Continental growth and reworking on the edge of the Columbia and Rodinia supercontinents; 1.86–0.9 Ga accretionary orogeny in southwest Fennoscandia     

Nick M.W. Roberts  Trond Slagstad 《International Geology Review》2015,57(11-12):1582-1606

Geological history from the late Palaeoproterozoic to early Neoproterozoic is dominated by the formation of the supercontinent Columbia, and its break-up and re-amalgamation into the next supercontinent, Rodinia. On a global scale, major orogenic events have been tied to the formation of either of these supercontinents, and records of extension are commonly linked to break-up events. Presented here is a synopsis of the geological evolution of southwest Fennoscandia during the ca. 1.9–0.9 Ga period. This region records a protracted history of continental growth and reworking in a long-lived accretionary orogen. Three major periods of continental growth are defined by the Transscandinavian Igneous Belt (1.86–1.66 Ga), Gothian (1.66–1.52 Ga), and Telemarkian (1.52–1.48 Ga) domains. The 1.47–1.38 Ga Hallandian–Danopolonian period featured reorganization of the subduction zone and over-riding plates, with limited evidence for continental collision. During the subsequent 1.38–1.15 Ga interval, the region is interpreted as being located inboard of a convergent margin that is not preserved today and hosted magmatism and sedimentation related to inboard extensional events. The 1.15–0.9 Ga period is host to Sveconorwegian orogenesis that marks the end of this long-lived accretionary orogen and features significant crustal deformation, metamorphism, and magmatism. Collision of an indenter, typically Amazonia, is commonly inferred for the cause of widespread Sveconorwegian orogenesis, but this remains inconclusive. An alternative is that orogenesis merely represents subduction, terrane accretion, crustal thickening, and burial and exhumation of continental crust, along an accretionary margin. During the Mesoproterozoic, southwest Fennoscandia was part of a much larger accretionary orogen that grew on the edge of the Columbia supercontinent and included Laurentia and Amazonia amongst other cratons. The chain of convergent margins along the western Pacific is the best analogue for this setting of Proterozoic crustal growth and tectonism.  相似文献   

Linking deformation, migmatite formation and zircon U–Pb geochronology in polymetamorphic orthogneisses, Sveconorwegian Province, Sweden     

C. MÖLLER  J. ANDERSSON  I. LUNDQVIST  F. HELLSTRÖM 《Journal of Metamorphic Geology》2007,25(7):727-750

Absolute ages of migmatization in the polymetamorphic, parautochthonous basement of the Sveconorwegian Province, Sweden, have been determined using U–Pb ion probe analysis of zircon domains that formed in leucosome of migmatitic orthogneisses. Migmatite zircon was formed by recrystallization whereas dissolution–reprecipitation and neocrystallization were subordinate. The recrystallized migmatite zircon was identified by comparison of zircon in mesosomes and leucosomes. It is backscatter electron‐bright, U‐rich (800–4400 ppm) with low Th/U‐ratios (generally 0.01–0.1), unzoned or ‘oscillatory ghost zoned’, and occurs as up to 100 μm‐thick rims with transitional contacts to cores of protolith zircon. Protolith ages of 1686 ± 12 and 1668 ± 11 Ma were obtained from moderately resorbed, igneous zircon crystals (generally Th/U = 0.5–1.5, U < 300 ppm) in mesosomes; protolith zircon is also present as resorbed cores in the leucosomes. Linkage of folding, synchronous migmatization and formation of recrystallized zircon rims allowed direct dating of south‐vergent folding at 976 ± 7 Ma. At a second locality, similar recrystallized zircon rims in leucosome date pre‐Sveconorwegian migmatization at 1425 ± 7 Ma; an upper age bracket of 1394 ± 12 Ma for two overprinting phases of deformation (upright folding along gently SSW‐plunging axes and stretching in ESE) was set by zircon in a folded metagranitic dyke. Lower age brackets for these events were set at 952 ± 7 and 946 ± 8 Ma by zircon in two crosscutting and undeformed granite–pegmatite dykes. Together with previously published data the present results demonstrate: (i) Tectonometamorphic reworking during the Hallandian orogenesis at 1.44–1.42 Ga, resulting in migmatization and formation of a coarse gneissic layering. (ii) Sveconorwegian continent–continent collision at 0.98–0.96 Ga, involving (a) emplacement of an eclogite unit, (b) regional high‐pressure granulite facies metamorphism, (c) southvergent folding, subhorizontal, east–west stretching and migmatization, all of which caused overprint or transposition of older Mesoproterozoic and Sveconorwegian structures. The Sveconorwegian migmatization and folding took place during or shortly after the emplacement of Sveconorwegian eclogite and is interpreted as a result of north–south shortening, synchronous with east–west extension and unroofing during late stages of the continent–continent collision.  相似文献   

