共查询到18条相似文献,搜索用时 296 毫秒
1.
《地球科学》2015,(2)
冈瓦纳与欧亚大陆间的昌都地块构造属性存在争议,解决问题的关键是生物古地理区系判别.青海南部二叠纪类化石群的研究表明昌都地块该生物群一直表现为暖水的特提斯型,与华南地区始终表现出更多的相似性,其生物古地理归属应为特提斯大区华夏-特提斯区华南亚区.昌都地块南界龙木错-双湖-澜沧江缝合带在早二叠世为划分青藏高原暖水型特提斯区的南界,不仅是华南亚区与藏北冷暖混合亚区的分界线,也是特提斯大区与冈瓦纳大区的分界线.中二叠世以后该带不再构成大区界线,但在确定次一级分区界线上仍是一个很好的划分标志;北界金沙江缝合带二叠纪两侧生物群表现出一致性,未形成浅海底栖生物自由迁移的障碍,不具有生物古地理分区意义. 相似文献
2.
3.
Nie Zetong Song Zhimin 《地球科学》1990,(3)
本文通过对西藏二叠系(竹蜓)类及非(竹蜓)有孔虫的研究认为,早二叠世早期(竹蜓)类以冷温型的Monodiexodina动物群为主,属冈瓦纳—特提斯生物区,冈瓦纳大陆与欧亚太陆及扬子地块的分界分别为昆仑山南坡断裂和金沙江断裂。早二叠世晚期(竹蜓)类Neoschwagerina-Polydiexodina动物群仍限于冈瓦纳北缘区,其生物区系以及扬子地块的分界与早二叠世早期相同,而冈瓦纳大陆北缘西部首先与欧亚大陆塔里木等地块接近,该动物群才越过了昆仑山北坡。晚二叠世晚期(竹蜓)类以Palaeofusulina动物群为主,与扬子地块相似属华夏—特提斯生物区,冈瓦纳与欧亚大陆的界线转为班公湖—怒江断裂,而冈底斯带与喜马拉雅带至今未见Palaeofusulina,该二带仍属冈瓦纳—特提斯生物区。 相似文献
4.
对东特提斯地区二叠-三叠纪古气候特征及其演化的系统分析表明,二叠纪-晚三叠世期间东特提斯地区分带型气候特征仍然较为清楚.二叠纪早期非暖水沉积在印度板块上的时空分布表明,现今印度板块东南边缘当时应贴近南极洲而非澳大利亚西北部.早二叠世早期非暖水沉积的北界在滇西位于昌宁-孟连带之西;在青藏高原,可能位于班公湖-丁青带.之后随着联合古大陆的整体北移,亲冈瓦纳地块群经历了由南温带到热带的古气候演化,欧亚大陆南部经历了由热带到北温带的古气候演化.各地块二叠-三叠纪期间古气候特征的演化为其古地理位置的确定提供了重要依据.二叠纪栖霞期古地理再造表明特提斯洋具多岛洋特点,二叠纪早期昌宁-孟连洋向北延入班公湖-怒江带,向南延入清迈带,大体占据南部亚热带,宽约10°古纬距. 相似文献
5.
在羌塘中部大沙河-果干加年山剖面展金岩群中发现珊瑚化石赫氏鲍斯维耳剌毛虫Chatetes(Boswellia)heritschi Sokolov,说明展金岩群中存在晚石炭世的生物时代证据。但是该化石并不是属于冈瓦纳冷水生物区的,而是来自温水环境的特提斯型生物区。在荣玛乡黑石山剖面中发现大量中二叠世科化石,既出现典型的冈瓦纳相冷水生物,如Wannerophyllam、Monodiexo-dina等,也存在大量暖水型的生物,如田氏朱森Chusenella tieni Chen、散尔多希瓦格Schwagerina sanerduoensis Nieet Song、假孙氏假纺锤Pseudofusulina pseudosuni Sheng等。化石特征属于冈瓦纳相与特提斯相的混合类型。研究表明,羌塘中部的喀喇昆仑—龙木错—双湖一带是石炭纪、二叠纪冈瓦纳和特提斯生物混生区,不存在明显的生物大区界线。推测龙木错-双湖蛇绿岩带所代表的洋盆可能仅为特提斯南缘弧盆系统中的小盆地。 相似文献
6.
