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1.
T. V. Klets 《Stratigraphy and Geological Correlation》2006,14(2):174-184
Comparative analysis of taxonomic diversity dynamics of condontophorids from Boreal (Arctic regions of Russia) and Tethyan (Northwest Pacific) paleobasins showed that they had most favorable habitat environments in tropical seas. In the Boreal realm, condontophorids went through three stages of evolution comprising probably four substages and four phases, whereas three stages with six substages and twelve phases are distinguished in the Tethyan realm. The most important abiotic factors that controlled development of conodontophorids are paleotemperature of seawater and paleogeographic settings. Renewals in taxonomic composition conodontophorids and diversification of their assemblages have been confined to moments of paleotemperature and/or sea level rise. The comparative analysis of stages in evolution of conodontophorid and bivalve assemblages has been carried out. As is established, the peak taxonomic diversity of bivalves in Boreal seas was in the Late Triassic after the diversity minimum of the Early Triassic time. In contrast, conodontophorids were most diverse in the Olenekian Age. 相似文献
2.
青藏高原的形成是特提斯演化的结果。本文根据区域大地构造演化和沉积学证据,将青藏高原特提斯在时间上划分为3个阶段,即早期、中期和晚期。早期从震旦纪开始至奥陶-志留纪结束,这个阶段的大洋我们称作“原特提斯”。中期从泥盆纪开始至石炭-二叠纪结束,通常称这个大洋为“古特提斯”。晚期从二叠纪末、三叠纪初开始一直延续到第三纪早期,这个阶段的大洋通常被称作“新特提斯”。在空间上,青藏高原特提斯可以划分为3个区域相,即北区、中区和南区。上述3个阶段完全可以与空间上的3个区域相对应,原特提斯主要发育于北区,大洋消亡后的遗迹残留在青藏高原第5缝合带中,即西昆仑-阿尔金-北祁连缝合带。古特提斯主要发育于中区,大洋消亡后的遗迹残留在青藏高原第3、4缝合带中,即金沙江缝合带和昆仑南缘缝合带。新特提斯主要发育于南区,大洋主洋盆消亡后的遗迹残留在青藏高原第1缝合带中,即雅鲁藏布江缝合带,它的弧后盆地消亡后的遗迹残留在第2缝合带中,即班公湖-怒江缝合带。 相似文献
3.
中国青藏高原特提斯的形成与演化 总被引:4,自引:0,他引:4
青藏高原的形成是特提斯演化的结果。本文根据区域大地构造演化和沉积学证据,将青藏高原特提斯在时间上划分为3个阶段,即早期、中期和晚期。早期从震旦纪开始至奥陶—志留纪结束,这个阶段的大洋我们称作"原特提斯"。中期从泥盆纪开始至石炭—二叠纪结束,通常称这个大洋为"古特提斯"。晚期从二叠纪末、三叠纪初开始一直延续到第三纪早期,这个阶段的大洋通常被称作"新特提斯"。在空间上,青藏高原特提斯可以划分为3个区域相,即北区、中区和南区。上述3个阶段完全可以与空间上的3个区域相对应,原特提斯主要发育于北区,大洋消亡后的遗迹残留在青藏高原第5缝合带中,即西昆仑—阿尔金—北祁连缝合带。古特提斯主要发育于中区,大洋消亡后的遗迹残留在青藏高原第3、4缝合带中,即金沙江缝合带和昆仑南缘缝合带。新特提斯主要发育于南区,大洋主洋盆消亡后的遗迹残留在青藏高原第1缝合带中,即雅鲁藏布江缝合带,它的弧后盆地消亡后的遗迹残留在第2缝合带中,即班公湖—怒江缝合带。 相似文献
4.
