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1.
吉林省东部地区以图们江构造带为界,其东西两区在生物地层、沉积建造和构造样式等诸方面存在显著的差异。其中石炭、二叠系的差异最为明显,三叠系的差异性明显变小。延边西部及吉林中部地区属于吉中地体,而延边东部地区则属于珲春地体,两者拼合的时间为T1-2,图们江构造带是主拼合带。 相似文献
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在综合分析延边地区地层,构造,岩浆岩演化,古生物及地球物理等特征的基础上,认为延边地区为一有别于相邻地区的移置地体。地体具有由低纬度向高纬度的独特运移特征,推测海西期一印支期与周边地质体拼合。 相似文献
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延边金苍-红光地区金矿成矿条件与成矿规律 总被引:1,自引:0,他引:1
金苍-红光地区为延边东部东西向构造火山岩浆岩带中重要的金矿化集中区段。通过调查研究其中九三沟金矿床发现,矿区成矿岩浆岩条件为次火山岩相石英闪长(玢)岩,其中隐爆角砾岩(筒)及外围裂隙中赋存着金矿(化)体;次火山岩(体)受东西向断裂(带)与南北向断裂交汇部位的火山机构中心控制,成为该地区重要的成矿构造条件。成矿次火山岩体(石英闪长岩)在东西向断裂构造带上,自西向东在与南北向断裂交汇部位具有近等间距分布的规律,并与区域化探金异常空间吻合。 相似文献
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本文通过综合地球物理资料,对上、中、下地壳和岩石圈地幔属性的研究,来分析内蒙古高原岩石圈的三维构造和物质运动。地体拼合属于岩石圈挤压力较小而作用期较长的造陆作用,以内蒙古中部地区为典型代表。此区域现今包括南阿穆尔- 兴安地体西南部和锡林浩特两个元古宙地体,以及形成于太古宙的华北克拉通地体。索伦山- 西拉木伦河断裂是锡林浩特和华北克拉通地体的缝合带。发生在二叠纪的锡林浩特和华北克拉通两个地体的碰撞拼合,造成古亚洲洋南支的封闭,同时也在两个地体之间,形成了索伦山- 西拉木伦缝合带和华北克拉通北缘俯冲带。古亚洲洋封闭后,华北克拉通地体继续向锡林浩特地体下方陆- 岛俯冲,形成了宽度为60~120 km的华北克拉通北缘俯冲带。此俯冲带地层向北倾斜,上地壳变形严重,岩石圈地幔破裂充水。锡林浩特地体在石炭纪处于南阿穆尔- 兴安地体南方古亚洲洋北支俯冲的岛弧带位置,在二叠纪和华北拼合时又处于华南克拉通北方古亚洲洋南支俯冲的岛弧带位置,幔源岩浆侵入频繁。在中生代拼合后又处于地壳转变为拉张的阶段,幔源岩浆侵入作用有增无减。由于幔源岩浆侵入作用时间长久,岩浆化学分异会更加彻底,锡林浩特地体及其周边地区具有良好的成矿潜力。 相似文献
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中国东部大陆主要由华北和华南两个古老地块在早中生代沿秦岭-大别-苏鲁造山带拼合形成,在显生宙特别是晚中生代时,东部大陆特别是华北东部发生显著活化,表现为浅部强烈的构造变形、盆地形成、岩浆活动、巨量成矿和深部岩石圈地幔的改造、减薄和增生作用,从而明显区别于全球其他稳定的克拉通地区。本文梳理了中国东部大陆演化历史和岩石圈地幔特征,认为华北和华南地块均由古老陆块拼合而成,块体初始规模小且内部发育薄弱带;显生宙以来华北、华南甚至整个中国东部都受到周边多个构造域的夹持影响,板片俯冲引起的软流圈上涌和熔流体活动沿大陆内部薄弱带和边缘有效侵蚀、改造上覆大陆岩石圈,使之发生减薄、再富集和置换作用,这种被改造的岩石圈地幔具有饱满的组成(富含玄武质组分)、较高的密度和较低的刚性程度,容易发生构造变形和部分熔融,使原本稳定的克拉通发生活化。因此,块体规模和内部薄弱带(内因)及周边构造环境(外因)是大陆稳定性的重要控制因素,中国东部大陆显生宙活化是这些因素协同作用的结果。 相似文献
6.
