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1.
在新疆西南天山科桑溶洞地区,新厘定出一套斜长角闪岩-花岗岩地质单元:侵入斜长角闪岩中的新元古代白云母花岗岩(片麻状构造)、以及侵入上述古老岩石单元的早奥陶世花岗岩(块状构造)。片麻状白云母花岗岩中锆石具有热液锆石边、岩浆锆石幔和碎屑锆石核(边-幔-核结构),剔除被热液锆石和碎屑锆石混染的SHRIMP测点,获得岩浆锆石幔的加权平均年龄752.3±5.1Ma(MSWD=0.95),代表岩浆的结晶年龄。块状花岗岩的锆石具有边-核结构,热液锆石边的U-Pb年龄(419.5±5.7Ma)明显偏低。剔除热液锆石和碎屑锆石,获得岩浆锆石的平均U-Pb年龄481.1±4.4Ma(MSWD=0.88),代表花岗岩的结晶年龄。早奥陶世早期,岩浆侵入新元古代片麻状白云母花岗岩中。在晚志留世或者更晚时期,两类花岗岩共同经受了变质热液改造,变质流体交代岩浆锆石,导致锆石溶蚀再生长。 相似文献
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中天山巴仑台地区变形花岗岩类LA-ICP-MS-U-Pb年代学及其构造意义 总被引:1,自引:0,他引:1
本文对巴仑台地区中天山南北边缘的变形花岗岩体进行了详细的锆石LA-ICP-MS-U-Pb年代学研究。中天山北缘花岗质片麻岩中岩浆锆石结晶年龄为630.0±5.0 Ma,代表了中天山微陆基底的新元古代岩浆事件年龄;其变质增生锆石边的年龄为440.9±3.3 Ma,精确限定了中天山北缘洋盆闭合与碰撞造山作用的时代为早志留世。中天山南缘糜棱岩化花岗闪长岩中岩浆锆石结晶年龄为389.5±3.2 Ma,指示出中天山南缘洋壳在中泥盆世向北俯冲形成陆缘岩浆弧;其变质增生锆石边的年龄为362.1±4.3 Ma,精确限定了中天山南缘洋盆闭合与碰撞造山作用的时代为晚泥盆世末期。研究结果还表明中天山微陆块具有年龄为2.5Ga和1.8Ga的古老结晶基底。 相似文献
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东昆仑早古生代花岗岩锆石U-Pb年龄及其地质意义 总被引:5,自引:0,他引:5
应用激光烧蚀多接收器电感耦合等离子体质谱(LA-MC-ICPMS)方法,对东昆仑五龙沟地区花岗岩样品进行了锆石 U-Pb 定年研究。结果表明,黄龙沟中部的糜棱岩化二长花岗岩(B20-14)中岩浆锆石206Pb/238U年龄平均值为(417.7±2.0) Ma,黄龙沟上部的糜棱岩化二长花岗岩(B21-2)中岩浆锆石206Pb/238U年龄平均值为(419.7±2.3) Ma,深水潭粗中粒二长花岗岩(B20-8)中岩浆锆石206Pb/238U 年龄平均值为(419.9±2.0) Ma,红旗沟中部的粗中粒二长花岗岩(B25-9)岩浆锆石206Pb/238U年龄平均值为(419.0±2.0) Ma。它们代表了五龙沟地区所研究花岗岩的形成年龄,其形成时代均为晚志留世,记录了东昆仑早古生代的岩浆活动。本文获得的东昆仑五龙沟地区的晚志留世花岗岩可能与东昆仑早古生代洋盆闭合后的碰撞造山作用有关。花岗岩中1861 Ma、1666 Ma古元古代继承锆石的发现,表明东昆仑造山带的基底物质为古元古代。 相似文献
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新疆天格尔地区碱长花岗岩的地球化学、年代学及其地质意义 总被引:3,自引:1,他引:2
