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1.
K. E. Degtyarev T. Yu. Tolmacheva A. A. Tretyakov N. B. Kuznetsov E. A. Belousova T. V. Romanyuk 《Stratigraphy and Geological Correlation》2018,26(5):514-533
This work presents the data on the structure, geochronology, and formation settings of the Ordovician sedimentary and volcanogenic-sedimentary complexes of the Sterlitamak, Mariev, and Imanburluk structural and formational zones located in the western and northwestern frames of the Kokchetav massif (Northern Kazakhstan). In addition, the results of detailed stratigraphic, geochemical, and geochronological studies of the reference section of the Ordovician deposits of the Mariev Zone are given. The studied section is composed of carbonate, terrigenous, and less commonly volcanogenic-sedimentary deposits, confined to a wide stratigraphic interval from Tremadocian Stage of the Lower Ordovician to the lower Sandbian Stage of the Upper Ordovician. For the first time, the study of conodont assemblages made it possible to establish the Early to Middle Ordovician age of the most ancient limestone–dolomite sequence, which was previously conventionally attributed to the Cambrian. The above-lying tuffaceous–terrigenous Kupriyanovka Formation is now attributed to the Middle Ordovician. On the basis of compositional features of the lithoclastic tuffs composing the middle part of the formation, we assume that it was formed within the island arc zone. Limestones from the base of the youngest terrigenous–carbonate Kreshchenovka Formation are attributed to the lower part of the Sandbian Stage of the Upper Ordovician. The study of the geochronology of detrital zircons from terrigenous rocks of the limestone–dolomite sequence has shown that the Early Neoproterozoic quartzite–schist sequences of the Kokchetav massif were the most probable provenance area during its deposition. It was established that there was the change of sedimentation environments from closed lagoons to a relatively deep sea basin with normal salinity and intense circulation of water masses in the northwestern frame of the Kokchetav massif during the Ordovician. During this period of time, there was a sufficiently high level of erosion of provenance areas that resulted in the deposition of thick strata of terrigenous material. A general tendency of the deepening of sedimentation environments from the Early to Late Ordovician was interrupted by sea level rises in the Dapingian and early Darriwilian ages. 相似文献
2.
N. V. Tsukanov T. N. Palechek A. V. Soloviev D. P. Savelyev 《Russian Journal of Pacific Geology》2014,8(4):233-246
The eastern peninsulas of Kamchatka are mostly composed of tectonostratigraphic complexes, which were formed within the Late Cretaceous-Eocene Kronotskii-Kamchatka arc. The accretion of this paleoarc to the Kamchatka margin of northeastern Asia in the terminal Cenozoic represented the last collisional event in the formation of the present-day structure of Kamchatka. The article presents new data on the age, composition, and structure of the tectonostratigraphic complexes constituting the southern segment of the Kronotskii-Kamchatka paleoarc. It is shown that the oldest rocks of these complexes are the Campanian in age and represented by volcano-sedimentary rocks that were formed in different geodynamic environments. The investigated igneous rocks are attributed to two types: (1) the tholeiite series of a mid-oceanic ridge (MOR) (Vetlovaya Complex); (2) tholeiite and calc-alkaline series of island arcs (Shipunskii Sequence of the Kronotskii Group). 相似文献
3.
Major and trace elements of lavas, dykes and plutonic rocks of the late Proterozoic orogenic sequence in SE Sinai, the Kid Group, have been analysed. The dykes and lavas of the southermost sequences, the Tarr Complex and Heib Formation, are calc-alkaline, whereas the lavas of the Malhak Formation and the Sharira Gabbro (to the north of the Heib Formation) show both calc-alkaline and tholeiitic trends. The trace element characteristics of the Tarr Complex and the Heib and Malhak Formations, despite between-sequence variations, are all comparable with ensialic island arc magmatism, whereas the Sharira Gabbro shows some MORB characteristics in addition to the island arc imprints. The Sharira Gabbro and the lavas of the Malhak Formation possibly formed in a developing back-arc basin behind a continental-marginal ensialic island arc (the Tarr Complex and Heib Formation). During the Pan-African orogeny, the constituent units of the Kid Group were mutually juxtaposed along major ductile shear zones of thrust-fault character. This plate-convergence regime involved initial magmatic arc development following northward subduction, and subsequent collision between the arc complex and the Proterozoic continental margin. 相似文献
4.