L. G. Bragina 《Stratigraphy and Geological Correlation》2016,24(6):575-601
Radiolarian paleobiogeography for the late Albian–Santonian is proposed for the first time. The paleobiogeographic differentiation is found to be different for the Albian, Cenomanian, Turonian, and Coniacian–Santonian. The Tethyan and Boreal superrealms can be recognized for the Albian–Santonian. For the Albian–Santonian, the Tethyan Superrealm can be subdivided into realms: Atlantic-Mediterranean, Carpathian-Caucasian, and Tropical-Pacific. The boundaries of these realms changed throughout geological time. The Boreal Superrealm recognized for the Albian so far cannot be subdivided into realms, whereas in the Cenomanian it included the East European and Western Siberian realms without a clear definition of the boundaries and the Boreal-Pacific (in the North Pacific). The Boreal Superrealm is subdivided in the Turonian into two realms (European-Western Siberian and Boreal-Pacific), and in the Coniacian–Santonian, it is subdivided into three realms (European, Western Siberian, and Boreal-Pacific). The Austral Superrealm can be recognized only for the Albian and Cenomanian, and because of the lack of data, it cannot be delineated for the Turonian and Coniacian–Santonian. 相似文献
5.
前人(张研等,1983)曾将珠斯愣海尔罕地区的泥岔系分为4个组:珠斯楞组、依克乌苏组、卧驼山组和西屏山组,分别属于埃姆斯期、艾菲尔期、吉维特期和弗拉斯期。本文描述了该区中、上泥盆统4个剖面,将其划分为4个沉积旋网,每个旋回构成一组,自下而上依次为依克乌苏组、卧驼山组、下西屏山组和上西屏山组。根据四射珊瑚组合和其它共生化石,把依克乌苏组上部到下西屏山组下部归入吉维持期,下西屏山组上部相上西屏山组的时代为弗拉斯期,木区缺乏法门期的沉积。 关于珠斯楞海尔罕地区所在的北方槽区泥盆纪的生物地理区系特征尚无统一认识。作者根据四射珊瑚动物群的地方性分子含量,Otsuka相似性系数和构造古地理,将中同泥岔纪的珊瑚分为3个大区:北方大区、北特提斯大区和南特提斯大区。这种划分方案也非常适用于吉维特期和弗拉斯期。 吉维持期到弗拉斯期,巴丹吉林区和扬子区珊瑚群的关系最为密切,与北天山——准噶尔区和内蒙古——兴安区共同的属很少。因此,广大的北方槽区属于两个不同的生物大区,北方大区和北特提斯大区,二者的界线是居延海——林西地壳对接带。这种认识与王鸿祯(1981)所划分的中国大地构造单元一致。 相似文献
6.
寒武纪三叶虫生物地理区的一些问题 总被引:1,自引:0,他引:1
文内叙述寒武纪三叶虫分类、分布和分区。世界上有两个寒武纪生物地理区,一个是北区,另一个是南区。斜坡带的球接子类及少数多节类是世界性分布的,仅能视作任何一区内的生态小区。两区的分界在北非的北部、土耳其的南部,再向东连接天山的北部边缘及蒙古的南部边缘。从南欧寒武纪三叶虫的情况看,是海水深度频繁变化的结果。中国任何一个地区,既不属东冈瓦纳,也不属西冈瓦纳。 相似文献
7.
笔者根据国内外研究进展和区域地质对比,将特提斯中西段的古生代构造域划分为Iapetus-Tornquist洋加里东造山带、Rheic洋华力西期造山带、乌拉尔-天山中亚造山带和古特提斯Pontides-高加索-Mashhad造山带,并提出4个初步认识:(1) Rodinia超大陆在新元古代裂解形成的原特提斯大洋在欧洲以Iapetus和Tornquist缝合带为代表,它们在约420 Ma闭合形成加里东造山带,与我国秦祁昆造山系相似;(2) Rheic洋类似于特提斯东段的龙木错-双湖-昌宁-孟连洋,为古生代的特提斯主大洋,而泥盆纪形成的古特提斯洋实际上为主洋盆衍生的分支洋盆之一,Rheic洋的各分支洋盆在320~310 Ma闭合,形成华力西造山带和Pangea超大陆;(3)南阿尔卑斯Plankogel带、土耳其北部Pontides带和伊朗北部Rasht-Mashhad为古特提斯缝合带,代表泥盆纪—二叠纪的洋盆,晚石炭世—早三叠世丝绸之路岩浆弧与我国羌塘中部的望果山火山弧相对应;(4)特提斯中西段的基梅里造山带和羌塘中部的印支期造山带为古特提斯增生型造山带的典型代表。 相似文献
8.