青藏高原羌塘地区果干加年山—荣玛乡一带石炭纪—二叠纪古生物研究新进展 总被引:1,自引:0,他引:1
在羌塘中部大沙河-果干加年山剖面展金岩群中发现珊瑚化石赫氏鲍斯维耳剌毛虫Chatetes(Boswellia)heritschi Sokolov,说明展金岩群中存在晚石炭世的生物时代证据。但是该化石并不是属于冈瓦纳冷水生物区的,而是来自温水环境的特提斯型生物区。在荣玛乡黑石山剖面中发现大量中二叠世科化石,既出现典型的冈瓦纳相冷水生物,如Wannerophyllam、Monodiexo-dina等,也存在大量暖水型的生物,如田氏朱森Chusenella tieni Chen、散尔多希瓦格Schwagerina sanerduoensis Nieet Song、假孙氏假纺锤Pseudofusulina pseudosuni Sheng等。化石特征属于冈瓦纳相与特提斯相的混合类型。研究表明,羌塘中部的喀喇昆仑—龙木错—双湖一带是石炭纪、二叠纪冈瓦纳和特提斯生物混生区,不存在明显的生物大区界线。推测龙木错-双湖蛇绿岩带所代表的洋盆可能仅为特提斯南缘弧盆系统中的小盆地。 相似文献
7.
藏东北构造古地理特征及冈瓦纳北界的时空转换 总被引:8,自引:0,他引:8
研究区位于南北向三江构造带与东西向羌塘构造带的衔接处,是特提斯构造域的重要组成部分。研究区包含金沙江、澜沧江、双湖-昌宁、班公湖-怒江4条古特提斯洋壳带及昌都-芒康、羌北、索县-左贡、多玛-安多4个微陆块的相关部位。4条缝合带时分时合,其间的微陆块则"藕断丝连"。前奥陶纪金沙江带属于泛冈瓦纳"泛非软基底"的北界,早古生代它还是"泛非"混合生物群与扬子区系的界线。泥盆纪—石炭纪,古特提斯形成南北2支,即金沙江带和双湖-昌宁带,与其间亲扬子的中间岛块群(昌都-芒康、羌北、索县-左贡)形成"多岛海"格局,此间,双湖-昌宁转换为冈瓦纳的北界,多玛-安多微陆块为亲冈瓦纳相。早、中二叠世,中间岛块(群)裂解为亲扬子的昌都-芒康和亲冈瓦纳的羌北、索县-左贡三岛块,形成多岛洋,冈瓦纳北界转换到澜沧江带。晚二叠世,古特提斯消亡,形成Pangaea联合古陆,研究区为陆间多岛海。晚三叠世印支运动阶段,金沙江、澜沧江和双湖-昌宁带相继转换为陆内造山带;与此同时,班公湖-怒江带与雅鲁藏布江带形成中特提斯北、南2支,其间为中间陆块群(基墨里),班公湖-怒江带是晚侏罗世—早白垩世消亡的,"基墨里"岛块群是晚白垩世增生在亚洲大陆之上的。喜马拉雅地块是喜马拉雅运动阶段才最后俯冲到亚洲大陆之下,转换为亚洲大陆。 相似文献
8.
研究分析了大兴安岭及其邻区石炭-二叠纪地层,着重介绍各地层单元的分布范围、岩性组合、生物化石特征,特别总结了早、中二叠世冷水型和暖水型生物组合在本区局部出现的混生现象.根据本区板块构造发育,结合生物组合特征,进行了生物古地理分区的划分.本区北部属于北方大区,准噶尔-兴安区,兴安亚区;南部属于特提斯大区,华北区,华北北缘亚区. 相似文献
9.
青海南部治多-杂多一带二叠系尕笛考组 总被引:1,自引:0,他引:1
青海南部二叠系尕笛考组厚度变化大,分布广,空间上呈链状展布。通过在该区地质调查对该组进行厘定,尕笛考组岩性组合为玄武岩、火山集块岩、火山角砾岩夹灰岩、砂岩和泥岩,与上覆九十道班组呈整合或假整合接触,为火山—沉积体系。尕笛考组产类Misellina-Schwagerina组合、非有孔虫、珊瑚Wentzellophyllum-Szechuanophyllum组合和腕足类等,表明地质时代为早二叠世罗甸期,与华南、西秦岭、藏东等地同期生物群可很好地对比,揭示出昌都地块在二叠纪时生物古地理区系属于特提斯大区华夏区,在构造古地理上为泛华夏大陆群或扬子板块的一个组成部分。 相似文献
10.
