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北阿尔金巴什考供-斯米尔布拉克花岗杂岩特征及锆石SHRIMP U-Pb定年 总被引:6,自引:0,他引:6
北阿尔金巴什考供-斯米尔布拉克杂岩体位于巴什考供盆地北缘, 呈东西向展布, 宽约 2~6 km, 长约30 km, 出露面积约140 km2. 主要由灰黑色石英闪长岩、灰白色花岗岩、粉红色花岗岩和花岗伟晶岩组成. 围岩为前寒武系片岩、变质泥岩及变质凝灰岩. 岩石地球化学特征表明, 石英闪长岩属钙碱性系列, 具有Ⅰ型花岗岩的属性; 而粉红色和灰白色花岗岩属高钾钙碱性系列, 具有S型花岗岩的属性. 锆石SHRIMP定年结果表明, 石英闪长岩的年龄为(481.6±5.6) Ma, 而灰白色花岗岩和粉红色花岗岩的年龄在误差范围内基本一致, 分别为(437.0±3.0)~(433.1±3.4) Ma 和(443±11)~(434.6±1.6) Ma. 结合区域地质特征, 认为石英闪长岩可能形成于洋壳俯冲环境, 而灰白色和粉红色花岗岩可能形成于碰撞后环境. 相似文献
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华南中、新生代与花岗岩类有关的成矿系统 总被引:45,自引:2,他引:45
华南地区中、新生代的大规模金属成矿作用与花岗岩类活动密切相关, 并因此而呈现出丰富多彩的特征; 而不同来源、不同性质的花岗质岩浆活动又是该地区岩石圈演化过程不同时期、不同构造动力学背景的产物. 本文把华南地区与中、新生代花岗岩类有关的矿床划分为4个成矿系统, 即: (ⅰ)与钙碱性火山-侵入(花岗质)岩浆活动有关的“斑岩-浅成热液金-铜成矿系统”; (ⅱ)与陆壳重熔型花岗岩类有关的钨锡铌钽稀有金属成矿系统; (ⅲ)与富钾花岗岩类有关的铜多金属成矿系统, 以及(ⅳ)与A型花岗岩类有关的金铜及稀土成矿系统; 并简要地讨论了它们的基本特征. 从根本上来说, 华南地区中、新生代不同来源的花岗岩类及与其有关的成矿作用都是在伸展-拉张环境下壳-幔相互作用的结果. 相似文献
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梅子坑钼矿位于九岭钨钼成矿带,为中型石英脉型钼矿床。矿区内地层和岩浆岩钼元素含量分别是克拉克值的43倍和21倍。矿体赋存于双桥山群修水组浅变质岩系中及北西向断裂控制的裂隙密集带中;矿石主要类型为石英脉型,矿石有益组分为辉钼矿,形成于石英-黄铁矿-辉钼矿-黄铜矿早期矿化阶段。矿床可能与隐伏的燕山期细粒花岗岩、花岗斑岩岩脉有成因关系,属与燕山期岩浆活动有关的中-高温热液矿床。北西向断裂密集带,硅化、云英岩化、黄铁矿化围岩蚀变,燕山期花岗岩类及双桥山群浅变质岩系,是其主要找矿标志。 相似文献
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桐柏-大别山南缘的志留纪A型花岗岩类: SHRIMP锆石年代学和地球化学证据 总被引:1,自引:1,他引:1
采用锆石SHRIMP U-Pb定年方法, 获得桐柏-大别山南缘随州黄羊山岩体中钠闪石石英正长岩的岩浆锆石年龄为439±6 Ma. 根据锆石形貌特征和高的Th/U比值, 该年龄代表了岩体的结晶年龄. 黄羊山岩体岩石类型主要为过碱性石英正长岩、碱性花岗岩和正长岩, 它们具有高的碱性指数(A.I. = (Na + K)/Al, 摩尔比)和Fe/Mg指数[FeOT/(FeOT+MgO)], 低CaO和MgO等特征, 岩石富含Nb, Zr, Ga, Y, Hf等高场强元素、轻稀土富集、具明显负Eu异常和高的Ga/Al比值, 与非造山环境中的A型花岗岩类的地球化学特征相一致. 黄羊山A型花岗岩类为南秦岭-南大别古生代碱性岩带的一部分, 是在古特提斯洋扩张背景下扬子克拉通北缘伸展作用的产物. 相似文献
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广东南山花岗岩体位于陂头复式岩体西端,锆石的SHRIMP U-Pb年龄为158.1±1.8Ma,是燕山早期岩浆活动的产物。岩石化学特征显示岩体以高硅、富碱、贫Ca和Mg以及高TFeO/MgO、低CaO/Na2O为特征。其K2O/Na2O〉1,A/NK=7.8~11.92,A/CNK=1.33~1.68,属过铝质碱性岩石。在稀土和微量元素组成上,岩石富含稀土元素(除明显的负Eu异常,δEu=0.09~0.16)以及Zr、Y、Th、U、Nb等高场强元素,贫Ba、Sr、Ti等,高10000x Ga/Al(比值大于2.6)。在Zr、Nb、Ce、Y对10000×Ga/Al以及TFeO/MgO-SiO2等A型花岗岩多种判别图上,投影点主要落在A型花岗岩区,而与高分异的I、S型花岗岩明显不同。这些特征均指示,南山岩体具有铝质A型花岗岩的特点。通过Y-Nb-3Ga和Y-Nb-Ce构造环境判别图解将其进一步划分为A2型花岗岩,代表其形成于拉张的构造背景之下。本文在此研究基础上,认为南山花岗质岩浆可能形成于相对挤压的中侏罗世。而在晚侏罗世早期相对拉张的作用下,岩石圈减薄,软流圈地幔上涌,地壳的泥质岩和少量砂质岩受到幔源流体富集后发生部分熔融后上侵形成铝质A型花岗岩,且有较强的结晶分异作用。 相似文献
