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1.
《地质通报》2020,(6)
西北地区蛇绿岩广泛分布在天山、秦祁昆等造山带和塔里木、准噶尔等陆块周缘,构成一幅浑然天成的陆块-混杂带交织图,演绎着漫长的地质演化历史。在近年来小比例尺西北地质图编制的基础上,系统收集整理了区内有关蛇绿岩的资料文献,梳理了西北蛇绿混杂岩的空间分布与时间序列,重点叙述了西北地区蛇绿混杂岩特征,探讨西北地区蛇绿岩时空分布与地质构造演化的关系。西北地区36条蛇绿混杂岩带是蛇绿岩的赋存空间,可以划归为5个区、2个对接带和2个缝合带。红柳沟-北祁连山新太古代—中元古代蛇绿岩可能与地壳早期演化有关,柯坪、勉略、松树沟等新元古代早期蛇绿岩与Rodinia超大陆的裂解和局部洋陆转化相关,大量古生代以来的蛇绿岩是古亚洲和特提斯两大构造域多陆块岛弧洋盆系统洋陆转化作用的记录。 相似文献
2.
《沉积与特提斯地质》2005,25(1):57-61
地层方面,在测区札达陆块厘定出念青唐古拉岩群;在措勤-申扎地层分区发现坚扎弄组在测区的存在,新建淌那勒组;将则弄群火山岩解体;根据化石,则弄群弧火山岩的形成时间为早白垩世;确认狮泉河蛇混岩带的形成时间是晚侏罗世=早白垩世;将才里群解体。岩石方面,在测区不同时代地层中发现火山岩系,填绘出了一系列火山机构;将中新生代深成侵入岩划分为拉轨岗日花岗岩带和冈底斯花岗岩带两个岩浆带;发现浆混岩系。构造方面,发现雅鲁藏布江结合带南北支在图区的存在;证实狮泉河带内存在洋脊蛇绿岩套,狮泉河带存在俯冲;确认班-怒带的南支向北与狮泉河带斜接。 相似文献
3.
《沉积与特提斯地质》2005,25(1)
地层方面,在测区札达陆块厘定出念青唐古拉岩群;在措勤-申扎地层分区发现坚扎弄组在测区的存在,新建淌那勒组;将则弄群火山岩解体;根据化石,则弄群弧火山岩的形成时间为早白垩世;确认狮泉河蛇混岩带的形成时间是晚侏罗世-早白垩世;将才里群解体.岩石方面,在测区不同时代地层中发现火山岩系,填绘出了一系列火山机构;将中新生代深成侵入岩划分为拉轨岗日花岗岩带和冈底斯花岗岩带两个岩浆带;发现浆混岩系.构造方面,发现雅鲁藏布江结合带南北支在图区的存在;证实狮泉河带内存在洋脊蛇绿岩套,狮泉河带存在俯冲;确认班-怒带的南支向北与狮泉河带斜接. 相似文献
4.
《沉积与特提斯地质》2005,(2)
地层方面,在测区札达陆块厘定出念青唐古拉岩群;在措勤-申扎地层分区发现坚扎弄组在测区的存在,新建淌那勒组;将则弄群火山岩解体;根据化石,则弄群弧火山岩的形成时间为早白垩世;确认狮泉河蛇混岩带的形成时间是晚侏罗世-早白垩世;将才里群解体.岩石方面,在测区不同时代地层中发现火山岩系,填绘出了一系列火山机构;将中新生代深成侵入岩划分为拉轨岗日花岗岩带和冈底斯花岗岩带两个岩浆带;发现浆混岩系.构造方面,发现雅鲁藏布江结合带南北支在图区的存在;证实狮泉河带内存在洋脊蛇绿岩套,狮泉河带存在俯冲;确认班-怒带的南支向北与狮泉河带斜接. 相似文献
5.
在班公错—怒江小洋盆内晚侏罗世存在向南的俯冲已被许多学者所证实,近期在班—怒带中部的东巧蛇绿岩带北侧发现一套晚侏罗世火山岩——尕苍见(组)火山岩,该套火山岩以内部变形微弱而明显有别于东巧蛇绿岩带,其地球化学特点反映具有岛弧性质,并具有初期为拉斑玄武质-钙碱性岩浆喷发,尔后以钙碱性火山活动为主,至晚期岛弧演化成熟,发生岛弧橄榄安粗质火山喷发活动,并伴有富Nb岛弧玄武岩产出。证明在班怒小洋盆内晚期也曾存在向北的俯冲作用。这一发现对完整重溯班—怒带构造演化和构建青藏高原大地构造格局具有重要意义。 相似文献
6.
