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1.
雄关地区的倭勒根岩群大网子岩组主要为变碎屑岩夹变流纹岩和变粗面安山岩.利用ICP-MS仪器对变粗面安山岩进行锆石U-Pb年龄测定,结果显示变粗面安山岩锆石206Pb/238U年龄为443.8~783.8 Ma,获得ICP-MS锆石U-Pb同位素谐和年龄为463.7±2.1 Ma,加权平均年龄为463.6±6.4 Ma(n=10,MSWD=0.073).所测锆石振荡环带较发育,Th/U值一般为0.42~1.76,具有岩浆成因特征.该年龄代表粗面安山岩形成年龄,认为其形成于中奥陶世,与区域大网子岩组形成时代(寒武纪-早志留世)一致.大网子岩组粗面安山岩属碱钙系列准铝质岩石,铕异常不显著,相对亏损高场强元素,富集大离子亲石元素.岩石具有壳幔混源特征,形成于陆缘环境,与古亚洲洋壳俯冲有关. 相似文献
2.
雄关地区的倭勒根岩群大网子岩组主要为变碎屑岩夹变流纹岩和变粗面安山岩.利用ICP-MS仪器对变粗面安山岩进行锆石U-Pb年龄测定,结果显示变粗面安山岩锆石206Pb/238U年龄为443.8~783.8 Ma,获得ICP-MS锆石U-Pb同位素谐和年龄为463.7±2.1 Ma,加权平均年龄为463.6±6.4 Ma(n=10,MSWD=0.073).所测锆石振荡环带较发育,Th/U值一般为0.42~1.76,具有岩浆成因特征.该年龄代表粗面安山岩形成年龄,认为其形成于中奥陶世,与区域大网子岩组形成时代(寒武纪-早志留世)一致.大网子岩组粗面安山岩属碱钙系列准铝质岩石,铕异常不显著,相对亏损高场强元素,富集大离子亲石元素.岩石具有壳幔混源特征,形成于陆缘环境,与古亚洲洋壳俯冲有关. 相似文献
3.
西秦岭北缘早古生代天水—武山构造带及其构造演化 总被引:5,自引:1,他引:4
西秦岭北缘早古生代天水-武山构造带位于甘肃省东部天水地区,主要由寒武纪关子镇-武山蛇绿岩带、晚寒武世-早奥陶世李子园群浅变质活动陆缘沉积-火山岩系、奥陶纪草滩沟群岛弧型火山-沉积岩系以及加里东期岛弧型深成侵入岩体、俯冲-碰撞型花岗岩体等组成.关子镇蛇绿岩中变质基性火山岩属于N-MORB型玄武岩,武山蛇绿岩中变质基性火山岩属于E-MORB型玄武岩,是洋脊型蛇绿岩的重要组成部分,形成时代大致在534~489Ma之间的寒武纪.李子园群火山岩主要形成于岛弧或与岛弧相关的弧前盆地构造环境,草滩沟群火山岩形成于与俯冲作用相关的岛弧环境.关子镇流水沟和百花中基性岩浆杂岩总体形成于中晚奥陶世(471~440Ma)古岛弧构造环境,同时发育加里东期俯冲型(450~456Ma)花岗岩类和碰撞型(438~400Ma)花岗岩类岩浆活动.西秦岭北缘早古生代古洋陆构造格局经历了从洋盆形成-洋壳俯冲消减直至陆-陆碰撞造山的板块构造演化过程.总体构造演化可划分为四个阶段:①晚寒武世古洋盆初始形成阶段;②早奥陶世洋盆初始俯冲阶段;③中晚奥陶世洋壳大规模俯冲与古岛弧发育阶段;④志留纪陆-陆或陆-弧碰撞造山阶段. 相似文献
4.