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内蒙古锡林浩特I型花岗岩的时代及构造意义 总被引:1,自引:0,他引:1
在内蒙古锡林浩特水库地区出露的花岗岩确定为I型花岗岩,具有较高的Cr、Co、Ni丰度。Ca、Al含量和N2O/K2O比值较高,Fe、Mg含量较低。微量元素蛛网图中显示出明显的Nb、Ta、P、Ti负异常。在SiO2-K2O及AFM图中,花岗质岩石投在钙碱性系列区;在构造环境判别图中,花岗质岩石样品都投在火山弧+同碰撞花岗岩区。锆石测年结果显示平均年龄为317.0±4.0Ma,属晚石炭世。这套晚石炭世岛弧花岗岩的存在,表明加里东期古亚洲洋并未完全关闭,晚石炭世时仍然存在洋壳的俯冲消减事件。从区域上看,是北侧的贺根山洋盆向南俯冲的结果。 相似文献
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湘西南兰蓉岩体为一加里东期小侵入体,由黑云母二长花岗岩和二云母二长花岗岩组成.(443.5±8.1)Ma的锆石SHRIMP U Pb年龄表明花岗岩形成于早志留世早期.主量元素组成表明岩体总体属钙碱性高钾钙碱性系列强过铝质花岗岩类.该侵入体Ba、(Ta+Nb)、Sr、P、Ti强烈亏损,Rb、(Th+U+K)、(La+Ce)、Nd、(Zr+Hf+Sm)、(Y+Yb+Lu)等相对富集;稀土元素含量较高、轻稀土富集明显、Eu显著亏损;Isr值为0.71299,εSr(t)值为120,εNd (t)值为 8.11和-8.89,t2DM为1.82和1.84Ga.C/MF-A/MF图解显示其源岩为泥质岩和砂屑岩.上述地球化学特征表明兰蓉岩体为陆壳碎屑岩石部分熔融形成的S型花岗岩.基于岩石成因、构造环境判别以及区域构造演化过程,推断兰蓉岩体的具体形成机制为:奥陶纪末志留纪初的北流运动(板内造山运动)导致地壳增厚、升温,尔后在挤压减弱、应力松弛的后碰撞减压构造环境下,中、上地壳酸性岩石发生部分熔融并向上侵位而形成兰蓉岩体. 相似文献
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《中国科学:地球科学》2017,(11)
皖南地区燕山期岩浆作用强烈,可划分为早阶段(152~137Ma)和晚阶段(136~122Ma).野外调查发现,屯溪地区沿青山-长陔发育一条燕山期花岗岩带,与钼多金属矿床具有密切的成因关系.黄山岩体是皖南地区代表性的正长花岗岩体,目前尚未发现与成矿有关.锆石LA-ICP-MS定年结果表明,青山-长陔带4个花岗岩体的形成时代一致,介于(140±4)~(141±2)Ma,属于燕山期早阶段岩浆作用.黄山花岗岩体的形成时代为(129±2)Ma,属于晚阶段岩浆作用,青山-长陔带花岗岩具有较高的SiO_2含量,相对富K_2O、低P_2O_5以及中等程度的Al_2O_3含量,属于高钾钙碱性系列准铝质Ⅰ型花岗岩.这些岩石均表现出富集大离子亲石元素和轻稀土元素,亏损高场强元素,中等程度的Eu负异常,为岛弧或大陆壳源岩浆地球化学特征.样品的~(87)Sr/~(86)Sr(t)介于0.7120~0.7125,ε_(Nd)(t)值为-7.24~-4.38,锆石ε_(Hf)(t)值为-4.4~6.7,类似于同时期皖南成矿花岗闪长岩.综合地球化学研究表明,皖南燕山期成矿花岗闪长岩为中-新元古代增生加厚下地壳部分熔融的产物,而青山-长陔带花岗岩为这种岩浆经过斜长石+角闪石+上溪群的结晶分异同化混染(AFC)过程形成.黄山花岗岩富SiO_2和K_2O,Al_2O_3含量中等,具有海鸥式稀土元素配分型式和显著的Eu负异常.相比青山-长陔带花岗岩,黄山岩体具有更加显著的Ba、Sr、P和Ti的负异常,没有Nb和Ta的亏损,为高钾钙碱性准铝质A型花岗岩,其ε_(Hf)(t)值介于-6.6~-1.2,类似于早阶段成矿花岗闪长岩.黄山花岗岩同样起源于中-新元古代增生地壳的深熔作用,但岩浆源区为经过了燕山期早阶段Ⅰ型中酸性岩浆抽取后的残留麻粒岩质地壳.两期花岗岩的比较研究表明,早阶段花岗岩形成于相对厚的下地壳环境,温度较低,源区为中-新元古代增生地壳,富含成矿物质,岩浆AFC演化过程进一步加强了成矿物质的富集;而晚阶段A型花岗岩起源深度较浅,形成温度更高,源区由于早期的岩浆抽取作用而亏损成矿物质,从而成矿能力较弱,指示从早至晚,岩浆作用阶段从后造山转变为非造山.后者对应着古太平洋板块俯冲角度加大背景下的弧后拉张环境. 相似文献
