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1.
碰撞造山带与成矿区划 总被引:8,自引:1,他引:8
碰撞造山事件与成矿作用具有强烈的对应耦合关系,而且成矿规模与碰撞的强度呈正相关关系。碰撞造山带的壳幔物质相互作用与成矿作用的强度也呈正相关关系,特别是多期次碰撞造山带,均发生过强烈的壳幔物质相互作用,孕育着丰富的矿产资源。详细地研究了碰撞造山的构造演化过程,划分了相应的成矿构造单元和成矿区带。从碰撞造山的角度提出西天山、西昆仑山、阿尔金-北祁连山、东昆仑山、秦岭-大别山、西南三江、康滇陆缘等造山带为重要的成矿区带。 相似文献
2.
从松辽盆地的构造反转看中国东部盆地构造圈闭的形成 总被引:6,自引:0,他引:6
通过对松辽盆地构造反转的分析,把该盆地构造反划分为3种类型:平面上分为4个反转向构造带,结合中国东部含油气盆地构造样式和演化机制,认为松辽盆地的构造反转不同局部现象,它代表了中国东部裂谷盆地演化的普遍模式,并与构造圈闭,油气藏的形成密切相关,中国东部盆地重要的构造反转4期;盆地内众多构造圈闭类型是多种地质应力联合作用和多期构造作用叠加的结果,而后期的挤压反转到了加剧和定型作用,中国东部燕山-喜山期 相似文献
3.
长江中下游转换构造结的特征、属性及其研究意义 总被引:3,自引:0,他引:3
"长江中下游转换构造结"是特提斯构造体制与太平洋构造体制交汇、衔接和转换的焦点部位,主要包括大别造山带、郯庐断裂带、长江中下游成矿带三大著名的构造单元,是中国东部中新生代大陆动力学深部过程与浅表响应的经典地区。将大陆造山带、大型断层、矿集区结合起来,瞄准板内变形、运动学和动力学,建立区内大陆动力学的系统研究框架,研究两大构造体制转换的精细过程,分析陆内构造演化和动力学的深部过程与浅部效应,将有助于大陆动力学理论的新突破,指导"第二成矿空间"的深部找矿。 相似文献
4.
中国大陆构造及动力学若干问题的认识 总被引:17,自引:2,他引:15
中国(东亚)大陆受特提斯、古亚洲和太平洋构造体系的制约,具有复杂的地体构架和特殊的岩石圈结构。本文从地学前沿——大陆动力学的视野出发,围绕中国大陆构造及动力学四个方面的研究,总结已有的进展并提出新的思考:①中国大陆板块下的构造和整个地幔运动的构架:地震层析资料揭示西太平洋板片向西俯冲到东亚大陆之下,其倾角逐渐减小,最后近水平地插进400~600km深度的地幔过渡带中,成为箕状几何形态的超深俯冲板片。印度岩石圈板片超深俯冲至青藏高原之下~800km的深度,在喜马拉雅西构造结部位发生双向不对称深俯冲,印度岩石圈板片向东俯冲至东构造结东侧之下300~500km的深度。②中国大陆变质基底的再活化:中国大陆的大部分陆块未受显生宙以来构造、变质和岩浆事件的改造与激活,在冈瓦纳大陆北缘的印度陆块和阿拉伯陆块北缘还发育有形成于泛非期(530~470Ma)的造山带,其影响范围至高喜马拉雅、拉萨地体和三江地区。新生代的变质活化普遍出现在喜马拉雅、南迦巴瓦、拉萨地体和三江-缅甸地区,最新的变质年龄仅2~1Ma(南迦巴瓦)。③中国主要高压-超高压变质带的大地构造背景及深俯冲-折返机制:中国及邻区含榴辉岩的高压-超高压(HP/UHP)变质带有洋壳(深)俯冲和陆壳(深)俯冲之分。青藏高原中,大部分洋壳俯冲形成的高压/超高压变质带与原-古特提斯洋盆中诸多微陆块之间的小洋盆的汇聚碰撞有关,陆壳深俯冲作用有两种机制,它们分别是大陆块之间剪式碰撞和撕裂式岩石圈舌形板片的深俯冲。④中国大陆造山带的深部物质可经3类机制挤出,即深部地壳物质"牙膏式"挤出、侧向挤出和"挤压转换式"挤出。 相似文献
5.