西藏西部与班公湖特提斯洋盆俯冲相关的火成岩年代学和地球化学 总被引:32,自引:1,他引:31
对青藏高原西北部班公湖缝合带开展了野外地质调查,初步查明区内缝合带至少包含日土和狮泉河-改则两条蛇绿岩带。在两条蛇绿岩带北侧发现各有两期岛弧型岩浆岩发育,且形成时间严格对应。岩石地球化学分析表明,班公湖缝合带岛弧型岩浆岩的共同特征是富集大离子不相容元素Rb、Th、K和Pb;强烈亏损高场强元素Nb、Ta和Ti;Ba在微量元素蛛网图中总是相对亏损,这些特征说明班公湖地区存在两条俯冲带。从演化序列看,俯冲初期岩石属中钾钙碱性系列,之后岛弧岩浆作用向高钾钙碱性系列演变。锆石U—PbLA—ICPMS定年结果表明,北面的日土俯冲带洋壳俯冲从辉长岩墙开始,时代为(165.5±1.9)Ma(MSWD=1.16),在159Ma时岛弧岩浆作用规模增大,形成小型的花岗岩基;南面的狮泉河-改则俯冲带一开始俯冲((166.4±2.0)Ma,MSWD=3.0)就有较大规模的石英闪长岩体侵入,之后岩浆作用减弱,到159.4Ma时只有一些小体积的花岗斑岩和闪长玢岩侵入。根据岛弧岩浆作用规模,认为班公湖中特提斯洋盆的俯冲一开始是以狮泉河俯冲带为主,之后狮泉河俯冲带的俯冲作用逐渐减弱。到晚侏罗世初(159Ma)北面的日土俯冲带成为洋壳俯冲的主体。鉴于两条岛弧火成岩带在空间配置上都位于由基性-超基性岩构成的蛇绿岩带北侧,地球化学上显示陆缘弧特征,因此,认为班公湖中特提斯洋盆应该是在中侏罗世晚期(约166Ma)沿日土和狮泉河两条俯冲带同时向北俯冲,构造属性上可能不是一个统一的大洋,而是包含了多个局限性洋盆。 相似文献
7.
青藏高原中的古特提斯体制与增生造山作用 总被引:28,自引:12,他引:16
青藏高原古特提斯体系的特征表现为古特提斯洋盆中多条状地体的存在,多俯冲、多岛弧增生体系的形成和多地体汇聚、碰撞造山的动力学环境,其构架包括4条代表古特提斯洋壳残片的蛇绿岩或蛇绿混杂岩(昆南-阿尼玛卿蛇绿岩带、金沙江-哀牢山-松马蛇绿岩带、羌中-澜沧江-昌宁-孟连蛇绿岩带和松多蛇绿岩带)、5条火山岩浆岛弧带(布尔汗布达岛弧岩浆带、义敦火山岩浆岛弧带、江达-绿春火山岛弧带、东达山-云县火山岛弧带和左贡-临沧岛弧-碰撞岩浆带)、4个陆块或地体(松潘-甘孜地体、羌北-昌都-思茅地体、羌南-保山地体)、3条洋壳深俯冲形成的高压-超高压变质带(金沙江得荣高压变质带、龙木错-双湖高压变质带、松多高(超)压变质带),以及5条弧前增生楔或增生杂岩(西秦岭增生楔、巴颜喀拉-松潘-甘孜增生楔、金沙江增生楔、双湖-聂荣-吉塘-临沧增生楔、松多增生杂岩)。古特提斯洋盆的俯冲增生造山作用普遍存在于青藏高原古特提斯复合造山体中,构成与多条古特提斯蛇绿岩带(缝合带)相伴随的俯冲增生杂岩带(链)。古特提斯俯冲增生杂岩带包括由弧前强烈变形的沉积增生楔、以及高压变质岩、岛弧岩浆岩、蛇绿岩和外来岩块组成的混杂体,代表在洋盆俯冲过程中的活动陆缘的地壳增生。 相似文献
8.
地层方面,在测区札达陆块厘定出念青唐古拉岩群;在措勤申扎地层分区发现坚扎弄组在测区的存在,新建淌那勒组;将则弄群火山岩解体;根据化石,则弄群弧火山岩的形成时间为早白垩世;确认狮泉河蛇混岩带的形成时间是晚侏罗世—早白垩世;将才里群解体。岩石方面,在测区不同时代地层中发现火山岩系,填绘出了一系列火山机构;将中新生代深成侵入岩划分为拉轨岗日花岗岩带和冈底斯花岗岩带两个岩浆带;发现浆混岩系。构造方面,发现雅鲁藏布江结合带南北支在图区的存在;证实狮泉河带内存在洋脊蛇绿岩套,狮泉河带存在俯冲;确认班 怒带的南支向北与狮泉河带斜接。 相似文献
9.
