内蒙古贺根山北乌兰德勒花岗岩体锆石U——Pb 测年、地球化学特征及其构造意义     

张阔  孙丰月  赵小亮  关琴  娄允赫  李承东  赵利刚 《世界地质》2013,32(2):244-254

乌兰德勒岩体为一个由两次岩浆侵入形成的大型复式岩体,主要由黑云母正长花岗岩和黑云母二长花岗岩组成,两种岩石的形成年龄分别为140 ± 2 Ma 和161 ± 1 Ma。黑云母正长花岗岩显示高分异花岗岩的地球化学特征,该类岩石与成矿关系密切。黑云母二长花岗岩表现为低Sr 高Yb 的地球化学特征。地球化学资料显示黑云母二长花岗岩为A 型花岗岩,形成时的构造环境为伸展体制。  相似文献   

内蒙古四子王旗黑脑包岩体年代学与地球化学特征及其构造演化     

熊光强  赵洪涛  刘敏  张达  王浩然  王忠 《地质力学学报》2013,19(2):162-177

内蒙古四子王旗黑脑包岩体位于华北板块北缘早古生代增生造山带,主要由花岗闪长岩和花岗斑岩组成。对花岗闪长岩进行La-ICP-MS锆石U-Pb定年,获得四子王旗黑脑包侵入岩体的2个侵位年龄为407.4±4.7 Ma和268.0±2.7 Ma,分别代表洋陆俯冲事件以及陆陆碰撞事件年龄。岩石地球化学数据显示,四子王旗黑脑包岩体属钙碱性系列,逐步向低钾拉斑系列靠近,并且亏损高场强元素。同位素地质年龄及地球化学数据表明,样品具有同碰撞花岗岩特征。结合区域大地构造背景认为,四子王旗黑脑包地区主要构造背景为西伯利亚板块与华北板块之间俯冲、碰撞和对接过程,属古亚洲洋构造域,而后期的构造演化还有待进一步研究。  相似文献   

玲珑花岗岩体的变形磁组构特征及其与金矿的关系   总被引：4，自引：1，他引：3       下载免费PDF全文

周伟新  万天丰 《地质科学》2000,35(4):385-395

本文利用磁组构的方法对玲珑花岗岩体的磁组构特征及其与金矿的关系进行研究.玲珑岩体的磁化率各向异性度P的平均值为1.2872,具有典型的构造变形成因特点;磁面理围绕其西北侧的北截花岗闪长岩展布,倾角平缓;磁线理呈SW向近水平展布.玲珑岩体的变形磁组构的特征表明玲珑岩体的变形磁组构是由于后期侵入的北截郭家岭花岗闪长岩体侵入造成的.研究还发现除了断裂的控矿作用以外,位于玲珑岩体内部和边缘的金矿和磁化率各向异性间存在密切的空间对应关系.金矿往往位于磁化率各向异性度P值高的区域,而磁化率各向异性度P值低的区域金矿很少.  相似文献   

Emplacement of the Ardara pluton (Ireland): new constraints from magnetic fabrics, rock fabrics and age dating     

S. Siegesmund  J. K. Becker 《International Journal of Earth Sciences》2000,89(2):307-327

The Ardara pluton as part of the Donegal batholith was intruded into Neoproterozoic metasediments and metadolerites at mid-crustal levels. The emplacement mechanism of the Ardara granite is very controversial, and mechanisms ranging from diapirism, ballooning and stoping followed by nested diapirism have been proposed. Magnetic fabrics, rock fabrics and K/Ar dating of micas are used here to constrain the emplacement history. The compositional zoning of the Ardara pluton is clearly reflected in the different bulk magnetic susceptibilities between the outer quartz monzodiorite and the central granodiorite, whereas the intervening tonalite is of intermediate nature. The magnetic carriers are characterized by the anisotropy of the magnetic susceptibility (AMS), thermomagnetic measurements and through high field analyses (HFA). The separation of the ferrimagnetic and paramagnetic contributions revealed that biotite and magnetite control the AMS in the quartz monzodiorite. Both minerals are oriented in such a way that their summed contribution is constructive and originates from the shape fabric of magnetite and the texture of biotite. Biotite is responsible mainly for the AMS in the tonalite and granodiorite. The magnetic foliation can be directly related to the macroscopic foliation and also to the D4 structures in the country rocks. The foliation is consistent with the geometry of the roughly circular shape and has a mostly steep to vertical dip. Towards the central granodiorite the magnetic foliation dies out, although plagioclase texture measurements indicate a weak magmatic shape fabric. With the exception of the tail, the K_max axes (magnetic lineation) vary from steeply to gently plunging. The so-called lineation factor is approximately 1.01 and therefore points to a less significant axial symmetry. These observations coincide with strain estimates on mafic enclaves that show a very consistent pattern of K ∼0 flattening strain. Texture analyses of biotite and quartz additionally support the observations made by the strain analyses and the magnetic fabric data. Microstructural investigations give evidence that the fabrics are associated with the emplacement over a range of temperatures from truly magmatic to high-temperature solid-state conditions. The age of the intrusion is still under discussion, but a new cooling age was determined by K/Ar dating of biotite at 403.7±8 Ma corresponding to a temperature range between 450 and 300°C. For a mylonite along the southern contact between the Ardara pluton and the country rock a K/Ar muscovite age of 378.8±7 Ma indicates a minimum age for the shear zone when the Ardara pluton must have already been cooled down below 350±50°C. Received: 28 January 1999 / Accepted: 28 December 1999  相似文献   