海扇类(pectinoids (s.l))是一类具浮游异养幼虫类型生态特征的表生双壳类。这种生态特征决定了其大部分组成分子具世界性分布。但是,在侏罗纪原大西洋地区海扇类中仍有不少属/亚属显示出地区性特征,其地理分布主要受纬度气候带控制,即显示出南北差异。这些地区性海扇贝类是认识侏罗纪生物地理分区的重要标志。主要分布于高纬度地区的北方型分子由Buchiidae、Pectinidae和Oxytomidae 3科的一些属/亚属组成,它们于中侏罗世晚期和晚侏罗世常见于格陵兰东部,往南止于英格兰南部,是北方生物区的重要代表。适于热带-亚热带的特提斯型分子分异度较高,组成分子来自Pectinidae,Spondylidae和Entoliidae 3科,主要分布于法国以南的较低纬度地区。但是,在特提斯海扩张时期,如侏罗纪巴通期,随着特提斯生物大区北界的北移,特提斯双壳类可散布至英格兰北部。 相似文献
9.
《International Geology Review》2012,54(15):1884-1905
Considerable attention has been given to the Carnian (Late Triassic) Pluvial and Reingraben events associated with organic-rich shale accumulation in the Germanic basin, Alps, southern Appenines as well as in northwestern Tethyan margins. Less interest has been shown to the southern Tethyan portion represented by the northern margin of Africa, including Tunisia. Tunisian basins represented by the Tellian domain, Tunisian trough, the ‘Dorsale’, and the North–South Axis (NOSA) belong to the southern Tethyan margin, where northern and central areas record the early Carnian anoxic event within an extensive carbonate platform. This short-lived (~2 million year) period of anoxia ranges within the Aonoides to Austriacum ammonite zones, and corresponds in Tunisia generally to intermediate to shallow water environments marked by organic-rich black limestone, dolomite, and shale. Interestingly, toward the south, the dysaerobic conditions in the Jeffara–southern Dahar basin appear to have prevailed locally also in the early Carnian. Here we review evidence of early Carnian anoxia in Tunisia based on the analysis of more than 17 Triassic sections and wireline logs from several petroleum exploration wells penetrating the black dolomites, limestones, and shales. In addition, biostratigraphic and complete geochemical reviews have been undertaken from published papers and unpublished internal reports to better assess this important and promising hydrocarbon source interval. 相似文献
10.
中国中、晚石炭世珊瑚化石丰富。各地珊瑚群特征不同,故可分出不同的珊瑚组合。华南地区珊瑚群以犬齿珊瑚目为主,出现大量地区性分子。 相似文献
11.
中国西南特提斯构造演化—幔柱构造控制 总被引:18,自引:1,他引:18
基于对中国西南特提斯巨型造山系的时空结构和构造-岩浆事件分析研究提出.泥盆-石炭纪时期出现于昌都-思茅陆块两侧的热幔柱导致了金沙江洋和澜沧江洋成对打开,热幔柱岩浆作用沿洋脊产出苦橄玄武岩和洋岛玄武岩,并造成区域地球化学异常。二叠纪末期出现于昌都-思茅-印支中央陆块下的冷幔柱导致了两大洋向该陆块下俯冲消减,陆块两缘发育沟-弧-盆体系,构成冷幔柱的洋壳板片在200Ma时期堆积沉落,诱发板块后继俯冲,产生滞后型孤火山-岩浆岩。发育于冈瓦纳大陆北缘的德干热幔柱在株罗纪导致怒江洋和雅鲁藏布江洋相继打开,在白垩纪末期(66Ma)形成德干玄武岩省。发育于劳亚大陆南缘的峨眉热幔柱在二叠纪,导致峨眉火成岩省的形成,在早中三叠世使甘孜-理塘断裂带扩张成洋。冷幔柱的持续发生,决定了雅鲁藏布江洋和甘孜-理塘向昌都-思茅陆块方向的俯冲消减,以及来自冈瓦纳大陆和劳亚大陆陆块分别向昌都-思茅陆块南北两侧拚贴和碰撞。 相似文献
12.