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近年来,针对秦岭造山带晚三叠世花岗岩体侵位机制的巨大争议,一些研究采用磁组构方法分析了岩体的内部组构特征及其与区域构造的关系,提出了具有重要意义的新认识.然而,目前这些研究均缺乏对岩体磁组构本质意义的分析,利用该方法约束岩体内部组构的可靠性并不十分清晰.针对这一问题,本文以秦岭造山带内具典型代表性意义的晚三叠世糜署岭花岗岩体为例,开展了该岩体的磁组构、岩石磁学、矿物形态组构和显微构造的综合研究.结果表明,糜署岭岩体的磁化率总体较低,属钛铁矿系列花岗岩.绝大部分样品的磁化率受控于顺磁性的黑云母等铁镁硅酸盐矿物,部分高磁化率样品包含了少量多畴磁铁矿等铁磁性组分的贡献,且随磁化率增大,铁磁性组分的贡献更为明显.样品的磁组构也主要是黑云母组构或由黑云母与磁铁矿的亚组构复合而成.由于样品中磁铁矿含量较低且与黑云母密切共生,磁组构与黑云母形态组构基本一致,因此,黑云母与磁铁矿的亚组构基本共轴.糜署岭岩体的磁组构本质上等同于黑云母组构,反映了黑云母等页硅酸盐矿物在岩体中的分布,可以有效的指示岩体的内部构造特征.宏观和显微构造观察还显示,糜署岭岩体的内部组构形成于岩浆侵位的晚期阶段,叠加了同岩浆期区域构造的关键信息,是从岩体构造角度开展区域构造演化的良好载体. 相似文献
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分布于湖南东北部的石蛤蟆岩体侵位于新元古代地层中。由微细粒斑状黑云母花岗闪长岩和细粒斑状黑云母二长花岗岩等两期侵入体组成。通过锆石SHRIM PU--Pb法测得岩体侵位年龄为157土2Ma(2d),MSWD=0.98,成岩时代为晚侏罗世。SiO2=68.26%~68.53%,K2O/Na2O=1.37~1.59,岩石属镁质、准铝质-微过铝质、高钾钙碱性-钾玄岩系列;岩石明显富集大离子亲石元素,亏损高场强元素,Rb/Sr较低(0.40~0.56);乏REE较高(171.48~183.81),Eu为弱负异常(δEu=0.86~0.93),(La/Yb)N=27.11~45.87;具较高的eNd值(-5.11)和高T2DM(1.63Ga)。综合研究表明,石蛤蟆花岗岩为混合源高钾钙碱性花岗岩类(KCG),其花岗岩浆有大量幔源物质加入。讨论认为岩体形成于构造体制转换下的地球动力学背景,是造山晚期张弛作用下的产物。 相似文献
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SHRIMP U-Pb zircon age, geochemistry and Nd isotope of the Guandaoshan pluton in SW Sichuan: Petrogenesis and tectonic significance 总被引:3,自引:0,他引:3
SHRIMP U-Pb zircon age, geochemical and Nd isotopic data are reported for the Neoproterozoic Guandaoshan pluton in the Yanbian region, SW Sichuan. This pluton is of typical I-type granite and emplaced at (857±13) Ma. Geochemical and Nd isotopic characters suggest that the pluton was generated by partial melting of pre-existing, young (late Mesoproterozoic to early Neoproterozoic) low-K tholeiitic protolith within an intraplate anorogenic setting. The Guandaoshan pluton probably records the earliest magmatism induced by the proposed ca. 860-750 Ma mantle superplume beneath the supercontinent Rodinia. 相似文献