大别山双河片麻状花岗岩岩体石英组构特征及应变分析   总被引：2，自引：1，他引：1  

刘强  杨坤光 《地质力学学报》2002,8(2):149-155

对大别山双河片麻状花岗岩岩体中的石英C轴组构、黑云母(001)解理极点和石英颗粒三维应变分别进行系统测量。结果显示,双河岩体在侵位和后期演化过程中以挤压变形为特点,岩体经过NW-SE向和NE-SW向两次挤压,NW-SE向挤压强度较大,奠定了岩体基本的构造形态。结合区域应力场特征分析得出,双河岩体在早三叠世至早侏罗世应力方位为NW-SE向挤压,中侏罗世及后期为NE-SW向挤压,应力场发生顺时针变化。   相似文献   

西天山喀拉达拉基性岩体及其构造背景   总被引：3，自引：0，他引：3  

张云孝  李向东  张冀 《新疆地质》2000,18(3):258-263

在中国西天山伊什基里克山一带,发育有一系列橄榄辉长岩、橄长岩、辉长岩、辉绿岩床和岩墙群,同位素年龄为２７７～２９７Ｍａ。其中哈拉达拉层状橄榄辉绿长岩－辉绿辉长岩体（又称大桥岩体）规模最大,约２５．５ｋｍ＾２。根据近年来的实地研究,认为该岩体形成于伊犁盆地石炭一二叠纪裂谷带发育的构造背景之下,既有大量碱性玄武岩和火山碎屑岩,又有一定数量的基性一超基性杂岩和层状辉长侵入体,经历了稳定－亚稳定－稳定的演  相似文献   

招平断裂带中段深部结构构造——来自地震剖面的证据   总被引：1，自引：0，他引：1       下载免费PDF全文

单伟  于学峰  李洪奎  郭宝奎  耿科  李大鹏  禚传源 《山东国土资源》2018,34(5)

玲珑花岗岩岩基东侧的招平断裂带是胶西北矿集区的主要控矿构造之一。布设于招平断裂带中段大尹格庄矿区的地震剖面,揭示了招平断裂带中段深部的结构构造特征,地震剖面显示,玲珑岩基内部有多个类似"拱弧构造"的岩浆侵入形成的弧形界面,由此推测存在2~3期的岩浆活动。剖面显示了3期构造组合样式,第1期为以招平断裂带和宋家河断裂为组合倾向SE的铲式断裂,底部似汇入统一的构造滑脱带;第2期为倾向NW的错断了招平断裂带的反倾伸展断裂;第3期为NE向延伸以花状构造为特征的走滑断裂。前两期反映构造发育处于伸展环境,第3期显示为左行走滑。招平断裂带深部延伸存在分支复合现象,形成由2个主裂面夹持的透镜状岩片。地震反射剖面数据的获得对深刻理解该区域中生代岩浆构造演化过程和深部找矿具有重要的借鉴意义。  相似文献   

西藏冈底斯带西部达雄岩体的岩石成因:锆石U-Pb年龄和Hf同位素约束   总被引：12，自引：8，他引：4  

周长勇  朱弟成  赵志丹  许继峰  王立全  陈海红  谢烈文  董国臣  周肃 《岩石学报》2008,24(2)

