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1.
古特提斯洋的闭合时代的古地磁分析:松潘复理石杂岩形成的构造背景 总被引:3,自引:0,他引:3
对华南地块、塔里木地块和基墨里大陆(包括保山、缅泰和羌塘地块)进行了古纬度和纬度运移量的对比分析,以确定古特提斯洋盆的闭合时代。结果表明:①保山与华南地块于晚二叠世碰撞,然后继续和华南地块、缅泰地块一起向北漂移,直到晚三叠世,并导致华南地块与华北地块碰撞和秦岭—大别造山带的形成;②羌塘地块与塔里木地块碰撞发生在晚三叠世;古特提斯洋沿着保山地块东缘和羌塘地块北缘的闭合是不同时的,东早西晚;③华南地块向北漂移,可能引起了华南地块西部和东昆仑—柴达木地块南部的古特提斯洋北岸的凹入,这为松潘—甘孜海底扇的发育提供了空间;古特提斯洋闭合引起的俯冲造成了华南地块西部大陆边缘的裂离,也共同为海底扇的发育提供了空间。包括塔里木地块、华南地块、东昆仑—柴达木地块和羌塘地块在内的几个地块的合围,导致了松潘—甘孜地块三角形的构造形状。支持以前的假设:松潘—甘孜三叠纪复理石杂岩的物源来自华北地块南缘或秦岭—大别造山带。 相似文献
2.
通过对华南、思茅、保山、缅泰、印支、羌塘、拉萨和喜马拉雅地块进行了古纬度和纬度运移量的对比分析,以确定西藏和云南西部三江地区主要地块的碰撞拼合历史,以及相应的特提斯洋盆演化时限。结果表明:①分隔保山和思茅地块的古特提斯洋可能于早志留世张开;②保山与思茅地块于晚二叠世碰撞,然后继续和华南地块、缅泰地块一起向北漂移,直到晚三叠世;③古特提斯洋年龄范围在早志留世至晚二叠世之间;④中特提斯洋年龄范围在早二叠世至早白垩世之间,在晚三叠世达到其最大纬度宽度,约42°;⑤雅鲁藏布江缝合带所代表的新特提斯洋于晚三叠世张开。 相似文献
3.
利用古地磁数据,结合与构造活动有关的沉积记录以及古生物地理信息,对华南、思茅、保山、缅泰、印支、拉萨和喜马拉雅地块进行了古纬度和纬度运移量的对比研究,以确定云南西部三江地区主要地块的碰撞拼合历史。结果表明:(1)思茅地块可能源于华南地块;(2)保山和缅泰地块在晚石炭世至晚二叠世发生快速北移;(3)保山与华南地块于晚二叠世碰撞之后,和缅泰地块、华南地块以及印支地块继续向北漂移,直到晚三叠世;(4)保山与华南地块间的古特提斯洋可能于早志留世张开,晚二叠世闭合。 相似文献
4.
内蒙古中部索伦-林西缝合带封闭时代的古地磁分析 总被引:14,自引:0,他引:14
索伦-林西缝合带被认为是华北和西伯利亚地块间中亚洋(或古亚洲洋)最后闭合的界线。利用华北和西伯利亚地块的古地磁数据对比分析,结合相关地质资料,对两地块的碰撞拼合历史,以及位于两地块间相应的中亚洋盆最终闭合时代进行了分析。结果表明:(1)分隔华北和西伯利亚地块的中亚洋在晚泥盆世至晚石炭世期间进一步张开,纬度宽度扩大,大约在早二叠世初期,中亚洋达到最大纬度宽度,约39°;(2)早二叠世以后西伯利亚地块开始快速向南漂移,二叠纪末期(~250 Ma)和华北地块发生碰撞,导致索伦-林西缝合带的形成。 相似文献
5.
