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从华北陆块南缘大洋扩张到北秦岭造山带板块俯冲的转换时限 总被引:11,自引:3,他引:8
本文以北秦岭造山带华北陆块南缘被动陆缘火山裂谷(大洋?)盆地、早古生代岛弧-弧后盆地和晚古生代岛弧-蛇绿杂岩等构造相带为研究重点,综合利用同位素年代学、古生物年代学、岩石学、岩石地球化学和同位素地球化学等实测数据,系统研究和探讨了北秦岭造山带被动陆缘大洋扩张向俯冲增生造山转换的时限.研究显示:华北陆块南缘由晚新元古代大洋扩张作用转化为板块俯冲作用的转换时限为早奥陶世,约472Ma左右.北秦岭造山带在古生代期间至少存在两期板块俯冲增生造山作用,时代上向南变新,空间上向南向洋内迁移.两次俯冲增生造山作用分别构筑了北秦岭造山带早古生代岛弧-弧后盆地和晚古生代岛弧-俯冲杂岩两条构造相带. 相似文献
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通过对新疆阿尔泰南缘富蕴-蒙库成矿带中铁木里克铁矿矿区出露的花岗闪长岩进行了锆石SHRIMP U-Pb年龄测定,获得岩体形成时代为(389±5.7) Ma(MSDW=1.7).该岩体是早泥盆世岩浆活动产物,属海西早期侵入体.岩体侵入活动伴随铁矿成矿作用,表明铁木里克铁矿的形成时代略晚于389 Ma.前人研究表明,阿尔泰造山带早泥盆世时期岩浆活动异常强烈,400~360 Ma是主造山期.铁木里克岩体的形成处于阿尔泰造山作用最强时期.对比铁木里克岩体与蒙库岩体的形成时代及空间产出,认为铁木里克岩体形成于与板块俯冲有关的活动大陆边缘的陆弧环境. 相似文献
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天山造山带自新元古代以来,经历了漫长而复杂的俯冲增生造山作用和陆内构造活化过程,属于典型的复合型造山带。基于近年研究进展,本文对伊犁、境内外中天山和南天山构造带前寒武纪基底、古生代沉积序列、多期陆缘弧岩浆岩和构造缝合带的变形变质特征、形成环境和年代学等进行了总结分析,梳理了天山古生代增生造山作用中的三次重要构造转换事件及其地质记录。① 伊犁南北两缘、中天山、南天山和塔里木北缘,均发育中奥陶世—志留纪的大陆弧岩浆作用,伊犁北缘、南天山 塔里木北部早古生代沉积环境发生显著变化,表明天山 塔里木北缘在中—晚奥陶世发生了从被动陆缘向活动陆缘的转换。② 伊犁南、北两缘和中天山的早古生代岩层在晚志留世—早泥盆世普遍发生了强烈的韧性变形和角闪岩相变质作用,其上不整合覆盖有弱变形未变质的晚泥盆世—石炭纪火山 沉积地层;该区域不整合是哈萨克斯坦微大陆拼合事件在研究区的构造响应,也标志着准噶尔洋和南天山洋的俯冲方式在泥盆纪发生了由前进式(东太平洋型)向后撤式(西太平洋型)的构造转换,导致伊犁和中天山在晚泥盆世—石炭纪经历了伸展背景下的大陆弧岩浆作用,在南天山 塔里木北缘则形成了一系列弧后有限洋盆。③ 天山各构造单元及其边界缝合带中普遍发育晚石炭世逆冲推覆构造和二叠纪走滑韧性剪切带、晚石炭世—早二叠世滑塌堆积和二叠纪后造山岩浆岩,指示晚石炭世—早二叠世发生了由汇聚造山向陆内构造的转换。这些构造转换事件是认识古亚洲洋各分支洋盆从初始俯冲、俯冲方式转换到俯冲终结过程的基础,也是探讨增生造山动力学的关键。 相似文献
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中国阿尔泰造山带南缘晚古生代A型花岗岩体被认为是该区域处于伸展构造的重要岩石学证据,但是现有工作多集中在利用其地球化学特征对大地构造背景的追索,而对于其构造变形特征却鲜有深入研究.为探索阿尔泰南缘晚古生代花岗岩体产出的大地构造背景,本文对玛因鄂博岩体、喀拉苏岩体及其围岩开展了详细的野外地质观测和年代学研究.结果显示研究区普遍经历了一期近S-N向地壳缩短事件(D2),区域上形成平行于造山带走向的紧闭褶皱(F2)和近直立的轴面劈理(S2).玛因鄂博岩体和喀拉苏岩体在野外露头虽没有展示出明显的变形特征,但是从其衍生的花岗岩脉体展示出与D2同构造变形特征.对玛因鄂博岩体的两条同构造变形花岗岩脉进行了独居石U-Pb测年,获得其年龄分别为273±3 Ma、266±2 Ma;对喀拉苏岩体的一条同构造变形花岗岩脉进行了锆石U-Pb测年,获得其年龄为282±10 Ma,均代表了同构造花岗岩脉的形成时代.结合构造观测和定年结果,表明青河地区和喀拉苏地区在二叠纪早期处于强烈的构造挤压环境.因此,中国阿尔泰造山带南缘在早-中二叠世仍处于挤压而非伸展的大地构造环境. 相似文献
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阿尔泰造山带南缘富蕴后造山线形花岗岩体锆石U-Pb年龄及其地质意义 总被引:31,自引:0,他引:31
阿尔泰造山带南缘发育一系列后造山花岗岩体。富蕴南额尔齐斯断裂带中发育具有片麻理的黑云母花岗岩体,其中还侵入有未变形的黑云母花岗岩体。本文对这两个岩体进行了 TIMS 法锆石 U-Pb 测年,结果分别为 281±5 Ma(变形岩体)和275±2 Ma(不变形岩体),显示其为后造山花岗岩体。该研究表明,阿尔泰造山带在281± 5 Ma 时仍存在一定规模的后造山剪切作用,275±2 Ma 之后变形作用开始变弱。 相似文献
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新疆中天山古生代侵入岩浆序列及构造演化 总被引:1,自引:0,他引:1
