“雪峰古陆”加里东期的构造性质和构造演化   总被引：11，自引：0，他引：11  

丘元禧  马文璞 《中国区域地质》1996,(2):150-160

“雪峰古陆”的构造问题是华南区域构造研究中的一个热点。震旦纪至早古生代时期为扬子古陆的东南被动大边缘的一部分，发育以斜坡相为主体的沉积组合；加里东造山作用时期，这里成为扬子古陆的边缘褶断山系，但仍为扬子地块的一部分而非习称的华南加里东褶皱带；它是由于华南加里东武夷－云开弧后盆地关闭，扬子地块与华夏地块拼接形成的陆弧碰撞造山带的一个组成部分。  相似文献   

“雪峰古陆”加里东期的构造性质和构造演化     

丘元禧  马文璞  范小林  张渝昌  邓家瑞  夏亮辉  张旭亮 《地质通报》1996,(2)

“雪峰古陆”的构造问题是华南区域构造研究中的一个热点。震旦纪至早古生代时期为扬子古陆的东南被动大陆边缘的一部分，发育了以斜坡相为主体的沉积组合；加里东造山作用时期，这里成为扬子古陆的边缘褶断山系，但仍为扬子地块的一部分而非习称的华南加里东褶皱带；它是由于华南加里东武夷─云开弧后盆地关闭，扬子地块与华夏地块拼接形成的陆孤碰撞造山带的一个组成部分。其主要构造样式为前陆地带的准原地型边冲叠瓦推覆构造。  相似文献   

湘西花垣铅锌矿稀土元素地球化学特征与指示意义     

《矿物学报》2015,(Z1)

<正>湘西花垣矿集区位于扬子地块东南边缘与雪峰(江南)造山带的过渡部位,构造上位于NE向湘黔断裂带中部,经历了晋宁期碰撞造山、加里东期拉张裂陷-被动大陆边缘盆地-前陆盆地以及印支期-燕山期陆内变形等演化过程,形成了多种沉积/层控金属矿产和非金属矿产,是湘西-鄂西成矿带的重要组成部  相似文献   

全球早古生代造山带(Ⅲ):华南陆内造山   总被引：6，自引：0，他引：6  

李三忠  李玺瑶  赵淑娟  杨朝  刘鑫  郭玲莉  王永明  郝义  张剑 《吉林大学学报(地球科学版)》2016,46(4):1005-1025

华南早古生代加里东期变形、岩浆、沉积等特征表现为陆内造山带特征。通过对加里东期角度不整合分布、褶皱、断裂逆冲极性等特征的分析,发现大明山、大瑶山地区EW轴向的寒武系褶皱不对称性和角度不整合空间上向北的拓展变新规律,指示晚寒武世—早奥陶世的由南向北推覆挤压可能是云开、滇—桂北越地块依次向北推挤的结果;从全球背景看,可能和华南陆块南部一些地块与冈瓦纳大陆北缘依次碰撞接触导致的远程陆内效应有关。然而,湘赣边境、桂北元宝山及越城岭地区的早古生代NE向褶皱不对称性指示向西拓展,这可能是由于华夏地块与扬子地块在晚奥陶世—早志留世沿郴州临武断裂陆内收缩挤压的结果,其全球背景可能和华南陆块顺时针旋转与冈瓦纳全面碰撞相关。总之,加里东期构造运动总体由南向北、由东向西渐新,变形强度由强到弱的特征,反映华南陆内碰撞造山事件的根本原因是其与冈瓦纳北缘碰撞的远程效应。450~420 Ma华南已经属于冈瓦纳北缘一部分。  相似文献   

