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1.
内蒙古林西地区上二叠统林西组砂岩碎屑锆石的年龄及其大地构造意义 总被引:1,自引:0,他引:1
林西地区林西组的主体岩性以碎屑岩为主,对其中代表性岩石组合——长石石英砂岩进行了年代学研究。 50粒碎屑锆石样品的LA-ICP-MS U-Pb年代学测试结果显示2个主要年龄区间:(256±2~322±3)Ma,峰值年龄为279Ma±2Ma;(357±7~497±4)Ma,峰值年龄为441Ma±3Ma。另有3颗锆石的年龄分别为797Ma±6Ma、1413Ma±38Ma、1661Ma±24Ma。其中256 Ma±2Ma的年龄限定了林西组原岩年龄应为晚二叠世;第二组年龄(357±7~497±4)Ma,峰期年龄441Ma±3Ma,与东北地区的主要泛非期事件年龄一致,表明主要的物源区为东北地块(佳蒙地块)。而797Ma±6Ma、1413Ma±38Ma、1661Ma±24Ma等年龄反映了东北地块基底年龄的信息。这些年龄数据表明, 林西组应为东北地块的一部分,并进一步限制了华北与西伯利亚两大板块的缝合线应位于林西组发育地区的南部,即西拉木伦河断裂,而拼合时代应晚于晚二叠世,可能为早三叠世。 相似文献
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内蒙古达茂旗花岗岩类LA-ICP-MS
锆石U-Pb年龄及其地质意义 总被引:2,自引:1,他引:1
对内蒙古达茂旗北部构造单元的巴特敖包岛弧带2个花岗闪长岩岩体样品和南部构造单元一个花岗岩岩体的2件样品进行了LA-ICP-MS锆石U-Pb定年。北部构造单元采自2个花岗闪长岩岩体的样品锆石206Pb/238U年龄分别为468Ma±2Ma和452Ma±3Ma,代表了这2个岩体的侵位时间,表明古亚洲洋向华北克拉通之下俯冲不晚于468Ma±2Ma;南部构造单元采自同一花岗岩岩体的2件样品获得的锆石206Pb/238U年龄分别为268Ma±2Ma和264Ma±2Ma,和该单元西部岩体已有的锆石年龄相符。这为华北克拉通北缘岩浆作用研究提供了新的年代学证据。 相似文献
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浙江浦江县蒙山地区陈塘坞组在地层柱中的位置
——来自SHRIMP锆石U-Pb年龄的制约 总被引:1,自引:0,他引:1
浙江浦江县蒙山剖面陈塘坞组凝灰岩样品高精度SHRIMP锆石U-Pb年龄分别为825.3Ma±8.1Ma和830Ma±6Ma,结合江绍断裂带以北的赣西地区修水组凝灰岩获得的SHRIMP锆石U-Pb年龄824Ma±5Ma和星子岩群流纹岩中锆石U-Pb年龄825Ma±5Ma,以及庐山筲箕洼组细碧岩的SHRIMP锆石U-Pb年龄840Ma±6 Ma、流纹岩年龄833Ma±4Ma和831Ma±3Ma,将蒙山剖面陈塘坞组和蒙山组明确定位于820Ma之下,双溪坞群之上的地层单元,从传统的平水群体系中独立出来;并将蒙山剖面陈塘坞组之下的蒙山组枕状玄武岩、细碧岩与庐山地区筲箕洼组枕状玄武岩、细碧岩地层序列对比。陈塘坞组年龄的确定对江绍断裂带区域新元古代地层对比和构造演化具有重要意义。 相似文献
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江山-绍兴断裂带铁沙街组变流纹岩SHRIMP
锆石U-Pb测年及其意义 总被引:2,自引:0,他引:2
隶属华夏北缘、地处江绍断裂带中的铁沙街组变流纹岩的SHRIMP锆石U-Pb年龄分别为1132 Ma±8Ma,1140 Ma±7Ma,1143 Ma±9Ma和1172Ma±10Ma。同时通过年龄数据探讨位于该断裂带中的田里片岩和周潭群、万源群的构造背景。该年龄数据对限定江绍断裂带区域地层对比和构造演化都有着重要意义。上述锆石U-Pb年龄表明,江绍断裂带(萍-绍断裂带)存在1.1Ga左右孤岛的沉积地层,代表了华夏地块向扬子地块俯冲的中间岛弧,而怀玉地区为弧后拉张盆地;该年龄为江绍断裂带中变质地层的对比提供了可靠的年龄依据。 相似文献
5.