内蒙古西部的温都尔庙群下部为含铁石英岩、变质火山岩与绢云石英片岩,上部由各类绢云石英片岩、石英岩组成,局部夹碳酸盐沉积。利用SHRIMP和ICP-MS定年方法,获得该群下部的变质火山岩时代为(460±4) Ma,上部绢云石英片岩中最年轻的峰值年龄为417 Ma和444 Ma。结合已有的锆石年龄分析结果,本文认为温都尔庙群的发育时代可能为500~415 Ma。根据温都尔庙群的物质组成,推测其形成于松辽-浑善达克地块周围的大陆边缘海域并命名为温都尔庙洋,代表我国境内早古生代时期的古亚洲洋。根据碰撞造山带理论探讨了温都尔庙群的构造位置,提出在早-中古生代时期,以温都尔庙群为代表的古亚洲洋发生了向南部华北地块和向北部兴安-艾力格庙地块的双向俯冲,其主体部分形成南、北两个加积楔,而其边缘部分卷入南、北混杂岩带成为基质,因此温都尔庙群的褶皱及变质历史记录了中亚造山带东段的演化过程。对碎屑锆石年龄分布的研究表明,温都尔庙群的前寒武纪物源特征与蒙古国下古生界的相似,而与华北陆块显著不同,表明温都尔庙群的物源很可能来自华北陆块之外的前寒武纪古陆。 相似文献
5.
温都尔庙群为一套绢云绿泥石英片岩、绢云石英片岩、二云石英片岩、黑云斜长片麻岩、变粒岩、石英岩等的变质岩组合,形成于新元古代。LA-ICP-MS锆石U-Pb同位素定年结果显示,温都尔庙群中的岩浆热事件年龄为459.0±1.8Ma,变质年龄为898.9±5.2Ma,即锡林浩特地区存在900Ma左右的变质基底岩系。温都尔庙群片岩样品显示轻稀土元素富集的中等分异特征,并有一定的负Eu异常,其稀土元素分布模式接近于安第斯型;在微量元素原始地幔标准化图解中,出现明显的高场强元素Nb负异常,表明原岩受地壳混染作用影响;Sr/Ba平均值为0.30,小于1,基本反映了副变质岩的特点。通过岩石地球化学图解分析,认为本区温都尔庙群哈尔哈达组的原岩为沉积岩,岩性主要为砂岩和泥岩。地球化学特征及形成构造环境判别结果表明,温都尔庙群哈尔哈达组片岩原岩沉积环境为活动大陆边缘体系。 相似文献
6.
西秦岭北缘早古生代天水—武山构造带位于甘肃省东部天水地区,主要由寒武纪关子镇武山蛇绿岩带、晚寒武世—早奥陶世李子园群浅变质活动陆缘沉积火山岩系、奥陶纪草滩沟群岛弧型火山沉积岩系以及加里东期岛弧型深成侵入岩体、俯冲碰撞型花岗岩体等组成。关子镇蛇绿岩中变质基性火山岩属于NMORB型玄武岩,武山蛇绿岩中变质基性火山岩属于EMORB型玄武岩,是洋脊型蛇绿岩的重要组成部分,形成时代大致在534~489Ma之间的寒武纪。李子园群火山岩主要形成于岛弧或与岛弧相关的弧前盆地构造环境,草滩沟群火山岩形成于与俯冲作用相关的岛弧环境。关子镇流水沟和百花中基性岩浆杂岩总体形成于中晚奥陶世(471~440Ma)古岛弧构造环境,同时发育加里东期俯冲型(450~456Ma)花岗岩类和碰撞型(438~400Ma)花岗岩类岩浆活动。西秦岭北缘早古生代古洋陆构造格局经历了从洋盆形成洋壳俯冲消减直至陆陆碰撞造山的板块构造演化过程。总体构造演化可划分为四个阶段:①晚寒武世古洋盆初始形成阶段;②早奥陶世洋盆初始俯冲阶段;③中晚奥陶世洋壳大规模俯冲与古岛弧发育阶段;④志留纪陆陆或陆弧碰撞造山阶段。 相似文献
7.
岛弧的形成和演化对于理解板块构造和大陆生长有重要意义.祁连山-西秦岭一带发育两条不同类型的弧岩浆岩带,其北侧为北祁连增生杂岩带,由蛇绿岩、高压变质岩和大陆型弧岩浆岩带组成,形成时代为520~440 Ma.岩浆岩以中酸性火山岩-侵入岩为主,部分地区发育典型双峰式火山岩.南侧为祁秦增生杂岩带,由寒武纪蛇绿岩(525~490 Ma)和奥陶纪IBM型洋内弧岩浆岩(470~440 Ma)组成,蛇绿岩以拉脊山-永靖洋底高原型蛇绿岩为代表,蛇绿岩的上部熔岩部分由夏威夷型苦橄岩、板内碱性玄武岩和板内拉斑玄武岩组成,为大洋板块内部地幔柱活动产物.洋内弧岩浆岩以高镁玄武岩、玄武安山岩、高铝安山岩、玻安岩为主,局部发育赞岐岩.祁秦增生杂岩带的蛇绿岩和弧火山岩组合很好地说明洋底高原与海沟碰撞和俯冲带阻塞是造成俯冲带起始和新的洋内弧形成和发展主要因素. 相似文献
8.