新生代期间中国西部发生了多次强烈的构造运动, 经历了复杂的构造-地貌演化历史.地质构造背景和地球动力学过程则控制了中国西部大陆新生代期间的构造-地貌演化.盆-山系统是中国西部新生代构造的基本格局, 盆-岭体系是中国西部新生代的主要地貌单元.根据盆地的几何学、动力学与构造演化特征, 中国西部新生代盆地可以划分为压陷盆地、断陷盆地、走滑拉分盆地以及残留海-前陆盆地4类.这些新生代封闭盆地均被造山带所围限, 而盆地与山脉之间由挤压型活动断裂(逆冲断层和走滑断层)所分割.新生代以来印度板块与欧亚板块的碰撞以及其后印度板块的向北俯冲挤压, 对中国西部新生代沉积盆地的发育和演化产生了重大影响.中国西部新生代盆地构造岩相古地理演化与板块运动和构造隆升之间存在明显的耦合. 相似文献
6.
Continental China is a mosaic of numerous tectonic blocks, which amalgamated from Neoarchean to Cenozoic broadly coeval with the cycles of global supercontinents such as Kenorland, Columbia, Rodinia, Gondwana, and Pangaea. By reviewing the long-lasting geological evolution in the different tectonic blocks, it reveals that more than two episodes of tectonic events, including accretionary and collisional orogeny, and dismantling, as well as mantle plume, occurred successively or simultaneously within a single tectonic belt. This is called superimposed orogeny in this study. Examples of the dominant types of superimposed orogeny in China include: (1) Cenozoic continental collision superimposed on Paleo- to Mesozoic accretionary orogeny in the Tibet and Sanjiang orogenic belts; (2) Reactivation of Paleozoic accretionary orogen in later Mesozoic oceanic subduction in the eastern part of Qinling–Qilian–Kunlun and Central Asian orogenic belts; (3) Mesozoic oceanic subduction under the paleo-suture in the South China Block; (4) Mesozoic demantling along the Paleo- and Neoproterozoic, and Paleozoic sutures in the eastern part of North China Craton; and (5) mantle plume rising through metasomatized lithospheric mantle or stagnant oceanic slab in the Emeishan large igneous province. A comprehensive review of the spatial-temporal distribution of ore deposits and their salient features shows that the superimposed orogeny has exerted significant control on metallogeny in China. The giant porphyry and skarnore deposits, as well as orogenic gold deposits were preferentially formed along previous tectonic suture, craton margin, and arc during later orogenesis due to the remobilization of previously enriched metals. Superimposed orogeny has reworked the lithospheric structure with concomitant granitoid-associated metallogeny. The mixing of magmas from juvenile lower crust, ancient lower crust, and middle crust, which tends to induce the different mineralization of Cu–Au, Mo, and Pb–Zn–W–Sn deposits respectively, was considered to generate a wide variety of combinations of metal species. The superimposed orogeny caused the overlapping of diverse genetic types of deposit formed in different tectonic periods in the same tectono-metallogenic belt. The stratiform ore deposit, including BIF, VMS, SEDEX, or sedimentary sulfide layers, formed from Neoarchean to Paleozoic, were modified by later mineralization, resulting in the enrichment of the various metal species and enhancement of ore resources. This study brings up the concept of composite metallogenic system to summarize the regional metallogeny driven by superimposed orogeny. The composite metallogenic system was dominantly characterized by the multi-episodic and diverse mineralization concomitant with one or more features, including mineralization evolved from the previous metal enrichment, later overlapping or modification on previous ore belt, and diversifying of metal species derived from reworked lithosphere. 相似文献
7.
