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1.
本文记了塔里木盆地东北地区早二叠世介形类化石,化石采自柯坪县丘达依萨依剖面萨热哲依组,共计9属15种,其中10新种,并建立了Roundyella-Healdia-Sulcella-Bair-dia介形类组合,此组合明显不同于以Bairdia为主的中国南方早二叠世介形类动物群。 相似文献
2.
二叠纪—三叠纪古气候研究进展——泛大陆巨型季风气候:形成、发展与衰退 总被引:2,自引:0,他引:2
巨型季风是指二叠纪—三叠纪期间泛大陆上存在的强烈季节风,它的形成与泛大陆的形状、海陆分布及大陆的纬向分布密切相关。从晚石炭世泛大陆的聚合至晚侏罗世—早白垩世泛大陆裂解,巨型季风经历了形成、发展到衰退的过程。在三叠纪,泛大陆很大且几乎关于赤道对称,巨型季风达到最大强度。它对古气候、古环境、古生物及沉积等都产生了深刻的影响,使泛大陆低纬度地区呈现出干旱和潮湿交替的气候特征,蒸发岩和红层广泛分布;高纬度地区温暖潮湿,煤层大量分布;科罗拉多高原(美国西部)、西特提斯(欧洲)和东特提斯(中国)等地的二叠纪—三叠纪沉积地层也显示了受巨型季风影响的特征。 相似文献
3.
序言前陆盆地是由板块碰撞引起侧向挤压,进而形成冲断推覆体(thrust mass)加载于大陆边缘,使大陆地壳周缘前陆隆起(peripheral forebulge)形成的一种不对称盆地,它的一侧与发育周缘前陆隆起的克拉通大陆为邻,另一侧靠近冲断推覆体。靠近冲断推覆体侧的一端主要发育陆源碎屑沉积,而靠近克拉通大陆的一边则发育成为碳酸盐台地。由于碰撞后大陆岩石圈的持续俯冲,造成冲断推覆体跨过先前被动大陆边缘,进而向克拉通陆内迁移发展,致使碳酸盐台地最终全被陆源碎屑掩埋。最初,冲断推覆体位于海平面之下,随着冲断推覆体叠加而成山链,加载于大陆边缘薄的外部地壳之上,沿缝合线形成一个深而狭长的边缘海槽地,接受陆源泥和深海沉积物沉 相似文献
4.
<正> 几年前,多数中国地质学家还认为对冈瓦纳研究与中国地质关系不大。虽然新疆早有冈瓦纳型二、三叠纪二齿兽类的发现,人们也只在寻找南、北大陆间的“陆桥”上思考。七十年代中期,北喜马拉雅发现了晚古生代冰海沉积和Stepanoviella冷水生物群以及舌羊齿植物群,这就成了中国冈瓦纳研究的真正开端。但此后许多人仍然认为,在中国只有藏南一隅属于冈瓦纳大陆,雅鲁藏布江—印度河则是南、北大陆的分界。通过近几年中国地质学家以及与法国地质学家的合作研究,发现青藏高原中、北部(拉萨、羌塘地区)与东部(滇西),仍有同时代冰 相似文献
5.
新疆乌鲁木齐地区上石炭亚系祁家沟组地层出露较完整,沉积序列清晰,古生物化石丰富,但一直以来对祁家沟组的时代多有争论,且介形类研究薄弱。笔者在新疆乌鲁木齐地区祁家沟剖面上石炭亚系祁家沟组中鉴定出的介形类共计11属19种,并系统研究了这些介形类的组合面貌、地层分布,探讨了其古环境和古地理意义。结果表明: (1)根据介形类的组合面貌推断,祁家沟剖面祁家沟组的时代应为晚石炭亚纪莫斯科期—卡西莫夫期; (2)祁家沟组介形类生态类型属于古足目类和光滑速足目类的混合集群,符合构造活动区域的介形类OA1-OA3组合特征; (3)根据介形类的生态组合变化以及沉积学的证据,推断祁家沟剖面祁家沟组整体为滨、浅海沉积,存在海退序列; (4)祁家沟组介形类面貌与同时期的塔里木、准噶尔、中天山以及俄罗斯乌拉尔地区等产出的介形类最为相近,与北美、西欧和华北等板块的介形类也较为相似,表明晚石炭亚纪准噶尔、塔里木等块体聚集,并且距离劳俄大陆较近,所以其可与欧洲、北美板块的介形类进行属种交流。研究结果不仅进一步丰富了祁家沟组的化石材料,也对探索古亚洲洋演化特征和区域矿产开发具有重要的意义。 相似文献
6.
