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1.
上扬子地区晚三叠世层序地层格架:扬子地台消亡与上扬子前陆盆地形成的地层学效应 总被引:1,自引:0,他引:1
发生在中、晚三叠世之交的印支运动,在中国南方表现为以下构造事件:1秦岭-大别造山带的形成与隆升,记录了华北板块与华南板块的对接碰撞;2中国南方东南部1300km宽的陆内造山带的强烈作用,以及由此造成的前陆褶皱逆冲带的北西向迁移。在上述构造事件的结果,结束了扬子地台自埃迪卡拉纪以来以作为一个稳定的古地理单元而且大多数时间发育浅水碳酸盐岩的沉积历史。在扬子地台消亡之后形成一个特别的上扬子前陆盆地(或四川前陆盆地),其中堆积了以河流沉积为特征的须家河组及其相关地层。以河流沉积为特征的须家河组及其相关地层,在川西地区覆盖在马鞍塘组台地碳酸盐岩和小塘子组陆棚至滨岸相砂页岩地层之上,向东、向南逐渐超覆尖灭,从而形成了一个特殊的上三叠统层序地层格架,这个特殊的层序地层格架记录了扬子地台的消亡和上扬子前陆盆地的形成和发育过程。就像黔西南地区在中三叠世台地边缘再生的晚三叠世前陆盆地以及该盆地中填充的特别的上三叠统一样,上扬子前陆盆地上三叠统层序地层格架,尤其是河流沉积为特征的须家河组特别的沉积趋势(从相对集中发育煤层的高可容纳空间低能河流沉积、演变到河道砂岩聚合作用为特征的低可容纳空间高能河流沉积的序列,所组成的沉积层序)所组成的冲积构架,以及逐渐从西向东、从北向南的逐渐超覆尖灭的空间分布,不但是了解扬子地台消亡和上扬子前陆盆地形成的重要物质记录,而且代表了前陆盆地充填序列中一种较为特别的河流相层序地层序列。 相似文献
2.
中上扬子印支运动的地层学效应及晚三叠世沉积盆地格局 总被引:6,自引:0,他引:6
发生在晚三叠世的印支运动,结束了中上扬子地区自伊迪卡拉纪以来以一个稳定的古地理单元、而且多数时间沉积浅水碳酸盐岩的漫长的地质历史。该地质事件受控于秦岭造山带的大规模造山隆升和华北板块的向南强烈挤压,并在华夏地块的北西向挤压,以及印支板块的向北挤压的共同作用下,在习称的"扬子地台"的相对较为稳定的基底上于晚三叠世形成一个从残留海相盆地到具有前陆性质的陆相磨拉石盆地的演变序列;而且,这个特别的盆地演变序列与松潘—甘孜地块上发育的晚三叠世前陆浊积盆地的形成和消亡过程存在时间上的对应性。因此,对中上扬子区印支运动的地层学效应以及由此而产生的沉积盆地格局演变的系统描述,为窥视古特提斯洋消亡过程提供了重要线索,而且为重新审视长期以来作为前陆盆地典型代表的、由龙门山造山带的造山隆升所形成的"四川盆地西部前陆盆地"假象提供了一个思考的途径。 相似文献
3.
《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
4.
华南印支期碰撞造山--十万大山盆地构造和沉积学证据 总被引:27,自引:9,他引:18
十万大山盆地是云开造山带前陆地区的一个窄长的晚二叠世—中三叠世沉积盆地,位于扬子与华夏陆块拼接位置的西南端。十万大山盆地晚二叠世—中三叠世沉积由巨厚的磨拉石建造组成,并构成多个向上变粗和向上变细的构造-地层层序。云开造山带及前陆冲断带上泥盆统至下二叠统中发育了大量的印支期形成的薄皮褶皱和冲断构造。这些指示扬子和华夏陆块在印支期发生了强烈陆内碰撞与会聚及前陆盆地的沉积作用。P2 /P1 之间的不整合面是伸展构造向挤压构造转换的转换面,为华南印支期碰撞挤压造山或活化造山的序幕。T3 /T2 之间不整合面是挤压构造向伸展构造转换的转换面,是印支期活化挤压造山结束的界面,标志着晚二叠世开始的碰撞造山作用的结束。华南内部晚二叠世—中三叠世构造运动性质及转换与当时华南南缘存在的古特提斯洋的闭合及印支板块与华南陆块的碰撞作用有关。 相似文献
5.