青藏高原南部广泛发育的林子宗火山岩蕴涵着新特提斯洋俯冲与印度—亚洲大陆碰撞过程的地质信息。为探讨冈底斯中段格达地区典中组火山岩的形成时代、岩浆源区及构造环境等特征,对其开展了LA-ICP-MS锆石U-Pb同位素测年和地球化学特征研究。研究结果表明: 该地区典中组火山岩锆石U-Pb年龄为(61.6±1.0) Ma; 典中组火山岩相对富集LILE和LREE、亏损HFSE,具典型岛弧火山岩的特征; 岩浆源区主要来源于地壳物质部分熔融,是俯冲岛弧构造环境下新特提斯洋北向俯冲消减过程的产物。 相似文献
5.
南天山北部上志留统巴音布鲁克组火山岩系以中-基性喷出岩为主,并有辉长岩侵入,岩层中爆发相火山碎屑岩极为发育。各火山-侵入杂岩的Zr/Nb=26~47,平均为37,Hf/Ta=11.9~19.9,平均为14.8,暗示其源区与N-MORB相类似,为亏损地幔源。(La/Yb)N值为2.92~5.21、Nb/La比值为0.22~0.33,平均为0.29,显示出LREE和LILE强烈富集,HFSE相对亏损,尤其出现明显的Ta、Nb负异常,具有岛弧岩浆岩的地球化学特征,应形成于岛弧环境。该套火山-侵入岩与中天山南缘蛇绿混杂岩带紧邻,地层时代也与古生代南天山洋的俯冲-消减时代相当,它很有可能是南天山洋盆于晚志留世时发生的洋内俯冲-消减所引发的岛弧火山-岩浆作用的地质记录。 相似文献
6.
中国东部中生代发生的大规模岩浆活动是地学界长期以来关注的课题之一。本文通过对浙东地区晚中生代火山岩锆石U-Pb年代学、主量、稀土及微量元素地球化学的研究,讨论其岩石成因及形成的构造环境。研究表明,大爽组底部火山岩年龄为155.2±1.4 Ma(MSWD=0.83),显示浙东地区晚中生代火山岩的形成时代并不限于白垩纪,火山喷发至少于晚侏罗世就已经开始;岩石总体属高钾钙碱性系列,少量属钾玄岩系列;基性岩石、中性岩石与中酸性(酸性)岩之间不具有同源演化关系,基性岩石来源于富集地幔,并受到了不同程度的地壳混染,中性岩石可能来源于先存于下地壳深部的新元古代岛弧岩石,中酸性(酸性)岩石来源于地壳,中酸性岩浆与酸性岩浆之间存在演化关系;岩石总体形成于地壳幕式减薄环境,而其弧岩浆岩特征主要反映源岩属性。 相似文献
7.
V. P. Simanenko S. V. Rasskazov T. A. Yasnygina L. F. Simanenko A. A. Chashchin 《Russian Journal of Pacific Geology》2011,5(1):26-46
The variations of petrogenic oxides and trace elements have been studied in the Cretaceous volcanic rocks recovered by a deep
borehole from the depth interval of 1253–4011 m on Moneron Island. The volcanic section is subdivided into two complexes:
the Early Cretaceous and Late Cretaceous. The rocks of the Early Cretaceous Complex occur below 1500 m. Chemically, they belong
to low-potassium island arc tholeiites, and their trace element distribution suggests their formation in a suprasubduction
mantle wedge under the influence of water fluids that were subsequently released from subducted sediments and oceanic plate
during the dehydration of subducted sedimentary rocks and oceanic basalts and, finally, mainly from basalts. The Early Cretaceous
basalts from the borehole are interpreted as ascribing to the frontal part of the Moneron-Samarga island arc system. The volcanic
rocks of the Late Cretaceous Complex are situated at depths above 1500 m. They also were formed in a suprasubduction setting,
but already within the East Sikhote-Alin continental-margin volcanic belt that was initiated after the accretion of the Moneron-Samarga
island arc system to the Asian continent. The island-arc section of the Moneron borehole contains basaltic andesite dikes,
which are geochemically comparable with the Early-Middle Miocene volcanic rocks of Southwestern Sakhalin. 相似文献
8.