The South Tianshan Orogen and adjacent regions of Central Asia are located in the southwestern part of the Central Asian Orogenic Belt.The formation of South Tianshan Orogen was a diachronous,scissors-like process,which took place during the Palaeozoic,and its western segment was accepted as a site of the fnal collision between the Tarim Craton and the North Asian continent,which occurred in the late Palaeozoic.However,the post-collisional tectonic evolution of the South Tianshan Orogen and adjacent regions remains debatable.Based on previous studies and recent geochronogical data,we suggest that the fnal collision between the Tarim Craton and the North Asian continent occurred during the late Carboniferous.Therefore,the Permian was a period of intracontinental environment in the southern Tianshan and adjacent regions.We propose that an earlier,small-scale intraplate orogenic stage occurred in late Permian to Triassic time,which was the frst intraplate process in the South Tianshan Orogen and adjacent regions.The later largescale and well-known Neogene to Quaternary intraplate orogeny was induced by the collision between the India subcontinent and the Eurasian plate.The paper presents a new evolutionary model for the South Tianshan Orogen and adjacent regions,which includes seven stages:(I)late Ordovicianeearly Silurian opening of the South Tianshan Ocean;(II)middle Silurianemiddle Devonian subduction of the South Tianshan Ocean beneath an active margin of the North Asian continent;(III)late Devonianelate Carboniferous closure of the South Tianshan Ocean and collision between the Kazakhstan-Yili and Tarim continental blocks;(IV)early Permian post-collisional magmatism and rifting;(V)late PermianeTriassic the frst intraplate orogeny;(VI)JurassicePalaeogene tectonic stagnation and(VII)NeoceneeQuaternary intraplate orogeny. 相似文献
7.
豫西宜阳上二叠统孙家沟组为一套陆相碎屑岩,在该组中部土门段砂泥互层中发现大量的植物化石碎片和孢粉化石。文中依据孙家沟组沉积特征及孢粉组合区域对比,厘定了土门段的地质时代,并依据孢粉化石的亲缘植物关系和信息函数,结合微量元素Sr/Cu值指标,定性和半定量分析了宜阳地区的古气候特征。结果显示: 土门段共发现52属孢粉化石,以裸子植物花粉占优势,与华北地区晚二叠世孢粉组合特征有很大的相似性,推测其地质时代相当于晚二叠世长兴期。孢粉化石属种的植物亲缘关系与欧美镁灰岩统植物成分类似,表明整体上为较炎热的半干旱古气候。该成果可为华北地区晚二叠世晚期的陆相沉积环境、古植物背景以及古气候演化研究提供参考依据。 相似文献
8.
《Journal of Asian Earth Sciences》2003,21(4):397-412
The Sanandaj–Sirjan Zone contains the metamorphic core of the Zagros continental collision zone in western Iran. The zone has been subdivided into the following from southwest to northeast: an outer belt of imbricate thrust slices (radiolarite, Bisotun, ophiolite and marginal sub-zones, which consist of Mesozoic deep-marine sediments, shallow-marine carbonates, oceanic crust and volcanic arc, respectively) and an inner complexly deformed sub-zone (late Palaeozoic–Mesozoic passive margin succession). Rifting and sea-floor spreading of Tethys occurred in the Permian to Triassic but in the Sanandaj–Sirjan Zone extension-related successions are mainly of Late Triassic age. Subduction of Tethyan sea floor in the Late Jurassic to Cretaceous produced deformation, metamorphism and unconformities in the marginal and complexly deformed sub-zones. Deformation climaxed in the Late Cretaceous when a major southwest-vergent fold belt formed associated with greenschist facies metamorphism and post-dated by abundant Palaeogene granitic plutons. In the southwest of the zone a Late Cretaceous island arc—passive margin collision occurred with ophiolite emplacement onto the northern Arabian margin similar to that in Oman. Final closure of Tethys was not completed until the Miocene when Central Iran collided with the northeast Arabian margin. 相似文献
9.