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SHRIMP U-Pb zircon age, geochemical and Nd isotopic data are reported for the Neo-proterozoic Guandaoshan pluton in the Yanbian region, SW Sichuan. This pluton is of typical I-type granite and emplaced at (857 ± 13) Ma. Geochemical and Nd isotopic characters suggest that the pluton was generated by partial melting of pre-existing, young (late Mesoproterozoic to early Neo-proterozoic) low-K tholeiitic protolith within an intraplate anorogenic setting. The Guandaoshan pluton probably records the earliest magmatism induced by the proposed ca. 860–750 Ma mantle superplume beneath the supercontinent Rodinia. 相似文献
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Age of Yingfeng rapakivi granite pluton on the north flank of Qaidam and its geological significance 总被引:2,自引:0,他引:2
Rapakivi granite is a very rare and special type of rocks in the crust. Nearly all the typical Proterozoic rapakivi occurred in stable craton, and was regarded as representing special anorogenic settings and rifting events of the supercontinents. Therefore, rapakivi has constantly been attracting the attention of researchers from various countries[15]. For example, the Protero- zoic rapakivi granites occurring in Miyun, Beijing, has been studied in detail by the researchers both at home and … 相似文献
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Xianhua Li Zhengxiang Li Hanwen Zhou Ying Liu Xirong Liang Wuxian Li 《中国科学:地球科学(英文版)》2003,46(1):73-83
SHRIMP U-Pb zircon age, geochemical and Nd isotopic data are reported for the Neo-proterozoic Guandaoshan pluton in the Yanbian region, SW Sichuan. This pluton is of typical I-type granite and emplaced at (857 ± 13) Ma. Geochemical and Nd isotopic characters suggest that the pluton was generated by partial melting of pre-existing, young (late Mesoproterozoic to early Neo-proterozoic) low-K tholeiitic protolith within an intraplate anorogenic setting. The Guandaoshan pluton probably records the earliest magmatism induced by the proposed ca. 860–750 Ma mantle superplume beneath the supercontinent Rodinia.