亚洲特提斯域油气聚集地质特征 总被引:2,自引:0,他引:2
丘东洲 《沉积与特提斯地质》2007,27(2):1-8
特提斯域含油气性,特别是亚洲特提斯域油气聚集地质特征,举世瞩目。本文从亚洲特提斯域地质演化、构造单元划分着手,讨论油气地理分布、油气分布与盆地类型、油气盆地与沉积环境、油气分布与盆地保存的特点,进而对亚洲特提斯域油气富集基本因素进行总结。亚洲特提斯域含油气盆地是特提斯洋形成、演化、造山和消亡过程的沉积-构造产物,其盆地成因和赋存的油气具有特提斯固有的特色。亚洲特提斯域油气地理上主要分布于西亚段南带,其次为西亚段北带、东南亚段中带,再次为中亚段。分析发现,亚洲特提斯油气分布,就盆地类型而言,主要与前陆盆地、克拉通边缘盆地相关;就成烃物质的沉积-构造环境而言,多位于古赤道与45°古纬度之间,盆地形态主要与台地、环形坳陷、线形坳陷沉积-构造环境相关。亚洲特提斯域油气分布与盆地保存关系极为密切,盆地保存是盆地油气评价的先决条件。文章把亚洲特提斯域油气富集基本因素归纳为两点,一是盆地演化过程中具备广阔平缓、长期保持被动陆缘沉积-构造环境,二是盆地演化末期直至现今保持沉积物被埋藏、保存的状况。 相似文献
13.
Sedimentary history of the Tethyan basin in the Tibetan Himalayas 总被引:14,自引:0,他引:14
After an epicontinental phase, the sedimentary rocks in the Tibetan Himalayas document a complete Wilson cycle of the Neo-Tethyan (Tethys Ill) evolution between the Gondwana supercontinent and its northward drifting margin (Lhasa block) from the Late Permian to the Eocene.During the Triassic rift stage, the basin was filled with a huge, clastic-dominated sediment wedge with up to > 5 000 m of flysch in the northern zone. Widespread deltaic clastics and shallow-water carbonates of late Norian to earliest Jurassic age in the southern zone mark, in conjunction with decreasing tectonic subsidence, the transition to the drift stage.Some 4 500 m of Jurassic and Early Cretaceous shallow-water carbonates and siliciclastics accumulated on the Tethyan Indian passive margin. Deepening-upward sequences with condensed beds at their tops alternate with repeated progradational packages of shelf sediments. Extensive abyssal sediments with basaltic volcanics in the northern deep-water zone reflect continued ocean spreading and thermal subsidence. Paleomagnetic data, gained separately for the northern Indian plate and the Lhasa block, indicate that the Neo-Tethys reached its maximum width about 110 Ma ago with a spreading rate of 4.8 cm/year, before it commenced to close again.During the remnant basin stage in the Late Cretaceous and Paleogene, a shallowing-upward megasequence, capped by a carbonate platform, developed in the southern inner shelf realm. In the northern slope/basin plain zone, turbidites and chaotic sediments, derived from both the acretionary wedge and the steepening slope of the passive margin, accumulated. The depositional center of the remnant basin shifted southward as a result of flexural subsidence and southward overthrusting.The sediments from the Triassic to the Paleogene are tentatively subdivided into five mega-sequences, which are controlled mainly by regional tectonics. Climatic influence (e.g., carbonate deposition), due to northward plate motion, is partially subdued by terrigenous input and/or increased water depth. During the Oligocene and Miocene, crustal shortening led to rapid uplift and the deposition of fluvial molasse in limited basins. 相似文献
14.
自板块说问世以来,大陆漂移理论获得了新的生命力,二十年来迅速发展,已经在许多学科领域内获得大量的证据。本文试图从三叠纪古生物地理和地层的角度,对其进行讨论。 相似文献
15.
Matsuoka Atsushi Kobayashi Kenta Takei Masahiko Nagahashi Toru Yang Qun Wang Yujing Zeng Qinggao 《地学前缘》2000,(Z1)
PALEOCEANOGRAPHY AND EVOLUTION OF THE CENO-TETHYS: MICROPALEONTOLOGICAL EVIDENCE FROM PELAGIC SEDIMENTS IN THE YARLUNG ZANGBO SUTURE ZONE, SOUTHERN TIBET 相似文献
16.