Sh.A. Adamia T. Chkhotua M. Kekelia M. Lordkipanidze I. Shavishvili G. Zakariadze 《Journal of Structural Geology》1981,3(4):437-447
The evolution of Tethys is analysed on the basis of ophiolitic geology, reconstruction of continental margins, and plate kinematics. The North Anatolian-Minor Caucasian-South Caspian ophiolitic belt is considered to be the major suture of Palaeozoic Tethys, dividing its southern carbonate shelf from the Pontian-Caucasian-Turanian active margin. The Caucasian part of the latter comprises the Transcaucasian island arc, the Great Caucasian small ocean basin, the Great Caucasian island arc and the Precaucasian marginal sea, each characterised by its own magmatic, metamorphic and sedimentary facies association typical of that tectonic environments. The North Anatolian branch of Tethys persisted throughout the Palaeozoic and Mesozoic, whereas eastwards the major oceanic tract shifted south into the Zagros zone.The Northern frame of Mesotethys comprises the Pontain-Caucasian and Nakhichevan-Iranian island arc systems, divided by the Minor Caucasian basin, a relict of Palaeotethys reduced to a narrow northern branch of the Mesozoic ocean. In the late Cretacaous-Palaeogene, the youngest southwestern branch of Tethys separated Taurus-Anatolia from the Arabian shelf. Its ‘old’ northern branches were closed in the Palaeogene. Northward subduction in the South Anatolia-Zagros intracontinental basin triggered Neogene calc-alkaline volcanism in the Pontides, Antolia, Caucasus and Iran. 相似文献
10.
Anshu K.Sinha 《地学前缘》2000,(Z1)
he 2500km long Indus\|Tsangpo Suture has been recognized as one of the best examples of continent to continent collisional Suture Zone. It has come into existence as a result of subduction followed by continental collision (55~60Ma) between Indian (Sinha, 1989, 1997; Sinha et al., 1999) and Eurasian plates. While considering the recent palaeogeographic reconstruction of Pangea during late Palaeozoic it appears that a southern belt of Asian microcontinents stretching from Iran and Afghanistan through southern Tibet to western Thailand, Malaysia and Sumatra, comprise several continental blocks and numerous fragments that have coalesced since the Mid\|Palaeozoic along with the closure of Tethys. The origin, migration, assembly and timing of accretion of all these blocks to their present geotectonic position is not well known and there is no Permo—Triassic crust left in the present day Indian Ocean. The oldest ocean crust adjacent to the west African and Antarctic margin is of early or middle Cretaceous age (approximately 140~100Ma) (Searle, 1991). The Karakoram\|Hindukush microplate in the west and the Qiangtang\|Lhasa block in the central and eastern segment of South Asia margin are among those blocks already welded with Asian plates around 120~130Ma ago, before the collision of India (55~60Ma) with the collage of plates forming Peri\|Gondwanian microcontinents. But the reconstruction of palaeogeographic configuration remain incomplete due to paucity of authentic geologic information available from Karakoram, Pamir and Western Tibet. Prior to our discovery no early Permian plant remains and palynomorphs were ever reported from Karakoram terrane. Our discovery of Early Permian remains and late Asselian (about 280~275Ma) palynomorphs provides crucial clue regarding the palaeogeographic reconstruction of the Karakoram\|Himalayan block in the Permian time. 相似文献
11.
浙江江山大隆组古生物群特征及二叠系与三叠系界线 总被引:1,自引:0,他引:1
<正> 浙西北的长兴阶有二种沉积类型,即碳酸盐岩相的长兴组和硅泥质岩相的大隆组。长兴组的层位和生物群分带。前人已作过较详细的研究,而浙西江山大隆组的生物群至今未 相似文献
12.