华北与西伯利亚地块碰撞时代的古地磁分析——兼论苏鲁-大别超高压变质作用的构造起因 总被引:4,自引:2,他引:4
对华北和西伯利亚地块进行了古纬度和纬度运移量的对比分析,结合古生物地理、同位素年代学等地质数据,确定了两地块的运动特征,相应地,确定了位于两地块间中亚洋盆最终闭合时代,并与苏鲁-大别山地区的超高压变质岩的峰期变质时代进行了对比.结果表明:①西伯利亚地块于晚泥盆世开始快速向北漂移,分隔华北和西伯利亚地块的中亚洋在晚泥盆世至晚石炭世期间已经存在;②早二叠世西伯利亚地块开始快速向南漂移,并于二叠纪末期(~250 Ma)和华北地块发生碰撞;③早二叠世,中亚洋纬度宽度约39°;④苏鲁-大别山地区的超高压变质岩的形成 相似文献
6.
《地质科技情报》1986,(1)
我门的研究表明华北和华南地块有着复杂的地质历史.寒武纪时,这两个地块似乎均是冈瓦纳大陆的一部分,但它们是相互分离的,华南地块位于古赤道上,靠近澳大利亚的北部,而华北地块位于南纬35°.靠近伊朗、西藏和印度北部.在晚奥(?)世到石炭纪期间,冈瓦纳大陆穿过南极,发生古纬度带的倒转.然后,华北地块带着华南地块一起向北漂移.在晚石炭世和早二叠世,华北地块到达古赤道附近.二叠纪时,华北地块位于古地中海中,与伊朗、土耳其和阿拉伯毗邻.泥盆纪时,华南地块已与澳大利亚分离开,并向华北地块漂移.在晚石炭世和早二叠世,华北地块和华南地块以及印度支那地块位于古地中海中,晚二叠世,华北地块开始向北漂移,沿中亚褶皱带与西伯利亚地块碰撞.然而,直到中侏罗世,华北和华南地块才焊接在一起.自新生代开始以来,当印度板块向北漂移并与欧亚板块碰撞时,中国地块被进一步向东推挤.特别是华南地块相对于欧亚北部已向东漂移. 相似文献
7.
长山构造带(简称长山带,Truong Son)是印支陆块北部最大的构造岩浆岩带,保存了大量晚古生代-早中生代的岩浆记录,并被认为与马江古特提斯分支洋/弧后盆地的演化及随后的印支与华南陆块的拼合有关。本文系统综合了该带二叠纪-三叠纪的长英质火成岩数据并分析其岩石成因,阐明马江古特提斯分支洋/弧后盆地的构造演化过程。研究表明早二叠世花岗质岩石来自新底侵的基性岩源区,而早二叠世晚期-晚二叠世的花岗质岩石和流纹岩的源区为古-中元古代变火成岩和变杂砂岩组成的混合源区。二叠纪长英质火成岩形成于马江分支洋/弧后盆地向印支陆块的俯冲过程。三叠纪具负εHf(t)和εNd(t)值的花岗质岩石来自古-中元古代变火成岩和变沉积岩的混合源区,而具正εHf(t)值的晚三叠世花岗质岩石来自新生基性地壳并有一定变杂砂岩组分的加入。这些数据表明在三叠纪初期(~250 Ma),马江古特提斯分支洋/弧后盆地已经闭合,随后华南与印支陆块发生碰撞。在中-晚三叠世,长山带进入到碰撞后阶段。 相似文献
8.
