燕山造山带中生代火山喷发及岩浆演化   总被引：4，自引：2，他引：2  

白志民  葛世炜  鲍亦冈 《地质论评》1999,45(7):534-540

燕山造山带是中国东部中生代火山活动最强烈的地区之一,火山喷发主要有早侏罗世南大岭阶段、晚侏罗世髫髻山阶段、早白垩世东岭台阶段和东狼沟阶段。多阶段火山喷发可分为早侏罗世近EW向喷发带、晚侏罗世NE向喷发带和早白垩世NNE向喷发带。火山—沉积盆地主要有早侏罗世继承性坳陷盆地、晚侏罗世继承性断陷盆地、早白垩世新生性上叠式断陷盆地。火山喷发主要有南大岭阶段夏威夷型喷发、髫髻山阶段斯特朗博利型喷发、东岭台阶段普林尼型喷发3种类型。岩浆成分变化规律为：早侏罗世南大岭阶段以基性岩浆为主, 晚侏罗世髫髻山阶段中性岩浆规模大, 早白垩世东岭台阶段酸性岩浆活动强烈。  相似文献   

大别山造山带与安徽沿江中新生代盆地的盆山耦合关系   总被引：3，自引：2，他引：3       下载免费PDF全文

吴跃东江来利  储东如吴维平吴海权  汪德华 《中国地质》2003,30(3):286-292

安徽沿江中新生代盆地位于大别山造山带南缘，为先挤压、后伸展形成的叠合盆地，是探讨扬子板块陆内深俯冲—大别山造山带隆起与中、下扬子盆地沉降的耦合关系的理想场所。在早中生代，大别山为华南和华北大陆碰撞造山带，华南地壳向深处俯冲并承受超高压变质作用，超高压变质岩不断向上折返，沿江坳陷具有前陆盆地性质，盆地充填有晚三叠世—中侏罗世磨拉石层序；在晚中生代，在中国东部整体的拉张背景下，大别山变质带完全折返上隆，处于变质核杂岩隆升状态，而沿江坳陷具有裂陷盆地性质，充填有晚侏罗世—早白垩世、晚白垩世—古近纪两个红色碎屑构造层序，起因于地壳拆沉而产生的均衡隆升和伸展断陷的构造耦合。  相似文献   

潮水盆地西部大红山铀矿床控矿因素及成矿模式探讨     

《矿物学报》2015,(Z1)

<正>1地质概况潮水盆地位于华北板块阿拉善地块西南缘,为中新生代大型沉积盆地,其南缘龙首山铀成矿带是我国北方重要的铀成矿带之一。盆地沉积—演化经历了早中侏罗世伸展断陷、晚侏罗世挤压抬升、早白垩世伸展断陷、晚白垩世挤压抬升、中新世全面沉降及上新世以来的强烈挤压断隆共六个沉积演化阶段,可将潮水盆地划分为"四坳四隆"八个一级构造单元(李雄,2010)。盆地盖层为侏罗系、白垩系、古近系和新近系(玉门油田石油地质编写组,1987)。大红山矿床地处潮水盆地西部,位于近东西向  相似文献   

柴达木侏罗纪盆地性质及其演化特征   总被引：13，自引：2，他引：13  

曾联波  金之钧  张明利  汤良杰  由福报  雷兵足 《沉积学报》2002,20(2):288-292

根据侏罗纪地层分布、沉积特征和构造演化史的综合分析，柴达木盆地侏罗纪经历了两期不同盆地性质的发育和叠加，中侏罗世末期的中燕山运动是盆地性质的转变期。早中侏罗世盆地为南北向伸展构造环境下的断陷型盆地，主要表现为系列小型断陷盆地群，分布在祁连山南侧和阿尔金南缘断裂带附近；晚侏罗世（至白垩纪）为南北向挤压构造环境下的挤压型坳陷盆地，受南祁连山前冲断构造体系控制，其沉积范围明显变大。  相似文献   