《吉林大学学报(地球科学版)》2015,(Z1)
<正>吉林东部延边地区大地构造位置上处于华北板块北缘东段,其北侧为华北板块北缘增生带,南侧为龙岗地块,东侧为太平洋板块,是研究古亚洲洋构造域与古太平洋构造域转换时间的理想区域[1]。对延边地区基性岩浆活动的研究有助于深入探讨华北板块北缘东段地质构造演化特征[2],因此我们对出露于延边和龙地区的沙松顶子基性侵入岩的岩相学、同位素年代学、岩石地球化学特征进行了系统的研究,并在此基础上进一步探讨了基性侵入岩岩石成因、构造背景等。 相似文献
7.
延边地区渤海地块与兴凯地块之间古缝合带的初步研究 总被引:8,自引:0,他引:8
延边地区地处吉林省的东部。研究区南部为渤海地块,北部为兴凯地块,东部与朝鲜和俄罗斯相毗邻,西部与吉中地区以敦化-密山断裂为界。本文着重介绍延边地区渤海地块北缘及兴凯地块南缘的大陆增生历史和这两个古板块之间的古板块缝合带的地质特征。 相似文献
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大别-苏鲁造山带的东延及板块缝合线:郯庐-鸭绿江-延吉断裂的厘定 总被引:9,自引:0,他引:9
根据大别-苏鲁造山带北缘和吉林-黑龙江东部的三叠纪浅变质加积杂岩特征标志,认为大别地区的板块缝合线为信阳-舒城断裂,苏鲁地区的为郯庐-鸭绿江断裂,且苏鲁造山带向北延入东北的吉林-黑龙江东部地区,而华北与扬子板块之间构造缝合线的东延部分则为郯庐-鸭绿江-图们江-延吉断裂。在此基础上,提出了亚洲东部三叠纪以来连续的俯冲-加积模型:(1)三叠纪扬子板块在华北板块向南突出部位(大别-苏鲁一带)发生点碰撞形成超高压变质岩,之后扬子板块由点碰撞逐渐向两侧旋转拼贴形成加积杂岩;(2)侏罗纪-新生代在三叠纪碰撞基础上,太平洋板块向欧亚大陆连续俯冲和加积,进而形成由三叠纪-新生代杂岩组成的欧亚大陆东部地区的巨大加积杂岩带。 相似文献
10.
柴达木盆地南北推覆构造概论 总被引:4,自引:0,他引:4
林茂炳 《成都地质学院学报》1993,20(4):11-17
柴达木盆地南北地区,可以划分出两个巨型推覆构造带,分别称为柴北缘推覆构造带和东昆仑推覆构造带。其间的柴达木盆地形成一个相对的应变减弱区(低应变带)。两大推覆构造带在相同力源作用下统一构成了青海省北部的基本构造格局,成为华北板块的南部边缘带,是华北板块与南华板块碰撞拼合形成的浅部构造变形的产物,也是南北板块拼合的证据。 相似文献
12.
信阳群的解体及其大地构造意义 总被引:26,自引:1,他引:26
通过对原信阳群标准地层剖面的深入研究,查明该岩石—地层单位实属变形十分复杂的构造地层体。古生物资料表明,原信阳群南湾组确属中—晚泥盆世地层;而同位素定年结果则显示,原信阳群龟山组纯系前泥盆纪变质杂岩组成的构造地层体。据此,笔者认为原信阳群应解体。本文着重从岩石、构造分析入手,对新解体出的不同地质体分别就其地层涵义、构造归属作了较系统的论述,并扼要阐明各自发展演化的大地构造意义。 相似文献
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武夷地块中各地体的活动解析是认识华夏板块构造活动演化的窗口.南平宁化构造带作为划分南武夷地体和北武夷地体的重要边界活动带,其构造属性对我们认识武夷地块中南、北武夷地体的构造演化具有重要意义.前人对南平-宁化构造带中变质火山岩类的研究和认识存在争议,限制了我们对南平-宁化构造带的构造属性的理解.因此,本文利用野外路线地质调查、年代学测定、同位素地球化学测试等手段,对该套变质火山岩做了重点研究,结合前人的研究成果,我们得到以下认识:南平-宁化构造带中的变质火山岩类主要形成于756~720 Ma,主要形成于活动大陆边缘或岛弧环境,表明南平-宁化构造带可能代表了南武夷地体和北武夷地体之间的一条南华纪的近东西向的岛弧火山活动带,结合带中构造变形反映的南北向对冲的汇聚极性,我们认为南武夷地体和北武夷地体之间在南华纪可能还存在洋-陆碰撞乃至陆-陆拼合过程,这也反映了多微地块、多期拼合过程可能更符合华夏板块大地构造演化的主旋律. 相似文献
16.