式可布台铁矿位于西天山阿吾拉勒铁矿成矿带西段,是此矿带极具代表性的铁矿床。主要赋存于以凝灰岩为主的石炭系上统伊什基里克组火山岩中。本文通过对式可布台矿区的火山岩进行岩石地球化学和LA-ICPMS锆石U-Pb测年分析来探讨火山岩形成的构造环境与成岩时代。地球化学分析表明大多数火山岩样品显示为高钾钙碱性系列;主量元素表明矿区火山岩主要由安山岩、英安岩、流纹英安岩组成,为钙碱性系列;微量元素和稀土元素表明矿区火山岩产出的构造环境为火山岛弧;LA-ICPMS锆石U-Pb测年显示火山岩的206Pb/238U加权平均年龄分别为(301±1)Ma和(313±2)Ma,表明该区的火山岩为晚石炭世早期。结合区域地质资料,认为矿区内出露的高钾钙碱性系列火山岩可能属于俯冲过程末期大陆岛弧岩浆作用的产物,其岩石的形成与构造岛弧环境有关,主体与下石炭统大哈拉军山组火山岩岩石化学特征相似。 相似文献
9.
New data on the structure and composition of the rock complexes making up the Otrozhnaya sheet of the Ust-Belaya Terrane are discussed. This sheet is currently regarded as a complete section of the Early Devonian oceanic crust. The U-Pb age of zircon (547 ± 17 Ma) from plagiogranite porphyry that cuts through the ultramafic-gabbroic complex indicates that the country rocks are much older. Basalts of volcanic complex are similar to MORB-type rocks. The contact between volcanic and volcano-sedimentary complexes is tectonic. No volcanic-cherty association of rocks typical of ophiolites has been established at the base of the sedimentary sequence. The U-Pb age of detrital zircons from the base of this section is 571 Ma. As follows from the composition of terrigenous rocks and the suprasubduction origin of andesitic lavas and tuffs, the rocks of the lower part of volcano-sedimentary complex were deposited at the marginal part of the basin near convergent boundary. The remains of conodont elements make it possible to estimate the age of the upper part of the volcano-sedimentary complex as Late Devonian. The composition of terrigenous rocks shows that the provenance has abruptly changed. Sporadic rock fragments evidence the erosion of ophiolitic sections. Silurian rocks became the main source of clastic material. This is corroborated by redeposited microfauna species and U-Pb age of detrital zircons (~432 Ma). The geochemistry of dacite pebbles from conglomerate indicates that this volcanic rock was formed in a suprasuduction setting. The Ordovician-Silurian island arc could have been a source. 相似文献
10.
温都尔庙群锆石的LA-MC-ICPMS U-Pb年龄及构造意义 总被引:11,自引:5,他引:6
温都尔庙群分布在内蒙古中部地区,分下部桑达来呼都格组和上部哈尔哈达组,通常被认为属于蛇绿岩套组合,形成时代也一直存在争论。详细的野外调查表明,温都尔庙群不完全是蛇绿岩组合,还发育洋内弧的玄武岩-玄武安山岩-安山岩组合。所以,温都尔庙群为一套包含大洋洋壳、洋内弧等不同时代和成因的增生杂岩。对温都尔庙群洋内弧变质安山岩及变质碎屑岩进行锆石LA-MC-ICPMS法U-Pb同位素测年表明:桑达来呼都格组上部洋内弧变质安山岩年龄为470±2Ma。哈尔哈达组两个样品(10NM142、10NM143)的碎屑锆石年龄主要集中在445~480Ma范围内,其中10NM143样品中最年轻谐和年龄多在424~438Ma之间,表明至少有一部分地层形成于中志留世。考虑温都尔庙群蛇绿岩形成时代(497~477Ma)、高压变质时代(446±15Ma~453±1.8Ma)及晚志留世西别河组不整合覆盖其上的事实,桑达来呼都格组可能形成于寒武纪-晚奥陶世,哈尔哈达组形成于晚奥陶世-中志留世。因此,温都尔庙群是形成于寒武纪-中志留世的变质增生杂岩。 相似文献
11.