辽西地区中生代盆地构造演化   总被引：7，自引：1，他引：7  

杨庚  郭华  刘立 《铀矿地质》2001,17(6):332-340

辽西地区为华北地台北缘阴山－燕山造山带的东延部分，中生代发育火山－碎屑岩沉积盆地。盆地地质分析表明，该区在早白垩世早期之前发育的沉积盆地为挤压型盆地，早白垩世中期以后属伸展断陷盆地。根据沉积－构造分析，该区中生代盆地构造演化可划分为5个构造演化阶段；（1）早三叠世－－早侏罗世；（2）早侏罗世－中侏罗世；（3）中侏罗世－晚侏罗世；（4）早白垩世早期；（5）早白垩世中期－晚白垩世。  相似文献   

华北晚中生代构造演化过程——根据太行山北部盆地沉积记录   总被引：1，自引：0，他引：1  

王永超  董树文  施炜  岑敏  李江瑜 《地球学报》2016,37(1):35-45

太行山北部地区处于燕山山脉和太行山山脉的交汇处,其侏罗纪—白垩纪叠加盆地发育过程记录了东西向盆地向北东向盆地转化过程,对刻画华北晚中生代陆内变形过程及其动力学背景具有重要意义。本文以太行山北部草沟堡盆地和招柏盆地为例,在盆地基本构造格架分析的基础上,通过详细的沉积物物源分析、盆地原型再造等沉积学方法,结合岩浆岩同位素年代学数据,提出太行山北部晚中生代构造演化过程,主要经历四个发展演化阶段,包括中侏罗世晚期近南北向构造挤压与挠曲盆地发育、晚侏罗世近南北向弱伸展作用与壳源火山喷发、晚侏罗世末期—早白垩世早期北西—南东向构造挤压与前陆盆地形成、早白垩世北西—南东向伸展作用与幔源火山作用。构造体制转变本质上是动力学体系的转变,在中晚侏罗世东亚大陆多向汇聚体系之下,太行山北部经历的多期构造叠加和盆地叠置过程折射了蒙古—鄂霍茨克构造体系向滨太平洋构造体系的转化过程。  相似文献   

潮水盆地西部构造演化与铀成矿作用研究     

伍群  王刚  牛霆  郭文  杨冰彬  曹雷  叶发旺  童勤龙  李新春 《铀矿地质》2022,(6):1070-1083

潮水盆地为中国北方重要的古生代-中新生代叠合盆地,也是中国重要的产煤-油-铀盆地之一。盆地经历了中侏罗世伸展断陷,晚侏罗世挤压抬升阶段;早白垩世拉分断陷,晚白垩世全面抬升阶段;中新世全面沉降,上新世抬升剥蚀阶段。盆地西部铀成矿整体表现为同沉积预富集、叠加后生氧化改造的成矿特点。通过构造演化与铀成矿作用关系的研究,结合相关资料,分析认为大红山断陷主要找矿目的层为下白垩统庙沟组,断陷南缘强烈抬升区是泥岩型或砂岩型铀成矿的有利区域;跃进山凸起长期处于抬升淋滤状态,是层间氧化带砂岩型铀成矿的有利部位;南部凹陷带长期处于沉降断陷状态,主要形成泥岩型、膏结岩型铀矿化。  相似文献   

华北克拉通东部早白垩世伸展盆地的发育过程及其对克拉通的破坏   总被引：1，自引：0，他引：1  

朱光  胡召齐  陈印  牛漫兰  谢成龙 《地质通报》2008,27(10)

在晚侏罗世华北克拉通东部破坏之初出现了区域性隆起,全区缺失上侏罗统沉积。在早白垩世早期,出现了区域性的伸展活动,断陷盆地形成,克拉通南、北缘伸展活动最强,北部燕山构造带以出现变质核杂岩为特征,南部出现宽裂谷型盆地。早白垩世中期华北克拉通东部普遍出现了火山活动与岩浆侵入。早白垩世晚期克拉通上以出现窄裂谷型盆地为特征,沿北北东走向的郯庐断裂带断陷活动最强。这些断陷盆地的演化过程揭示,经历地表抬升后,克拉通破坏之初的岩石圈热而弱,从而形成变质核杂岩或宽裂谷型盆地。这期间的破坏强度在空间上具有不均匀分布的特征,受控于早期岩石圈地幔的结构。经过早白垩世中期的大量岩浆活动之后,早白垩世晚期克拉通岩石圈温度降低、强度变大,从而利用早期大型断裂构造形成窄裂谷型盆地。这现象支持华北克拉通东部晚中生代的岩石圈减薄是以逐渐拆沉机制为主。  相似文献   