造山带金矿研究现状与存在的问题   总被引：7，自引：1，他引：6  

周军  祁世军 《地球科学与环境学报》2004,26(2):16-23

造山带金矿是当前矿床学和大地构造学研究热点,Groves等(1998)、Goldfarb等(2001)基于太古"地壳连续模式"(Groves,1993)的研究工作以涉及资料量大、应用成果新、考虑地质因素多而居于这一领域前沿.但是,目前众多研究对前寒武地质与显生宙地质的宏观差异、世界金矿一些总体规律及若干具体大地构造背景等尚认识不足.显生宙缺乏太古代大规模火成活动,已知金矿中很少同变质深成型(hypozonal),以浅变质岩为围岩的金矿区中没有相当的中-深变质岩为围岩的金矿."太古绿岩带"金矿区同样也缺乏浅变质岩为围岩的金矿.华北地块周边金矿主要形成在侏罗-白垩纪,明显晚于大兴安岭造山带和秦岭-大别山造山带,而与欧亚陆缘近南北向燕山期岩浆弧有关.距俯冲带较远、缺乏蛇绿混杂岩与大规模变质作用、发育大量中-新生代盆地及广泛地壳减薄等表明,中国东部与北美科迪勒拉(Cordillera)造山带晚中生代地质存在宏观差异,燕山期岩浆弧可能形成于一个以伸展为主导的环境,大量以花岗岩为围岩或相对太古变质围岩后生成因金矿及其成矿的大地构造背景值得深入研究,弄清各类显生宙金矿与造山带的关系是推进造山带金矿研究的关键.  相似文献   

湘鄂西中生代弧形叠加扩展的变形记录     

唐永  胡望水  朱美衡  宋换新  孟江辉  唐文军  王鹏万 《地质学报》2022,96(4):1197-1214

通过对湘鄂西构造带进行大量的构造形迹测量、解析,结合研究区内构造变形年龄数据的统计分析.明确燕山中期(J3—K1)早期弧形构造弧顶方向为330°,并向两侧发散状分布,以大别山、黔中、黄陵隆起为约束点,湘鄂西形成了由南东侧至北东侧构造迹线由NE→NEE→EW→NWW逐渐偏转的弧形构造,最大主应力方向偏转近114°.同时早...  相似文献   

内蒙古苏尼特左旗乌兰德勒钼铜多金属矿床辉钼矿铼-锇同位素定年及其地质特征   总被引：14，自引：0，他引：14  

陶继雄  王弢  陈郑辉  罗忠泽  许立权  郝先义  崔来旺 《岩矿测试》2009,28(3):249-253

中蒙边境内蒙古苏尼特左旗乌兰德勒钼铜多金属矿床是内蒙古二连—东乌旗成矿带上近几年国土资源地质大调查工作过程中新发现的一个规模较大的矿床,包括赋存于上部细粒石英闪长岩、中粗粒花岗闪长岩中细脉浸染状矿体和赋存于隐伏的细粒二长花岗岩中的浸染状矿体,属典型的斑岩型钼矿床。文章通过采集WZK1钻孔211.2～214m细脉浸染状矿石的辉钼矿纯样,获得辉钼矿的等时线年龄为(134.1±3.3)Ma,并对比了矿区细粒二长花岗岩的锆石SHRIMP年龄(131.4±1.6)Ma,两者基本一致,表明矿床的形成主要与隐伏的燕山期细粒二长花岗岩有着密切关系。测定的辉钼矿铼-锇同位素年龄能够精确代表该矿床的成矿时间,表明在乌兰德勒区域找矿工作中,需要密切关注燕山期构造-岩浆活动的相关成矿作用。  相似文献   