西准噶尔谢米斯台山西缘中志留世火山岩LA-ICP-MS锆石U-Pb测年及构造意义 总被引:3,自引:0,他引:3
西准噶尔博什库尔-成吉斯岩浆弧内谢米斯台山西缘沙尔布尔组出露一套安山岩-辉石安山岩组合,通过1∶5万区域地质调查对其中的辉石安山岩进行LA-ICP-MS锆石U-Pb测年,获得年龄为(428.7±2.7)Ma(n=17,MSWD=0.07,95%置信度)。据此确定该辉石安山岩形成于中志留温洛克世霍姆期,为沙尔布尔组年龄时限提供了科学依据,证实博什库尔-成吉斯岩浆弧的岛弧建造起始时间可能至少提前至中志留世,而非晚志留世。 相似文献
9.
南岭东段龙头寨群南迳组的建立及其地质时代厘定 总被引:1,自引:0,他引:1
南岭带东段晚奥陶世广泛发育一套浅变质岩系,称为龙头寨群。以南迳乔子山剖面和中寨剖面为层型剖面建立南迳组,并置于龙头寨群顶部。用SHRIMP法测得南迳盆地南迳组安山岩样品14个锆石U-Pb年龄数据,其~(206)Pb/~(238)U年龄变化范围为460~425Ma,年龄加权平均值为442.1±3.9Ma(MSWD=0.75);英安岩15个锆石~(206)Pb/~(238)U年龄变化范围为450~420Ma,年龄加权平均值为439.9±3.7Ma(MSWD=0.50)。结合司前河口破火山口碎斑熔岩的SHRIMP锆石U-Pb年龄(443.6±5.4Ma(MSWD=1.3)),可将南迳组的地质时代归于晚奥陶世末期—早志留世初期。龙头寨群南迳组的建立和地质时代的厘定,不仅为龙头寨群的地质时代归入晚奥陶世—早志留世初期提供了可靠的依据,而且为南岭带东段晚奥陶世—早志留世浅变质岩系属含有火山岩的优地槽型沉积提供了证据。 相似文献
10.
内蒙古图林凯蛇绿岩中,新发现了埃达克岩,岩性包括石英闪长岩、奥长花岗岩、斜长岩和英安岩。它们是温都尔庙—图林凯早古生代消减带的一种岩浆岩标志。精确的SHRIMP U-Pb测年表明:①石英闪长岩侵位于约467±13Ma,说明温都尔庙古洋壳的消减可能始于约467±13Ma或更早。随后不久,这一岩石经历了约451±18Ma的高级变质和部分熔融事件。②英安岩喷发于约459±8Ma,奥长花岗岩形成略晚,约451±7Ma,最后形成了斜长岩的岩墙,其时代约为429±7Ma。据此认为,温都尔庙—图林凯古洋壳在早古生代时期,经历了愈38Ma的消减事件。 相似文献
11.
藏北羌塘奥陶纪平行不整合面的厘定及其构造意义 总被引:7,自引:5,他引:2
西藏羌塘块体有无变质基底、其前新生代构造属性与演化过程是长期争论的议题。本文报道南羌塘块体北部,中、上奥陶统塔石山组底砾岩平行不整合于浅变质中厚层石英砂岩夹薄层泥灰岩之上。近600粒碎屑锆石测年结果表明浅变质石英砂岩的最大沉积年龄为527±7Ma,300余粒碎屑锆石测年结果表明塔石山组底部石英砂岩的最大沉积年龄为471±6Ma。不整合面上、下石英砂岩最大沉积年龄之差达56Myr,表明这两套石英砂岩之间存在明显的沉积间断,证实了该平行不整合面的时代为奥陶纪早期。另一独立的证据是在邻区发现了早奥陶世花岗岩类岩石(471~477Ma)侵位于该浅变质石英岩,因此将不整合面之下的浅变质石英岩暂命名为荣玛组,归入寒武系地层。阴极发光与年代学研究进一步表明不整合面之上的碎屑锆石主要来源于在"泛非"运动晚期形成的结晶岩,为近源锆石,表明"泛非运动"晚期所形成的结晶岩在奥陶纪早期就已隆升,遭受剥蚀,为区内中上奥陶统沉积岩的形成提供物质来源。该奥陶纪平行不整合面的发现,表明南羌塘块体与喜马拉雅、拉萨等块体相似,同属冈瓦纳大陆体系。南、北羌塘早古生代地层系统之间的显著差异表明在寒武-奥陶纪之交,南、北羌塘块体就已被古大洋盆分隔开,开始各自独立演化。 相似文献
12.