尽管还存在一些不同的认识和争论,陆生植被对河流沉积作用的影响,得到了越来越多的地质事实的支持,主要表现在以煤或泥炭的形式保存下来的碳质物质对河堤的保护,从而促进了曲流河与网状河的发育。四川盆地上三叠统须家河组为一套含有煤系地层的冲积序列为主的地层,属于具有前陆盆地性质的磨拉石序列,成为研究植被发育条件下河流序列的典型代表。重庆永川普安剖面的须家河组是以河流相沉积为主的须家河组的典型代表,包括6个正式的岩性段,在其中一段、三段和五段为含煤细粒碎屑岩组成的低能河流相地层,二段、四段和六段由砂质底荷载高能河流相沉积构成,岩石地层划分及其所反映出的旋回性成为层序地层的识别和划分的基础,从而将须家河组划分成3个河流相沉积层序。两个主要的特征赋予了普安剖面须家河组河流相层序序列重要意义:(1)总体向上变粗的而且与现行的河流相层序模式形成巨大差异的河流相沉积序列组成的冲积构架;(2)明显受到植被发育影响的高能底荷载河道相砂岩。基于植被发育对河流沉积作用的影响,对普安剖面须家河组的河流相沉积序列的观察与研究,对长期以来须家河组沉积相分析存在的较大争议将提供重要的线索和思考途径。 相似文献
6.
Liang Luo Jia-Fu Qi Ming-Zheng Zhang Kai Wang Yu-Zhen Han 《International Journal of Earth Sciences》2014,103(6):1553-1568
Upper Triassic to Upper Jurassic strata in the western and northern Sichuan Basin were deposited in a synorogenic foreland basin. Ion–microprobe U–Pb analysis of 364 detrital zircon grains from five Late Triassic to Late Jurassic sandstone samples in the northern Sichuan Basin and several published Middle Triassic to Middle Jurassic samples in the eastern Songpan–Ganzi Complex and western and inner Sichuan Basin provide an initial framework for understanding the Late Triassic to Late Jurassic provenance of western and northern Sichuan Basin. For further understanding, the paleogeographic setting of these areas and neighboring hinterlands was constructed. Combined with analysis of depocenter migration, thermochronology and detrital zircon provenance, the western and northern Sichuan Basin is displayed as a transferred foreland basin from Late Triassic to Late Jurassic. The Upper Triassic Xujiahe depocenter was located at the front of the Longmen Shan belt, and sediments in the western Sichuan Basin shared the same provenances with the Middle–Upper Triassic in the Songpan–Ganzi Complex, whereas the South Qinling fed the northern Sichuan Basin. The synorogenic depocenter transferred to the front of Micang Shan during the early Middle Jurassic and at the front of the Daba Shan during the middle–late Middle Jurassic. Zircons of the Middle Jurassic were sourced from the North Qinling, South Qinling and northern Yangtze Craton. The depocenter returned to the front of the Micang Shan again during the Late Jurassic, and the South Qinling and northern Yangtze Craton was the main provenance. The detrital zircon U–Pb ages imply that the South and North China collision was probably not finished at the Late Jurassic. 相似文献
7.
滇黔桂地区晚古生代至三叠纪层序地层序列及沉积盆地演化 总被引:19,自引:7,他引:12
志留纪末期的加里东运动使扬子板块与华夏板块基本上连接成一个统一的华南板块,在这个较为稳定的构造背景下,从晚古生代至三叠纪滇黔桂地区经历了一个较为复杂的盆地演变过程,形成了一个复杂而有序的层序地层序列。晚古生界可以划分为25个三级沉积层序,三叠系大致可以划分为10个三级沉积层序;35个三级沉积层序又大致可以归并为8个二级构造层序。从三级沉积层序到二级构造层序的归并,代表了滇黔桂地区从晚古生代的“滇黔桂盆地”演化为早、中三叠世的“南盘江盆地”、最后在晚三叠世早期结束海相沉积历史的沉积学和地层学响应过程,为在层序地层学框架内理解复杂的地质演化历史提供了一个较为典型的实例。 相似文献
8.