对新元古代湘桂海盆及邻区构造属性的探讨   总被引：7，自引：0，他引：7  

许效松  刘伟  门玉澎  张海全 《地质学报》2012,86(12):1890-1904

新元古代的湘桂海盆夹持在中上扬子陆块的东南缘与华夏地块群之间,是古华南洋与下扬子陆块俯冲碰撞后在西南方向的残留海.东段古华南洋俯冲的地质记录发生在860～1034Ma间,为绍兴-江山-萍乡碰撞带,形成江南岛弧造山带;西段古华南洋与上扬子陆块俯冲的构造地质记录,推测在湖南的新化-城步至广西的三江一带,时间为850～820Ma,形成雪峰-四堡岛弧造山带,但无陆陆碰撞的记录.东、西两段构造活动有近1亿年至数十百万年的时间差,为湘桂海盆在停止扩张的洋底上提供了发育的空间,并转为弧前-深海盆地.由萍乡向南西方向至湖南茶陵-郴州为一结合带,西侧的沉积物属扬子沉积构造域和湘桂海盆,沉积了细屑浊积岩和硅泥质岩;东侧为华夏沉积构造域,包括赣、闽和粤北,充填了与热活动有关细碧岩、含铁石英岩和火山碎屑沉积岩;郴州至贺县间,有一东-西向的古南岭裂陷海与之相连,是分隔云开地块、粤东南地块与罗霄-武夷地块的深海槽.在早古生代构造旋回中,湘桂海盆、古南岭海槽以及华夏沉积构造域,分别转为不同构造走向的湘桂加里东褶皱带和华南加里东造山带.  相似文献   

雪峰山基底隆升带及其邻区印支期陆内构造特征与成因   总被引：7，自引：0，他引：7  

李三忠  王涛  金宠  戴黎明  刘鑫  周小军  王岳军  张国伟 《吉林大学学报(地球科学版)》2011,41(1):93-105

狭义的华南陆块东部包括扬子地块和华夏地块,而雪峰山陆内构造系统是扬子地块的重要组成部分。通过对雪峰山地区印支期地层角度不整合时空分布规律的分析表明,高角度不整合—微角度不整合—平行不整合—整合的空间分布区域依次由东往西递变渐新。根据褶皱变形分析得出,雪峰山地区在印支期发育了北东东向和北北东向2个轴迹方向的褶皱,后期叠加了南北向弧形逆冲推覆构造。区域构造背景和动力学分析表明,扬子地块内部印支期总体北东向的变形形迹与东西轴向的秦岭—大别造山带和扬子地块南部东西轴向的构造线相垂直;其原因是:扬子地块与华夏地块最终陆内收缩变形的时间比扬子与华北沿秦岭—大别造山带的陆间碰撞拼合的时间早,印支早期的先存北北东向构造线在印支晚期由于扬子地块顺时针旋转变位为北东东向,从而决定了印支早期现今北东东向的构造线,随后的第二幕北北东向构造线的形成是在与早期第一幕变形的应力场相同的同一构造应力场作用下形成的。但是,秦岭—大别造山带近东西向的构造线取决于主动大陆边缘,即总体近东西向的华北陆块南缘边界,其原始方位为总体近东西向。这些复杂边界条件和旋转决定了先形成彼此近于垂直的构造线,然后拼接形成现今构造线垂直的格局。  相似文献   

桂东鹰扬关构造混杂岩物质组成及变形特征     

《大地构造与成矿学》2020,(3)

鹰扬关构造混杂岩出露于湘-粤-桂三省(区)交界处,构造上位于扬子陆块与华夏地块结合带西南段,在形成过程中保存了丰富的物质记录和构造演化信息,是研究扬子陆块与华夏地块拼合造山过程及相互关系的重要对象。对鹰扬关构造混杂岩物质组成及变形特征的详细研究表明,其由基质与岩块组成,基质为变质含凝灰质细碎屑岩,岩块为变质火山(碎屑)岩、微晶石英岩与大理岩等;根据野外变形特征及各期变形的叠加改造关系,于鹰扬关构造混杂岩中识别出5期构造变形,并建立了5期构造的相对变形序列。S_1、S_2代表晋宁期变形作用(D_1～D_2); S_3及NNE向断层左行走滑运动指示加里东期NW-NNW向挤压作用(D_3);印支期及早燕山期W-NWW向挤压作用(D_4)对前期构造进行了改造, NNE向断层发生右行走滑运动;晚燕山期的伸展作用主要表现为正断层活动(D_5)。变形序列的建立为区域构造过程的探讨和对比提供了新的基础资料。  相似文献   