新疆天格尔地区的碱长花岗岩出露于中天山与北天山构造带的结合部位,主要由石英和条纹长石组成,含少量斜长石和黑云母。对该岩体进行了全岩主量、微量元素分析和锆石LA-ICP-MS U-Pb定年。主量和微量元素分析结果表明,岩石具有高的SiO2、K2O+Na2O(K2O>Na2O)、Rb、Th、U和∑REE(除Eu外)含量,低的CaO、TiO2、Ba、Sr、P和Eu含量,属于富钾钙碱性花岗岩,具有向A型花岗岩过渡的后碰撞富钾钙碱性花岗岩的特征,形成于天山后碰撞由挤压向拉张构造体制转变的过渡时期。锆石LA-ICP-MS U-Pb定年研究获得269.7±0.7Ma的岩体侵位年龄,表明北天山古洋盆于晚石炭世闭合,天山与准噶尔、塔里木联结成统一的大陆后,石炭纪末期-中二叠世天山造山带处于挤压向拉张构造体制转变的过渡时期,在中天山北缘以发生大规模右行走滑剪切为标志,形成冰达坂韧性剪切带,同时发生强烈的韧性剪切成岩成矿作用,形成天格尔金矿带及其中的诸多金矿床和矿点,并引起壳、幔物质部分重熔产生岩浆、沿中天山与北天山间的地壳薄弱地带侵位。 相似文献
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本文对巴仑台地区中天山南北边缘的变形花岗岩体进行了详细的锆石LA-ICP-MS U-Pb年代学研究.中天山北缘花岗质麻岩中岩浆锆石结晶年龄为630.0±5.0Ma,代表了中天山微陆基底的新元古代岩浆事件年龄;其变质增生锆石边的年龄为440.9±3.3Ma,精确限定了中天山北缘洋盆闭合与碰撞造山作用的时代为早志留世.中天山南缘糜棱岩化花岗闪长岩中岩浆锆石结晶年龄为389.5±3.2Ma,指示出中天山南缘洋壳在中泥盆世向北俯冲形成陆缘岩浆弧;其变质增生锆石边的年龄为362.1±4.3Ma,精确限定了中天山南缘洋盆闭合与碰撞造山作用的时代为晚泥盆世末期.研究结果还表明中天山微陆块具有年龄为2.5Ga和1.8Ga的古老结晶基底. 相似文献
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中天山晚奥陶世碰撞造山:来自变质花岗岩地球化学及年代学证据 总被引:1,自引:1,他引:0
中天山包尔图一带发育一套变质变形的花岗岩,属钙碱性系列,其具有较高的Hf和Th含量,而Li、Nb和Ta的含量低;稀土总量中等,具中等铕负异常,稀土配分模式曲线为V型曲线;显示出加里东型I型花岗岩、同碰撞花岗岩的特征。锆石LA-ICP-MS U-Pb测年获得了1207±87Ma、455.6±1.8Ma和433±19Ma 3组年龄,其中1207±87Ma代表了碎屑锆石的年龄,说明包尔图一带存在元古宙古老基底;455.6±1.8Ma代表了包尔图岩体的侵位年龄,代表了北天山洋与中天山陆块早古生代一次重要碰撞造山事件;433±19Ma则代表了包尔图岩体侵入岩的后期变质改造年龄,说明早志留世中天山发生过一次变质作用。这次研究的成果对揭示中天山地区的构造演化有着重要的意义。 相似文献
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东天山咸水泉片麻状花岗岩特征、年龄及成因 总被引:2,自引:7,他引:2