Intracontinental subduction of the South China Block below the North China Block in the Late Triassic resulted in formation of the transpressional Sichuan foreland basin on the South China Block. The Upper Triassic Xujiahe Formation was deposited in this basin and consists of an eastward-tapering wedge of predominantly continental siliciclastic sedimentary rocks that are up to 3.5 km thick in the western foredeep depocenter and thin onto the forebulge and into backbulge depocenters.Five facies associations (A–E) make up the Xujiahe Formation and these are interpreted, respectively, as alluvial fan, transverse and longitudinal braided river, meandering river, overbank or shallow lacustrine, and deltaic deposits. This study establishes a sequence stratigraphic framework for the Xujiahe Formation which is subdivided into four sequences (SQ1, 2, 3 and 4). Sequence boundaries are recognized on the basis of facies-tract dislocations and associated fluvial rejuvenation and incision, and systems tracts are identified based on their constituent facies associations and changes in architectural style and sediment body geometries. Typical sequences consist of early to late transgressive systems tract deposits related to a progressive increase in accommodation and represented by Facies Associations A, B and C that grade upwards into Facies Association D. Regionally extensive and vertically stacked coal seams define maximum accommodation and are overlain by early highstand systems tract deposits represented by Facies Associations D, E and C. Late highstand systems tract deposits are rare because of erosion below sequence boundaries. Sequence development in the Xujiahe Formation is attributed to active and quiescent phases of thrust-loading events and is closely related to the tectonic evolution of the basin. The Sichuan Basin experienced three periods of thrust loading and lithospheric flexure (SQ1, lower SQ2 and SQ3), two periods of stress relaxation and basin widening (upper SQ 2 and SQ3) and one phase of isostatic rebound (SQ4). Paleogeographic reconstruction of the Sichuan Basin in the Late Triassic indicates that the Longmen Mountains to the west, consisting of metamorphic, sedimentary and pre-Neoproterozoic basement granitoid rocks, was the major source of sediment to the foredeep depocenter. Subordinate sediment sources were the Xuefeng Mountains to the east to backbulge depocenters, and the Micang Mountains to the northwest during the late history of the basin. This study has demonstrated the viability of sequence stratigraphic analysis in continental successions in a foreland basin, and the influence of thrust loading on sequence development. 相似文献
9.
大别山北麓石炭纪盆地沉积和构造研究 总被引:18,自引:0,他引:18
大别山加里东构造带北麓的石炭系为残留海盆地沉积 ,分布限制在潢川—固始—肥中断裂以南和信阳—商城—金寨—舒城断裂以北 ,保存在南翼向南倒转并有逆冲推覆构造的复式向斜中 ,中部被燕山期花岗岩侵入体破坏。排除构造重复 ,石炭系总厚 >2 0 0 9m (掩盖部分未计 ) ,按岩石地层单元分 5个组 ,各组之间均为断层接触。自下而上花园墙组为以复理石为代表的深水浊积扇和具有向上变细序列的陡坡扇沉积 ;杨山组为辫状河和滨岸辫状三角洲含煤沉积 ;道人冲组为辫状河、辫状三角洲、扇三角洲及滨浅海沉积 ;胡油坊组分布最广 ,为微咸水盆地陡坡扇、浊积扇沉积 ,有特征的复理石和滑塌沉积 ;杨小庄组为碎屑海岸含煤沉积。下统和上统的界限位于道人冲组中下部厚层砾岩的底部。古水流方向以自南指向北占优势 ,物源主要来自南侧的大别山区。石炭系下统砾岩为远源硅质正砾岩 ,含大量脉石英砾石 ,母岩为岩浆热液成因 ,现已无保存 ;上统砾岩为近源陡坡环境形成的复成分、多杂基的副砾岩 ,为浊积砾岩 ,其中脉石英砾石明显减少 ,含千枚岩和沉积岩砾石 ,母岩主要来自南侧的信阳群 /佛子岭群等。复理石、滑塌、浊积砾岩的存在表明石炭系具陡坡陆缘海活动大陆边缘的沉积特征 ,并发现有少量火山岩碎屑 ,可能形成于弧后盆地。稀? 相似文献
10.
