铜陵凤凰山岩体SHRIMP锆石U-Pb年龄与构造变形及其对岩体侵位动力学背景的制约   总被引：31，自引：0，他引：31  

张达  吴淦国  狄永军  臧文拴  邵拥军  余心起  张祥信  汪群峰 《地球科学》2006,31(6):823-829

地球动力环境对岩浆来源和侵位机制具有重要的控制作用.铜陵矿集区中生代中酸性侵入岩和大规模成矿作用有密切关系.凤凰山岩体为凤凰山矿田的主要组成部分, 主要岩石类型为花岗闪长岩、石英二长闪长岩.根据精确锆石SHRIMP测年结果, 凤凰山岩体206Pb/238U年龄为(144.2±2.3) Ma, 是晚侏罗世形成的一个典型岩体, 和铜陵矿集区主要成矿岩体的形成时代一致.接触带构造变形特征显示岩体侵位受控于区域左旋剪切应力场作用.内部构造变形特征表明凤凰山岩体在深部主要为左旋螺旋式强力上升, 浅部为气球膨胀式主动侵位.岩体形成时代及构造变形特征表现出晚侏罗世铜陵矿集区和成矿有关的侵入岩系列的形成可能和古太平洋板块的向北斜向俯冲所导致的左旋剪切应力场有关.   相似文献   

南岭大东山岩体北部40Ar-39Ar定年及地球化学特征   总被引：15，自引：1，他引：14  

马铁球  柏道远  邝军  彭学军  王先辉 《地球化学》2006,35(4):346-358

南岭中段大东山岩体为中侏罗世、多期次形成的花岗岩体,由四个岩石单元组成,较早次单元岩性为黑云母二长花岗岩,较晚次单元为黑云母花岗岩。黑云母40Ar/39Ar法坪年龄为(162.3±1.2)Ma。相对于同时代花岗岩,岩石更富K和Si,贫Ti、Mg、Ca和P。其中SiO2为75.18%～76.49%;K2O为4.96%～6.13%。铝饱和指数(ASI)为0.92～1.26,平均1.03,属铁质、准铝质-微过铝质、高钾钙碱性系列。微量元素具Ba、Sr、P、Ti等亏损和Th、La、Nd、Sm等相对富集的特点;富含稀土元素(∑REE平均355μg/g)。ISr值为0.7054～0.7330,εNd(t)值为-7.4～-10.9,t2DM为1.55～1.84Ga,表明成岩物质源自中元古代地壳,并有少量地幔物质的混染,多种相关图解判别均显示其为A型花岗岩。岩石地球化学特征以及区域构造背景研究等表明,岩石形成于挤压造山向非造山转换的后造山拉张环境。  相似文献   

辽北西丰地区晚侏罗世营厂岩体LA-ICP-MS锆石U-Pb年龄及岩石地球化学特征          下载免费PDF全文

彭游博  刘文彬  赵军  姚玉健  刘锦  梁斯文 《地质找矿论丛》2022,37(3):344-353

营厂岩体分布于辽北西丰县和隆镇境内，研究结果表明，该岩体主要为似斑状二长花岗岩，锆石²⁰⁶Pb/²³⁸U年龄加权平均值为156.1 Ma±1.5 Ma，形成时代为晚侏罗世。营厂岩体w（Na₂O）/w（K₂O）平均值为1.07，属高钾钙碱性系列；里特曼指数σ平均值为2.15，属钙碱系列；铝饱和指数A/CNK平均值为1.16，A/CN平均值为1.99，属过铝型；Rb、Sr、Ba、Th、Hf含量偏高，Cr、Ni、Co、V、Rb、Zr、Nb等元素含量低，为"S"型花岗岩特征。稀土元素总量平均值为w（ΣREE）＝82.80×10^-6，w（LREE）/w（HREE）=15.76，w（La）_N/w（Yb）_N=24.32，表明其轻稀土相对富集，重稀土相对亏损，稀土配分曲线右倾。δEu=0.80，铕弱负异常，说明成因与板块运动有关，w（Sm）/w（Nd）=0.20，w（Ba）/w（Sr）=1.60，w（K）/w（Rb）=249.15，表明具有壳源性质。营厂岩体具有埃达克岩的特点，其属于受太平洋板块向欧亚板块俯冲作用的影响，在挤压环境下加厚下地壳部分熔融，从而形成活动陆缘型花岗岩。  相似文献   

Geochronology,petrogenesis and tectonic implications of the Zhongchuan granitic pluton in the Western Qinling metallogenic belt,China     

Laimin Zhu  Guowei Zhang  Tao Yang  Fei Wang  Hujun Gong 《Geological Journal》2013,48(4):310-334

The Zhongchuan district is an important component of the metallogenic belt in the Western Qinling. The Zhongchuan granite pluton occurring in the centre of the Zhongchuan metallogenic area has been poorly constrained, though the Triassic granite in Western Qinling has been well documented. In‐situ zircon U–Pb ages, Hf isotopic compositions and whole‐rock geochemical data are presented for host granite and mafic microgranular enclaves (MMES) from the Zhongchuan pluton, in order to constrain its sources, petrogenesis and tectonic setting of the pluton. The distribution of major, trace and rare earth elements apparently reflect exchange between the MMES and the host granitic rocks mainly due to interactions between coeval felsic host magma and mafic magma. The zircon U–Pb age of host granite (231.6 ± 1.5 to 235.8 ± 2.3 Ma) has overlapping uncertainty with that of the MMES (236.6 ± 1.3 Ma), establishing that the mafic and felsic magmas were coeval. The Hf isotopic composition of the MMES (ε_Hf(t) = −13.4 to 4.0) is distinct from the host granite (ε_Hf(t) = −15.7 to 0.0), indicating that both enriched subcontinental lithosphere mantle (SCLM) and crustal sources contributed to their origin. The zircons have two‐stage Hf model ages of 1064 to 1798 Ma for the host granite and 858 to 1747 Ma for the MMES. This suggests that the granitic pluton was likely derived from partial melting of a Late Mesoproterozoic crust, with subsequent interaction with the SCLM‐derived mafic magmas in tectonic affinity to the South China Block. Copyright © 2012 John Wiley & Sons, Ltd.  相似文献