东昆仑木孜塔格地区的赋存二叠纪单通道筵的岩石为浊流与喷溢流成因,也就是说为异地沉积,因而用单通道筵现在的位置来判别冈瓦纳大陆的北界就有其局限性,而且与其共生的生物组合中含有暖温型Misellina动物群,Misellina动物群属特提斯大区的华夏特提斯生物地理分区。上部原地的中厚层生物碎屑灰岩夹珊瑚礁灰岩中含有大量暖水型动物群,如Pseudoshwagerina、Misellina minor、Parafusulinaaustralis。因此把冈瓦纳北界移至木孜塔格一线的证据不够充分。 相似文献
11.
龙木错-双湖-澜沧江板块缝合带与石炭二叠纪冈瓦纳北界 总被引:29,自引:0,他引:29
李才 《吉林大学学报(地球科学版)》1987,(2)
1982—1983年间,作者在改则幅和日土幅1:100万区域地质调查中,发现在黑头山—冈玛错—角木日—双湖一带,存在严重解体的蛇绿岩带。后经进一步工作,获悉该带明显地控制了冈瓦纳相和特提斯相石炭、二叠系的分布,并有高压变质带的岩石出露。因此,该带为一条北西西—南东东向的板块缝合带,它应是目前国内外地质界都在寻找的冈瓦纳大陆的北界。 相似文献
12.
The identification and correlation of the Carboniferous-Permian (Gzhelian-Asselian) boundary within the sedimentary sequences of Gondwana has always been a topic of debate. Type latest Carboniferous and earliest Permian marine sequences are characterised by warm tropical faunas and come from the Uralian Region of Russia and Kazakhstan. Faunas include conodonts and fusulinid foraminiferids which are prime tools for correlation. Such faunal groups are absent from most Gondwanan sequences where reliance for correlations must be placed primarily on brachiopods, bivalve molluscs and palynology. The Western Australian marine sequences, with their contained ammonoids, provide a pivotal link for the dating and correlating of Early Permian Gondwanan sequences with those of the type regions and their palynostratigraphical record is essential for trans-Australian correlations and correlations elsewhere throughout Gondwanaland.New data from the fully cored DM Tangorin DDHl bore hole, drilled in the Cranky Corner Basin, New South Wales, Australia, reveals a sequence of descending faunal zones. The stratigraphically highest zone with Eurydesrna cordaturn, encompasses the Late Sakmarian (Sterlitamakian). The middle zone with Torniopsis elongata, Sulciplica c r a m and Trigonotreta tangorini straddles the Sterlitamakian-Tastubian boundary, with the palynomorphs Pseudoreticulatispora pseudoreticulata high in the zone and Granulatisporites confluens low in the zone. An impoverished fauna with Trigonotreta nov., low in the Granulatisporites confluens Zone, is probably of latest Asselian or Tastubian age.Significant new data from Argentina has revealed marine faunas from below the occurrence of Granulatisporites confluens. These are considered to be of Asselian age. Outcrops of the Tupe Formation, with a marine fauna, at La Herradura Creek in the western Paganzo Basin, San Juan Province, are best regarded as being of mid to late Asselian age. The Tupe Fauna has been recognised as the Tivertonia jachalensis-Streptorhynchus inaequiornatus Zone. Previously, this fauna was considered to be of Late Carboniferous or Stephanian age. Three faunal associations are known from the Rio del Peii6n Formation, Rio Blanco Basin, La Rioja Province. The middle assemblage with Tivertonia, Costaturnulus, Kochiproductus and Trigonotreta, appears to correlate well with the Tupe Formation fauna. The lower assemblage, with Streptorhynchus, Etherilosia, Costaturnulus, Trigonotreta and a punctate spiriferid, as well as indeterminate productids, probably of Early Asselian age. The youngest assemblage includes a species ofRhynchopora that is close to Rhynchopora australasica from the latest Asselian-early Tastubian of Western Australia. The marine biostratigraphical data from Argentina has enabled a much greater understanding of the earliest Permian marine faunas to be achieved - a story that is apparently absent from the other cold and cool temperate regions of Gondwana. 相似文献
13.