古亚洲洋与古特提斯洋关系初探 总被引:1,自引:0,他引:1
从板块构造研究中国古生代洋陆关系和构造-岩浆-成矿作用,离不开对古亚洲洋和古特提斯洋的关系判断,特别是对于中国西北部的研究,两个古生代大洋形成演化和关系是理清重要地质构造和成矿事件的关键。本文认为早古生代的原特提斯洋与古亚洲洋应连为一体,合称古亚洲-原特提斯洋,简称古亚洲洋。古亚洲洋是发育于早古生代劳亚大陆与冈瓦纳大陆之间的大洋,金川超大型铜镍矿床的形成是元古宙罗迪尼亚超大陆裂解三叉裂谷开启大洋的开始,塔里木陆块作为古亚洲洋南岸的一个陆块,早古生代的昆仑洋、祁连洋和秦岭洋只是古亚洲洋的分支或次生洋盆,这些次生洋盆于志留纪末闭合,古亚洲洋主洋则直到晚古生代泥盆纪末才闭合。石炭纪天山及邻区是古亚洲洋闭合后板块构造后碰撞机制与地幔柱作用提供热动力的两种地球动力学机制并存的构造背景,为大规模壳幔混合(染)岩浆作用和成矿爆发提供了可能。古特提斯洋是古亚洲洋在晚古生代的发展和继承,东昆仑夏日哈木超大型铜镍矿床的产生是冈瓦纳大陆北侧志留纪末破裂三叉裂谷开启大洋的开始,塔里木和华北等泛华夏陆块群构成了古特提斯洋北岸陆缘,石炭纪大洋形成,西昆仑玛尔坎苏大型优质锰矿可能就形成于大洋北侧被动大陆边缘的浅海或陆表海,成矿物质则很可能来自于同时代的大洋中脊。德尔尼大型铜钴矿为晚石炭世大洋中脊塞浦路斯型块状硫化物矿床。而铜峪沟大型铜矿和大场大型金矿等则分别为古特提斯洋消减俯冲岛弧岩浆作用矽卡岩-斑岩矿床和浅成低温热液矿床。中三叠世末古特提斯洋闭合。 相似文献
9.
特提斯的多岛洋模式认为,冈瓦纳超大陆与欧亚超大陆的裂解块体群在其漂移过程中,漂移前方的洋盆萎缩、消亡,后方则由裂谷发展为新的洋盆,如此循序出现的洋盆就构成了古、中、新特提斯等不同阶段.裂解、漂移和消亡的多幕次过程,使特提斯与大西洋、太平洋等“干净”的大洋不同.它在其各个演化阶段,始终是个充满着裂解地块与裂谷、海道,微板块与小洋盆,岛弧与边缘海等不同裂离与聚合程度的海陆相间的多岛洋盆.华南是特提斯多岛洋体系的一部分.它由秦岭微板块、扬子板块(含下扬子地块、昌都-思茅地块、义敦地块、松潘-甘孜地块)、华夏板块、滇缅泰马板块(保山)、印支-南海板块(海南岛)组成,与华北板块间及相互间以商丹小洋盆、勉略小洋盆、华南小洋盆及古特提斯洋分开.对扬子板块与华夏板块的关系、秦岭小洋盆与扬子及华北板块的关系、扬子板块西侧的裂解地块及亲冈瓦纳的裂解块体分别作了较详尽的论述.根据这些块体的构造、沉积、古生物、古地磁绘制了它们的古海洋复原图.多岛洋体系板块运动具有软碰撞、多旋回和造山长期性的特点.其板块碰撞通过岛屿或块体增生的多幕次微型碰撞而实现.每一微型碰撞的速度为2个碰撞块体速度的差,而不是速度的和,两碰撞块体的质量总额又是很� 相似文献
10.
新疆大地构造演化基本特征 总被引:63,自引:12,他引:51
新疆大地构造发展演化经历了 :1.古陆核及原始古陆的形成与解体 ;2 .元古宙末期( 80 0~ 90 0 Ma)联合古陆的形成 ;3.震旦—奥陶纪联合古陆裂解、古亚洲洋形成 ;4 .志留—泥盆纪古亚洲洋俯冲、消减 ;5.泥盆—早二叠世古特提斯洋打开 ,西伯利亚、哈萨克斯坦—准噶尔、塔里木板块聚合 ,亚洲北大陆形成 ,陆内裂陷或有限小洋盆发生 ;6.晚二叠—三叠纪北特提斯拉张成洋 ,由冈瓦纳分离出来的冈底斯中间板块于三叠纪末沿中特提斯洋拼贴于羌塘 (华南 )板块之上 ,并沿北特提斯洋 (康西瓦 )与亚洲北大陆聚合 ;7.侏罗纪班公错—怒江板内洋盆打开 ,晚侏罗世闭合 ;8.白垩—第三纪印度板块向北俯冲 ,拼贴于欧亚大陆南缘。由于陆内俯冲 ,山脉迅速抬升并向盆地推覆 ,形成了新疆复杂的构造格局 相似文献
11.