宽坪岩群位于北秦岭造山带,主要由广东坪岩组斜长角闪岩、四岔口岩组云母石英片岩及谢湾岩组的大理岩组成。通过LA-MC-ICPMS锆石U-Pb测年研究,宽坪岩群谢湾岩组碎屑锆石年龄为400~3502 Ma,其中最年轻一组的206Pb/238U年龄在380~418 Ma,结合黑云母40Ar/39Ar(370.9±2.0)Ma的变质年龄,表明谢湾岩组形成在晚泥盆世。四岔口岩组碎屑锆石年龄介于512~3598 Ma,最年轻的一组锆石206Pb/238U年龄在512~549 Ma,其黑云母40Ar/39Ar变质年龄为(370.4±1.8)Ma,表明该组形成于512 Ma(早寒武世)之后,晚泥盆世之前,主体很可能形成于早古生代。宽坪岩群是由不同时代的地层和岩片构成,应该进一步解体。宽坪岩群物源来自华北陆块、秦岭造山带和扬子陆块。其变形变质时代为晚泥盆世,代表了北秦岭造山带碰撞造山的结束时代。 相似文献
13.
N. B. Kuznetsov S. Yu. Orlov E. L. Miller A. V. Shazillo A. V. Dronov A. A. Soboleva O. V. Udoratina G. Gehrels 《Doklady Earth Sciences》2011,438(2):759-765
The first results of U/Pb isotopic dating (LA ICP MS) of detrital zircons from sands from the Middle Cambrian Sablinka Formation,
Upper Cambrian Ladoga Formation, Low Ordovician Tosna Formation, and calcareous sands from Syas’ Formation (Sargaevskii horizon
of the Upper Frasnian) from Baltica-Ladoga Glint (BLG) of the Southern Ladoga area are presented. The obtained ages of detrital
zircons span the intervals 492.7 ± 5.1-3196.4 ± 5.1 Ma (Sablino Formation); 577.9 ± 7–2972.6 ± 13.4 Ma (Ladoga Formation);
509.4 ± 8.5–3247.6 ± 10.1 Ma (Tosna Formation); 451.1 ± 14.7–2442.2 ± 6.9 Ma (Syas’ Formation). A comparison of the obtained
isotopic ages of detrital zircons to ages of crystalline complexes composing the Kola-Karelian, Svecofennian, and Sveconorwegian
domains of Baltic Shield and Pre-Uralian-Timanian structures of Subpolar and Polar Urals and basement of Pechora Basin was
carried out. It is proposed that the Middle Paleozoic sedimentary basin accumulated Upper Frasnian rocks of Syas’ Formation.
The basin ranged northward from the present-day BLG and occupied the eastern part of the Baltic Shield. 相似文献
14.