中国喜马拉雅构造运动的陆内变形特征与油气矿藏富集 总被引:12,自引:0,他引:12
在前人研究的基础上,结合近年来在油气勘探中不断积累的地质资料和地质认识,提出了中国喜马拉雅构造运动的陆内变形特征及其分布规律受控于小型克拉通板块拼贴的基底结构和印/欧碰撞与太平洋板块俯冲所主导的双重控制因素;喜马拉雅构造运动的发育特征主要表现为三种动力学机制:青藏高原隆升、盆地与造山带体制和东部拉张活动。喜马拉雅构造运动的大地构造格局及其构造变形分布规律集中体现为4个构造域:青藏高原隆升区、环青藏高原盆山体系、稳定区和环西太平洋裂谷活动区。我国沉积盆地在喜马拉雅构造运动中的构造特征分为三种类型:(1)东部渤海湾、松辽等盆地受拉张构造环境控制的裂谷沉降;(2)中部四川、鄂尔多斯等盆地受青藏高原的向东推挤、盆缘冲断、盆内抬升剥蚀;(3)西部的塔里木、准噶尔、柴达木等盆地受青藏高原的向北推挤、冲断挠曲沉降,表现为克拉通单边或双边的压缩挠曲沉降与克拉通内部的冲断隆升沉降等多种盆山耦合形式。喜马拉雅构造运动控制着中国油气晚期定位与富集成藏,主要体现在:盆地的沉积与成藏,形成新生界自生自储的含油气盆地和油气藏;圈闭形成与油气运聚成藏;早期油气藏的调整和再分配;油气藏的破坏。 相似文献
8.
构造动力体制与复合造山作用——兼论三江复合造山带时空演化 总被引:39,自引:31,他引:8
构造动力体制是研究区域大地构造演化和成矿地质环境的基础,而造山带作为全球金属矿产资源集中产出的地带,同时保留了地球地质构造演化最为丰富的记录,因而是用来解剖不同构造动力体制及相关成矿环境和成矿作用的主要对象.板块构造源于大洋,描述和解释的是以水平运动为主导的板块构造导致的大陆边缘增生和大洋板块消失及与其相关的地质现象,其动力学体制称为大洋动力体制;大陆构造描述和解释的主要是大陆内部而不是边缘发生的以垂直运动(壳幔相互作用)为主导的的大陆物质增生和消失及其相关的地质现象,其动力学体制称为大陆动力体制;而洋陆转换则是水平和垂直运动相互耦合、共同作用的动力学体制,描述和解释的是洋陆转换及其相关的地质现象,可以将其称为转换动力体制.不同构造动力体制在全球范围内具有同区转承和异区并存特点.每一种构造动力体制都可以激发造山作用,因此,地球上同时存在着不同类型的造山作用和造山带,可以归结为俯冲造山(带)、碰撞造山(带)、伸展造山(带)和陆内造山(带)等完整反映造山带演化过程的4种类型.复合造山概念科学地描述了全球不同造山带的复杂性.它具有三种涵义,一是不同时期相同或不同类型造山带在空间上的复合(叠置);二是同一造山带在不同地质历史阶段、不同构造动力体制下造山作用的时间复合(叠加);三是同时具有时空复合特征的复合造山带.对三江造山带时空结构的解析表明,它是具有时空复合特征的巨型复合造山带的典型代表. 相似文献
9.
MECHANISM OF THE BASIN-MOUNTAIN METALLOGENIC SYSTEM IN HIMALAYAN PERIOD IN SANJIANG CONCENTRATION AREA,SOUTHWEST CHINA 相似文献
10.