Early Palaeozoic Evolution of the Zhen'' an- Xichuan Block and the Small Qinling Multi-Island Ocean Basin 总被引:1,自引:0,他引:1
Based on studies of palaeogeography, palaeobiogeography, palaeomagnetism, geochemistry and volcanism, this paper proposes that the Zhen'an-Xichuan area was a small Early Palaeozoic block rifted away from South Qinling and suturing onto North Qinling earlier than the other parts of South Qinling. In the Early Palaeozoic Qinling was a small archipelagic ocean basin with 5 rows of islands including the Zhen'an-Xichuan block. The drifting of the Yangtze and North China plates and the islands between them in the same direction at different speeds caused their suturing process to be different from the classic plate collision, which is the major feature of the suturing of the multi-island Tethys ocean basin. This also explains the problem that the Caledonian collision did not result in orogeny in eastern Qinling. 相似文献
12.
中国东北及邻区白垩纪古地磁分析与块体旋转运动动力学背景 总被引:3,自引:0,他引:3
内容提要:为了更好地理解中国东北及邻区白垩纪各块体的旋转运动模式及其运动量,本文根据最新的地层学进展分早白垩世中期、早白垩世晚期与晚白垩世三个阶段对该区古地磁数据进行了精细分析。通过与华北-华南地块(不包括朝鲜半岛、辽东及胶东半岛)相应时期的古地磁极对比,说明朝鲜半岛及辽东早白垩世中、晚期相对华北-华南地块分别顺时针旋转约11º,晚白垩世以来没有明显的旋转运动。辽西地区则出现了小幅度的逆时针旋转运动。以上旋转运动与太平洋板块俯冲引起的中国东北及邻区强烈岩石圈减薄和伸展作用具有密切联系。 相似文献
13.
Present-day Asia comprises a heterogeneous collage of continental blocks, derived from the Indian–west Australian margin of eastern Gondwana, and subduction related volcanic arcs assembled by the closure of multiple Tethyan and back-arc ocean basins now represented by suture zones containing ophiolites, accretionary complexes and remnants of ocean island arcs. The Phanerozoic evolution of the region is the result of more than 400 million years of continental dispersion from Gondwana and plate tectonic convergence, collision and accretion. This involved successive dispersion of continental blocks, the northwards translation of these, and their amalgamation and accretion to form present-day Asia. Separation and northwards migration of the various continental terranes/blocks from Gondwana occurred in three phases linked with the successive opening and closure of three intervening Tethyan oceans, the Palaeo-Tethys (Devonian–Triassic), Meso-Tethys (late Early Permian–Late Cretaceous) and Ceno-Tethys (Late Triassic–Late Cretaceous). The first group of continental blocks dispersed from Gondwana in the Devonian, opening the Palaeo-Tethys behind them, and included the North China, Tarim, South China and Indochina blocks (including West Sumatra and West Burma). Remnants of the main Palaeo-Tethys ocean are now preserved within the Longmu Co-Shuanghu, Changning–Menglian, Chiang Mai/Inthanon and Bentong–Raub Suture Zones. During northwards subduction of the Palaeo-Tethys, the Sukhothai Arc was constructed on the margin of South China–Indochina and separated from those terranes by a short-lived back-arc basin now represented by the Jinghong, Nan–Uttaradit and Sra Kaeo Sutures. Concurrently, a second continental sliver or collage of blocks (Cimmerian continent) rifted and separated from northern Gondwana and the Meso-Tethys opened in the late Early Permian between these separating blocks and Gondwana. The eastern Cimmerian continent, including the South Qiangtang block and Sibumasu Terrane (including the Baoshan and Tengchong blocks of Yunnan) collided with the Sukhothai Arc and South China/Indochina in the Triassic, closing the Palaeo-Tethys. A third collage of continental blocks, including the Lhasa block, South West Borneo and East Java–West Sulawesi (now identified as the missing “Banda” and “Argoland” blocks) separated from NW Australia in the Late Triassic–Late Jurassic by opening of the Ceno-Tethys and accreted to SE Sundaland by subduction of the Meso-Tethys in the Cretaceous. 相似文献
14.
