of the Iforas Granulitic Unit (Mali) were generated by the superimposition of two granulite facies metamorphic events. They clearly result from a polycyclic evolution and can be related to a late Eburnean unroofing followed by a Pan-African burial.
Thermobarometry on Pan-African garnet-bearing assemblages yields ( P, T ) estimates of 620±50°C and 5± Ikbar. The nearly anhydrous conditions produced in the Eburnean appear to be the direct cause of the unusually lowtemperature granulite-facies metamorphism in the Pan-African. These P, T estimates are compared with those obtained on the underlying unit (Kidal Assemblage) upon which the Iforas Granulitic Unit was thrust. A P-T-t path, during the Pan-African orogeny, is proposed and discussed for both the Iforas Granulites and Kidal Assemblage. 相似文献
Thermobarometry on Pan-African garnet-bearing assemblages yields ( P, T ) estimates of 620±50°C and 5± Ikbar. The nearly anhydrous conditions produced in the Eburnean appear to be the direct cause of the unusually lowtemperature granulite-facies metamorphism in the Pan-African. These P, T estimates are compared with those obtained on the underlying unit (Kidal Assemblage) upon which the Iforas Granulitic Unit was thrust. A P-T-t path, during the Pan-African orogeny, is proposed and discussed for both the Iforas Granulites and Kidal Assemblage. 相似文献