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11.
G. Franz D. Pudlo G. Urlacher U. Haussmann A. Boven K. Wemmer 《International Journal of Earth Sciences》1994,83(3):614-623
Field investigations, K-Ar age determinations and chemical data were used to describe the development of an intraplate volcanic province, the Darfur Dome, Sudan. Magmatism started 36 Ma ago at a small subvolcanic complex (Jebel Kussa) in the center of the dome and was active in the same area between 26 and 23 Ma. Two major volcanic fields (Marra Mountains and Tagabo Hills) developed between 16 and 10 Ma. Volcanism started again at 6.8 Ma with a third volcanic field (Meidob Hills) and at 4.3 Ma in the Marra Mountains and with the reactivation of the center. Activity then continued until the late Quaternary. Having started in the center of the Darfur Dome, volcanism moved in 36 Ma 200 km towards the NNE and 100 km SSW No essential difference in the alkaline magma types (basanitic to phonolitic-trachytic, with different amounts of assimilation of crustal material) in the different fields, was observed. Magmatism is thought to have been produced by a rising mantle plume and volcanism was triggered by stress resolution along the Central African Fault Zone. 相似文献
12.
From an area of brittle shearing and ring complexes in Northern Kordofan, Sudan 28 K-Ar ages were calculated to determine the geochronology of tectonic and magmatic events. The age results for deformational episodes are 560, 340 and 255 Ma, whereas alkaline magma was intruded at 280, 220 and 165 Ma. The incompatibility of age marks leads to the conclusion that magmatic and tectonic activity in this area have to be regarded as independent events. This holds true even when all dated intrusions from the entire region are compared with post-Pan-African continental tectonic features. 相似文献
13.
47个腾冲火山岩样品的K-Ar年龄值域在0.09和17.84Ma之间。4条火山岩的40Ar/36Ar-40K/36Ar等时线年龄分别为2.93、0.81、0.31和0.13Ma。火山喷发的时代从中新世到更新世,喷发的高潮在晚更新世。腾冲火山目前还不是死火山,而腾冲及其邻区的热事件(侵入-热变质-喷发)又是连续发生的。20个样品的Rb和Sr含量、稳定Sr同位素初始比(0.70578-0.71437)以及其它地球化学资料还表明,这些火山岩是属于板块碰撞带生成的高钾钙碱性岩浆系列。火山岩的母岩浆来源于地幔的玄武岩浆,但在上升过程中受到过富含放射性成因Sr的地壳物质的强烈渐进混染。 相似文献
14.
15.
中国东北地区新生代火山岩的年代学研究 总被引:36,自引:19,他引:36
用常规K-Ar、~(40)Ar-~(39)Ar、~(14)C等方法系统测定了东北地区新生代火山岩的年龄,获得近百个有效年龄数据。其精度和准确度都很高,与地质背景相当吻合。对于玄武岩中超镁铁质岩色体也进行了年龄测定尝试、发现包体中含继承氩,并可能存在~(36)Ar过剩。在阶段加热过程中,样品中氩的释放有两个高峰,一个在低温阶段(450—620℃),另一个在高温阶段(>1000℃),约50%的放射成因~(40)Ar在低温阶段释放。 相似文献
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17.
Abstract The low grade metamorphic Jurassic accretionary complex in the western part of the Mino-Tanba Belt, Southwest Japan, is a chaotic sedimentary complex which consists of argillaceous matrices with allochthonous blocks of chert, greenstone, siliceous mudstone, terrigenous sandstone and mudstone. The complex is divided into three distinct geologic units, Units I, II and III, with a tectonic boundary (thrust) between them, forming a pile-nappe structure. They have different features for lithologies, fossil age, metamorphic condition and K-Ar age. Microfossil researches revealed that their timings of accretion were in the early Early Jurassic ( ca 195 Ma) for Unit III, in the early Middle Jurassic ( ca 175 Ma) for Unit II and in the latest Late Jurassic (ca 147 Ma) for Unit I. On the other hand, K-Ar age determinations of white mica separated from pelitic rocks of the three units clarified that the subsequent subduction-related metamorphism was 23 million years after the accretion of each unit. These results strongly suggest that the accretionary and metamorphic process had taken place episodically with an interval of 20 to 28 million years during Mesozoic time in the western part of the Mino-Tanba Belt, Southwest Japan. 相似文献
18.