江南造山带东段新元古代至早中生代多期造山作用特征   总被引：6，自引：2，他引：4       下载免费PDF全文

徐先兵  汤帅李源  章泽军 《中国地质》2015,(1):33-50

新元古代江南造山带远离晚中生代活动大陆边缘,是研究华南地区新元古代至早中生代多期造山作用的理想对象。文章通过对江南造山带东段沉积建造、岩浆活动、构造变形以及同位素年代学数据的综合分析,总结了其晋宁期、广西期以及印支期造山作用的特征。江南造山带东段在晋宁期经历了南北两侧大洋俯冲和两期碰撞造山作用。新元古代早期(880~860 Ma)双溪坞岛弧与扬子陆块东南缘发生弧-陆碰撞作用,形成淡色花岗岩、高压蓝片岩、NNE向褶皱-逆冲构造以及弧后前陆盆地。新元古代中期(约850 Ma),扬子陆块北缘开始发育由北向南的大洋俯冲。随着俯冲作用的进行,弧后盆地发生关闭,扬子陆块与华夏陆块发生陆-陆碰撞并形成新元古代(820~810Ma)江南造山带,导致近E-W走向褶皱-逆冲构造、韧性变形以及过铝质花岗岩的发育。江南造山带东段在约810Ma开始发生后造山垮塌和裂谷作用,以发育南华纪早期(805~750 Ma)花岗岩、中酸性火山岩、基性岩以及裂谷盆地为特征。江南造山带东段万载—南昌—景德镇—歙县断裂带以南地区卷入了华南广西期造山作用,发育近E-W走向由南向北的逆冲构造(465~450 Ma)、NNE向正花状构造(449~430 Ma)以及后造山近E-W走向韧性走滑剪切带(429~380 Ma)。印支期造山作用导致了NNE向褶皱-逆冲构造和花岗岩的发育,并奠定了江南造山带东段的基本构造面貌。  相似文献   

赣中碰撞混杂岩带   总被引：22，自引：0，他引：22  

曾勇  杨明桂 《中国区域地质》1999,18(1):17-22

赣中碰撞混杂岩带由广丰古地体,怀玉古地体,万年古地体和其间的构造混杂岩块组成,被赣东北蛇绿混杂岩带第６条构造混杂岩带所分割,上为加里东期后拗（断）陷所覆盖。是经历自中晚古元代扬子地块与华南地块的聚合,离散后,最终在加里东运动时陆陆碰撞而成的碰撞混杂岩带。  相似文献   

江南造山带(湖南段)金矿成矿规律与资源潜力   总被引：1，自引：0，他引：1  

黄建中  孙骥  周超  陆文  肖荣  郭爱民  黄革非  谭仕敏  隗含涛 《地球学报》2020,41(2):230-252

扬子地块—华夏地块经历武陵期—雪峰期增生造山-碰撞造山形成江南造山带,构成统一的华南板块,进入板内演化阶段。本文从构造-岩浆作用-沉积建造角度,结合地质年代学、古地磁、岩相古地理分析,加里东运动、印支运动属陆内作用,造就了加里东期、印支期两次主要的金矿成矿事件。湖南雪峰山—幕阜山(俗称“金腰带”)加里东期和印支晚期金矿床分区成带产出,构成一条复合型造山型金矿带。区域性构造导矿、次级构造交汇或叠加控矿明显;矿石普遍发育条带状构造,属韧性剪切递进变形的产物。通过对区域成矿背景、金矿成矿理论,金矿床(体)地质特征,结合同位素地球化学、地质找矿成果及深部验证情况等多方面研究表明该成矿带深部找矿潜力巨大,2000 m以浅金远景资源量有望达到3000 t。  相似文献   