祁连造山带是原特提斯洋闭合过程中, 阿拉善和柴达木地块在青藏高原东北缘拼合的产物。它是由蛇绿岩残片、海山、岛弧、弧前/弧后盆地等多个构造单元构成的典型增生型造山带, 表现出在多个元古代微陆块周围分布有蛇绿岩和岛弧火山岩的特征。蛇绿混杂带广泛分布于北祁连和南祁连中, 在南祁连主要出露寒武纪玄武岩、安山岩、辉长岩、超基性堆晶岩、硅质岩、灰岩、砂岩和少量地幔橄榄岩, 呈现出蛇绿混杂带的典型特征, 其中拉脊山蛇绿混杂带是该蛇绿混杂带的最大组成部分。因此, 拉脊山蛇绿混杂带的来源和形成构造背景对研究祁连造山带构造演化具有重要的意义。由于构造的复杂性以及系统的野外和岩石学方面研究的缺乏, 拉脊山蛇绿混杂带的岩石组合、同位素年龄和构造背景仍然不清楚, 从而严重制约了区域构造演化的认识。例如, 前人根据灰岩中三叶虫化石将拉脊山地区火山-沉积岩系划归于寒武纪, 然而其它岩石单元的同位素年龄和来源信息相对缺乏, 而且灰岩究竟是本地岩块还是老的异地岩块仍有待进一步研究。岩石地球化学分析结果显示表明寒武纪玄武岩具有MORB、WPB或者OIB的特征, 且部分玄武岩具有岛弧亲缘性。因此, 大陆裂谷、弧后盆地、多阶段抬升构造窗或俯冲-增生杂岩等模式相继被提出。这些分歧严重影响了我们对祁连造山带和原特提斯洋构造演化的认识。究其根本原因, 是由于缺乏将蛇绿岩和岛弧形成视为沟-弧-盆体系演化过程中一个具有成因联系的有机体对其进行综合分析。 相似文献
10.
《地质通报》2020,(Z1)
拉果错蛇绿岩是青藏高原中部狮泉河-纳木错-嘉黎缝合带中出露最完整的蛇绿岩组合之一,对恢复和反演该缝合带代表的洋盆演化及洋盆性质具有重要的约束意义。以拉果错蛇绿岩中的辉长岩、辉绿岩、辉绿玢岩和斜长花岗岩为研究对象,在岩石学、锆石U-Pb年代学和全岩地球化学研究的基础上,探讨了拉果错蛇绿岩的成因和构造背景,以此约束狮泉河-纳木错-嘉黎缝合带的性质。结果显示,斜长花岗岩锆石U-Pb年龄为167.8±1.7 Ma(n=24,MSWD=0.22),表明拉果错蛇绿岩形成于晚侏罗世。地球化学特征显示,拉果错蛇绿岩中辉长岩与辉绿岩端元均兼具岛弧与富集洋中脊玄武岩的地球化学性质,指示其形成于大陆弧后盆地环境。 相似文献
11.
笔者依据班公湖地区1:25万喀纳幅、日土县幅、羌多幅地质填图和专题研究工作取得的阶段性成果,将班公湖带的多岛弧盆系时空结构厘定为3条蛇绿混杂岩亚带。该3条亚带为盆地所隔,从北而南依次为班公湖带北亚带、班摩掌侏罗纪弧间盆地、班公湖带中亚带、日土-巴尔穷侏罗纪—早白垩世复合弧后盆地和班公湖带南亚带等。初步认为班公湖-怒江特提斯洋经历了晚三叠—早侏罗世往北俯冲、中晚侏罗世早期向北、往南双向俯冲、早白垩世往南俯冲等3次俯冲消亡阶段;同时,讨论了在班公湖带研究中存在的问题及其在反演班公湖-怒江结合带西段构造演化和在找矿方面的意义,以及进一步研究方向。 相似文献
12.