青藏高原东北缘早古生代造山系中前寒武纪微陆块的再认识——兼谈原特提斯洋的起源 总被引:1,自引:0,他引:1
在青藏高原东北缘的祁连-阿尔金-昆仑早古生代造山系中,夹杂有一些前寒武纪大陆块体,这些地块的组成、性质和演化既蕴含有超大陆聚散的重要信息,也对原特提斯体系的洋陆格局、造山类型和造山机制有重要启示意义。本文综合近年来这些前寒武纪微陆块的研究进展,结合我们所获得的新的研究资料,梳理了这些前寒武纪微陆块变质基底的岩石组成、构造热事件及年代格架,得出以下主要认识:(1)这些前寒武纪微陆块普遍遭受早古生代造山事件的改造并发生再活化。它们或者作为早古生代原特提斯洋的活动大陆边缘,被洋壳俯冲有关的弧岩浆和变质作用改造,以早古生代大陆弧的形式存在;或者被早古生代碰撞造山过程中的陆内变形、增厚地壳及相关的区域变质作用、深熔作用和碰撞型花岗岩所改造。(2)在这些前寒武纪微陆块中,仅仅欧龙布鲁克地块保存有早前寒武纪的变质基底,具有克拉通性质。中元古代以前,欧龙布鲁克地块的变质基底与华北克拉通(特别是阿拉善地块)和塔里木克拉通具有相似的岩石组成和年代格架;而晚中元古代到新元古代,所有的前寒武纪微陆块与华南陆块和塔里木陆块的亲缘性更强。(3)青藏高原北缘早古生代造山系中的大部分前寒武纪微陆块可能在罗迪尼亚超大陆解体时已从冈瓦纳大陆北部分离,而柴达木地块记录了泛非期造山作用的构造热事件,可能在泛非造山期(530Ma)以后才从冈瓦纳大陆分开;在青藏高原东北部,晚新元古代-早古生代并不存在统一的原特提斯洋,原特提斯洋的打开是穿时的。 相似文献
15.
The temporal and spatial variations of Late Paleozoic basaltic lavas in Baoshan, the northern part of a Gondwana-derived micro-continental block called Sibumasu, are important for Gondwana reconstruction. Magmatic zircon crystals from three selected dolerite dykes in the Baoshan region yield U-Pb ages from ~295 to ~310 Ma. These new ages, together with previous zircon U-Pb ages for this type of rock, define a protracted (~30 myr) episode of basaltic magmatism from ~310 to 280 Ma in a small area of this region, which is inconsistent with the typical temporal-spatial distribution of mantle plume magmatism. The trace element compositions of the Baoshan dolerite dykes and associated lavas are similar to arc basalts as well as continental flood basalts worldwide, showing light REE enrichments and negative Nb-Ta anomalies. Mixing calculations using the Sr-Nd-Hf isotope data of the Baoshan mafic rocks indicate that their intriguing trace element characteristics can be explained by contamination of mantle-derived magmas with crustal materials. Our new data, together with the lack of Late Paleozoic are-related calcalkaline rocks and granitoids in the Sibumasu block and other contemporaneous Gondwana-derived micro-continental blocks, strongly support the premise that the 310–280 Ma basalts and dolerites in the Baoshan region are the products of continental rift-related magmatism rather than arc magmatism. Based on the temporal correlation of the 310–280 Ma rift-related magmatism in several related Gondwana-derived micro-continents (Sibumasu, South Qiangtang, Lhasa and Himalaya), plus other independent constraints such as paleoclimate biotas and paleolatitudes from the literature, we provide an improved model for the configuration of the Gondwana supercontinent in the Early Permian. Based on the results from this study, we conclude that further investment in the exploration of magmatic Ni-Cu sulfide deposits associated with the 310–280 Ma mafic-ultramafic intrusions in northern Baoshan and the other related Gondwana-derived micro-continental blocks is warranted. 相似文献
16.