K-Ar法地质年龄国家一级标准物质ZBH-25黑云母的研制 总被引:3,自引:4,他引:3
ZBH-25黑云母采自北京房山花岗闪长岩体。它的~(40)Ar/~(39)Ar 阶段加热实验结果表明,~(40)Ar~*在矿物晶格中保存均匀稳定,年龄谱平坦,~(39)Ar 析出量高达96%,~(40)K-~(40)Ar~*同位素体系封闭良好,证明该黑云母结晶以后未受过热扰动。坪年龄为133.0±0.3Ma,总气体年龄为132.1±0.6Ma;~(36)Ar/~(40)Ar-~(39)Ar/~(40)Ar 反等时线年龄为133.1±1.3 Ma,~(40)Ar/~(36)Ar 初始值为293.5±1.6,与大气氩丰度比(295.5±0.5)处于同一范围,表明样品不含过剩氩。激光显微探针单颗粒坪年龄为132.8±0.2Ma,年龄谱和 K/Ca 谱线平坦,激光熔样总气体年龄为131.3±0.2Ma(图6)。这几个 Ar-Ar 年龄的一致性,说明样品具有良好的均匀性和稳定性,是理想的 K-Ar 和 Ar-Ar 法年龄标准物质。对均匀性检验数据进行统计学方法检验,在0.05显著性水平下,证明 K 和~(40)Ar~*的 F 分布值小于 F 临界值,说明该样品是均匀的。国内外14个实验室参加了 K 含量的定值分析,15个实验室参加了~(40)Ar~*含量的定值分析,经统计学方法检验,结果显示全部定值数据都服从正态分布并具等精度。在置信概率为0.95时,~(40)Ar~*和 K 含量的相对标准偏差都小于0.5%。两个特性量值定值分析结果的一致值和不确定度分别为:~(40)Ar~*=1.817±0.013×10~(-9)mol/g,K=7.60±0.02%,K-Ar 年龄(标准值)=132.9±1.3Ma(2σ).此标准物质纯度为98.8%,粒度为0.25-0.63mm,总重量为5800g,缩分成最小样品单元共400瓶,每瓶重量为14.5g。可供我国 K-Ar 和 Ar-Ar 法同位素年代学实验室使用120年。 相似文献
19.
济阳坳陷中生界分布广泛,具有油气成藏的基本地质条件,并取得了一定的勘探发现,但其勘探程度和研究程度相对较低,包括地层划分、沉积体系、储层特征、控藏因素等。特别是地层时代、分层与分界等基本的地质问题尚存在不同的观点和认识。根据区内14口井的10个火山岩全岩样品和79个小于2μm的泥岩自生伊利石样品,开展K-Ar法同位素年代地层学测定,分别确定了中生界的坊子组、蒙阴组、三台组和西洼组的绝对年龄值,将坊子组划归下侏罗统,蒙阴组为中侏罗统,缺失上侏罗统,并明确了各组的接触关系。 相似文献
20.
U.?A.?GlasmacherEmail author W.?Bauer N.?Clauer V.?N.?Puchkov 《International Journal of Earth Sciences》2004,93(5):921-944
The eastern margin of the East European Craton (EEC) has a long lasting geological record of Precambrian age. Archaean and Proterozoic strata are exposed in the western fold-and-thrust belt of the Uralides and are known from drill cores and geophysical data below the Palaeozoic cover in the Uralides and its western foredeep. In the southern Uralides, sedimentary, metamorphic and magmatic rocks of Riphean and Vendian age occur in the Bashkirian Mega-anticlinorium (BMA) and the Beloretzk Terrane. In the eastern part of the BMA (Yamantau anticlinorium) and the Beloretzk Terrane, K-Ar ages of the <2-µm-size fraction of phyllites (potassic white mica) and slates (illite) give evidence for a complex pre-Uralian metamorphic and deformational history of the Precambrian basement at the southeastern margin of the EEC. Interpretation of the K-Ar ages considered the variation of secondary foliation and the diagenetic to metamorphic grade. In the Yamantau anticlinorium, the greenschist-facies metamorphism of the Mesoproterozoic siliciclastic rocks is of Early Neoproterozoic origin (about 970 Ma) and the S1 cleavage formation of Late Neoproterozoic (about 550 Ma). The second wide-spaced cleavage is of Uralian origin. In the central and western part of the BMA, the diagenetic to incipient metamorphic grade developed in Late Neoproterozoic time. In post-Uralian time, Proterozoic siliciclastic rocks with a cleavage of Uralian age have not been exhumed to the surface of the BMA. Late Neoproterozoic thrusts and faults within the eastern margin of the EEC are reactivated during the Uralian deformation. 相似文献