华北克拉通东部早白垩世伸展盆地的发育过程及其对克拉通破坏的指示   总被引：13，自引：0，他引：13  

朱光  胡召齐  陈印  牛漫兰  谢成龙 《地质通报》2008,27(10)

在晚侏罗世华北克拉通东部破坏之初出现了区域性隆起,全区缺失上侏罗统沉积.在早白垩世早期.出现了区域性的伸展活动,断陷盆地形成,克拉通南、北缘伸展活动最强,北部燕山构造带以出现变质核杂岩为特征,南部出现宽裂谷型盆地.早白垩世中期华北克拉通东部普遍出现了火山活动与岩浆侵入.早白垩世晚期克拉通上以出现窄裂谷型盆地为特征.沿北北东走向的郯庐断裂带断陷活动最强.这些断陷盆地的演化过程揭示,经历地表抬升后,克拉通破坏之初的岩石圈热而弱,从而形成变质核杂岩或宽裂谷型盆地.这期间的破坏强度在空间上具有不均匀分布的特征.受控于早期岩石圈地幔的结构.经过早白垩世中期的大量岩浆活动之后,早白垩世晚期克拉通岩石圈温度降低、强度变大.从而利用早期大型断裂构造形成窄裂谷型盆地.这些现象支持华北克拉通东部晚中生代的岩石圈减薄是以逐渐拆沉机制为主.  相似文献   

辽西中生代板内造山带构造基本特征及构造演化     

江淑娥  张国仁  潘玉启  鲁红峰 《吉林地质》2010,29(1):29-35

辽西中生代构造运动可划分为印支早期(早、中三叠世)、印支晚期(晚三叠世)、燕山早期(早侏罗世)、燕山中期(中、晚侏罗世)、燕山晚期(早白垩世)、燕山末期(晚白垩世)6个构造幕。中生代造山带有别于板缘或板间造山带的一种特殊类型的造山带,也不是板缘或板间造山带的一个发展阶段。因此,具有独特的大地构造背景、造山期前演化历史,以及造山带构造变形变质、岩浆活动、沉积作用等特点。中生代板内造山过程是复杂的、多阶段的、非单一的过程,三叠纪以来,共经历了多次裂陷与伸展、挤压与收缩作用和多阶段的盆地发展历史。在每一次盆地演化过程中,在早期表现为裂陷与伸展作用,并有中基性—中酸性火山岩浆喷发和侵入,具有从早期向晚期岩浆由偏基性向偏酸性演化的特点,同时形成断陷盆地,沉积陆源粗碎屑建造;中期,断陷盆地向坳陷盆地转化,沉积陆源细碎屑和含煤及红色建造;晚期表现为挤压和收缩的造山作用,使地层褶皱,并发育逆冲断层,盆地抬升遭受剥蚀,从此构成了一个火山喷发—沉积盆地从形成→发展→萎缩→消亡的完整过程。这样多旋回的变化,塑造了辽西地区的中生代板内造山过程。  相似文献   

合肥盆地中生代地层时代与源区的碎屑锆石证据   总被引：3，自引：0，他引：3  

王薇  朱光  张帅  刘程  顾承串 《地质论评》2017,63(4):955-977

合肥盆地位于大别造山带北侧、郯庐断裂带西侧,其发育过程与这两大构造带演化密切相关。本次工作对合肥盆地南部与东部出露的中生代砂岩与火山岩进行了锆石年代学研究,从而限定了各组地层的沉积时代,确定了火山岩喷发时间,指示了沉积物的源区。这些年代学数据表明,合肥盆地南部的中生代碎屑岩自下而上分别为下侏罗统防虎山组、中侏罗统圆筒山组或三尖铺组、下白垩统凤凰台组与周公山组(或黑石渡组)与上白垩统戚家桥组,其间缺失上侏罗统。盆地东部白垩系自下而上为下白垩统朱巷组与响导铺组和上白垩统张桥组。该盆地出露的毛坦厂组或白大畈组火山岩喷发时代皆为早白垩世(130～120 Ma)。盆地南部的下——中侏罗统及白垩系源区皆为大别造山带,分别对应该造山带的后造山隆升与造山后伸展隆升。而盆地东部白垩系的源区始终为东侧的张八岭隆起带,后者属于郯庐断裂带伸展活动中的上升盘。  相似文献   