由克拉通、造山带、裂谷、边缘海洋壳和岛弧等5大岩石圈类型构成的中国大陆,由于不同类型岩石圈对应的动力学机制及其效应不同,岩石圈不同类型之间的连接带必定是不连续带,与大陆成矿作用有密切的联系。中国大陆已知的绝大多数金属矿床分布于岩石圈不连续和再活化不连续处,表明岩石圈不连续为大型矿床(矿集区)形成提供有利的运-储空间。中国大陆西北、中国东部和西南地区构造-岩浆-成矿事件序列对比表明,一个地区岩石圈的壳-幔岩石学结构、大规模成矿作用,取决于最强的、最后一次的岩浆作用,大规模成矿作用的发生起始于造山岩石圈根失稳、去根和大规模软流圈上涌时期,C型埃达克岩的出现是其标志之一。分布于中国内陆的扬子、鄂尔多斯、塔里木和准噶尔盆地等地表热流值低的“冷盆”,深部属于克拉通型岩石圈背景,在构造上往往为造山带的前陆盆地,克拉通型岩石圈构造上的稳定性决定了这些克拉通盆地不断被周围造山带吞食、掩埋、改造的格局,虽然在这些盆地内如今都已发现油气田,但在盆地外那些现今被造山带前缘逆冲体覆盖的区域,也应该是油气田产出的有利区域,即盆地外造山带花岗岩下依然是寻找油气田的重要远景区。分布于中国东部的平原区和黄海、东海及南海等陆缘海区,属于地表热流值高的“热盆”,这些盆地下对应的是裂谷型或洋壳型岩石圈,它们是在新生代时期中国东部沿海地区进入了新的构造演化阶段——大陆裂谷作用下形成的,以伴随广泛的玄武岩喷发为标志,对流地幔物质和热输入使盆地热流值升高成为“热盆”、大陆裂谷型岩石圈,乃至洋壳岩石圈(如南海中央海盆);伴随裂陷作用及伸展构造普遍发育的幔源玄武岩浆大量喷发,以及大量沉积物的快速沉积、埋藏有利于油气田的形成,其中的组分,如CO2气田中的CO2可能主要源于地幔。中国东部平原及边缘海区域是最具前景的油气田分布区之一。 相似文献
11.
天山造山带东段的东天山成矿带是中国重要成矿带之一。笔者分析了东天山成矿带的大地构造演化、成矿作用及矿床类型和成矿时代,重点分析了卡拉塔格、阿奇山等VMS型Cu-Zn、土屋—延东斑岩型Cu-Mo(Au)、玉海斑岩型Cu-Mo(Au)、白鑫滩Cu-Ni硫化物等矿床类型和成矿时代。结合石英滩金矿、康古尔金矿、康南金矿(点)、三岔口斑岩型铜钼矿、黄山东Cu-Ni矿等矿床类型和成矿时代,以及这些矿床与康古尔构造带时空演化间的耦合关系,认为应重新审视土屋—延东等斑岩型矿床的矿床类型和成矿时代。维权银及多金属矿床、红云滩铁铜、雅满苏铁(铜、铅锌)矿的早期蚀变特征,与新近发现的阿奇山VMS型Pb-Zn矿床的蚀变特征一致性,反映在这些地区具有与阿奇山型Pb-Zn矿床成矿潜力。航磁资料结果表明,土屋—延东斑岩型Cu-Mo矿床以西地区具有与东部黄山一带基性-超基性岩体引起的航磁异常一致性特征,说明西部地区有基性-超基性岩体的存在。建议在东天山地区加强典型矿床研究,对康古尔剪切带周围的二叠纪花岗质岩石、基性-超基性岩体以及雅满苏成矿带深部进行评价工作。 相似文献
12.
喜马拉雅构造-成矿域及其成矿效应初步分析 总被引:7,自引:0,他引:7
通过近年来的研究 ,提出了全新的喜马拉雅构造 -成矿域概念。从大喜马拉雅构造域及其成矿效应出发 ,通过构造域对矿集区的控制作用、成矿时代、成矿物质来源、深部过程与成矿效应的分析 ,从而较全面地评价了青藏高原及邻区的资源潜力和需要进一步工作的重要成矿带或矿集区。通过分析认为喜马拉雅构造 -成矿域内强烈的壳幔物质交换 ,下地壳翻天覆地的物质和流体交换 ,导致了在同一构造地质单元内可以有一个或多个超大型矿床的存在。并对多个重要矿床类型提出了更切合实际的观点 ,如西藏甲马铜钼银铅锌金多金属矿床属于矽卡岩 -斑岩复合型 ,云南羊拉铜钼金多金属矿床也属于矽卡岩 -斑岩复合型矿床等。在喜马拉雅构造域内形成的燕山晚期或喜马拉雅期矿床大多和大陆地壳深部复杂的动力学过程有关 ,所形成的矿床矿物组合及成矿元素组合复杂 ,特别是矿石中钴、银元素含量较高 ,许多矿床中银、钴已经作为主要成矿元素。最后明确提出了青藏高原主体及东缘重要矿集区的资源潜力 相似文献
13.