Ordovician quartz turbidites of the Lachlan Fold Belt in southeastern Australia accumulated in a marginal sea and overlapped an adjoining island arc (Molong volcanic province) developed adjacent to eastern Gondwana. The turbidite succession in the Shoalhaven River Gorge, in the southern highlands of New South Wales, has abundant outcrop and graptolite sites. The succession consists of, from the base up, a unit of mainly thick‐bedded turbidites (undifferentiated Adaminaby Group), a unit with conspicuous bedded chert (Numeralla Chert), a unit with common thin‐bedded turbidites (Bumballa Formation (new name)) and a unit of black shale (Warbisco Shale). Coarse to very coarse sandstone in the Bumballa Formation is rich in quartz and similar to sandstone in the undifferentiated Adaminaby Group. Detrital zircons from sandstone in the Bumballa Formation, and from sandstone at a similar stratigraphic level from the upper Adaminaby Group of the Genoa River area in eastern Victoria, include grains as young as 453–473 Ma, slightly older than the stratigraphic ages.The dominant detrital ages are in the interval 500–700 Ma (Pacific Gondwana component) with a lessor concentration of Grenville ages (1000–1300 Ma). This pattern resembles other Ordovician sandstones from the Lachlan Fold Belt and also occurs in Triassic sandstones and Quaternary sands from eastern Australia. The Upper Ordovician succession is predominantly fine grained, which reflects reduced clastic inputs from the source in the Middle Cambrian to earliest Ordovician Ross‐Delamerian Fold Belts that developed along the eastern active margin of Gondwana. Development of subduction zones in the Late Ordovician marginal sea are considered to be mainly responsible for the diversion of sediment and the resulting reduction in the supply of terrigenous sand to the island arc and eastern part of the marginal sea. 相似文献
15.
K. E. Degtyarev T. Yu. Tolmacheva A. A. Tretyakov A. B. Kotov A. S. Yakubchuk E. B. Salnikova Kuo-Lun Wang 《Doklady Earth Sciences》2017,472(1):26-30
Plagiogranites and conodonts from chert intercalations in basalts of the ophiolite association in the Tekturmas zone of Central Kazakhstan were subjected to the U?Pb geochronological and stratigraphic investigations, respectively. The age of plagiogranite crystallization is estimated to be 489 ± 8 Ma corresponding to the stratigraphic interval spanning from the uppermost Upper Cambrian to the lower Tremadocian. Conodonts from cherts of the Kuzek Formation are distributed along the section interval from the uppermost part of the Darriwilian (Middle Ordovician) to the lower part of the Sandbian (Upper Ordovician), which corresponds to the period of 457?460 Ma. It is revealed that the formation of the ophiolite section in the Tekturmas zone was a multistage process lasting from the Late Cambrian to the initial Late Ordovician. 相似文献
16.
Hubert Miller Christopher Adams Florencio G. Aceñolaza Alejandro J. Toselli 《International Journal of Earth Sciences》2011,100(2-3):619-629
The evolution of the provenance areas for Late Neoproterozoic, Cambrian and Early Ordovician sedimentary and meta-sedimentary rocks of north central and northwest Argentina is discussed using 123 maximum ages of detrital zircons from 42 samples from this and previously published studies. Most detrital zircon ages fall into two groups: 1,200–900 Ma and 670–545 Ma. These ages are essentially identical for the non- to very low grade metamorphic late Neoproterozoic to Early Cambrian Puncoviscana Formation and the low to high grade metamorphic rocks of Eastern Sierras Pampeanas. Hence, both units are related to similar provenance areas at the same time of sedimentation. The time span from zircon crystallization in the Earth’s crust to exhumation and erosion may be very long. This is important when determining maximum ages of sedimentary rocks. Variation of zircon maxima may also be influenced by concurrent sedimentary cover of proposed provenance areas. For the late Mesoproterozoic to early Neoproterozoic zircon age group, an active mountain range of the southwest Brazilian Sunsás orogen is the most probable provenance area. The younger, late Neoproterozoic zircons are related to the continuously developing mountains of the Brasiliano orogen of southwest and south central Brazil. Young zircons, up to 514 Ma, from fossil-bearing Puncoviscana and Suncho Formation outcrops are related to late Early Cambrian volcanism contemporaneous with sedimentation. This situation continues through the Late Cambrian to the Early Ordovician, but the Sunsás orogen provenance diminishes as possible Río de la Plata craton origins become important. 相似文献
17.
We report a Middle Ordovician metagranitoid from the northern margin of the Anatolide‐Tauride Block, the basement of which is generally characterized by voluminous Latest Proterozoic to Early Cambrian granitoids. The Ordovician metagranitoid forms an ~400‐m‐thick body in the marbles and micaschists of the Tav?anl? Zone. The whole sequence was metamorphosed in the blueschist facies during the Late Cretaceous (c. 80 Ma). Zircons from the metagranitoid give a Middle Ordovician Pb‐Pb evaporation age of 467.0 ± 4.5 Ma interpreted as the age of crystallization of the parent granitic magma. The micaschists underlying the metagranitoid yield Cambro‐Ordovician (530–450 Ma) and Carboniferous (c. 310 Ma) detrital zircon ages indicating that the granitoid is a pre‐ or syn‐metamorphic tectonic slice. The Ordovician metagranitoid represents a remnant of the crystalline basement of the Anatolide‐Tauride Block and provides evidence for Ordovician magmatism at the northern margin of Gondwana. Prismatic Carboniferous detrital zircons in the micaschists indicate that during the Triassic, the northern margin of the Anatolide‐Tauride Block was close to Variscan terranes. 相似文献
18.