腾冲地区与燕山期花岗岩有关的矿床成矿系列          下载免费PDF全文

施玉北  曾妍  李蓉  程胜辉 《沉积与特提斯地质》2022,42(1):75-87

腾冲地区岩浆-热液成矿作用形成了东、中、西三个矿带,以及滇滩-大硐厂-红岩头铅锌锡铁硅灰石矿、铁窑山-小龙河锡钨铁铅锌矿两个重要矿集区.本文以前人研究资料为基础,按矿床成矿系列理论研究方法,厘定了该地区与燕山期花岗岩有关的矿床成矿系列及亚系列,系统总结了该地区与燕山期花岗岩有关的矿产资源时空分布规律,研究结果表明燕山期...  相似文献   

Growth and provenance of a Paleozoic subduction complex in the Broken River Province,Mossman Orogen: evidence from detrital zircon ages     

R. A. Henderson  C. L. Fergusson 《Australian Journal of Earth Sciences》2019,66(5):607-624

A Paleozoic subduction complex dominates the Mossman Orogen developed at the northern extremity of the Tasmanides, eastern Australia. Its southern part, displayed in the Broken River Province, is characterised by dismembered ocean-plate stratigraphy in which turbidite-dominated packages and widespread tectonic mélange development are characteristic. The Broken River complex is characterised by formations with quartzose sandstone alternating with those largely formed of sandstone of more labile character. The two compositional groups are considered to reflect separate, age-significant sedimentary regimes, but their ages have hitherto been poorly constrained. With the use of 1082 concordant detrital zircon ages from 13 samples we provide age control for the complex and track its sedimentary provenance. Of quartzose units, the Tribute Hills Arenite and Pelican Range Formation are late Cambrian–Early Ordovician, and the Wairuna Formation is Middle to Late Ordovician, in age. The more labile units (Greenvale, Perry Creek and Kangaroo Hills formations) are collectively of late Silurian–mid-Devonian age. Development of the complex spanned some 130 Myr. Continent-derived sediment involved in accretion of much the complex, from mid-Ordovician to mid-Devonian, was largely sourced from a nearby magmatic arc of late Cambrian–Devonian age, now represented by granitoid plutons of the Macrossan and Pama igneous associations. An older far-field Pacific-Gondwana sediment source is characteristic of early-phase (late Cambrian–Early Ordovician) accretion, in common with sedimentary units of this age generally developed in the Tasmanides. We consider the complex to have grown largely by underplating that positioned younger components beneath those that are older, with out-of-sequence thrust interleaving of these components occurring late in the accretionary history. A Late Devonian contractional folding and cleavage development (Tabberabberan orogenesis) is uniformly expressed across the entire complex and reflects an abrupt change in plate engagement with imposition of a compressional stress regime.  相似文献   

济阳坳陷义和庄凸起东部燕山期构造负反转及层序地层样式响应          下载免费PDF全文

宋广增  徐蒙  李磊  孙迪  刘辉 《地球科学》2019,44(2):489-503

通过钻井、测井与地震数据,依据不整合面分析、断层活动速率分析与地层的"负向结构"分析,在义和庄凸起东部燕山期内识别出一期发生于中晚侏罗世之交的构造负反转,并据此将义和庄凸起燕山期划分为早期与晚期两个阶段.通过单井与连井层序地层分析,分别建立了燕山早期与晚期的层序地层样式,两者在层序结构及内部沉积充填等方面表现出巨大差异.早期层序地层不具有显著的沉积厚度分异,且格架内部充填河流相沉积;晚期因构造负反转而形成小型拉张断陷盆地,沉积厚度分异明显,内部以扇三角洲沉积充填为主,呈现出对构造负反转的显著响应.燕山期构造-层序地层学的研究可为中国东部其他具有相似构造背景盆地前新生代的油气勘探提供借鉴.  相似文献   