中国金矿床的时空分布不均一,金矿主要产于稳定陆块边缘或稳定陆块内的活动带,形成了金的矿集区,成矿时代主要以中生代为主,其次为晚古生代及新生代,而早古生代和前寒武纪金矿床则处于相对次要地.从地质构造演化的角度探讨金矿形成的大地构造背景,认为金矿的形成及分布受控于壳幔相互作用及岩石圈不连续。 相似文献
14.
华北地台中生代热液成矿的构造环境 总被引:10,自引:1,他引:9
本文阐述的是在海西末期自初始欧亚板埠形成后,具有早前寒武结晶基底的华北地台,自中生代开始,便处于古太平洋板块强烈挤压俯冲以及与北面西伯利亚板块,南面华南板是一步挤压俯冲所造成的两大构造应力场和构造环境中。前者所造成的构造线方向主要为NE和NNR走向,并由于古太平洋板块作用于我国东部大陆的Farallon、Kula和Ianagisl板块都具有左行运动的特征,这就造成华北地台、整个中国东部大陆NE和N 相似文献
15.
Tectonic Evolution of China and Its Control over Oil Basins 总被引:2,自引:0,他引:2
WangHongzhen LiSitian 《中国地质大学学报(英文版)》2004,15(1):1-8
This paper is a brief review of the tectonic frame and crustal evolution of China and their control over the oil basins. China is subdivided into three regions by the Hercynian Ertix-Almantai(EACZ) and Hegenshan (HGCZ) convergent zones in the north, and the Indusinian Muztagh-Maqen(MMCZ) and the Fengxiang-Shucheng (FSCZ) convergent zones in the south. The northern region represents the southern marginal tract of the Siberian platform. The middle region comprises the SinoKorea (SKP), Tarim (TAP) platforms and surrounding Paleozoic orogenic belts. The southern region includes the Yangtze platform (YZP), the Cathaysia (CTA) paleocontinent and the Caledonides between them in the eastern part, and the Qinghai-Tibet plateau composed of themassifs and Meso-and Cenozoic orogenic belts in the western part. The tectonic evolutions of China are described in three stages: Jinningian and pre-Jinningian, Caledonian to Indusinian, and post-Indosinian. Profound changes occurred at the end of Jinningian (ca. 830 Ma) and the Indusinian (ca. 210 Ma) tectonic epochs, which had exerted important influence on the formation of different types of basins. The oil basins distribute in four belts in China, the large superimposed basins ranging from Paleozoic to Cenozoic(Tarim and Junggar) in the western belt, the large superimposed basins ranging from Paleozoic to Mesozoic (Ordos and Sichuan) in the central belt, the extensional rift basins including the Cretaceous rift basins (Songliao) and the Cenozoic basin (Bohaiwan) in the eastern belt, and the Cenozoic marginal basins in the easternmost belt in offshore region. The tectonic control over the oil basins consists mainly in three aspects: the nature of the basin basement, the coupling processes of basin and orogen due to the plates interaction, and the mantle dynamics, notably the mantle upwelling resulting in crustal and lithuspheric thinning beneath the oil basins. 相似文献
16.