甘肃天水地区百花岩浆杂岩的锆石LA-ICP-MSU-Pb定年及其地质意义 总被引:6,自引:0,他引:6
摘〓要:[HT5K]利用阴极发光和LA ICP MS微区定年分析方法,对甘肃天水地区百花岩浆杂岩中的辉长岩进行了单颗粒锆石U Pb同位素分析。百花岩浆杂岩体主要由辉石岩—辉长(闪长)岩—闪长岩—石英闪长岩组成,构成较完整的同源岩浆演化序列,地球化学研究表明其形成于岛弧构造环境。对百花岩浆杂岩中辉长岩的LA ICP MS锆石U Pb同位素定年结果表明,其同位素年龄为(449.7±3.1)Ma(MSWD=1.9),形成于晚奥陶世,表明西秦岭北带岛弧型岩浆岩的形成时代为晚奥陶世,结合区域地质资料,揭示出以西秦岭北缘关子镇蛇绿岩为代表的古洋盆的俯冲作用及产生岛弧型岩浆活动的时限为中晚奥陶世。
相似文献
19.
滇西南昌宁-孟连缝合带东侧出露的澜沧岩群是重建原特提斯构造演化的关键,但其物质组成、时代和属性长期存在争议。近期地质调查表明,惠民地区的澜沧岩群惠民岩组主要由玄武岩、玄武安山岩、凝灰岩、砂岩、泥岩及灰岩组成,普遍经历了强烈构造变形和绿片岩相变质作用。岩石地球化学特征显示,玄武安山岩属于钙碱性系列,富集轻稀土元素和大离子亲石元素,具Nb、Ta和Ti的负异常,具有与俯冲相关火山弧的地球化学属性。其玄武安山岩锆石LA-ICP-MS^(206)Pb/^(238)U加权平均年龄为461.8±5.5Ma(MSWD=1.19,n=25);3件变质碎屑岩夹层的最年轻碎屑锆石U-Pb年龄峰值分别为469Ma、470Ma和475Ma,且同时期火山岩锆石占主导,指示其形成于汇聚板块边缘环境。结合本区东侧兰坪-思茅盆地西缘发育的同时期裂谷型双峰式火山岩分析,澜沧岩群惠民岩组变质火山-沉积岩组合可能是原特提斯洋沿扬子地块西缘向东俯冲过程(现今地理方位)形成的产物。研究表明古特提斯与原特提斯构造演化是连续的。 相似文献
20.
为了研究东昆仑南缘布青山复合增生型构造混杂岩带的物质组成、构造属性及形成演化历史,在前人资料基础上从构造混杂岩带物质组成、形成时代、构造属性等方面对其进行综合研究.研究结果表明,布青山复合增生型构造混杂岩带是一条分隔东昆仑造山带与巴颜喀拉造山带的增生型构造边界,主要由元古代-古生代不同构造属性的大型构造混杂岩块与混杂基质组成.构造混杂岩块包括中元古代中深变质基底岩块(苦海岩群)、寒武纪蛇绿岩岩块、奥陶纪蛇绿岩岩块、石炭纪蛇绿岩岩块、石炭纪洋岛/海山玄武岩岩块、奥陶纪中酸性弧岩浆岩岩块、格曲组磨拉石沉积等.基质岩系主要为一套强烈构造变形的早中二叠世马尔争组浊积岩系.该混杂岩带记录了东昆仑南缘布青山地区东特提斯洋(布青山洋)自新元古代晚期开启以来,从晚寒武世-中三叠世长期持续向北的洋壳消减及俯冲增生过程,并于中三叠世晚期布青山洋消减完毕而使巴颜喀拉地块与东昆仑地块碰撞拼合.该次造山事件导致了不同类型、不同时代构造岩块与马尔争组浊积岩强烈混杂,最终形成了布青山复合增生型构造混杂岩的基本构造格架. 相似文献