中亚大陆古生代构造形成及演化 总被引:8,自引:3,他引:8
西伯利亚、塔里木及哈萨克斯坦诸古板块中的微陆和地体构造了中亚十分复杂的拼贴构造图案。古生代时,南天巴准洋-阿萨伊锡弧沟弧系和额尔齐斯洋-成田弧沟弧系构成了哈萨克斯坦板块的原型,塔里木板块陆壳块体在泥盆纪相对于阿萨伊锡岛弧的左行低角度斜俯冲和碰撞,造成此弧的解体、走滑堆叠和山弯构造。与此同时,成田岛弧南北两侧分别受到南天巴准洋和额尔齐斯洋的俯冲。在晚古生代晚期这两个沟弧系演变为哈萨克斯坦板块的基本构 相似文献
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The Cheyenne belt of southeastern Wyoming is a major shear zone which separates Archean rocks of the Wyoming province to the north from 1800-1600 Ma old eugeoclinal gneisses to the south. Miogeoclinal rocks (2500-2000 Ma old) unconformably overlie Archean basement immediately north of the shear zone and were deposited under transgressive conditions along a rift-formed continental margin. Intrusive tholeiitic sills and dikes are interpreted as rift-related intrusions and a date of 2000 Ma on a felsic differentiate of these intrusions gives the approximate age of rifting. There are no known post-2000 Ma felsic intrusions north of the Cheyenne belt.Volcanogenic gneisses and abundant syntectonic calc-alkaline plutons of the southern terrane are interpreted as island are volcanic and plutonic rocks. The volcanics are a bimodal basalt-rhyolite assemblage. Plutons include large gabbroic complexes and quartz diorite (1780 Ma), syntectonic granitoids (1730-1630 Ma) and post-tectonic anorthosite and granite (1400 Ma). There is no evidence for Archean crust south of the Cheyenne belt.Structural data (thrusts in the miogeoclinal rocks, vertical stretching lineations, and the same fold geometries north and south of the shear zone) suggest that juxtaposition of the two terranes took place by thrusting of the southern terrane (island arc) over the northern terrane (craton and miogeocline), probably as a continuation of the south-dipping subduction which generated calc-alkaline plutons of the southern terrane. A metamorphic discontinuity across the shear zone, with greenschist facies rocks to the north and upper amphibolite facies rocks and migmatites to the south, also suggests thrusting of the southern terrane (deeper crustal levels) over the northern terrane (shallower levels).The Cheyenne belt may be a deeply-eroded master decollement, perhaps analogous to a ramp in the master decollement in the southern Appalachians. This interpretation of the Cheyenne belt as a Proterozoic suture zone provides an explanation for the geologic, geochronologic, geophysical, metallogenic, and metamorphic discontinuities across the shear zone. 相似文献
18.