新疆中天山构造岩浆带是中亚造山带的重要组成部分,广泛分布着古生代花岗质侵入体。本研究重点对中天山南缘巴音布鲁克及巴伦台地区的花岗质侵入体进行了LA-ICP-MS锆石U-Pb测年,并获得了岩体侵位年龄由老到新分别为463±3Ma(石英闪长岩)、437±5Ma(石英闪长岩)、424±3Ma(二长花岗岩)、383±4Ma(二长花岗岩)、356±3Ma(二长花岗岩)和303±5Ma(正长花岗岩)。综合区域地质分析认为,中天山古生代侵入岩浆活动可分为四个构造岩浆演化阶段:(1)晚寒武世—晚奥陶世阶段,Terskey洋盆和南天山洋盆自新元古代打开形成广阔洋盆,Terskey洋盆在晚寒武世开始初次俯冲,于晚奥陶世洋盆闭合,南天山洋盆于早奥陶世初次俯冲,具有自西向东、由早到晚的俯冲特点;(2)早志留世—中泥盆世阶段,南天山洋盆持续向北俯冲,该阶段北天山洋开始向南侧俯冲,在伊犁地块北缘形成了弧岩浆;(3)晚泥盆世—早石炭世阶段,南天山洋盆闭合于晚泥盆世末期,在早石炭世中晚期进入残余洋盆演化阶段;(4)晚石炭世—早二叠世阶段,该阶段为后碰撞伸展环境,区域上为陆内演化阶段。 相似文献
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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
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阿尔泰造山带位于西伯利亚板块与哈萨克斯坦-准噶尔板块之间,是中亚造山带重要组成部分。长期以来,阿尔泰何时结束造山一直存在争议,阻碍了对中亚造山带晚古生代构造演化的认识。中国阿尔泰造山带南缘发育早二叠世花岗岩,具有碱性或A型花岗岩特征,能够反映碰撞后伸展的构造环境。青河岩体位于阿尔泰造山带东南部,主要由二长花岗岩和少量闪长岩组成,具有研究阿尔泰造山带晚期构造演化的条件。本文以此为切入点,对青河岩体开展年代学和地球化学工作。新的测年数据表明似斑状二长花岗岩(283±3Ma)、中细粒二长花岗岩(280±2Ma)、糜棱岩化二长花岗岩(286±2Ma)和辉长闪长玢岩(269±1)均形成于早二叠世。岩体高硅(SiO_2=61. 98%~73. 35%),富碱(K_2O+Na_2O=5. 84%~8. 72%,碱度率AR=2. 12~3. 65),低钙(CaO=1. 29~3. 76%),里特曼指数σ=2. 38~2. 54,K_2O/Na_2O=0. 78~1. 06,属于高钾钙碱性岩石系列。微量元素显示Ba、Sr、P、Ti、Nb、Ta亏损,Eu明显负异常(δ_(Eu)=0. 46~0. 78),10000×Ga/Al=2. 85~2. 47,反映具有A型花岗岩特征,可作为阿尔泰碰撞造山作用结束的标志。另外,这些岩体ε_(Hf)(t)值介于+4. 04~+11. 78之间,二阶段模式年龄(t_(DM2))分别变化于880~694Ma、923~633Ma、875~555Ma、1030~635Ma,揭示其源区主要由新元古代幔源物质或新生地壳组成。结合区域上同时代、同构造位置富碱性(A型)花岗岩研究结果,认为青河中酸性岩体成因与地幔岩浆底侵早期下地壳有关,是新元古代玄武质物质再熔,并发生结晶分异的结果。因此,阿尔泰造山带于早二叠世(286~280Ma)已经结束了碰撞造山作用,处于伸展的构造背景。 相似文献
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Ying Tong Tao Wang Wolfgang Siebel Da-Wei Hong Min Sun 《International Journal of Earth Sciences》2012,101(4):937-950
The Altai orogen forms the southern part of the Central Asian Orogenic Belt (CAOB), the world’s largest accretionary orogen. However, its tectonic evolution, particularly during the late Paleozoic, is still not well understood. U–Pb zircon analyses for the Bulgen alkaline granite yield crystallization ages of 358?±?4?Ma (SHRIMP) and 354?±?4?Ma (LA-ICP-MS). These ages are significantly younger than published emplacement ages for subduction/collision-related syn-orogenic granitoids (460–375?Ma) in this region. The Bulgen granite has high SiO2, total alkalis, rare earth elements, HFSE (Th, Zr, Hf, Nb, and Ce), and low Ba, Sr with pronounced negative anomalies in Eu, Ba, Sr, P, and Ti, showing a clear A-type geochemical signature. The granite records high εNd(t) values of +6.3 to +6.4 and young model ages (T DM) of ca. 600?Ma. The Bulgen alkaline granite is largely undeformed as opposed to the