Post‐orogenic sediment drape in the Northern Pyrenees explained using a box model     

Thomas Bernard  Hugh D. Sinclair  Mark Naylor  Frdric Christophoul  Mary Ford 《Basin Research》2021,33(1):118-137

The transition to a post‐orogenic state in mountain ranges has been identified by a change from active subsidence to isostatic rebound of the foreland basin. However, the nature of the interplay between isostatic rebound and sediment supply, and their impact on the topographic evolution of a range and foreland basin during this transition, has not been fully investigated. Here, we use a box model to explore the syn‐ to post‐orogenic evolution of foreland basin/thrust wedge systems. Using a set of parameter values that approximate the northern Pyrenees and the neighbouring Aquitaine foreland basin, we evaluate the controls on sediment drape over the frontal parts of the retro‐wedge following cessation of crustal thickening. Conglomerates preserved at approximately 600‐m elevation, which is ~ 300 m above the present mountain front in the northern Pyrenees are ca. 12 Ma, approximately 10 Myrs younger than the last evidence of crustal thickening in the wedge. Using the model, this post‐orogenic sediment drape is explained by the combination of a sustained, high sediment influx from the range into the basin relative to the efflux out of the basin, combined with cessation of the generation of accommodation space through basin subsidence. Post‐orogenic sediment drape is considered a generic process that is likely to be responsible for elevated low‐gradient surfaces and preserved remnants of continental sedimentation draping the outer margins of the northern Pyrenean thrust wedge.  相似文献   

湖南省主要内生成矿事件的构造格局控矿特征及动力机制     

柏道远  李彬  姜文  李银敏  蒋启生 《地球科学与环境学报》2020,(1):49-70

湖南省内生矿产资源丰富,内生成矿事件主要有加里东期(以志留纪为主)、印支晚期(晚三叠世)、燕山中晚期(晚侏罗世-早白垩世)等3期。以区域矿产资料为基础,结合大地构造、成岩成矿年龄、矿床成因机制等研究成果,对上述3期内生成矿事件的构造格局控矿特征和动力机制进行探讨。①受加里东运动自东南向西北扩展以及深部岩石圈结构差异控制,加里东期湖南省自东南往西北分为成矿特征有别的3个构造带。湘中-湘东南构造岩浆带(Ⅰ)发生后碰撞花岗质岩浆活动,于局部产生与岩浆活动相关的W、萤石等成矿作用;雪峰构造带(Ⅱ)东部的雪峰冲断带(Ⅱ1)形成了以构造活化成因为主的金矿和锑金矿;雪峰构造带(Ⅱ)西部的武陵低缓褶皱带(Ⅱ2)及湘西北构造抬升带(Ⅲ)内形成了与寒武纪同沉积断裂活动、加里东运动后的伸展活动以及相应的热液活动有关的汞铅锌矿。②印支晚期受深部岩石圈结构差异控制,湖南省自东南至西北分为3个构造带:湘中-湘东南构造岩浆带(Ⅰ)因后碰撞减压熔融而发生大规模花岗质岩浆活动,从而于其东南部形成钨锡铅锌多金属矿床,西北部形成锑金钨多金属矿床;雪峰构造带(Ⅱ)可能无内生热液成矿作用;湘西北褶皱带(Ⅲ)发育小型脉型铅锌矿。③燕山中晚期,湖南省自东南往西北分为3个构造带:湘中-湘东构造岩浆带(Ⅰ)受岩石圈拆沉、软流圈上隆、陆内碰撞后期增温减压、俯冲板块崩塌等深部构造作用控制而发生大规模花岗质岩浆活动,形成了大量的有色金属矿床和金矿床;雪峰西部构造带(Ⅱ)成矿作用弱,局部存在Au、Hg成矿作用;湘西北褶皱带(Ⅲ)发育少量低温热液充填型萤石矿和砷矿。  相似文献