Thrusting and Exhumation Processes of a Bounding Mountain Belt: Constraints from Sediment Provenance Analysis of the Hefei Basin   总被引：3，自引：0，他引：3  

LIU Shaofeng  LIU Wencan  Faculty of Geosciences  Resources  China University of Geosciences  Beijing DAI Shaowu  Institute of Exploration  Development  Jianghan Petroleum Administration  Guanghu  Hubei ProvinceHUANG Siji China University of Geosciences  Wuhan  LU Wuyun Anhui Bureau of Geology  Mineral Resources  Hefei 《《地质学报》英文版》2001,75(2):144-150

Lithic (or gravel) composition analyses of the Jurassic Sanjianpu Formation and Fenghuangtai Formation in the Hefei basin show that the sediment provenance consists mainly of four kinds of rock units: the basement metamorphic complex, granitic rocks, medium- and low-grade metamorphic rocks, and sandy and muddy sedimentary rocks, which are distributed along the bounding thrust belt. The whole stratigrapnic section can be divided into 2 lithic sequences and 7 subsequences. The regular distribution and changes of lithic fragments and gravels in lithic (or gravel) sequences reflect that the bounding thrust belt of basin has undergone 2 thrusting cycles and 7 thrusting events. Lithic (or gravel) composition analyses of the basin fully reveal that the northern Dabie basement metamorphic complex was exhumed on the earth's surface in the Middle and Late Jurassic, and extensive intermediate and acid intrusive rocks were developed in the southern North Huaiyang or northern Dabie Mountains during the basin's synde  相似文献   

大别造山带超高压变质岩折返隆升的地层学证据—毛坦厂组榴辉岩砾石的启示   总被引：23，自引：0，他引：23  

李双应  王清晨等 《地质论评》2002,48(4):345-352

大别山北缘地区发育厚达近万米的中新生代碎屑岩，它们记录着大别山造山带和在株罗纪以来的演化历史。在安徽省六安地区毛坦厂组中，发现多块榴辉岩砾石。砾石新鲜，质地坚硬，表明属于第一旋回砾石。榴辉岩由石榴子石、多硅白云母、绿帘石、石英、金红石等组成。具有明显的退变质作用，发育以钠长石和闪石类组成的后合成晶、以及石榴子石周边的次为边。石榴子石以铁铝榴石和钙铝榴石为主，恪地C类榴辉岩。根据其特征应该属于大别山南部和北部超高压榴辉岩。毛坦厂组层位确切，古生物化石和同位素年龄都表明以晚株罗世为主，这一发现表明，在晚株罗世，以榴辉岩为代表的造山带根部物质，即：超高压变质岩已经出露地表，并作为毛坦厂组的物源。因此，大别造山带超高压为质岩折返到地表，最迟在晚株罗世。  相似文献   

Mesozoic “Red Beds” and its Evolution in the Hefei Basin     

ZHANG Jiaodong  CHEN Xuanhu  LI Qiuli  LIU Chengzhai  LI Bing  LI Jie  LIU Gang  REN Fenglou 《《地质学报》英文版》2012,86(5):1060-1076

The Hefei Basin is the largest basin in the North China landmass with complete and well-preserved Mesozoic and Cenozoic strata. In the basin there developed a suite of extremely thick “red beds” in the Mesozoic. Owing to complex evolution processes and a lack of paleontological traces, there have been controversies regarding the division and correlation of this suite of red beds. Based on results obtained in recent years in drilling, seismic and surface geological investigations and in consideration of relationships between seismic sequences and regional tectonic events, as well as evidence in paleontology, petrology and isotopic dating, this paper preliminarily puts forward the following ideas about the sequence stratigraphic framework of the continental “red beds” in the Hefei Basin. (1) The Zhougongshan Formation and the Yuantongshan Formation have similar lithologic, geophysical and paleontological characteristics, so we incorporate them into a single formation, called the Yuantongshan Formation, and the original Zhougongshan and Yuantongshan Formations are regarded as the upper and the lower parts of the newly defined Yuantongshan Formation. Its age is the Middle Jurassic; (2) the Zhuxiang Formation belongs to the Upper Jurassic Series and (3) the age of the Xiangdaopu Formation is the Lower Cretaceous. Furthermore, signatures of depositional evolution are analyzed in the paper based on features of seismic reflection, outcrops and drilling data. The Early and Middle Jurassic is characterized by a foreland basin, which is influenced mainly by uplift and longitudinal compression of the Dabieshan Mountains; the Lower Jurassic System has a relatively small depositional area; the Middle Jurassic strata are distributed extensively over the whole basin, marking the summit of basin development; a flexure basin is characteristic of the Late Jurassic, manifesting a joint effect of the Dabieshan and Zhangbaling Mountains with the former being more significant. In the Early Cretaceous, the Xiangdaopu Formation was distributed in the Daqiao depression, evidently affected by extension of the Tanlu fault; in the Late Cretaceous, the Hefei Basin was subjected to dismembering and the Zhangqiao Formation was distributed in the east-west direction along the downthrown side of the fault.  相似文献   