龙门山前陆盆地底部不整合面: 被动大陆边缘到前陆盆地的转换 总被引:4,自引:3,他引:1
晚三叠世龙门山前陆盆地是在扬子板块西缘被动大陆边缘的基础上由印支造山运动而形成的,盆地中地层充填厚度巨大,包括晚三叠世卡尼期至瑞提期的马鞍塘组、小塘子组和须家河组,持续时间达20Myr,显示为1个以不整合面为界的构造层序。位于晚三叠世龙门山前陆盆地构造层序与下伏古生代-中三叠世被动大陆边缘构造层序之间的不整合面属于龙门山前陆盆地的底部不整合面,标志了扬子板块西缘从被动大陆边缘盆地到前陆盆地的转换。该底部不整合面位于晚三叠世马鞍塘组与中三叠世雷口坡组之间,显示为平行不整合面或角度不整合面,在接触面上发育冲蚀坑、古喀斯特溶沟、溶洞、溶岩角砾、古风化壳的褐铁矿、黏土层及石英、燧石细砾岩等底砾岩。该不整合面向南东方向不断地切削下伏地层,且均发育岩溶风化面,上覆的晚三叠世地层沿不整合面向南东超覆,显示了从整合面到不整合面的变化过程,并随着逆冲楔的推进向南东方向迁移,其超覆线、侵蚀带和相带的走向线与龙门山冲断带的走向大致平行。底部不整合面显示为典型的前陆挠曲不整合面,标志着龙门山前陆盆地的形成和扬子板块西缘挠曲下降和淹没过程,底部为古喀斯特作用面,下部为碳酸盐缓坡和海绵礁建造,上部为进积过程中形成的三角洲沉积物,具有向上变粗的垂向结构,表明底部不整合面和前缘隆起的抬升是扬子板块西缘构造负载的挠曲变形的产物,显示了在卡尼期松潘-甘孜残留洋盆的迅速闭合和逆冲构造负载向扬子板块的推进过程。本次在对晚三叠世龙门山前陆盆地底部不整合面的风化壳、残留厚度、地层缺失、剥蚀厚度、地层超覆等研究的基础上,计算了底部不整合面迁移速率、前缘隆起迁移速率、地层上超速率和前缘隆起的剥蚀速率,并与逆冲楔推进速率进行了对比,结果表明,底部不整合面迁移速率、前缘隆起的迁移速率、地层上超速率均介于3~18mm·a-1之间,其与逆冲楔推进速率(5~15mm·a-1)相似,因此,可用底部不整合面迁移速率、前缘隆起的迁移速率和地层上超速率代表逆冲楔推进速率。但是前缘隆起的剥蚀速率很小,介于0.02~0.08mm·a-1之间,仅为逆冲楔推进速率的1/100。 相似文献
11.
川西前陆盆地是我国西部典型的前陆盆地,也是我国重要的致密砂岩含气区。盆地上三叠统须家河组二段和四段等渗透层中的流体跨过须家河组三段、五段等不渗透层流入侏罗系自流井组、千佛岩组、沙溪庙组、遂宁组和蓬莱镇组等渗透层,即发生了流体的跨层流动。流体的跨层流动一方面使侏罗系砂岩发生了受酸性水控制的次生溶蚀作用,从而改善了侏罗系的储集条件;另一方面为侏罗系形成天然气藏提供了气源条件。盆地天然气成藏具有烟囱效应、早聚晚藏和异常高压等特征。深盆气是天然气早期聚集在川西前陆盆地上三叠统(主要是须二段和须四段)的基本形式,是后期天然气成藏的基础,本文称之为气库区。天然气藏形成是由地壳隆升作用致使早期聚集的气库区决口,引起流体跨层流动,天然气以速度快、规模大和范围窄的形式运移和聚集,本文称之为爆发式成藏。爆发式成藏形成了上三叠统晚期裂缝重组气藏和侏罗系气藏(并非都是次生气藏)两类气藏。早期天然气聚集和定位地区的确定和评价是今后川西前陆盆地天然气勘探的重点和难点。 相似文献
12.
《International Geology Review》2012,54(14):1806-1824
In this article, we present in situ U–Pb and Lu–Hf isotope data for Upper Triassic detritus in the Sichuan region of northwestern South China, which was a foreland basin during the Late Triassic. The aim is to determine the provenance of sediments in the foreland basin and to constrain the evolution of the surrounding mountain belts. U–Pb age data for the Late Triassic detrital zircons generally show populations at 2.4–2.6 Ga, 1.7–1.9 Ga, 710–860 Ma, 410–460 Ma, and 210–300 Ma. By fitting the zircon data into the tectonic, sedimentologic, and palaeographic framework, we propose that the north Yangtze Block and South Qinling–Dabie Orogen were the important source areas of sediments in the northern part of the foreland basin, whereas the Longmen Shan thrust-fold belt was the main source region for detritus in other parts of the foreland basin. The South Qinling–Dabie Orogen could also have served as a physical barrier to block most detritus shed from the southern North China Block into the foreland basin during the sedimentation of the Xujiahe Formation. Our results also reveal that part of the flysch from the eastern margin of the Songpan–Ganzi region had been displaced into the Longmen Shan thrust-fold belt before the deposition of the foreland basin sediments. In addition, the Lu-Hf data indicate that Phanerozoic igneous rocks in central China show insignificant formation of the juvenile crust. 相似文献
13.