野外地质关系及岩相学、地球化学、同位素和年代学研究表明,成水泉片麻状花岗岩是典型的原地改造型花岗岩,其原岩(即围岩)为糜棱岩化花岗闪长岩。本次锆石 LA-ICP-MS U-Pb 定年获得其原岩糜棱岩化花岗闪长岩~(206)Pb/~(238)U 加权平均年龄为369.9±5.6Ma(MSWD=36),片麻状花岗岩锆石核部年龄为367.9±5.4Ma(MSWD=2.2),此年龄与其原岩年龄在误差范围内一致,为片麻状花岗岩原地改造成因提供了年代学证据。此外,还获得其锆石热液增生边不一致线下交点年龄254±10Ma(MSWD=1.4),该年龄代表了片麻状花岗岩的形成时间。片糜状花岗岩在地球化学上继承了许多原岩的特征,同时又受到了深源流体-熔体的显著影响。将原岩糜棱岩化花岗闪长岩改造成片麻状花岗岩的流体-熔体具有富硅富钾和正ε_(Nd)(t)值的特征,表明这种流体-熔体可能主要地来自幔源岩浆内侵体,以及在内侵岩浆热量作用下的初生地壳岩石的变质和熔融。原岩糜棱岩化花岗闪长岩及其派生的片麻状花岗岩ε_(Nd)(t)值分别为 3.87及 3.05~ 6.09,表明糜棱岩化花岗闪长岩源自于年轻的陆壳,而片麻状花岗岩除继承了其原岩糜棱岩化花岗闪长岩的高ε_(Nd)(t)值这一特征外,还可能受到了深源流体-熔体中幔源组分的影响。咸水泉岩体的实例研究表明,原地改造型片麻状花岗岩不但可以形成于造山带的挤压-伸展转折阶段,还可以形成于碰撞后进一步伸展的时期,而经过强烈韧性剪切的岩石是转变为片麻状花岗岩的最有利原岩。东天山咸水泉、平顶山和天湖东等原地改造型片麻状花岗岩的形成均与内侵有关,因而片麻状花岗岩可被看作是内侵的重要产物。 相似文献
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东天山卡瓦布拉克地区发育大量片麻状花岗岩,据野外特征分为含斑片麻状花岗岩和不含斑片麻状花岗岩,片麻理属后期韧性剪切叠加改造结果.本文获得含斑片麻状花岗岩LA-ICP-MS锆石U-Pb年龄为(942.1±7.2)Ma和(941.9±4.9)Ma;不含斑晶的片麻状花岗岩年龄为(424.2±3.4)Ma,这些年龄数据表明片麻状花岗岩分别形成于新元古代和中志留世.野外调查表明,片麻状花岗岩侵入于长城系星星峡群和卡瓦布拉克群中,被块状石炭纪花岗岩侵入.研究区西侧上覆泥盆纪地层未发生明显韧性变形.据此限定区内韧性剪切变形发生于晚志留世(约424 Ma)之后至泥盆纪之前. 相似文献
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湘西铲子坪和大坪等大型金矿是雪峰山地区颇具代表性的金矿床。本次研究获得该两矿床含金石英脉RbSr等时线年龄分别为205.6±9.4Ma和204.8±6.3Ma,矿区外围黄茅园黑云母花岗岩体锆石SHRIMP UPb年龄为222.3±1.7Ma,测定结果表明成岩和成矿作用均发生于印支期,成矿作用可能与区域性逆冲推覆作用及相伴生的酸性岩浆侵位密切相关;矿床成因类型应为岩浆热液型,而不宜归为韧性剪切带型或构造蚀变岩型。 相似文献
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中天山早泥盆世陆弧:来自花岗质糜棱岩地球化学及SHRIMP-U/Pb定年的证据 总被引:31,自引:26,他引:31
中天山巴伦台以北地区出露一套糜棱岩化的中-酸性侵入岩,元素地球化学特点表明其属于火山弧环境;锆石SHRIMP U/Pb法测试结果揭示其侵位年龄在405—416Ma间,属早泥盆世。这一研究结果显示,早在晚志留世晚期,南天山洋已开始向北俯冲,并在中天山地块南缘形成火山弧环境。至早泥盆世晚期,塔里木陆块与中天山火山弧发生碰撞。 相似文献
11.