Early–Middle Jurassic evolution of the northern Yangtze foreland basin: a record of uplift following Triassic continent–continent collision to form the Qinling–Dabieshan orogenic belt     

《International Geology Review》2012,54(3):327-341

The northern Yangtze foreland basin system was formed during the Mesozoic continental collision between the North and South China plates along the Mianlue suture. In response to the later phase of intra-continental thrust deformation, an extensive E–W-trending molasse basin with river, deltaic, and lake deposits was produced in front of the southern Qinling–Dabieshan foreland fold-and-thrust belt during the Early–Middle Jurassic (201–163 Ma). The basin originated during the Early Jurassic (201–174 Ma) and substantially subsided during the Middle Jurassic (174–163 Ma). A gravelly alluvial fan depositional system developed in the lower part of the Baitianba Formation (Lower Jurassic) and progressively evolved into a meandering river fluvial plain and lake systems to the south. The alluvial fan conglomerates responded to the initial uplift of the southern Qinling–Dabieshan foreland fold-and-thrust belt after the oblique collision between the Yangtze and North China plates during the Late Triassic. The Qianfoya Formation (lower Middle Jurassic) mainly developed from shore-shallow lacustrine depositional systems. The Shaximiao Formation (upper Middle Jurassic) predominantly consists of thick-bedded braided river delta successions that serve as the main body of the basin-filling sequences. The upward-coarsening succession of the Shaximiao Formation was controlled by intense thrusting in the southern Qinling–Dabieshan fold-and-thrust belt. Palaeogeographic reconstructions indicated an extensive E–W foredeep depozone along the fold-and-thrust belt during the Middle Jurassic (174–163 Ma) that was nearly 150 km wide. The depozone extended westward to the Longmenshan and further east to the northern middle Yangtze plate. The northern Yangtze foreland basin was almost completely buried or modified by the subsequent differential thrusting of Dabashan and its eastern regions (Late Jurassic to Cenozoic).  相似文献   

北淮阳盆岭带的构造演化与铀成矿   总被引：1，自引：0，他引：1       下载免费PDF全文

郭福生  辜骏如  梁鼎新  林银山  张宝友 《地质找矿论丛》1998,13(4):46-52

北淮阳盆岭构造带是大别造山带的重要组成部分。佛子岭岩群代表了早古生代扬子地块北缘大别古岛弧弧前海盆的火山沉积建造,在加里东运动陆块对接过程中变形变质。石炭系梅山群具磨拉石建造特征。在华力西印支期陆内俯冲褶皱带的基础上,燕山期沿桐柏桐城断裂伸展北移,近东西向断陷盆地发育,形成盆岭构造景观。南侧大别山强烈隆升,铸就了现今大别山变质核杂岩构造格局。中生代岩浆活动是区内重要铀源,具有成矿潜力的地质体是响洪甸正长岩体和北带粗面质火山碎屑岩  相似文献   

Crustal structure of the southern Dabie ultrahigh-pressure orogen and Yangtze foreland from deep seismic reflection profiling   总被引：8，自引：0，他引：8  

Shuwen Dong  Rui Gao  Bolin Cong †  Zhongyan Zhao  Xiaochun Liu  Sanzhong Li  Qiusheng Li  Dongding Huang 《地学学报》2004,16(6):319-324