内蒙古北山地区小狐狸山钼矿辉钼矿Re-Os年龄
和LA-ICP-MS锆石U-Pb年龄 总被引:2,自引:1,他引:1
小狐狸山钼矿是内蒙古北山地区近年来新发现的一个中型规模的斑岩型矿床。通过对成矿斑岩锆石和成矿晚阶段石英脉型钼矿的同位素研究,获得小狐狸山含矿花岗岩锆石LA-ICP-MS U-Pb年龄216.9Ma±0.5Ma(MSWD=0.41),与斑岩型钼矿化的时间220Ma±2.2Ma在误差范围内基本一致,为该矿床主要为一个斑岩型钼矿床提供了同位素年代学的佐证;晚成矿阶段辉钼矿单矿物Re-Os模式年龄加权平均值为213.2Ma±4.6Ma(MSWD=1.3)。小狐狸山钼矿床成矿岩体的展布受控于沿黑河展布的北东东向构造,该组构造切割了早期形成的北西向区域构造,暗示216~220Ma为北山地区由后碰撞进入板内伸展环境提供了初步的年龄约束,北山地区印支期的成矿作用值得重视。 相似文献
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新疆奇台地区双泉金矿床的成矿时代 总被引:4,自引:2,他引:2
新疆奇台县双泉金矿床位于东准噶尔地区,成矿带划分属卡拉麦里-达尔布特成矿带(Ⅲ级成矿带)之卡拉麦里-莫钦乌拉成矿带(Ⅳ级成矿带),是新疆重要的金-多金属成矿带。对双泉金矿蚀变矿物绢云母、含金石英脉进行了激光(单颗粒全熔样法)显微探针40Ar/39Ar同位素研究,3个绢云母样品等时线年龄分别为269Ma±9Ma、265Ma±2Ma、260 Ma±4Ma;石英样品等时线年龄为269Ma±8Ma。这些结果表明双泉金矿主成矿期成矿时代为269Ma±9Ma~260Ma±4Ma。东准噶尔地区早石炭世初至晚二叠世大规模陆陆碰撞造山及其后的伸展张弛构造运动期间,发生了2次大规模的构造流体热事件,同位素年龄记录的时间分别约为310Ma和260~270Ma。前者代表早期韧性构造变形期间产生变质流体并初始富集Au元素的时间,地球动力学背景为碰撞造山后期的挤压推覆体系;后者代表本区金矿主成矿期成矿作用发生的时间,是控矿断裂构造脆性变形的时间,地球动力学背景为碰撞造山期后的伸展张弛体系。 相似文献
9.
豫西地区熊耳群的地质年代学研究 总被引:1,自引:0,他引:1
在地质构造背景基础上分析单颗粒锆石U Pb稀释法年龄数据 ,以标志王屋山期热构造事件有关的穿切熊耳群焦园组、坡前街组岩浆侵入活动年龄 16 4 4Ma~ 175 0Ma和热扰动年龄 16 5 0Ma±为依据 ,确定熊耳群上限年龄为 16 5 0Ma~ 170 0Ma。熊耳群火山岩系第二喷发旋回眼窑寨组 (“龙脖组”)流纹斑岩成岩年龄为 196 0Ma±。第一喷发旋回上部焦园组流纹斑岩成岩年龄为 2 10 0Ma± ;下部张合庙组大斑安山岩成岩年龄为 2 2 0 0Ma~2 30 0Ma。熊耳群的下限年龄小于 2 4 0 0Ma。这与豫西地区地层情况大体吻合。 相似文献
10.
康托组在羌塘南部地区分布广泛,是青藏高原始新世大规模隆升以后首先接受的陆相碎屑和火山沉积,以往根据时代跨度较大的生物化石将其时代确定为中新世,但一直存在争议。羌南走构由茶错康托组中呈层状出露的火山岩面积约120km2,主要岩性为玄武质粗面安山岩,保存有完好的火山口和火山颈。40Ar-39Ar积分年龄为30.5Ma±0.6Ma,K-Ar法年龄为33.3Ma±0.5Ma、29.3Ma±0.4Ma、32.3Ma±0.5Ma、28.4Ma±0.4Ma,为渐新世早期。结合区域上康托组与伴生火山岩的相互关系,确定走构由茶错、康托、鱼鳞山和纳丁错等地的火山岩是康托组的组成部分。根据走构由茶错火山岩同位素定年结果将康托组的时代由中新世厘定为渐新世,羌塘地区大规模隆升以后接受沉积的时间前推了大约10Ma。 相似文献
11.
Gilles Serge Odin 《Comptes Rendus Geoscience》2002,334(6):409-414
Lithostratigraphy, physicochemical stratigraphy, biostratigraphy, and geochronology of the 77–70 Ma old series bracketing the Campanian–Maastrichtian boundary have been investigated by 70 experts. For the first time, direct relationships between macro- and microfossils have been established, as well as direct and indirect relationships between chemo-physical and biostratigraphical tools. A combination of criteria for selecting the boundary level, duration estimates, uncertainties on durations and on the location of biohorizons have been considered; new chronostratigraphic units are proposed. The geological site at Tercis is accepted by the Commission on Stratigraphy as the international reference for the stratigraphy of the studied interval. To cite this article: G.S. Odin, C. R. Geoscience 334 (2002) 409–414. 相似文献
12.