early-middle Paleozoic counterparts, which form elongated deformed bodies parallel to the prevailing tectonic fabric (NW direction). Available data suggest that magmatism in the southern Altai region evolved from early-middle Paleozoic I-type tholeiitic and calc-alkaline granitoids to late Paleozoic A-type alkaline granitoids. The high εNd(t) values of the Bulgen alkaline granite indicate a homogeneous juvenile mantle source, whereas the early-middle Paleozoic granitoids are characterized by lower and more variable εNd(t) values (?2.6 to +4.2). These differences provide an important insight into the late Paleozoic orogenic processes of the Chinese Altai and indicate a significant change of the tectonic regime from a syn-orogenic regional compression setting to a post-orogenic extensional one. Major tectonic movements in this region ceased after the early Carboniferous. 相似文献
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阿尔泰造山带分布着大量花岗岩.本次研究的出露于阿巴宫一带的两个片麻状花岗岩体,其锆石SHRIMPU-Pb年龄分别为(462.5±3.6)Ma和(457.8±3.1)Ma,在误差范围内年龄一致,表明这两个岩体是同期岩浆作用的产物.较老的年龄说明该岩体原被划分为华力西中晚期侵入岩体的认识并不正确,该岩基可能是由不同时代的侵人体组成.阿巴宫2号岩体呈岩株状出露于下泥盆统康布铁堡组火山岩地层中,二者之间没有显示侵入接触和断层接触关系,表明火山岩地层可能为岩体的不整合沉积盖层,后经剥蚀和构造作用使岩体局部出露地表. 相似文献
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Dr. Karsten Berg Dr. Christoph Breitkreuz Dr. Klaus -Werner Damm Siegfried Pichowiak Prof. Dr. Werner Zeil 《International Journal of Earth Sciences》1983,72(2):715-731
Analysis of extended plutons in the Coast Range of North Chile between 25°30′ and 26°35′ led to the recognition of a complex magmatic and structural evolution from the Upper Paleozoic to the Tertiary. The ascension of the intrusive bodies is dictated by deep-seated block tectonics. Generally the chemistry changes from S-type magmas in the Paleozoic to I-type magmas in the Mesozoic and Cainozoic. This is accompanied by a change in the structural geology of the continental margin which we present in six hypothetic phases (Devonian-Tertiary). We are only at the beginning of an encompassing synthesis of the genesis of the Andean orogen. 相似文献
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一直以来,敦煌地块缺少1.6-0.46Ga的地质记录,从而严重制约了对该地块在新元古代和早古生代期间地质构造演化的全面认识。通过1:5万区域地质调查,本次工作在敦煌地块东北缘新发现了寒武纪-早奥陶世小宛山岩体、截山子岩体和小宛南岩体等多个中酸性侵入体,测得其LA-ICP-MS锆石U-Pb年龄分别为517±3Ma、480±3Ma和473±3Ma,由此厘定出敦煌地块目前古生代最古老的侵入岩体及早奥陶世侵入岩体。通过这些岩体的岩石岩相学、岩石地球化学特征、岩石成因及大地构造环境分析,表明它们属于与洋壳俯冲消减作用有关的活动陆缘环境下形成的富钠质I型花岗岩。其中,小宛山花岗闪长质岩体是在低压低温条件下由玄武质地幔楔部分熔融而成,同时受到俯冲流体的强烈交代;截山子岩体和小宛南岩体则是在高压低温富水条件下,由新生镁铁质洋壳发生部分熔融并受到地幔楔强烈混染而形成,虽然它们均属于(类)O型埃达克岩,但其部分熔融的压力及其残留矿物组合不同。上述研究揭示敦煌地块北缘早古生代517Ma就存在俯冲作用,且至少持续了44Myr。结合区域地质资料和以往研究成果,敦煌地块北缘早古生代洋陆转换过程可分为三个阶段:(1)晚震旦世-早寒武世(574-518Ma),敦煌地块北缘被动陆缘演化阶段;(2)寒武纪第二世-早奥陶世(517-471Ma),敦煌地块北缘活动陆缘演化阶段,期间,古亚洲洋南支洋分别向敦煌地块和石板山地块/马鬃山地块发生双向俯冲消减;(3)中奥陶世-早泥盆世(464-412Ma),敦煌地块与石板山地块/马鬃山地块碰撞造山阶段,期间古亚洲洋南支洋闭合。 相似文献