《International Geology Review》2012,54(16):2028-2043
The Kangqiong ophiolite is exposed in the central–western part of the Bangong–Nujiang suture zone (BNSZ) of central Tibet. This study reports new data for boninitic dikes with the aim of reconstructing the geodynamic and petrogenetic evolution of the Kangqiong ophiolite. Ten samples of boninitic dikes that cross-cut the mafic cumulates have very low TiO2 (0.34–0.42%) contents and high MgO (6.65–8.25%) contents. LA-ICP-MS U–Pb analyses of zircon from the boninitic dikes yield an age of 115 Ma. They are characterized by positive εHf(t) values varying from +13.1 to +15.0. Taking into account the geochemical characteristics of the mantle section, the Kangqiong ophiolite should be generated in a fore-arc spreading setting resulting from intra-oceanic subduction. Based on our data and previous studies, we propose that the BNSZ represents the major suture and records the Early Cretaceous intra-oceanic subduction of the Bangong–Nujiang Neo-Tethys Ocean, and the Shiquan River–Yongzhu–Jiali ophiolitic mélange belt represents a back-arc basin. These two belts, together with the northern Lhasa subterrane should, represent an Early Cretaceous intra-oceanic subduction system and back-arc basin in central Tibet that is similar to present-day active intra-oceanic subduction systems in the western Pacific Ocean. The final closure of the Bangong–Nujiang Neo-Tethys Ocean might have taken place later than the Early Cretaceous. 相似文献
13.
西藏改则县多龙矿集区发现岩墙岭蛇绿岩残片 总被引:2,自引:0,他引:2
西藏班公湖-怒江缝合带北缘多龙矿集区是青藏高原新近发现的具有超大型远景的、典型的富金斑岩型铜矿集区,其成岩成矿地质背景是解决班公湖-怒江洋构造演化的关键问题之一。近年来的区域地质调查研究发现,多龙矿集区南侧出露岩墙岭蛇绿岩残片,应该是班公湖-怒江蛇绿岩带的重要组成部分。岩墙岭蛇绿岩主要由席状岩墙群、枕状玄武岩和硅质岩组成,整体呈棱形或透镜体状断续分布于侏罗系复理石沉积内,构成典型的网结状构造。糜棱岩普遍发育在岩墙岭蛇绿岩和围岩的接触部位。综合前人研究成果,初步认为多龙矿集区早白垩世成岩成矿作用应该形成于增生楔之上伸展拉张的构造环境。岩墙岭蛇绿岩的发现和确定进一步约束了多龙矿集区成岩成矿地质背景,同时为班公湖-怒江缝合带的延伸及其构造演化的研究提供了新的线索。 相似文献
14.
Geological Features of the Eastern Sector of the Bangong Co-Nujiang River Suture Zone: Tethyan Evolution 总被引:5,自引:0,他引:5
WANG JianpingRegional Geological Survey Party Henan Bureau of Geology Mineral Exploration Development Pingdingshan Henan 《《地质学报》英文版》2000,74(2):229-235
According to an analysis of the geological features in the eastern sector of the Bangong Co-Nujiang River suture zone, the Tethyan evolution can be divided into three stages. (1) The Embryo-Tethyan stage (Pz1): An immature volcanic arc developed in Taniantaweng (Tanen Taunggyi) Range, indicating the existence of an Embryo-Tethyan ocean. (2) The Palaeo-Tethyan stage (C-T2): During the Carboniferous the northern side of the Taniantaweng Range was the main domain of the Pa-laeo-Tethyan ocean, in which developed flysch sediments intercalated with bimodal volcanic rocks and oceanic tholeiite, and Pemian-Early Triassic arc granites were superimposed on the Taniantaweng magmatic arc; on the southern side the Dengqen-Nujiang zone started secondary extension during the Carboniferous, in which the Nujiang ophiolite developed, and the Palaeo-Tethyan ocean closed before the Middle Triassic. (3) The Neo-Tethyan stage (T3-E): During the Late Triassic the Dengqen zone developed into a relatively matural ocean basin, i 相似文献
15.
<正> 1972年尹赞勋综合大量国外资料,在我国首次较系统地介绍了板块构造理论,接着李春昱、傅承义等又著文进一步介绍板块构造的基本理论,在我国广大地质工作者中引起了强烈的反响。由于当时还处在十年动乱时期,板块构造这一新兴学说得不到应有的重视,研究工作未能广泛开展,只有局部地区的探索。李春昱先生不顾古稀之年,带领西北地质研究所少数几人,首先开展了祁连山—秦岭地区的板块构造研究工作,这对我国板块构造研究起了先锋作用。 相似文献
16.