班公湖-怒江洋打开时间的地层古生物约束 总被引:3,自引:3,他引:0
西藏班公湖-怒江洋的打开时间是争议性较大的科学问题。班公湖-怒江洋两侧的拉萨地块和南羌塘地块的古生物地理和地层层序的对比可以约束班公湖-怒江洋的形成时间。从地层层序上来看,拉萨地块在晚古生代大冰期结束之后是一由碎屑岩到碳酸盐转变的稳定地层序列;而南羌塘地块从早二叠世晚期开始东西向存在较大的相变,西部下二叠统吞龙共巴组之上存在间断面,不整合于上二叠统吉普日阿群之下;而东部下二叠统到中二叠统都是玄武岩和灰岩组成的鲁谷组。古生物地理上,南羌塘地块晚二叠世含有典型暖水的类Palaeofusulina动物群,与拉萨地块形成显著差别;南羌塘地块中二叠世主要的Eopolydiexodina类动物群也与拉萨地块的Nankinella-Chusenella类动物群产生明显差异;再者,南羌塘地块早二叠世晚期的类、珊瑚类和腕足类都呈现明显暖水的特征,但这些动物群在拉萨至今未有报道。综合南羌塘和拉萨地块地层层序、古生物地理特征上的差异,班公湖-怒江洋至少从中二叠世(~269Ma)就已经形成一定的规模。因此,班公湖-怒江洋在中二叠世以前和冰期结束之后的时间段内打开。 相似文献
13.
GERILYN S. SOREGHAN REW M. MOSES MICHAEL J. SOREGHAN MICHAEL A. HAMILTON† C. MARK FANNING‡ PAUL K. LINK§ 《Sedimentology》2007,54(3):701-719
The Late Palaeozoic configuration of Pangaea contributed to a palaeoclimatic extreme that was characterized by both icehouse and monsoonal conditions. This study uses sedimentological, geochemical, and provenance data from silty facies of the Earp and equivalent Supai Formations (Arizona, New Mexico) to shed light on atmospheric circulation and glacial–interglacial climate change in westernmost equatorial Pangaea. Five silt‐rich facies comprise both loessite and marine and fluvially reworked loessite. An initial aeolian origin for the silt is indicated by the remarkably invariant grain size and the laterally continuous, sheet‐like geometry of beds. The silt‐rich facies occur in repetitive facies associations (1–20 m scale) that form mixed continental‐marine (loess, marine‐reworked loess), shallow‐marine, and continental (loess, palaeosol) ‘sequences’. Facies repetitions of both mixed continental‐marine and shallow‐marine sequences reflect a linked glacioeustatic–glacioclimatic control, whereas the continental (loess–palaeosol) couplets reflect a primary glacial–interglacial climatic cyclicity linked to glacioeustasy. Stratigraphic interpretations suggest that aeolian silt flux maximized during glacial to incipient interglacial stages (lowstand to early transgression), and decreased significantly or ceased during interglacials (highstand to early falling stage). Detrital‐zircon geochronological data indicate a transition from dominantly north‐easterly winds during the Middle Pennsylvanian to north‐westerly and south‐easterly winds by the Early Permian, which trend is inferred to reflect the onset of monsoonal circulation in western Pangaea. Relative grain‐size data support the detrital‐zircon data, and exhibit a significant decrease from the Sedona arch/Central Arizona shelf (north) to the Pedregosa basin (south) sections. Whole‐rock geochemical data suggest a relatively unweathered source for the silt in the north, and detrital‐zircon data indicate significant silt was derived from the local basement. These large piles of silt(stone) preserve valuable information for reconstructing both long‐term evolution in atmospheric circulation and short‐term fluctuations in glacial–interglacial climate. Many such indicators for long have been applied to ‘recent’ (Plio‐Pleistocene) loess, but are equally applicable to ‘deep‐time’ strata. 相似文献
14.