THE RECOGNITION OF THE CHUXIONG FORELAND BASIN SYSTEM IN YUNNAN,CHINA 相似文献
14.
中国南方中生代经历了中国大陆最终主体拼合的陆缘及其之后的陆内构造演化。晚古生代末期,在秦岭—大别山微板块与扬子板块之间存在向西张口的洋盆,即勉略古洋盆。中三叠世末期开始,扬子板块相对于华北板块发生自南东向北西的斜向俯冲碰撞作用,扬子北缘晚三叠世至中侏罗世发育陆缘前陆褶皱逆冲带与前陆盆地系统。晚侏罗世至早白垩世,中国东部的大地构造背景发生了重要的构造转变,中、上扬子地区处于三面围限会聚的大地构造背景。在这种大地构造格局下,中、上扬子地区晚侏罗世至早白垩世发育陆内联合、复合构造与具前渊沉降的克拉通内盆地系统。自中侏罗世末期开始,扬子北缘前陆带与雪峰山—幕阜山褶皱逆冲带经历了自东向西的会聚变形过程及盆地的自东向西的迁移过程和收缩过程。扬子北缘相对华北板块的斜向俯冲导致在中扬子北缘的深俯冲及超高压变质岩的形成。俯冲之后以郯庐断裂—襄广断裂围限的大别山超高压变质地块在晚侏罗世向南强逆冲,致使扬子北缘晚三叠世至中侏罗世前陆盆地被掩覆和改造。 相似文献
15.
The Late Permian–early Middle Triassic strata of the northern West Qinling area, northeastern Tibetan Plateau, are composed of sediment gravity flow deposits. Detailed sedimentary facies analysis indicates these strata were deposited in three successive deep-marine environments. The Late Permian–early Early Triassic strata of the Maomaolong Formation and the lowest part of the Longwuhe Formation define a NW–SE trending proximal slope environment. Facies of the Early Triassic strata composing the middle and upper Longwuhe Formation are consistent with deposition in a base-of-slope apron environment, whereas facies of the Middle Triassic Anisian age Gulangdi Formation are more closely associated with a base-of-slope fan depositional environment. The lithofacies and the spatial–temporal changes in paleocurrent data from these strata suggest the opening of a continental margin back-arc basin system during Late Permian to early Middle Triassic time in the northern West Qinling. U–Pb zircon ages for geochemically varied igneous rocks with diabasic through granitic compositions intruded into these deep-marine strata range from 250 to 234 Ma. These observations are consistent with extensional back-arc basin development and rifting between the Permian–Triassic Eastern Kunlun arc and North China block during the continent–continent collision and underthrusting of the South China block northward beneath the Qinling terrane of the North China block. Deep-marine sedimentation ended in the northern West Qinling by the Middle Triassic Ladinian age, but started in the southern West Qinling and Songpan-Ganzi to the south. We attribute these observations to southward directed rollback of Paleo-Tethys oceanic lithosphere, continued attenuation of the West Qinling on the upper plate, local post-rift isostatic compensation in the northern West Qinling area, and continued opening of a back-arc basin in the southern West Qinling and Songpan-Ganzi. Rollback and back-arc basin development during Late Permian to early Middle Triassic time in the West Qinling area explains: the truncated map pattern of the Eastern Kunlun arc, the age difference of deep-marine sediment gravity flow deposits between the Late Permian–early Middle Triassic northern West Qinling and the late Middle Triassic–Late Triassic southern West Qinling and Songpan-Ganzi, and the discontinuous trace of ophiolitic rocks associated with the Anyemaqen-Kunlun suture. 相似文献
16.