TECTONICS OF THE DABIE OROGENIC BELT, CENTRAL CHINA     

GUO Fu-sheng XIA Fei PENG Hua-ming DU Yang-song 《大地构造与成矿学(英文版)》2002,(2):52-62

Tectonically the Dabie orogenic belt consists mainly of the Dabieshan Yanshanian uplifted zone and the Beihuaiyang Variscan-Indosinian folding zone. In the north boundary adjoining the North China Block, there are an Early Palaeozoic ophiolitic mixtite belt and the Hefei Mesozoic-Cenozoic faulted basin which overlaps on the suture belt. In the south of Dabie orogen, there is a secondary tectonic unit called Foreland thrust-faulted structural zone which was mainly formed by the intracontinental subductions during Mesozoic era. The study shows that the Dabie Block is a part of mid-late Proterozoic palaeo-island arc at the north margin of Yangtze Block. During Caledonian period, as a submerged uplift at the northen continental margin of Yangtze Block, the Dabie Block collided with the early Palaeozoic palaeo-island arc at the south margin of North China Block, resulting in the convergence of the North and South China Blocks and the disappearance of oceanic crust. Since then,large-scale intracontinental subductions were followed. Dabie Orogenic Belt is the product of overlapping of Yangtze Block, Dabie Block and North China Block under the mechanism of intracontinental subduction. Indosinian period is the period of chief deformation and high pressure dynamic metamorphism for Dabie Block, and Yanshan period is the main orogenic period in which the remelting of crust caused by basement shearing resulted in large scale thermometamorphism. The present tectonic framework of the orogen was finally formed by the rapid uplifting of the Dabieshan mountains and gliding southwards, which result in the developing of thrust belt on south side and the extensional tectonic movement on north side.  相似文献   

Geochronology and Tectonic Evolution of the West Section of the Jiangnan Orogenic Belt   总被引：1，自引：1，他引：0  

ZHANG Heng  LI Tingdong  XIE Ying  ZHANG Chuanheng  GAO Linzhi  GENG Shufang  CHEN Tingyu  YOU Guoqing 《《地质学报》英文版》2015,89(5):1497-1515

As an important part of South China Old Land, the Jiangnan Orogenic Belt plays a significant role in explaining the assembly and the evolution of the Upper Yangtze Block and Cathaysia, as well as the structure and growth mechanism of continental lithosphere in South China.The Lengjiaxi and the Banxi groups are the base strata of the west section of the Jiangnan Orogenic Belt.Thus, the research of geochronology and tectonic evolution of the Lengjiaxi and the Banxi groups is significant.The maximum sedimentary age of the Lengjiaxi Group is ca.862 Ma, and the minimum is ca.822 Ma.The Zhangjiawan Formation, which is situated in the upper part of the Banxi Group is ca.802 Ma.The Lengjiaxi Group and equivalent strata should thus belong to the Neoproterozoic in age.The Jiangnan Orogenic Belt consisting of the Lengjiaxi and the Banxi groups as important constituents is not a Greenville Orogen Belt(1.3 Ga–1.0 Ga).The Jiangnan Orogenic Belt is a recyclic orogenic belt, and the prototype basin is a foreland basin with materials derived from the southwest and the sediments belong to the active continental sedimentation.By combining large amounts of dating data of the Lengjiaxi and the Banxi groups as well as equivalent strata, the evolutionary model of the western section of the Jiangnan Orogenic Belt is established as follows: Before 862 Ma, the South China Ocean was subducted beneath the Upper Yangtze Block, while a continental island arc was formed on the side near the Upper Yangtze Block.The South China Ocean was not closed in this period.From 862 Ma to 822 Ma, the Upper Yangtze Block was collided with Cathaysia; and sediments began to be deposited in the foreland basin between the two blocks.The Lengjiaxi Group and equivalent strata were thus formed and the materials might be derived from the recyclic orogenic belt.From 822 Ma to 802 Ma, Cathaysia continued pushing to the Upper Yangtze Block, experienced the Jinning-Sibao Movement(Wuling Movement); as result, the folded basement of the Jiangnan Orogenic Belt was formed.After 802 Ma, Cathaysia and the Upper Yangtze Block were separated from each other, the Nanhua rift basin was formed and began to receive the sediments of the Banxi Group and equivalent strata.These large amounts of dating data and research results also indicate that before the collision of the Upper Yangtze Block with Cathaysia, materials of the continental crust became less and less from the southwest to the east in the Jiangnan Orogeneic Belt; only island arc and neomagmatic arc were developed in the eastern section.Ocean-continent subduction or continent-continent subduction took place in the western and southern sections, while intra-oceanic subduction occurred in the eastern section.Comprehensive analyses on U-Pb ages and Hf model ages of zircons, the main provenance of the Lengjiaxi Group is Cathaysia.  相似文献   

皖南浅变质岩区的构造演化及矿产分布规律   总被引：3，自引：0，他引：3  

张国斌  吕绍远 《大地构造与成矿学》2008,32(4)