Inter-regional correlation of transgressions and regressions in the Cretaceous period 总被引:1,自引:0,他引:1
T. Matsumoto 《Cretaceous Research》1980,1(4):359-373
Well investigated platforms have been selected in each continent, and the history of Cretaceous transgressions and regressions there is concisely reviewed from the available evidence. The factual records have been summarized into a diagram and the timing of the events correlated between distant as well as adjoining areas.On a global scale, major transgressions were stepwise enlarged in space and time from the Neocomian, via Aptian-Albian, to the Late Cretaceous, and the post-Cretaceous regression was very remarkable. Minor cycles of transgression-regression were not always synchronous between different areas. Some of them were, however, nearly synchronous between the areas facing the same ocean.Tectono-eustasy may have been the main cause of the phenomena of transgression-regression, but certain kinds of other tectonic movements which affected even the so-called stable platforms were also responsible for the phenomena. The combined effects of various causes may have been unusual in the Cretaceous, since it was a period of global tectonic activity. The slowing down of this activity followed by readjustments may have been the cause of the global regression at the end of the Cretaceous. 相似文献
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The Afyon stratovolcano exhibits lamprophyric rocks, emplaced as hydrovolcanic products, aphanitic lava flows and dyke intrusions, during the final stages of volcanic activity. Most of the Afyon volcanics belong to the silica-saturated alkaline suite, as potassic trachyandesites and trachytes, while the products of the latest activity are lamproitic lamprophyres (jumillite, orendite, verite, fitztroyite) and alkaline lamprophyres (campto-sannaite, sannaite, hyalo-monchiquite, analcime–monchiquite). Afyon lamprophyres exhibit LILE and Zr enrichments, related to mantle metasomatism. 相似文献
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正20140751 Guo Xincheng(Geological Party,BGMRED of Xinjiang,Changji 831100,China);Zheng Yuzhuang Determination and Geological Significance of the Mesoarchean Craton in Western Kunlun Mountains,Xinjiang,China(Geological Review,ISSN0371-5736,CN11-1952/P,59(3),2013,p.401-412,8 相似文献
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正20141058 Chen Ling(Key Laboratory of Mathematical Geology of Sichuan Province,Chengdu University of Technology,Chengdu610059,China);Guo Ke Study of Geochemical Ore-Forming Anomaly Identification Based on the Theory of Blind Source Separation(Geosci- 相似文献
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正20141334 Chen Kun(Institute of Geophysics,China Earthquake Administration,Beijing100081,China);Yu Yanxiang Shakemap of Peak Ground Acceleration with Bias Correction for the Lushan,Sichuan Earthquake on April20,2013(Seismology and Geology,ISSN0253-4967,CN11-2192/P,35(3),2013,p.627-633,2 illus.,1 table,9 refs.)Key words:great earthquakes,Sichuan Province 相似文献
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正20141624 Cai Xiongfei(Key Laboratory of Geobiology and Environmental Geology,Ministry of Education,China University of Geosciences,Wuhan 430074,China);Yang Jie A Restudy of the Upper Sinian Zhengmuguan and Tuerkeng Formations in the Helan Mountains(Journal of Stratigraphy,ISSN0253-4959CN32-1187/P,37(3),2013,p.377-386,5 illus.,2 tables,10 refs.) 相似文献
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正20142263Lü Shaojun(Geological Survey of Jiangxi Province,Nanchang 330030,China)Early-Middle Permian Biostratigraphical Characteristics in Qiangduo Area,Tibet(Resources SurveyEnvironment,ISSN1671-4814,CN32-1640/N,34(4),2013,p.221-227,2illus.,2tables,22refs.)Key words:biostratigraphy,Lower Permian,Middle Permian,Tibet 相似文献
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正20142560Hu Hongxia(Regional Geological and Mineral Resources Survey of Jilin Province,Changchun 130022,China);Dai Lixia Application of GIS Map Projection Transformation in Geological Work(Jilin Geology,ISSN1001-2427,CN22-1099/P,32(4),2013,p.160-163,4illus.,2refs.) 相似文献
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正20140692 Duo Tianhui(No.402 Geological Team,Exploration of Geology and Mineral Resources of Sichuan Authority,Chengdu611730,China);Wang Yongli Computer Simulation of Neptunium Existing Forms in the Groundwater(Computing Techniques for Geophysical and Geochemical Exploration,ISSN1001-1749,CN51-1242/P,35(3), 相似文献