新疆东准噶尔喀姆斯特晚古生代沉积记录:物源和沉积作用研究 总被引:4,自引:0,他引:4
东准噶尔喀姆斯特下泥盆统阿拉比也巴斯他乌组和下石炭统卡姆斯特组代表陆壳增生不同阶段的沉积响应.碎屑岩碎屑组成模式和地球化学分析结果表明阿拉比也巴斯他乌组形成于大洋-活动大陆过渡型构造环境,物源区主要为发育在过渡型地壳之上的岩浆岛弧;卡姆斯特组形成于活动大陆型构造环境,物源区主要为大陆岛弧环境的切割岩浆弧.沉积相、相组合及生物生态等沉积特征显示两组的沉积环境分别为海底斜坡和海底扇中扇-外扇盆地平原.结合区域构造分析和地层对比研究,下泥盆统阿拉比也巴斯他乌组海底斜坡沉积是东准噶尔构造带早泥盆世弧后盆地沉积响应的主要记录,卡姆斯特组海底扇-海底平原沉积则主要记录了东准噶尔复合地体早石炭世晚期弧间残余海盆的沉积响应.两套沉积响应记录的环境演化受控于中亚型造山带复杂的造山作用. 相似文献
12.
I. E. Arkhireev E. P. Makagonov B. V. Belyatskii V. V. Maslennikov 《Doklady Earth Sciences》2012,442(1):70-75
Through local U-Pb isotope analysis of zircon and Sir-Need data on rock-forming minerals, the age of nephrite-bearing monzonite-diorite
dikes of the Uzunkyr Belt has been determined. The derived datings coincide with known geological events that took place in
the Phanerozoic on the territory of the South Urals. Xenogenic zircons prove the participation of the Upper Ordovician units
in the tectonic structure of the studied area. Devonian zircons are associated with assimilation of subvolcanic rocks which
are middle and basic in composition and whose formation time correlates with the appearance of the subduction zone with the
Magnitogorsk island arc above it. Early Carboniferous datings indicate the relationship between dike formation and formation
of the continental arc-shaped structure to which the Syrostan massif (monzodiorite-granite formation) belongs. The age range
of the Uzunkyr nephrite-bearing dikes coincides with that of intrusives (350–336 Ma) of the Magnitogorsk Belt, where formation
of gabbro series was also changed by formation of subalkali and alkali igneous rocks. According to the analogous data on zircon
datings from metamorphic rocks of the Il’menogorskii Complex, the given territory later evolved as a whole. 相似文献
13.
14.
前人关于南澜沧江构造带团梁子岩组的时代和构造属性有不同的认识.对景谷地区的团梁子岩组的物质组成、锆石年代学和地球化学进行了系统研究.团梁子岩组是一套强变形、弱变质的构造地层,主要由深海洋盆泥质岩和近岛弧碎屑岩构成,夹杂有洋中脊型玄武岩、硅质岩等岩块.2件变沉积岩样品的锆石U-Pb年龄结果显示其原岩时代分别不早于272±2 Ma和259±1 Ma.侵入团梁子岩组的安山玢岩锆石U-Pb年龄为244±1 Ma.团梁子岩组的变玄武岩岩块属于低钾拉斑玄武岩系列,具有典型的N-MORB地球化学特征.综合团梁子岩组的岩石组合特征和原岩性质,认为其很可能是一套晚古生代俯冲增生杂岩.团梁子岩组和南澜沧江构造带内其他洋盆相残余物质指示南澜沧江构造带是一条古特提斯结合带,代表存在于晚古生代的弧后小洋盆,而非宽阔的大洋. 相似文献
15.