对出露于冈底斯西部地区措勤北部达瓦错东侧的达雄岩体进行了锆石U-Pb定年、全岩主量元素、微量元素、Sr-Nd同位素和锆石Hf同位素研究,以约束其岩石成因。达雄岩体的主体岩性为花岗闪长岩,其中发育大量闪长质包体。花岗闪长岩的锆石LA-ICP MS年龄为107±1Ma,该年龄代表了岩体结晶年龄。花岗闪长岩锆石ε_(Hf)(t)值变化于-1.0～3.0,两阶段模式年龄变化于974～1226Ma。花岗闪长岩富硅(SiO_2=70.65%～71.10%),富钙(CaO=3.21%-3.26%)、贫钾(K_2O= 2.81%～2.99%)、低P_2O_5(0.09%),铝饱和指数(A/CNK)为1.01～1.02,属于偏铝质花岗岩或弱过铝质花岗岩。闪长质包体Sio_2含量为57.84%,与寄主岩相比,闪长质包体更富CaO、MgO、TFe_2O_3和TiO_2。花岗闪长岩和闪长质包体均属中钾钙碱性系列,ε_(Nd)(t)值分别为-4.6和-3.2,两阶段模式年龄(t_(DM2))相近(分别为1277Ma和1166Ma),并与锆石Hf同位素模式年龄一致。岩相学、年代学和地球化学研究表明闪长质包体可能是由岩浆混合作用形成的镁铁质微粒包体。我们的初步研究成果似乎表明,冈底斯中西部地区在早白垩世晚期(～110Na)很可能存在一次重要的岩浆混合作用,这一初步认识对研究冈底斯中北部地区规模宏大的白垩纪岩浆作用的深部动力学过程具有重要意义。  相似文献   

闽西南地区紫金山岩体锆石SHRIMP定年及其地质意义   总被引：18，自引：2，他引：16       下载免费PDF全文

赵希林  毛建仁陈 荣 许乃政 《中国地质》2008,35(4):590-597

笔者通过锆石SHRIMP定年,精确厘定了紫金山岩体的成岩成矿时代.紫金山黑云母化岗岩中锆石CL图像显示锆石分为3种形态,定年结果显示这3种锆石有不同的年龄,具有不同的地质意义.第一种锆石晶形发育、具有核一边双层结构.核部的锆石呈磨网状,这类锆石为继承性锆石,年龄为1000 Ma左右;第二种锆石晶形发育良好,但是呈不完整形态,有不清晰的生长环带或者无生长环带,呈现岩浆锆石的特征,年龄为168±4 Ma(n=13,MSWD=0.97),这一年龄应代表了岩石的结晶年龄,属于中侏罗世;第三种锆石晶形发育良好,有清晰的生长环带,这种锆石受后期改造作用,年龄为(119±15)Ma,属于早白垩世.(168±4)Ma时本区并未发生大规模的成矿事件,因此紫金山岩体主体并非含矿岩体,仅有轻微的锡矿化.紫金山花岗岩锆石SHRIMP定年的第三组年龄为(119±15)Ma是大规模成矿作用的记录,可能正是这一期的热液作用开始了本区大规模的长时期的多期次的岩浆热液作用的序幕,从而为本区铜金成矿作用奠定了基础.  相似文献   

Igneous banding, schlieren and mafic enclaves in calc-alkaline granites: The Budduso pluton (Sardinia)     

P. Barbey  D. Gasquet  C. Pin  A.L. Bourgeix   《Lithos》2008,104(1-4):147-163

This study deals with the origin of igneous layering in plutons, and, especially, the extent layering is related to mafic–silicic magma interactions. The Budduso pluton (Sardinia) shows three main scales of organization.(i) Large scale lithological variations correspond to three main magmatic units, with differentiation increasing from the Outer (hornblende-bearing biotite granodiorite/monzogranite) to the Middle (biotite monzogranite) and the Inner (leucomonzogranite) units. The striking homogeneity of ⁸⁷Sr/⁸⁶Sr initial ratios (0.7090 ± 4) and ε_Nd(t) values (− 5.6 ± 0.1) strongly suggests that magma isotopic equilibration was achieved prior to emplacement, whereas mixing/mingling structures observed within the pluton reflect second-stage processes involving broadly cogenetic components.(ii) Metre to decametre-scale igneous layering may be isomodal or modally-graded, locally with cross-layering. Biotite and plagioclase compositions are similar in both biotite-rich and quartzofeldspathic layers, as are the trace-element patterns which differ only by relative abundances. This precludes an origin by fractional crystallization. A penetrative submagmatic fabric superimposed on the layering and corresponding mainly to flattening can be ascribed to interference between pluton growth and regional deformation.(iii) Composite layering and schlieren are commonly associated to mafic microgranular enclaves, locally within synmagmatic shear zones or disrupted synplutonic dykes. In that case, there is a progressive shift in biotite X_Fe values from the core of enclave ( 0.65) to the host monzogranite ( 0.72): schlieren in the monzogranite show biotite X_Fe values similar to that of the host rock, whereas schlieren close to mafic enclaves show lower X_Fe values ( 0.69) towards those of enclave rims.These features can be ascribed to three main processes: (i) assembly of differentiated (± mixed/mingled) magmatic pulses; (ii) local hydrodynamic sorting related to density currents in a mush, and segregation of residual melt; (iii) mechanical disruption and chemical hybridization of mafic magmas during ascent or within the pluton related to magma dynamics. None of these processes affect the whole pluton but they are limited to specific magmatic units. Therefore, pluton growth by incremental assembly of magma batches is not incompatible with magma chamber processes.  相似文献