相似文献17.
Igneous rocks are fractured during cooling from magma to form cooling joints, which are typically columnar joints in volcanic rocks, while orthogonal joints are considered typical for plutonic rocks. We performed a 3D study of joint systems in a granitic batholith of the Okueyama granite in western Japan, which has its roof and its internal structures from the roof to 1000 m downward exposed. We used an unmanned aerial vehicle (UAV) to observe the joints in outcrops from various angles. Based on our study, we propose a schematic model for joint systems in a granitic pluton. A granitic pluton has zones of rock columns below the roof and next to the wall. The rock column zone below the roof is as thick as 300 m, and its higher portions form steep cliffs, probably because of increased resistance to weathering. The axes of the rock columns are nearly vertical below the roof and gently plunge next to the walls, with high intersection angles with the wall. The distribution of columnar joints near only the roof and walls suggests that the granite cooled more rapidly near the roof and walls than in the core of the pluton. When the granite was jointed by parallel joints during cooling, the rock slabs between the parallel joints near the roof and the walls are subdivided into columns with polygonal cross-sections. This suggests that the granite was fractured by parallel joints at a temperature immediately below the solidus, after which the rock slabs were subdivided into rock columns during further cooling. 相似文献
18.
新疆库鲁克塔格新元古代花岗岩年龄和地球化学 总被引:3,自引:0,他引:3
本文报道了新疆塔里木北缘库鲁克塔格地区新元古代孤山岩体(或太阳岛岩体)的岩石学、锆石U-Pb年龄及地球化学组成。研究表明:该岩体主要由英云闪长岩、奥长花岗岩及正长花岗岩组成,结晶的时间为795 Ma。其地球化学特征表现为富Na、LREE、LILE及亏损HREE、HFSE,因此具有高的(La/Yb)N及Sr/Y比值,与现代的艾达克岩相似。然而该岩体具有低的Nd初始值及太古代的Nd模式年龄,因此推测其岩浆来自太古代基性下地壳的重熔。鉴于在库鲁克塔格地区发育有800 Ma左右的蛇绿岩,因此我们推测该岩体是碰撞造山引起的加厚的下地壳重熔的结果,代表了塔里木地块前寒武纪基底的最终形成。 相似文献
19.
Source of ore-forming material is always one of the fundamental subjects in the study of mineral deposits. Recently, in order to probe deep sources of ore-forming materials, many interna-tional and Chinese investigators have paid much attention to the rel… 相似文献
20.
Using the induced fission-track method, mobile uranium leaching and lead isotope analysis, this work obtianed geochemical features of the peraluminous Fucheng granite basement and the host rock (shoshonite) of the No. 6722 uranium deposit in southern Jiangxi Province, (i) Uranium contents of the leucocratic rock-forming minerals (0.18 μg/g for quartz, 0.36 μg/g for feldspar) are lower than the uranium content of the whole rock (4.6 μg/g). Biotite and some accessory mineral inclusions (zircon, monazite and uraninite) are the main uranium carriers of the Fucheng granite pluton. The fissure uranium in altered minerals (hydromica and chlorite) increased evidently, (ii) Leachable rate of mobile uranium in the biotite granite is 10.4⨴; while that in the altered granite increased to 31· · (iii) Caculation based on lead isotopes shows that during alteration the Fucheng granite lost uranium (AU = −37%–−65· · ), whereas the Caotaobei shoshonite gained uranium (AU = +37· ·–+58 · ·). These features suggest that the ore-forming material of the No. 6722 uranium deposit was mainly derived from the altered peraluminous granite basement of Fucheng pluton. 相似文献