15.
内蒙古白云鄂博地区晚古生代闪长质-花岗质岩石年代学框架及其地质意义 总被引:12,自引:6,他引:6
华北克拉通北缘的内蒙古白云鄂博地区分布着由辉长岩、辉长闪长岩、花岗闪长岩、二长花岗岩、黑云母花岗岩及钾长花岗岩等基性-中酸性-碱性花岗岩组成的闪长质-花岗质杂岩体,它们曾被认为是泥盆纪至侏罗纪多期次侵位的产物,而新的年代学资料揭示这些侵入体都是在晚古生代形成的.白云鄂博地区15件不同岩性的锆石LA-ICP-MS U-Pb测年表明,其侵位年龄具有很好的一致性,仅发生在263~281Ma狭窄时间段内,峰期年龄269Ma.这表明白云鄂博矿床的形成与这些闪长质-花岗质岩石的侵入活动没有直接的成因联系,也为重新认识华北克拉通北缘晚古生代构造环境及演化史提供了新的年代学资料. 相似文献
16.
Remnants of a Neoproterozoic Collisional Orogenic Belt in the Core of the Phanerozoic Qinling Orogenic Belt (China) 总被引:12,自引:0,他引:12
NW-SE trending paleotectonics are recognized from the WNW-ESE trending Qinling complex in the core of the Qinling belt. They consist of trending stratum, boundary shear zones, deformed linear plutons and ophiolite. The field relationships and ages of the deformation, magmatism and metamorphism suggest that the paleotectonics formed in Neoproterozoic. The ages of deformed and undeformed plutons approximately constrain the peak deformation during 958-889 Ma. Both the two trending tectonics constitute an orogen-scale tectonic replacement by S2 (Phanerozoic WNW-ESE tectonics) of S1 (NNW-SSE trending Neoproterozoic), similar to structural replacement in outcrop. The strong contractional deformation, (high-pressure) metamorphism, and granitic magmatism that evolved from syn-collisional (S-type), to post-collisional (I-type) and to post-collisional (A-type), as well as regional extension at 885-700 Ma in Qinling, display a cycle of a collisional orogeny. Thus, the NW-SE trending paleotectonics could be remnants of a collisional orogenic belt. The belt originally could trend NNW-SSE, if reworking and modification of Paleozoic and/or Mesozoic NNE-SSW contractional deformation are eliminated. Accordingly, assemblage and breakup of some continental blocks occurred in Neoproterozoic in Qinling, which seems to correspond to assemblage and breakup of Rodinia supercontinent in the world. This study provides new insight into the evolution of the Qinling orogenic belt and the reconstruction of Proterozoic supercontinent of China, and also presents a case study of recognition of an old orogen from a young orogen. 相似文献
17.