特提斯构造带油气资源丰富,从特提斯演化来分析盆地油气成藏具有重要的意义.西北非位于特提斯构造带西段,具有三叠、锡尔特、伊利兹等多个超大型含油气盆地,主要有以撒哈拉地台为主的古生界成藏组合和北部大陆边缘为主的中新生界成藏组合.特提斯构造演化对西北非油气成藏具有明显的控制作用:特提斯洋开启以及海侵阶段,控制盆地烃源岩、盖层发育;特提斯洋关闭阶段,构造运动活跃,发育含油气圈闭,控制油气运移及分布. 相似文献
17.
羌塘-三江构造-地层大区的古生代-中生代沉积盆地和构造演化受特提斯洋的控制.通过综合分析前人对羌塘-三江地区大量岩石地层、生物地层、同位素年代学及构造学等研究资料,对羌塘-三江构造-地层大区各分区古生代-中生代的沉积盆地类型进行了划分,并分析了各个沉积盆地的形成和演化过程,探讨了该区的大地构造演化:早古生代该区主体属于大洋环境;晚古生代随着特提斯洋向南东、北东方向的俯冲,该区开始发育一系列活动陆缘沉积盆地,产生金沙江弧后洋、澜沧江弧后洋和甘孜-理塘弧后洋,形成多岛洋弧盆系;中生代,随着特提斯洋向北东的俯冲消减,弧后洋逐渐闭合,羌塘-三江地区发生大规模弧-弧、弧-陆碰撞增生,逐渐转化成陆.随着白垩纪特提斯洋的闭合,印度板块与中国西部碰撞、造山,羌塘-三江地区发育陆内盆地. 相似文献
18.
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
19.
志留纪以来的云开地块 总被引:16,自引:1,他引:15
桂南-粤西的云开地块,位于特提斯构造带和环太平洋构造带的交汇处。其变质基底仅出露于两广边境的云开大山地区,但古生代海相沉积盖层分布广泛,甚至跨越北部湾。地块北缘的古生代深水沉积带,也延展到越南东北沿海地区。云开地块的范围,可能西起红河三角洲,东达珠江三角洲。晚古生代时,它可能为地处南纬低纬度海域的碳酸盐台地。古南海于中晚二叠世开始张开,使云开地块北移,与大明山地体碰撞,形成云开北缘的造山带。中晚三叠世,古南海的进一步扩张和桂西-越北的古特提斯向南消减,又形成晚二叠世造山带以北的印支期岩浆弧和磨拉石。也是东古特提斯闭合过程的重要部分。新生代早期南海张开前,古南海北侧的南沙地块可能和云开地块相接,总面积可能超过50万km2,在东南亚地质演化中起重要作用。 相似文献
20.
Ammonite biostratigraphy plays a central role in the definition of Jurassic stratigraphy. Nevertheless, the strong provincialism
of European ammonite species during the Kimmeridgian is a long-standing problem in correlation attempts between the boreal
and Tethyan faunal realms. Moreover, the sequence-stratigraphic interpretations for northern and southern Europe given in
the Jurassic chronostratigraphic chart of Hardenbol et al. in SEPM Publ. 60 (chart) (1998) are different. The present study
aims to resolve this correlation problem in order to better understand the connections between the boreal and the Tethyan
realms during the Kimmeridgian. A sedimentological and high-resolution sequence-stratigraphic interpretation is presented
for two unpublished sections (Cras d’Hermont and Roche de Mars) in the northern Swiss Jura, where recently discovered ammonites
display both boreal and Tethyan influences. Then, these sections are correlated with the same time interval in the central
Swiss Jura and Vocontian Basin, which belong to the Tethyan realm. Lastly, a long-distance transect is constructed between
the Vocontian Basin, Swiss Jura, northern France, and southern England, the last two areas being part of the sub-boreal realm.
The main results of this work are that: (1) third-order depositional sequences, and also higher-frequency sequences, can be
correlated from the Tethyan to the boreal realm; (2) the sequence-stratigraphic interpretation given by Hardenbol et al. in
SEPM Publ 60 (chart) (1998) for northern Europe seems to be accurate and agrees with the sequence-stratigraphic framework established in the Swiss Jura;
(3) the Late Kimmeridgian of the Swiss Jura displays boreal influences; (4) integrated high-resolution sequence-stratigraphic
and cyclostratigraphic studies are a valuable approach for bridging the correlation gap between northern and southern Europe. 相似文献