14.
The Paleotethyan evolution of the Southeast Asia has become better understood in recent years. Questions remain, however, over the role of the Dien Bien Phu Suture Zone in the evolution of the Indochina Block and whether the Song Ma Suture represents the boundary between the Indochina Block and the South China Block. Granitoid geochronological and geochemical data obtained in northern Laos provide new information vis-à-vis these arguments. Zircon U–Pb ages together with whole rock, trace and rare earth element data from 27 granitic rocks from five complexes allow us to conclude that these granites are typical of I-type Indosinian volcanic arc granites. However, the 234–256 Ma I-type granites mismatch the initiation age obtained from the ductile shear zone of the Dien Bien Phu Fault, thus repudiating the existence of the Dien Bien Phu Suture Zone. This then implies that the Qamdo–Simao and Indochina blocks were united. The geochemical and geochronological data further suggest that the main crust in the Indochina Block formed in the Late Paleoproterozoic to Early Mesoproterozoic, much later than the Archean crustal formation age identified east of the Song Ma Suture. Moreover, the 440–404 Ma and 234–256 Ma I-type granites suggest that the boundary between Indochina and South China should be the Jinsha River Suture–Song Ma Suture–Kontum Massif, instead of the Jinsha River Suture–Song Chay Suture. Finally, the Emeishan basalt and granite complexes both form part of the South China tectonic units subducting westward under the Qamdo–Simao and Indochina blocks. 相似文献
15.
《Journal of Asian Earth Sciences》2002,20(3):309-351
The Shyok Suture Zone (Northern Suture) of North Pakistan is an important Cretaceous-Tertiary suture separating the Asian continent (Karakoram) from the Cretaceous Kohistan–Ladakh oceanic arc to the south. In previously published interpretations, the Shyok Suture Zone marks either the site of subduction of a wide Tethyan ocean, or represents an Early Cretaceous intra-continental marginal basin along the southern margin of Asia. To shed light on alternative hypotheses, a sedimentological, structural and igneous geochemical study was made of a well-exposed traverse in North Pakistan, in the Skardu area (Baltistan). To the south of the Shyok Suture Zone in this area is the Ladakh Arc and its Late Cretaceous, mainly volcanogenic, sedimentary cover (Burje-La Formation). The Shyok Suture Zone extends northwards (ca. 30 km) to the late Tertiary Main Karakoram Thrust that transported Asian, mainly high-grade metamorphic rocks southwards over the suture zone.The Shyok Suture Zone is dominated by four contrasting units separated by thrusts, as follows: (1). The lowermost, Askore amphibolite, is mainly amphibolite facies meta-basites and turbiditic meta-sediments interpreted as early marginal basin rift products, or trapped Tethyan oceanic crust, metamorphosed during later arc rifting. (2). The overlying Pakora Formation is a very thick (ca. 7 km in outcrop) succession of greenschist facies volcaniclastic sandstones, redeposited limestones and subordinate basaltic–andesitic extrusives and flow breccias of at least partly Early Cretaceous age. The Pakora Formation lacks terrigenous continental detritus and is interpreted as a proximal base-of-slope apron related to rifting of the oceanic Ladakh Arc; (3). The Tectonic Melange (<300 m thick) includes serpentinised ultramafic rocks, near mid-ocean ridge-type volcanics and recrystallised radiolarian cherts, interpreted as accreted oceanic crust. (4). The Bauma–Harel Group (structurally highest) is a thick succession (several km) of Ordovician and Carboniferous to Permian–Triassic, low-grade, mixed carbonate/siliciclastic sedimentary rocks that accumulated on the south-Asian continental margin. A structurally associated turbiditic slope/basinal succession records rifting of the Karakoram continent (part of Mega–Lhasa) from Gondwana. Red clastics of inferred fluvial origin (‘molasse’) unconformably overlie the Late Palaeozoic–Triassic succession and are also intersliced with other units in the suture zone.Reconnaissance further east (north of the Shyok River) indicates the presence of redeposited volcaniclastic sediments and thick acid tuffs, derived from nearby volcanic centres, presumed to lie within the Ladakh Arc. In addition, comparison with Lower Cretaceous clastic sediments (Maium Unit) within the Northern Suture Zone, west of the Nanga Parbat syntaxis (Hunza River) reveals notable differences, including the presence of terrigenous quartz-rich conglomerates, serpentinite debris-flow deposits and a contrasting structural history.The Shyok Suture Zone in the Skardu area is interpreted to preserve the remnants of a rifted oceanic back-arc basin and components of the Asian continental margin. In the west (Hunza River), a mixed volcanogenic and terrigenous succession (Maium Unit) is interpreted to record syn-deformational infilling of a remnant back-arc basin/foreland basin prior to suturing of the Kohistan Arc with Asia (75–90 Ma). 相似文献
16.