T.V. Donskaya D.P. Gladkochub A.M. Mazukabzov B. De Waele S.L. Presnyakov 《Russian Geology and Geophysics》2012,53(1):22-36
The Kataev volcanoplutonic association has been recognized in western Transbaikalia. It unites the volcanosedimentary rocks of the Kataev Formation and associated granites localized within the lower plates of the Buteel-Nuur and Zagan metamorphic-core complexes. The rocks of the Kataev association are dynamometamorphosed to different degrees, which is due to the tectonic exposure of metamorphic-core complexes in the Early Cretaceous. The U-Pb zircon dating of the Kataev Formation rhyolites yielded an age of 226 ± 3 Ma. The U-Pb zircon age of the granites intruding the Kataev Formation rocks is 223.4 ± 5.0 Ma. The volcanics of the Kataev Formation belong to the subalkalic basalt-andesite-dacite-rhyolite series. The trachybasalts and trachyandesite-basalts of the Kataev Formation have geochemical characteristics of igneous rocks formed as a result of subduction, e.g., they show distinct negative Nb and Ti and positive Ba and Sr anomalies on multielemental patterns. The specific composition of mafic volcanics points to their formation through the melting of a mantle source resulted from the mixing of depleted mantle and subduction components. Trachyandesites have higher Th and U contents than basaltoids. They can result from the contamination of a mantle source, similar in composition to the Kataev Formation basaltoids, with crustal material. The felsic volcanics of the Kataev Formation and granites intruding them show nearly identical geochemical characteristics corresponding to both A-and I-type granites. These rocks might have formed through the melting of a moderately water-saturated magmatic source of diorite-tonalite composition at 742–833°C. We have established that the rocks of the Kataev volcanoplutonic association in western Transbaikalia and Northern Mongolia formed in the Late Triassic synchronously with the calc-alkaline granitoids of the Henteyn–Daurian batholith and the alkali granites and bimodal volcanic associations of the Kharitonovo and Tsagaan-Hurtey volcanoplutonic associations. The synchronous formation of volcanoplutonic associations of normal and high alkalinity agrees with the geodynamic setting of the Andean-type active continental margin existing in the area of present-day western Transbaikalia and Northern Mongolia in the Early Mesozoic. This setting was the result of the subduction of the Mongol-Okhotsk oceanic plate beneath the Siberian continent. 相似文献
16.
以东准噶尔双井子地区巴塔玛依内山组和石钱滩组剖面为研究对象,通过岩矿鉴定、地球化学分析、锆石U-Pb定年和牙形刺挑选等方法,对巴塔玛依内山组和石钱滩组的年代学特征进行了研究。结果表明,巴塔玛依内山组火山岩的形成时间始于348. 7±2. 9Ma,318. 7±4. 2Ma之后结束,侵入岩的形成时间为255. 9±3. 5Ma,这些样品中普遍含有捕获锆石,这些锆石具有岩浆锆石的特征,年龄介于早石炭世杜内期和前寒武纪之间(354. 7~971. 2Ma),与盆地周边发育的岛弧火成岩和蛇绿岩年龄相仿,此外在石钱滩组灰岩内得到4颗牙形刺化石,分属于2个属,分别为Idiognathodus和Streptognathodus。以此为基础,通过搜集整理前人数据,得到如下结论:(1)巴塔玛依内山组火山岩地层是穿时的,从早石炭世到晚石炭世连续发育,形成时间介于348. 7±2. 9Ma~300. 4±1. 3Ma之间;(2)巴塔玛依内山组上部的石钱滩组形成于318. 7±4. 2Ma之后的晚石炭世;(3)卡拉麦里蛇绿岩所代表的准噶尔洋盆闭合时间在晚泥盆世法门期和348. 7Ma之间;(4)准噶尔盆地基底可能由岛弧和洋壳组成,且存在前寒武纪基底。本研究旨在确定巴塔玛依内山组和石钱滩组地层时代,并为卡拉麦里洋闭合时限以及盆地基底性质等问题的解决提供依据。 相似文献
17.
T.V. Donskaya A.M. Mazukabzov E.V. Bibikova D.P. Gladkochub A.N. Didenko T.I. Kirnozova V.Yu. Vodovozov A.M. Stanevich 《Russian Geology and Geophysics》2007,48(9):707-710
With U-Pb zircon dating, we determined the age of rhyodacites composing sedimentary covers among coarse-terrigenous rocks of the lowermost Chaya Formation of the Akitkan Group (North Baikal volcanoplutonic belt). These rocks are considered to have formed during the sedimentation. The dates (1863±9 Ma) permitted estimation of the age of basal beds of the Chaya Formation and substantiate the age boundary between the Khibelen and Chaya Formations of the Akitkan Group. The determined age and earlier dates of igneous rocks intruding the Chaya Formation deposits suggest that the latter accumulated for 10 Myr. 相似文献
18.