洞错蛇绿岩位于班公湖-怒江缝合带西段阿里地区,前人对其空间展布、构造环境及成因有过一定的探讨,但研究程度薄弱.选择洞错蛇绿岩中的辉长岩为研究对象,对其开展详细的岩相学、地球化学、年代学等工作,解读洋盆的形成时间及构造环境.结果表明,辉长岩与N-MORB相比具有较高的Mg#,低K、Na、P和Ti的元素特征,亏损Hf、Zr、Nb等高场强元素(HFSE),具有轻稀土亏损型配分模式,表明可能源于N-MORB型亏损地幔源区.地球化学元素研究表明辉长岩岩浆源自亏损的尖晶石二辉橄榄岩~30%部分熔融,可能形成于与洋内俯冲相关的岛弧或者弧前构造环境,属于SSZ型蛇绿岩.辉长岩锆石的U-Pb测年指示其结晶年龄为222±4.8 Ma(MSWD=0.5,n=28),代表了辉长岩的形成年龄,佐证了洞错蛇绿岩形成于晚三叠世,表明班公湖-怒江特提斯洋盆从晚三叠世开始存在洋内俯冲消减地质作用. 相似文献
17.
《International Geology Review》2012,54(3):302-312
Porphyry Cu (Mo–Au) deposits in the Himalayan–Tibetan orogen formed during the Late Triassic, Early Cretaceous, Eocene, Oligocene, and Miocene and can be classified into different metallogenic belts according to their petrologic features, mineralization ages, and tectonic settings. A close spatial relationship to regional strike–slip faults is evident in all five belts. Porphyry Cu (Mo–Au) deposits exist in a wide range of tectonic environments, including island arc, syn-collision, post-collisional convergence, and continental-transform plate boundaries. Porphyry Cu deposits cluster in the southernmost part of the Yidun–Zhongdian Belt, along the N–S-trending Gaze River dextral strike–slip fault. Porphyry Cu deposits in the Lijiang–Jinping Belt lie along the Ailaoshan–Red River continental–transform shear zone and the associated strike–slip faults. The Yulong–Malasongduo porphyry belt is controlled by the Cesuo Fault, a NNW-trending regional dextral transcurrent fault that is associated with Palaeogene westward continental oblique subduction along the Jinsha suture. In the Gangdis Belt, Miocene porphyry Cu deposits are localized along N–S-trending normal faults, which were produced by transpression within the regional NW–SE-trending Karakoram–Jiali fault zone (KJFZ). A close spatial relationship between porphyry Cu deposits and strike–slip faults also exists for the Bangong–Nujiang Belt. 相似文献
18.
Two isolated metamorphic accretionary complexes of Jurassic age, the Refahiye and Kurtlutepe metamorphic rocks, crop out as tectonic slices within the coeval suprasubduction-zone ophiolite at the southern margin of the Eastern Pontides (NE Turkey), close to the ?zmir-Ankara-Erzincan suture. The Refahiye metamorphic rocks are made up of greenschist, marble, serpentinite, phyllite and minor garnet amphibolite, garnet micaschist and metachert. The whole unit was metamorphosed under garnet-amphibolite-facies conditions and strongly retrogressed during exhumation. The Kurtlutepe metamorphic rocks consist of subgreenschist-facies metavolcanics, metavolcaniclastics, marble, calc-phyllite, and minor serpentinite and metachert. Metabasites in the Refahiye metamorphic rocks are represented by four distinct geochemical affinities: (i) cumulate “flavor,” (ii) alkaline oceanic island basalt (OIB), (iii) enriched mid-ocean ridge basalt (E-MORB) and (iv) tholeiitic island arc basalt (IAB). On the other hand, the Kurtlutepe metavolcanic rocks display only tholeiitic to calc-alkaline island arc geochemical affinities. The metabasic rocks with OIB affinities were interpreted as parts of the accreted oceanic islands, and those with E-MORB affinities as parts of accreted ridge segments close to oceanic islands and/or plume-distal mid-ocean ridges with a mantle previously metasomatized by plume components. The metabasic rocks with IAB affinities might have been derived from the overlying suprasubduction ophiolite and/or arc domain by a number of tectonic or sedimentary processes including tectonic slicing of accretionary complex and overlying fore-arc ophiolite, juxtaposition of the magmatic arc with subduction zone by strike slip faults, submarine gravity sliding and debris flows or subduction erosion. However, totally recrystallized nature of the metabasic rocks together with field relations does not allow any inference on the processes involved. The Kurtlutepe metavolcanic rocks might represent collided and accreted oceanic island arc with the subduction zone. Attempted subduction of an intraoceanic island arc may also explain the magmatic lull during Late Jurassic–Early Cretaceous in the Eastern Pontides. 相似文献