I. Metcalfe 《Journal of Asian Earth Sciences》2000,18(6)
It is proposed that the Bentong–Raub Suture Zone represents a segment of the main Devonian to Middle Triassic Palaeo-Tethys ocean, and forms the boundary between the Gondwana-derived Sibumasu and Indochina terranes. Palaeo-Tethyan oceanic ribbon-bedded cherts preserved in the suture zone range in age from Middle Devonian to Middle Permian, and mélange includes chert and limestone clasts that range in age from Lower Carboniferous to Lower Permian. This indicates that the Palaeo-Tethys opened in the Devonian, when Indochina and other Chinese blocks separated from Gondwana, and closed in the Late Triassic (Peninsular Malaysia segment). The suture zone is the result of northwards subduction of the Palaeo-Tethys ocean beneath Indochina in the Late Palaeozoic and the Triassic collision of the Sibumasu terrane with, and the underthrusting of, Indochina. Tectonostratigraphic, palaeobiogeographic and palaeomagnetic data indicate that the Sibumasu Terrane separated from Gondwana in the late Sakmarian, and then drifted rapidly northwards during the Permian–Triassic. During the Permian subduction phase, the East Malaya volcano-plutonic arc, with I-Type granitoids and intermediate to acidic volcanism, was developed on the margin of Indochina. The main structural discontinuity in Peninsular Malaysia occurs between Palaeozoic and Triassic rocks, and orogenic deformation appears to have been initiated in the Upper Permian to Lower Triassic, when Sibumasu began to collide with Indochina. During the Early to Middle Triassic, A-Type subduction and crustal thickening generated the Main Range syn- to post-orogenic granites, which were emplaced in the Late Triassic–Early Jurassic. A foredeep basin developed on the depressed margin of Sibumasu in front of the uplifted accretionary complex in which the Semanggol “Formation” rocks accumulated. The suture zone is covered by a latest Triassic, Jurassic and Cretaceous, mainly continental, red bed overlap sequence. 相似文献
17.
桂西北早中二叠世常么期和栖霞期地层为一套浅海碳酸盐岩相连续沉积,其中类化石十分丰富,自下而上可划分为5个化石带、4个亚带:1)Pamirina-Schwagerina带(Pamirinapulchra亚带;Schwagerinacushmani亚带);2)Schwagerinaguembeli带;3)Chalaroschwageri-na-Robustoschwagerina带(Chalaroschwagerinavulgaris亚带;Robustoschwagerinalonglinensis亚带);4)Brevaxinadyhrenfurthi带;5)Miselinaclaudiae带。同时对命名地点常么组的定义、时代及岩相特征、生物群面貌进行了讨论。 相似文献
18.
福建沙县船山组■类生物地层——兼论石炭系-二叠系界线 总被引:1,自引:0,他引:1
根据地层中类化石的分布规律 ,福建沙县船山组地层自上而下可划分为 5个化石带 :5 ) Eoparafusulinapararegularis带 ,4 ) Sphaeroschwagerina sphaerica带 ,3) Zellia chengkungensis带 ,2 ) Pseudoschwagerina miha-ranaensis带和 1) Triticites shikhanensis compactus带。通过与邻区及我国华南部分地区的对比 ,认为本区含第 2至第 5个类化石带的船山组上部地层的地质时代应为早二叠世早期 ,石炭系 -二叠系界线位于 Pseudoschwagerinamiharanaensis带之底 相似文献