新疆南天山奥图拉托格拉克一带前震旦系基底地质特征 总被引:5,自引:1,他引:4
1994年在新疆南天山地区奥图拉托格拉克一带 ,首次发现了晚太古代、元古宙结晶基底。晚太古代变质岩主要由变质深成岩组成 ,表壳岩组合为沙窝大沟岩组 ,岩性为一套变质火山—沉积岩。阜平期变侵入岩为巴什托格拉克片麻杂岩 ,为一套无序的 TTG岩系。五台期变侵入岩为沙窝布拉克片麻岩套。为一套基本有序的变侵入岩系列 ,包括 TTG和二长花岗岩两个岩系。三者组成太古宙古陆核。下元古界奥图拉托格拉克岩群为一套无序变质火山—沉积岩系 ,具有古老沟弧盆体系特征 ,阿牙克托格拉克岩组原岩为古蛇绿岩组合 ,具洋脊玄武岩特征 ;克孜拉格岩组原岩为杂砂岩 ,属盆地沉积 ;卡拉格兹岩组原岩为岛弧火山岩。长城系乱滩布拉克组由一套变火山岩、火山碎屑岩组成 ,属岛弧或活动陆缘沉积 ;卫东庄组为一变质碎屑岩建造 ,具弧盆碎屑岩沉积特征。长城纪末侵入了多岛滩超单元花岗岩 相似文献
19.
I.V. Gordienko A.N. Bulgatov S.V. Ruzhentsev O.R. Minina V.S. Klimuk L.I. Vetluzhskikh G.E. Nekrasov N.I. Lastochkin V.S. Sitnikova D.V. Metelkin T.A. Goneger E.N. Lepekhina 《Russian Geology and Geophysics》2010,51(5):461-481
New structural, petrological, chemical, isotope, and paleomagnetic data have provided clues to the Late Riphean–Paleozoic history of the Uda–Vitim island arc system (UVIAS) in the Transbaikalian sector of the Paleoasian ocean, as part of the Transbaikalian zone of Paleozoids. The island arc system consists of three units corresponding to main evolution stages: (i) Upper Riphean (Late Baikalian), (ii) Vendian–Lower Paleozoic (Caledonian), and (iii) Middle–Upper Paleozoic (Hercynian). The earliest stage produced the base of the system composed of Late Riphean ophiolite (971–892 Ma, U-Pb) and volcanic (837–789 Ma, U-Pb) and sedimentary rocks (hemipelagic siliceous sediments and dolerite sills) which represent the Barguzin–Vitim oceanic basin and the Kelyana island arc. The main event of the second stage was the formation of the large UVIAS structure (over 150,000 km2) which comprised the Transbaikalian oceanic basin, the forearc and backarc basins, and the volcanic arc itself, and consisted of many volcanic-tectonic units exceeding 100 km2 in area (Eravna, Oldynda, Abaga, etc.). Lithology, stratigraphy, major–element compositions, and isotope ages of Vendian–Cambrian volcanic rocks and associated sediments indicate strong differentiation of calc-alkaline series and the origin of the island arc system upon oceanic crust, in a setting similar to that of the today’s Kuriles–Kamchatka island arc system. The Middle–Upper Paleozoic stage completed the long UVIAS history and left its imprint in sedimentary and volcanic rocks in superposed trough basins. The rocks were studied in terms of their biostratigraphic and isotope age constraints, as well as major- and trace-element compositions, and were interpreted as products of weathering and tectonic-magmatic rework of the UVIAS units. 相似文献
20.
Sh. K. Baltybaev O. A. Levchenkov L. K. Levsky O. Eklund T. Kilpeläinen 《Petrology》2006,14(3):247-261
The Ladoga, Russia, and adjacent Sulkava, southeastern Finland, metamorphic complexes are the two largest “granulite” provinces of the Svecofennian domain. In this area, the domain is composed of outer and inner zones. Sulkava is situated in the inner zone, which principally can be compared to the accretionary arc complex of Southern Finland. Ladoga is situated in the outer zone, which is correlated with the accretionary arc complexes of central and Western Finland. The complexes contain different metamorphic assemblages, which are caused by the different composition of the sedimentary protoliths: the rocks of the Sulkava metamorphic complex are higher in Al and K than those of the Ladoga Complex. Pb-Pb step leaching dating was used to determine the age of prograde sillimanite from both complexes. The dates thus obtained constrain metamorphic peaks for the Sulkava and Ladoga complexes at 1799 ± 19 Ma and 1878 ± 7 Ma, respectively, which is consistent with the U-Pb monazite ages of gneisses from both of the complexes. The differences in the ages of the metamorphic minerals from these complexes reflect the Early Svecofennian (1.89–1.86 Ga) and Late Svecofennian (1.83–1.79 Ga) metamorphic stages in the Fennoscandian Svecofennides. 相似文献