详细的野外地质调查以及锆石SHRIMP U-Pb定年和初步的岩石学研究表明,大别山北淮阳带东段发育早古生代奥陶纪花岗岩。这些花岗岩经过了强烈的构造变形、局部发育片麻理和绿帘角闪岩相变质作用,形成时代为457±2 Ma,与北淮阳带西段马畈闪长岩的形成时代以及北秦岭?桐柏造山带一期与大洋俯冲相关的早古生代岛弧岩浆作用时代一致。结合区域地质背景和盆地沉积分析,证明北秦岭古生代俯冲增生造山带至少向东延伸到大别山北淮阳带的金寨及相邻地区。研究区古生代花岗岩及相关岩石的进一步研究,将为大别山碰撞造山带的古生代构造演化以及华南与华北板块之间的汇聚?拼贴过程提供新的制约。 相似文献
18.
N.L. Dobretsov M.M. Buslov J. De Grave E.V. Sklyarov 《Russian Geology and Geophysics》2013,54(10):1135-1149
The interplay of geodynamic and sedimentation processes in the Central Asian orogen and the Siberian craton is discussed in several aspects: (i) general tectonics of the Central Asian orogen, (ii) correlation of deposition and collision events, (iii) deposition history and sediment sources on the northern and eastern margins of the Siberian craton, compared, and (iv) history of the Central Asian orogen (Altaids) and formation of Early Mesozoic sedimentary basins.Chemical and isotope compositions and geochronology of Neoproterozoic–Paleozoic sedimentary sequences indicate deposition synchronicity in basins of different types, within both the craton and the orogen. Thus geodynamic models of deposition in separate basins provide reliable evidence of the history of orogens flanking the Siberian craton.The study has confirmed the existence of the Vendian–Early Paleozoic Charysh–Terekta–Ulagan–Sayan–Olkhon strike-slip suture between the continental-margin complexes of Siberia and Kazakhstan, with the crust of juvenile and mixed types, respectively. Late Paleozoic large-scale strike-slip faulting deformed the previous tectonic framework and caused tectonic mixing of the older structures on different margins. This superposed deformation makes it difficult to decipher the paleogeography, paleotectonics, and paleogeodynamics of the Central Asian orogen. 相似文献
19.
新疆准噶尔晚古生代陆壳垂向生长(Ⅰ)——后碰撞深成岩浆活动的时限 总被引:71,自引:56,他引:71
准噶尔是新疆北部古生代造山带的重要组成部分,以广泛发育晚古生代后碰撞花岗岩为特征,是中亚造山带中显生宙陆壳生长作用非常显著的地区之一。根据新近获得的SHRIMP锆石U-Pb年龄,并参考已经发表的锆石U-Pb年龄,本文重新厘定了准噶尔晚古生代后碰撞深成岩浆活动的时限。按照最新的国际地质年表中石炭纪和二叠纪划分方案(Gradstein et a1.,2004),准噶尔后碰撞深成岩浆活动是从早石炭世中-晚维宪期开始、于早二叠世末期结束的。东准噶尔后碰撞深成岩浆活动发生在330-265Ma之间,而西准噶尔后碰撞深成岩浆活动的时限在340-275Ma之间,持续时间分别约65Ma。但是,在东准噶尔,后碰撞深成岩浆活动集中在330~310Ma和305~280Ma两个时段发生,而在西准噶尔,后碰撞深成岩浆活动的高峰发生在310~295Ma之间。准噶尔晚古生代后碰撞深成岩浆活动在空间上没有受到重要地质界线(如蛇绿岩带)的分隔控制,在有的地方花岗岩还可以侵位在蛇绿岩带之中。而晚古生代后碰撞深成岩浆活动不但在准噶尔分布广泛,而且在准噶尔北邻的阿尔泰造山带和南邻的天山造山带中均有出现,具有广泛的区域性。 相似文献
20.
G. B. Fershtater 《Mineralogy and Petrology》2013,107(1):39-52
The 2000 km Uralian Paleozoic orogen is situated on the western flank of the Uralo-Mongolian folded belt. It is characterized by an abundant variety of magmatic rocks and related ore deposits. Uralian Paleozoic magmatism is entirely subduction-related. It is proposed that the Uralian orogen represents a cold mobile belt in which the mantle temperature was 200 to 500 °C cooler than in the adjacent areas; a situation which is similar to the modern West Pacific Triangle Zone including Indonesia, the Philippine Islands, and southern Asia. During the course of the geological evolution of the Uralian orogen, the nature of the magmatism has changed from basic rocks of indisputable mantle origin (460–390 Ma) to mantle-crust gabbro-granitic complexes (370–315 Ma) followed by pure crustal granite magmatism (290–250 Ma). This order in rock type and age reflects the evolution of Paleozoic magmatic complexes from the beginning of subduction to the final stages of the orogen development. 相似文献