皖南浅变质岩地区由四个不同构造单元拼合而成。中元古早期皖南为一古岛弧;约1000Ma前,华南板块沿江山-绍兴一带俯冲,是岛弧向扬子板块增生;约900Ma前左右,皖南沿祁门-三阳坑一带产生弧后扩张盆地;而850Ma前,华夏古陆沿江山-绍兴一带与扬子板块对接拼合,弧后盆地被动俯冲结束,标志增生的完成,同时深部发生重熔,形成初生陆壳改造型(S型)花岗岩类侵入体,如休宁、许村、歙县等岩体;约780Ma,华南洋壳的俯冲使洋盆逐渐缩小,华南板块和扬子板块发生碰撞,以至祁门-三阳海盆关闭,形成祁门-三阳坑陆壳碰撞地缝合线。这时期的碰撞挤压,使初生陆壳重熔形成板内改造型灵山、莲花山和白际山侵入岩体,最终形成白际岭火山岩推覆席,标志皖南构造格局形成。这些构造演化既奠定了本区的构造格局,又控制着该区的矿产分布。本区主要矿种的成矿期为晋宁期和燕山期,中生代的成矿作用是在晋宁期变质基底上局部演化的结果,即中生代的矿产分布仍反映了基底格局对区域成矿的控制。  相似文献   

TECTONICS OF THE DABIE OROGENIC BELT, CENTRAL CHINA     

GUO Fu-sheng  Xia Fei  PENG Hua-ming  DU Yang-song 《大地构造与成矿学(英文版)》2002,26(1):52-62

Tectonically the Dabie orogenic belt consists mainly of the Dabieshan Yanshanian uplifted zone and the Beihuaiyang Variscan-Indosinian folding zone. In the north boundary adjoining the North China Block, there are an Early Palaeozoic ophiolitic mixtite belt and the Hefei Mesozoic-Cenozoic faulted basin which overlaps on the suture belt. In the south of Dabie orogen, there is a secondary tectonic unit called Foreland thrust-faulted structural zone which was mainly formed by the intracontinental subductions during Mesozoic era. The study shows that the Dabie Block is a part of mid-late Proterozoic palaeo-island arc at the north margin of Yangtze Block. During Caledonian period, as a submerged uplift at the northen continental margin of Yangtze Block, the Dabie Block collided with the early Palaeozoic palaeo-island arc at the south margin of North China Block, resulting in the convergence of the North and South China Blocks and the disappearance of oceanic crust. Since then,large-scale intracontinental subductions were followed. Dabie Orogenic Belt is the product of overlapping of Yangtze Block, Dabie Block and North China Block under the mechanism of intracontinental subduction. Indosinian period is the period of chief deformation and high pressure dynamic metamorphism for Dabie Block, and Yanshan period is the main orogenic period in which the remelting of crust caused by basement shearing resulted in large scale thermometamorphism. The present tectonic framework of the orogen was finally formed by the rapid uplifting of the Dabieshan mountains and gliding southwards, which result in the developing of thrust belt on south side and the extensional tectonic movement on north side.  相似文献   

论鲁东造山带成因     

凌贤长  刘春华  徐学纯  卢良兆 《吉林大学学报(地球科学版)》1996,(3)

鲁东造山带是由扬子陆块与胶辽古陆碰撞带隆起形成的。碰撞带形成于晋宁期，隆起开始于晋宁末期，结束于中生代印支燕山期。  相似文献   

Geochemical Features and Tectonic Settings of Upper Ordovician Marine Volcanic Rocks on North Margin of Qaidam     

Lai Shaocong  Deng Jinfu  Zhao Hailing 《中国地质大学学报(英文版)》1998,9(2)

ＩＮＴＲＯＤＵＣＴＩＯＮＡＮＤＢＲＩＥＦＧＥＯＬＯＧＩＣＡＬＤＥＳＣＲＩＰ┐ＴＩＯＮＳＴｈｅＵｐｐｅｒＯｒｄｏｖｉｃｉａｎｍａｒｉｎｅｖｏｌｃａｎｉｃｒｏｃｋｓｏｎｔｈｅｎｏｒｔｈｍａｒｇｉｎｏｆＱａｉｄａｍｈａｖｅｂｅｅｎｒｅｐｅａｔｅｄｌｙｄｉｓ...  相似文献   