Dwight C. Bradley Julie Dumoulin Paul Layer David Sunderlin Sarah Roeske Bill McClelland Anita G. Harris Grant Abbott Tom Bundtzen Timothy Kusky 《Tectonophysics》2003,372(1-2):23-40
Evidence is presented for a previously unrecognized late Paleozoic orogeny in two parts of Alaska's Farewell terrane, an event that has not entered into published scenarios for the assembly of Alaska. The Farewell terrane was long regarded as a piece of the early Paleozoic passive margin of western Canada, but is now thought, instead, to have lain between the Siberian and Laurentian (North American) cratons during the early Paleozoic. Evidence for a late Paleozoic orogeny comes from two belts located 100–200 km apart. In the northern belt, metamorphic rocks dated at 284–285 Ma (three 40Ar/39Ar white-mica plateau ages) provide the main evidence for orogeny. The metamorphic rocks are interpreted as part of the hinterland of a late Paleozoic mountain belt, which we name the Browns Fork orogen. In the southern belt, thick accumulations of Pennsylvanian-Permian conglomerate and sandstone provide the main evidence for orogeny. These strata are interpreted as the eroded and deformed remnants of a late Paleozoic foreland basin, which we name the Dall Basin. We suggest that the Browns Fork orogen and Dall Basin comprise a matched pair formed during collision between the Farewell terrane and rocks to the west. The colliding object is largely buried beneath Late Cretaceous flysch to the west of the Farewell terrane, but may have included parts of the so-called Innoko terrane. The late Paleozoic convergent plate boundary represented by the Browns Fork orogen likely connected with other zones of plate convergence now located in Russia, elsewhere in Alaska, and in western Canada. 相似文献
19.
北祁连走廊南山加里东俯冲杂岩增生地体及其动力学 总被引:105,自引:9,他引:105
北祁连走廊南山加里东火山岛弧带前缘为弧前俯冲杂岩增生地体。它由多重的增生火山岛弧、复理石增生楔、高压变质滑脱带及蛇绿岩残片组成,为早古生代古祁连洋壳自SW往NE俯冲于阿拉善地块之下的结果。俯冲过程的高压变质阶段经历了中温高压的初期、降温增压的主期而进入降压增温的驰后期。提出了450-500Ma期间,中祁连地块向北俯冲、阿拉善地块向南增生的海沟后退的俯冲动力学模式。 相似文献
20.
In southeastern Brazil, the Neoproterozoic NNW–SSE trending southern Brasília belt is apparently truncated by the ENE–WSW central Ribeira belt. Different interpretations in the literature of the transition between these two belts motivated detailed mapping and additional age dating along the contact zone. The result is a new interpretation presented in this paper. The southern Brasília belt resulted from E-W collision between the active margin of the Paranapanema paleocontinent, on the western side, now forming the Socorro-Guaxupé Nappe, with the passive margin of the São Francisco paleocontinent on the eastern side. The collision produced an east vergent nappe stack, the Andrelândia Nappe System, along the suture. At its southern extreme the Brasília belt was thought to be cut off by a shear zone, the “Rio Jaguari mylonites”, at the contact with the Embu terrane, pertaining to the Central Ribeira belt. Our detailed mapping revealed that the transition between the Socorro-Guaxupé Nappe (Brasília belt) and the Embu terrane (Ribeira belt) is not a fault but rather a gradational transition that does not strictly coincide with the Rio Jaguari mylonites. A typical Cordilleran type magmatic arc batholith of the Socorro-Guaxupé Nappe with an age of ca. 640 Ma intrudes biotite schists of the Embu terrane and the age of zircon grains from three samples of metasedimentary rocks, one to the south, one to the north and one along the mylonite zone, show a similar pattern of derivation from a Rhyacian source area with rims of 670–600 Ma interpreted as metamorphic overgrowth. We dated by LA-MC-ICPMS laser ablation (U–Pb) zircon grains from a calc-alkaline granite, the Serra do Quebra-Cangalha Batholith, located within the Embu terrane at a distance of about 40 km south of the contact with the Socorro Nappe, yielding an age of 680 ± 13 Ma. This age indicates that the Embu terrane was part of the upper plate (Socorro-Guaxupé Nappe) by this time. Detailed mapping indicates that the mylonite zone is not a plate boundary because motion along it is maximum a few tens of kilometres and the same litho-stratigraphic units are present on either side. Based on these arguments, the new interpretation is that the Embu terrane is the continuation of the Socorro-Guaxupé Nappe and therefore also part of the active margin of the Paranapanema paleocontinent. The Brasília belt is preserved even further within the central Ribeira belt than previously envisaged. 相似文献