本文在讨论中国东部现有构造演化模式基础上,着重从华北与华南地块之间板块尺度的动力学过程剖析秦岭-大别中生代造山带构造演化,以及大别-苏鲁超高压变质地体的形成和折返过程。晚二叠世-中三叠世华南地块向华北地块持续挤压,陆壳大规模俯冲导致超高压变质作用的产生,而华北地块在晚三叠世至早侏罗世发生快速逆时针旋转,使得这一地区上地幔深度的超高压变质地体快速折返至下地壳。由于超高压变质地体侵位后,地壳结构、构造的差异,在南北地块的进一步挤压下,造成中国东部晚侏罗世-早白垩世郯庐断裂带的巨大左行剪切。 相似文献
17.
A new concept on tectonic correlation between Korea, China and Japan: Histories from the late Proterozoic to Cretaceous 总被引:11,自引:2,他引:11
Chang Whan Oh 《Gondwana Research》2006,9(1-2):47
The Dabie–Sulu collision belt in China extends to the Hongseong–Odesan belt in Korea while the Okcheon metamorphic belt in Korea is considered as an extension of the Nanhua rift within the South China block. The Hongseong–Odesan belt divides Korea's Gyeonggi massif into northern and southern portions. The southern Gyeonggi massif and the Yeongnam massif are correlated with China's Yangtze and Cathaysia blocks, respectively, while the northern Gyeonggi massif is part of the southern margin of the North China block. The southern and northern Gyeonggi massifs rifted from the Rodinia supercontinent during the Neoproterozoic, to form the borders of the South China and North China blocks, respectively. Subduction commenced along the southern and eastern borders of the North China block in the Ordovician and continued until a Triassic collision between the North China and South China blocks. While subduction was occurring on the margin of the North China block, high-P/T metamorphic belts and accretionary complexes developed along the inner zone of southwest Japan from the Ordovician to the Permian. During the subduction, the Hida belt in Japan grew as a continental margin or continental arc. Collision between the North and South China blocks began in Korea during the Permian (290–260 Ma), and propagated westwards until the Late Triassic (230–210 Ma) creating the sinistral TanLu fault in China and the dextral fault in the Hida and Hida marginal belt in Japan. Phanerozoic subduction and collision along the southern and western borders of the North China block led to formation of the Qinling–Dabie–Sulu–Hongseong–Hida–Yanji belt. 相似文献
18.
南沙微地块花岗质岩石LA ICP MS锆石U Pb定年及其地质意义 总被引:1,自引:0,他引:1
南沙微地块一直被作为华南大陆的一部分,但缺乏基底岩石学证据的支持。本文首次报道了南沙微地块花岗质岩石岩浆锆石年龄。测年方法为激光剥蚀等离子体质谱(LAICPMS)测年技术。在站位S0818获得2个斜长花岗岩样品年龄: 分别为159.1±1.6 Ma和157.8±1.0 Ma,在站位S0832获得两个二长花岗岩样品年龄: 分别为153.6±0.3 Ma和127.2±0.2 Ma, 表明它们为燕山期晚侏罗世—早白垩世岩浆事件的产物。其中153~159 Ma年龄值可与南岭燕山期花岗岩年龄比较,而127 Ma年龄值可与浙闽沿海燕山期花岗岩年龄对比。一个样品中存在一个年龄为656.7 Ma的残余锆石核,结合中西沙发现的前寒武纪基底岩石资料,表明南海内散落的微地块可能广泛存在前寒武纪结晶基底,本区中生代花岗岩为古老陆壳重熔形成的。这一新的资料,对研究燕山期岩浆作用在中国南部的影响范围、南海微陆块前寒武纪地质及微陆块的裂离动力学都具有重要意义。 相似文献
19.
划分华南不同块体的地球物理根据及与地球化学分区特征的对比研究 总被引:1,自引:1,他引:1
根据华南的航磁、地震和大地电磁等地球物理方法的探测结果,将华南大陆划分为3个不同块体:扬子地块、华夏地块和东南沿海地块;并计算了华南视磁化强度的分布。根据视磁化强度的分布研究华南磁性分区特征,并利用深地震测深剖面资料和大地电磁资料对磁性分区的边界加以控制和印证,最后以多种地球物理方法确定的边界作为块体的边界。因此,这样对地块的划分比较客观。依据地球物理划分的结果与花岗岩同位素地球化学的研究结果进行了简单的比较,以说明这样的划分是受到地球物理和地球化学共同约束的。 相似文献