十万山盆地位于广西西南部,大地构造位置属于华南板块的西北缘,是在华南板块与杨子板块拼接的加里东运动之后,早古生代华南洋再一次打开形成被动大陆边缘。晚二叠世末,该地区变成孤后盆地,进一步转化成前陆盆地。在盆山转换过程中,经历了三次沉积-构造盆山转换过程:泥盆纪-二早叠世分地新生与被动大陆边缘拉张裂谷;晚二叠世与中三叠世间盆地构造性质转换与前陆盆地;晚三叠世至侏罗纪的晚期前陆磨拉石沉积。在碎屑岩陆架沉积阶段,生成碎屑岩烃源岩层。在碳酸盐台地沉阶段,发育硝屑灰岩、藻灰岩、礁灰岩和暴露作用生成的白云岩储集岩。因而其早期被动大陆边缘阶段构了古生新储组合。前陆盆地早期在前渊盆地内沉积了一套碎屑岩烃源岩。它与早期的储集层构成了新生古储组合。同时也对下伏地层起到了封闭作用。沉积地层逐层向克拉通斜坡上超覆,发育地层圈闭。前渊阶段中期快速沉积的巨厚的复理石沉积和晚期快速沉积形成的磨拉石沉积有利于早期沉积的迅速埋藏、成熟和保存。 相似文献
17.
在对川东北前陆盆地上三叠统须家河组露头剖面野外实测和钻井等资料综合研究的基础上,对该区上三叠统须家河组层序及沉积相类型、沉积特征进行了详细的研究。结果表明:研究区内主要发育冲积扇、辫状河、曲流河、扇三角洲、辫状河三角洲、曲流河三角洲、湖泊、海相三角洲等八种主要的沉积相类型。古地理演化经历了由海相环境—海陆过渡相环境—陆相环境的转变。反映了川东北前陆盆地晚三叠世须家河期盆-山耦合过程及其沉积响应。须一段(即小塘子期)发育时期,受印支期构造运动的影响,本区大部分隆升成陆,仅在研究区北西部广元、剑阁等地发育海相三角洲相沉积。须二段发育时期,米仓山-大巴山构造山系的逆冲推覆构造作用较为强烈,川东北前陆盆地坳陷幅度加大,沉积物供给充分,沿米仓山-大巴山前缘地带主要发育辫状河三角洲沉积,而盆地西南部主要发育浅湖沉积。在须三段发育时期,米仓山-大巴山构造山系构造活动逐渐减弱,处于低幅稳定隆升状态,碎屑物供给量减少,沿米仓山-大巴山前缘地带主要发育辫状河三角洲沉积;从盆地前缘地带向中心地带则主要发育浅湖沉积。须四-须六段发育时期,米仓山-大巴山开始进入强烈逆冲推覆和构造隆升阶段,川东北前陆盆地坳陷幅度急剧加大,碎屑物供给量骤然增多,从盆地前缘地带向中心地带主要发育冲积扇-扇三角洲-辫状河三角洲、曲流河、曲流河三角洲相到浅湖相沉积。 相似文献
18.
位于扬子地块西南缘的黔南地区在中三叠世晚期(相当于Ladinian—Carnian期)出现了一次大规模的海侵,使从晚元古代至中三叠世末期(约从850~236Ma)以浅水相碳酸盐岩沉积为主的扬子碳酸盐岩台地被海水淹没,形成了一套深水相的瘤状暗色灰泥岩和代表最大海泛面的黑色页岩沉积,之后扬子台地被以陆相碎屑岩为主的沉积所覆盖,从此结束了其长达约630my的碳酸盐岩台地生长演化历史。研究表明,黔西南地区Ladinian—Carnian期海侵与全球海平面变化同步,是一次全球性的海平面变化。 相似文献
19.
浅论华南扬子区下、中奥陶统紫台组 总被引:3,自引:0,他引:3
华南下、中奥陶统紫台组命名地点在贵州印江紫台。自命名以来,对紫台组作为岩石地层单位的有效性长期存有争议。资料总结和大范围野外调查发现,紫台组具有独特的岩相和生物相,它以紫红色泥灰岩、瘤状泥灰岩为特征(夹少量黄绿色泥页岩);以独特的三叶虫和头足类动物群为特色;并具有稳定的空间分布范围,出露在现今的黔东北、渝东南、湘西北、鄂西南以及皖南等地区,在古地理上大体沿扬子台地的东南缘呈带状分布。作为与湄潭组(上扬子地区)、大湾组(中下扬子地区)基本同期的沉积,紫台组是一个有效的岩石地层单元。 相似文献
20.
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