Summary Direct shear tests were conducted on a granite to granite interface for the purpose of tracing the evolution of frictional resistance as the initially smooth and polished surface wears during continuing shearing displacement. At the moment when sliding on the freshly manufactured interface starts (first slip), the friction angle is very low, between 15° and 20°, but then it increases with displacement rapidly without reaching a peak in the first test (maximum displacement less than 25 mm). Upon repeated shearing of the same surface (without re-finishing), this process of displacement-strengthening continues until a total accumulated displacement of about one half of one meter is reached. At this point, the angle of friction would typically be between 42° and 44°.Once the residual surface was established, the effect of time-related parameters, the duration of stationary contact under constant normal and shear load and variable displacement rate, were investigated. The frictional resistance is shown to increase with decreasing displacement rate and to increase with the duration of stationary contact.At a normal load greater than about one half of one MPa, shear displacement on a residual surface proceeds in an unstable, stick-slip manner. The change from stable to unstable sliding, that can be effected by either decreasing the sliding velocity or increasing the normal load, is not instantaneous, but occurs over a finite amount of displacement. 相似文献
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Zircon and granite petrology 总被引:67,自引:1,他引:67
J. P. Pupin 《Contributions to Mineralogy and Petrology》1980,73(3):207-220
The typologic study of zircon populations from granitic rocks lead to the proposition of a genetic classification with three main divisions: (1) granites of crustal or mainly crustal origin [(sub) autochthonous and aluminous granites)]; (2) granites of crustal+mantle origin, hybrid granites (calc-alkaline and sub-alkaline series granites); (3) granites of mantle or mainly mantle origin (alkaline and tholeiitic series granites). In detail, there are many petrogenetic variants of each of the following granitic rocks: granodiorite, monzogranite and alkaline granite. The variations observed with zircon typology are accompanied petrographically by modifications of associations of other main and accessory minerals, and on the field by the presence or absence of basic microgranular xenoliths, associated microgranites, rhyolites or basic rocks. In the typologic diagram, some endogenous non granitic rocks (i.e. migmatites, tonalites, rhyolites ...) show a logical distribution with regard to different genetic stocks of granitic rocks. 相似文献
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皖南地区花岗岩风化壳中稀土元素普遍富集,局部已成为矿床,其中,郎溪县姚村岩体风化壳富集程度较高。LA- ICP- MS锆石U- Pb定年表明,姚村花岗岩体的形成年龄为127.9±1.4 Ma,属于皖南地区燕山期晚期岩浆作用的产物。风化壳可细分为残坡积层(A)、强半风化层(C1)、过渡层(C2)、弱风化层(C3)和基岩(D)五层。稀土总量在纵向剖面上呈“波浪式”分布,各层稀土分布型式表现出对原岩的继承性。风化壳稀土配分型式与基岩一致, 富集LREE,轻重稀土分馏明显(La/Yb)N=15.6),但总含量明显更高。基岩∑REE为338×10-6,半风化层∑REE最高达642×10-6,富集约两倍。风化壳物质由风化残余主矿物(石英、钾长石、斜长石、黑云母)、黏土矿物(高岭石、埃洛石、伊利石、三水铝石等)和副矿物(锆石、磷灰石、榍石等)等组成。黏土矿物以伊利石含量最高,指示风化壳发育不成熟。REE与埃洛石含量明显正相关,与其他黏土矿物关系不明显。(含)稀土矿物(尤其是榍石)对风化壳中稀土元素的贡献量超过百分之五十,其次为斜长石,是风化壳中REE的重要来源。 相似文献
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K. Dideriksen B.C. Christiansen T. Balic-Zunic S.L.S. Stipp 《Geochimica et cosmochimica acta》2010,74(10):2866-5573