ZHENG Hongwei LI Tingdong HE Rizheng YU Haiying YANG Hui WEN Yanlin WANG Peng LIU Fang SUN Dongjun 《《地质学报》英文版》2022,96(2):621-630
The 3D P-wave velocity structure beneath the South China Block was determined by applying arrival times from 269 teleseismic events recorded by 240 seismic stations within the study region. Our tomographic results reveal the deep structural characteristics of major tectonic units and ore concentration areas. There are distinct high velocity anomalies beneath the ancient Yangtze and Cathaysia blocks, with the lithosphere of the Cathaysia Block being thinner than the Yangtze Block; the Jiangnan orogenic belt, located in the combined zone of two blocks, is a high and low velocity anomaly conversion zone; the famous metallogenic belts of Edongnan, the Youjiang Basin and the Cathaysia Block are obviously low velocity areas with different metallogenic mechanisms. The deep ore-forming material source in the Edongnan metallogenic belt is different from that of the Cathaysia Block. The low velocity anomaly under the Cathaysia Block related to mineralization results from the upwelling of mantle material, caused by the joint action of the Paleo-Tethys tectonic domain, the Paleo-Pacific tectonic domain and the Hainan mantle plume migration and erosion, which has been occurring from northeast to southwest since 80 Ma. The low-temperature mineralization mechanism of Youjiang Basin should be considered not only in terms of the influence of the Emeishan mantle plume in the west and the Paleo-Tethys tectonic domain in the south, but also in the context of the influence of the upwelling of asthenospheric material from the Paleo-Pacific tectonic domain in the east. 相似文献
17.
基于复杂构造解析和实验模拟研究,揭示了中西部前陆褶皱冲断构造带主要表现为受侧向挤压形成的滑脱冲断构造变形过程和结构样式;明确了单层滑脱挤压冲断构造变形存在临界增生和非临界增生两种变形机制,发育脆性拆离型、塑性滑移型和黏性流动型3种作用类型,并受滑脱层强度、地层厚度、底部边界和外动力过程等4种主要因素影响。复杂冲断构造带基本上表现为受多层单滑脱作用控制形成的垂向叠置组合结构,本文提出了复杂滑脱冲断变形结构的可分解性以及受不同性质的滑脱层组合控制形成特征结构模式,并揭示了前陆冲断带前缘多滑脱构造变形结构中由浅层向深层逐渐发育的变形时序;建立了中西部再生前陆冲断带结构模型、构造单元以及基本构造类型;并基于前陆盆地多阶段构造演化过程以及晚期的隆升剥蚀-沉降沉积过程,提出了中西部两种类型冲断带的控油气作用及其勘探领域。 相似文献
18.
Epithermal Gold Mineralization in Chinese Tianshan Province 总被引:1,自引:0,他引:1
Xiao Long Wang Fangzheng Department of Science Technology China University of Geosciences Wuhan 《中国地质大学学报(英文版)》2000,11(4)
INTRODUCTIONTheTianshanrange ,locatedwithintheXinjiangUygurAutonomousRegionofNorthwestChina ,extendsforabout2 5 0 0kminanE Wdirectionandhasawidthof 5 0 0km .AsoneofthemajorPaleozoicorogensintheworld ,Tianshanhasagreatpotentialforgoldmineralizationwithmineralizi… 相似文献
19.
20.
Calc-alkaline granites (excluding A-and M-type) could be divided into two petrogenic series,I,e,the syntexis series and the transformation series according to their genetic mechanisms.In the light of this classification we found that granites of these two series often aligne in paired zones parallel to contemporaneous B-type or intracontinental compression-subduction zones within ascended slabs,re-sulting in a regular zonal pattern together with subduction zones.Thus,they are defined as twin granite belts.According to the spatial relations between the granite belts and the subduction zones,the twin granite belts could be classified as A, AB and B-type .The zonation of granites of the two series in the northern part of the East Qinlin area could be cited as a typical example of A-type twin granite belts related to the Yenshanian intracontinenta compression-subduction movement in the area.In this paper the tectonic settings and petrogenic features of the twin granites belts in East Qinlin are systematically described,and a tectonic model for granitic magma genesis in intracontinental compression-subduction environments has been proposed.In this model the forma-tion of A-type twin granite belts is closely connected with tectonic movements in terms of the prince-ple,rule and dynamics of material differentiation in the lithosphere. 相似文献