赣东北-皖南元古代造山带构造格架及演化   总被引：11，自引：0，他引：11  

邓国辉  刘春根  冯晔 《地球学报》2005,26(1):9-16

赣东北-皖南元古代造山带位于扬子板块南缘江南造山带东段,经历了晋宁早期俯冲和晚期碰撞两个造山阶段,自北而南可划分为九岭褶皱变形区、鄣公山构造混杂岩带、江山-绍兴对接带,其间均以区域性构造带相隔,变形强度依次增强,中元古代变质地层分属于史密斯、有限史密斯、非史密斯地层范畴,难以建立总体地层层序而区别于传统的“史密斯”地层;同时,该套地层又形成于元古代扬子、华夏两板块的张开-闭合过程中的统一大地构造背景下,存在着一定的必然联系而有别于“地体构造”、“构造混杂岩”;依据地层组成结合岩石化学研究,在“构造混杂岩”基础上建立了“双列岛弧”的“沟弧盆体系”模式。  相似文献   

华南构造演化新思考 兼论“ 华夏古陆”说中的几个问题   总被引：21，自引：1，他引：21  

马瑞士 《高校地质学报》2006,12(4):448-456

华南新元古代到早古生代是扬子活动大陆边缘构造“捕获”的一个边缘海盆地，其间充填了巨厚的复理石、砂、页岩沉积。早古生代晚期发生了福建沿海弧与武夷弧碰撞，这两个弧一起与扬子活动大陆边缘碰撞，产生华南造山作用，使华南边缘海沉积物发生变质作用，产生了强烈构造变形，形成一系列推覆构造和花岗岩浆作用。因此，华南是早古生代形成的造山带，而不是华夏地块（古陆）。但是仍然有学者沿用这个老“术语”———华夏地块，因此，产生了华南是造山带还是华夏地块的争论。专业“术语”反映学者的学术思想体系和今后的研究走向，因此有必要讨论华南的构造属性。还讨论了华夏地块问题，简述了关于地质构造单元命名的基本原则。  相似文献   

越南东北部早中生代构造事件的年代学约束   总被引：6，自引：3，他引：3  

陈泽超  林伟  Michel FAURE  Claude LEPVRIER  褚杨  王清晨 《岩石学报》2013,29(5):1825-1840

越南东北部-海南岛-粤西南构造带整体上呈NW-SE走向展布于华南板块的南缘,是理解华南构造演化的关键地区.作为印支运动代表性地区的越南东北部地区Song Chay构造带上,下古生界浅变质沉积岩、上古生界至早-中三叠世未变质的沉积盖层中都发育向北东逆冲推覆,韧性变形域表现为NE-SW向的矿物拉伸线理和上部指NE的剪切变形,而脆性变形域则记录了大量NE极性的褶皱和冲断构造.两广交界的云开地体和海南岛地区存在着相同样式的构造变形.关于这期变形的时间,本文通过对野外地层以及所出露不同时期岩体变形特征的综合研究,并结合高质量的锆石U-Pb年代学数据,在越南的东北部厘定为237 ～ 228Ma.这期广泛分布于华南板块南缘构造事件的动力学机制同Day Nui Con Voi(大象山)微陆块与华南板块在早中生代的构造拼合事件相关.本文认为华南板块在早三叠世开始沿着越南东北部的Song Chay缝合带俯冲拼合于Day Nui Con Voi微陆块之下,因此在早-中三叠世时期,在作为俯冲盘的华南板块南缘发育一系列的褶皱和逆冲推覆构造,晚三叠世印支造山作用结束.因此,华南板块南缘的越南东北部-海南岛-粤西南构造带被一同卷入早-中三叠世同印支板块的碰撞造山体系之中.  相似文献   

GEOCHEMISTRY CONSTRAIN ON TECTONIC EVOLUTION OF PALEO-TETHYS IN SE YUNNAN,CHINA     

Dong Yunpeng    Zhu Bingquan  Zhang Guowei  Yao Anping WT  ”BX 《地学前缘》2000,(Z1)

GEOCHEMISTRY CONSTRAIN ON TECTONIC EVOLUTION OF PALEO-TETHYS IN SE YUNNAN,CHINA  相似文献