A new 140‐km‐long seismic reflection profile provides a high‐resolution crustal‐scale image of the southern Dabieshan high‐pressure (HP) metamorphic belt and the Yangtze foreland fold‐and‐thrust belt. The seismic image of the stacked section shows that the southern Dabieshan metamorphic terrane and Yangtze foreland belt are separated by a large north‐dipping fault. In the foreland the upper crust is dominated by a series of folds and thrusts formed during the collisional stage in the mid‐Triassic; it was reworked by crustal extension resulting in the formation of a late Jurassic and Cretaceous red‐bed basin. The southern Dabieshan profile shows stacked crustal slabs developed along the margin of the collisional orogenic belt. The Moho reflectors at 10–11 s (～30–33 km) are seismically prominent and segmented by a number of south‐verging thrusts that were probably developed by foreland‐directed thrusting of the deeply subducted continental crust during exhumation. The seismic reflection profile suggests that structures related to the Triassic–Jurassic subduction and exhumation of the Yangtze plate are preserved despite the severe crustal extension superimposed during the late Mesozoic and Cenozoic.  相似文献   

雅布赖盆地构造演化与油气聚集   总被引：1，自引：0，他引：1       下载免费PDF全文

吴晓智  王桂君  郑民  郑曼 《地质科学》2015,50(1):74-87

雅布赖含油气盆地位于中国西部河西走廊地区北部,处于华北克拉通阿尔善地块中南部过渡带,属北祁连构造带,中生代为走滑拉分盆地,新生代为挤压冲断坳陷盆地。燕山早期,形成东西向雅布赖拉张断陷,主控断裂为北大山正断层,沉积中心位于盆地南部;燕山中期,碰撞造山作用致使盆地北部急剧抬升,北部中-下侏罗统地层遭受强烈剥蚀;燕山晚期,阿拉善地块及其北部地区处于伸展构造环境,雅布赖山前产生东西向正断层,急剧活动,快速沉降,形成了北东向展布的新的拉张断陷盆地。喜马拉雅期,在挤压走滑作用下,雅布赖盆地南部形成北西向南倾逆冲的推覆构造,致使北大山正断层发生错断瓦解,最终形成"东隆西坳,南断北超"的挤压坳陷构造格局。雅布赖盆地主体沉积凹陷具有较强分割性,沉降凹陷分布于南部,最大沉积岩厚度为5 400 m;凹陷内侏罗系最为发育,中侏罗统新河组、青土井组暗色泥岩、煤岩为烃源岩,砂岩为储集层,新河组泥岩互层作盖层,构成盆地内最主要的含油气组合。由于雅布赖盆地特定的早期深埋,晚期抬升破坏构造格局,造就侏罗系砂岩储层早期强烈压实致密,侏罗系煤系烃源岩成熟较晚,构造发育期与烃源岩排烃期不匹配,生成油气主要表现为近源成藏与层内滞留,形成源内自生自储,致密油应是主要勘探对象。  相似文献   

合肥盆地圆筒山组物源分析及其地质意义：来自碎屑锆石的证据     

王勇生  田自强  胡召齐  白桥 《地学前缘》2019,26(2):179-193

合肥盆地位于华北板块东南缘,形成于华南、华北板块碰撞过程中。合肥盆地形成时表现为大别造山带向北逆冲形成的前陆挠曲盆地,早白垩世在区域伸展背景下转变为断陷盆地。中侏罗统圆筒山组是合肥盆地前陆挠曲阶段的沉积地层之一,主要表现为湖泊相沉积,与下伏的防虎山组典型的河流相沉积明显不同。为了获得圆筒山组更详细的物源信息,对肥西地区出露的圆筒山组紫红色粉砂岩开展了碎屑锆石LA-ICP MS U-Pb定年。定年结果显示,两个粉砂岩样品均获得了约2.0 Ga和约770 Ma两个主要峰值以及约2.4 Ga次要峰值。该特征与扬子板块锆石年龄分布特征几乎完全一致,指示圆筒山组物源应来自扬子板块。考虑到盆地地层的物源不应来自其周边隆起区分水岭的另一侧,因而推测圆筒山组物源应来自张八岭隆起中侏罗世时地表出露岩石。在燕山运动A幕影响下,下扬子地区发生逆冲褶皱活动,张八岭隆起发生明显隆升,上部岩石被剥蚀殆尽,仅保留现今出露的新元古代张八岭群及肥东杂岩,被剥蚀的岩石搬运沉积于合肥盆地内,形成圆筒山组。  相似文献