At the Earth’s surface, Fe(II) often oxidises and forms insoluble Fe(III)-(oxyhydr)oxides, whose particle size and structure depend on solution composition and temperature during formation and afterwards. Bacterial processes and exposure to reducing environments reduces them again, releasing dissolved iron to the groundwater. During such cycling, the Fe isotopes fractionate to an extent that is expected to depend on temperature. In this study, we report on the use of Fe-oxides as paleo-redox indicators, using their structure, morphology and Fe-composition as a clue for formation conditions. In samples taken from ∼120 m drill cores in granite from SE Sweden, X-ray amorphous, superparamagnetic, nanometre-sized Fe-oxides are confined to fractures of the upper ∼50 m, whereas well-crystalline Fe-oxides, with particle sizes typical for soils, occur down to ∼110 m. We also identified hematite with a particle size of 100 nm, similar to hematite of hydrothermal origin. The Fe isotope composition of the fine-grained Fe-oxides (−1‰ < δ56Fe < 1‰, IRMM-14 referenced) scatter significantly compared to the distribution previously observed for hydrothermal material (−0.26‰ < δ56Fe < 0.12‰) and they are dominantly heavier than Fe-bearing silicates from fractures (−0.56‰ < δ56Fe < −0.35‰). This is consistent with formation by low-temperature weathering, where Fe-silicates dissolve, Fe(II) oxidises and Fe(III)-oxides precipitate. The X-ray amorphous, nanometre-sized nature of near-surface Fe-oxides suggests recent formation. The deeper situated, well-crystalline Fe-oxides are more mature and we interpret that they record earlier oxidising events. They exist in fractures that are not significantly altered, indicating formation during periods of oxidation. Our results show that oxygenated water may reach depths of ∼110 m in fractured granite. The absence of natural, low-temperature Fe-oxides from deeper drill cores suggests that oxygenated waters do not readily penetrate beyond about 100 m and suggests that radioactive waste repositories located at a depth of ∼500 m should be well-protected from oxygenated waters. 相似文献
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深源花岗岩中的碳氢化合物 总被引:2,自引:0,他引:2
利用石油地球化学的溶剂抽提和气相色谱技术研究了北京延庆碓臼峪花岗岩(深源花岗岩)样品中的可溶有机质,同时用高温处理过的石英砂进行空白对比实验。结果表明,所研究的两个花岗岩样品中均存在少量的高碳数碳氢化合物,且具有相同的成分特征。这为自然界存在深源的长链碳氢化合物提供了新的证据,也为解释花岗岩浆演化晚期水热流体中短链羧酸的成因提供了线索。 相似文献
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Experimental deformation of partially-melted granite 总被引:18,自引:0,他引:18
An account is given of the experimental deformation of partially-melted granite with melt fractions up to 25% at 800 °C and 300 MPa confining pressure in constant strainrate tests between 10–3 and 10–6 S–1, creep tests and cycling tests. Microscopic study reveals that under these conditions most of the uniform deformation prior to macroscopic shear failure is accomplished by melt redistribution into films perpendicular to the least compressive stress, and by axial fracturing of grains, the latter occurring even at low macroscopic differential stress. The strenght of the partially-melted rock at 10–5 S–1 is found to decrease gradually from about 250 MPa at 5 vol.% melt to about 60 MPa at 15 % melt, and then to drop rapidly to less than 1 MPa at 24% melt. The critical melt fraction separating granular-framework-controlled flow behaviour from suspension-like behaviour is deduced to be approximately 30 to 35 vol.%. At low melt fractions the deforming rock tends to take up externally available melt by a mechanism of dilatancy pumping. The relevance of these results to natural conditions involving partially-melted rocks is discussed. 相似文献
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皖南地区花岗岩风化壳中稀土元素普遍富集,局部已成为矿床,其中,郎溪县姚村岩体风化壳富集程度较高。LA- ICP- MS锆石U- Pb定年表明,姚村花岗岩体的形成年龄为127. 9±1. 4 Ma,属于皖南地区燕山期晚期岩浆作用的产物。风化壳可细分为残坡积层(A)、强半风化层(C1)、过渡层(C2)、弱半风化层(C3)和基岩(D) 5层。稀土总量在纵向剖面上呈“波浪式”分布,各层稀土分布型式表现出对原岩的继承性。风化壳稀土配分型式与基岩一致, 富集LREE,轻重稀土分馏明显\[(La/Yb)N=15. 6\],但总含量明显更高。基岩∑REE为338×10-6,半风化层∑REE最高达642×10-6,富集约两倍。风化壳物质由风化残余主矿物(石英、钾长石、斜长石、黑云母)、黏土矿物(高岭石、埃洛石、伊利石、三水铝石等)和副矿物(锆石、磷灰石、榍石等)等组成。黏土矿物以伊利石含量最高,指示风化壳发育不成熟。REE与埃洛石含量明显正相关,与其他黏土矿物关系不明显。(含)稀土矿物(尤其是榍石)对风化壳中稀土元素的贡献量超过 50%,其次为斜长石,是风化壳中REE的重要来源。 相似文献