用能谱仪初步测试了46个介形虫样品的元素成分,结果表明现代介形虫壳的元素成分变化小,Ca为其主要成分(含Ca94.12—99.8%),Si、Al含量很低。新生代介形虫壳的成分和现代介形虫壳的成分相似.中生代和古生代的介形虫壳含Ca量减少,Si、Al含量增高,还含微量的K、Mn、Fe、S、Mg等元素.介形虫壳成分的变化,推测与地质时期中介形虫的埋藏条件和石化程度等有关. 相似文献
15.
Vinod C. Tewari 《地学前缘》2000,(Z1)
RECENT ADVANCES IN GEOLOGICAL RESEARCH IN PARTS OF LESSER AND TETHYS HIMALAYA OF INDIA, SOUTH OF TIBETAN PLATEAU (KUMAON, GARHWAL AND ARUNACHAL PRADESH) 相似文献
16.
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
17.
18.
The middle Permian Cryptospirifer fauna (brachiopod) has hitherto been found in more than 30 localities in the Yangtze Platform, South China. Examination of data from various localities shows that it occurs stratigraphically in three intervals in the range from the upper Kungurian to Wordian. In the Baoshan block in western Yunnan the fauna occurs in the basal part of the Daaozi Formation and is of possibly an early Wordian age. Outside China the Cryptospirifer fauna has been reported from central and northwest Iran and central Turkey, where the fauna may have an age around the Wordian/Capitanian boundary. Rapid global warming since the late Early Permian and possession of other suitable environmental factors such as proper substrate, clastic input and water depth enabled the Gondwana-derived Baoshan Block and related tectono-stratigraphic units in Iran and Turkey to host the Cryptospirifer fauna, a fauna evolved in the Yangtze Platform that is a type area of the Cathaysian province. 相似文献
19.
广西西南部十万大山盆地,大地构造位置属于华南板块的西北缘,是在华南板块与扬子板块拼接之后,晚古生代华南洋再一次打开,又接受沉积的。泥盆纪一早二叠世,该地区形成被动大陆边缘;晚二叠世末,随着太平洋板块向西俯冲,该地区转变成弧后盆地;早三叠世一伤罗纪,进一步转化成前陆盆地。在被动大陆边缘的碎屑岩陆架沉积阶段,生成碎屑岩烃源岩;在碳酸盐台地沉降阶段,发育砂屑灰岩、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成了古生新储组合;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。随着逆冲体向西推进,沉积地层也逐层向克拉通斜坡上超覆,发育地层圈闭。前陆中期阶段快速沉积的巨厚的复理石和晚期的磨拉石促进了早期烃源岩的迅速埋藏、成熟和保存。十万大山盆地具备了典型前陆盆地的生烃成藏地质条件,因而该盆地有较好的油气远景。 相似文献
20.
Late Olenekian assemblages in the western Panthalassa have been recovered from bedded radiolarian chert sequences of an accretionary complex, the Ashio belt. These faunas are documented and considered in terms of radiolarian diversity and faunal turnover during the latest Permian to Middle Triassic time. The fauna includes 30 radiolarians belonging to Spumellaria or Entactinaria, with two relicts from the Late Permian. This late Olenekian fauna is markedly different from Permian and Asisian faunas, respectively, and is herein named the Minowa fauna. Study of the literaure indicates that radiolarian provinces were significantly disconnected between the western Panthalassa and eastern Tethys during late Olenekian time. Furthermore, 121 of 143 species disappeared during late Olenekian time, and in turn 118 new species appeared in the western Panthalassa around the Olenekian-Anisian boundary. It is concluded that faunal turnover occurred at least three times between the latest Permian and Middle Triassic.The first turnover is the Poalaozoie-type radiolarian extinction at the Permain-Triassic boundary,the second is the diversification of spheroidal Spumellaria and Entactinaria between early and late Olenekian time, and the third is a faunal turnover from the Minowa fauna to the true Mesozoic-type radiolarian famas that are characterized by mulit0segmented Nassellaria. 相似文献