湖南湘东钨矿区花岗岩地质地球化学特征及意义

通过对湖南湘东钨矿三类花岗岩系统的岩矿鉴定和探针分析,确定燕山早期花岗岩中的长石为碱性长石,钠长石An5,大多数样品An3;而印支期花岗岩的斜长石An=10~15,为更长石。因此,确定邓阜仙复式岩体的岩性,分别为印支期的粗粒斑状黑云母二长花岗岩、燕山早期的中粒斑状白云母碱长花岗岩和细粒碱长花岗岩。系统的常量、微量元素地球化学研究也显示出燕山早期岩浆作用明显不同于印支期花岗岩,具有富硅、偏铝、富钙碱等特点,燕山早期花岗岩为碱长花岗岩,和南岭地区与脉型钨矿有关碱长花岗岩一致。成矿与燕山早期花岗岩浆活动有关。     

内蒙古双尖子山银多金属矿床花岗斑岩年代学、地球化学特征及构造意义

本文对内蒙古双尖子山银多金属矿床花岗斑岩进行了锆石SHRIMP U-Pb定年,并对花岗斑岩的主量元素、微量元素组成进行了分析研究。结果显示,双尖子山花岗斑岩加权平均年龄为(133.4±1.2)Ma,为大兴安岭南段早白垩世岩浆活动集中期产物;花岗斑岩SiO_2含量为68.81%~70.05%,低MgO、TiO_2,K_2O/Na_2O为0.97~1.27,较为富钾;A/CNK在0.94~1.12之间,属准铝-弱过铝系列;富集Rb、Th、U、K等大离子亲石元素(LILE),亏损Sr、P、Ti等高场强元素(HFSE);稀土总量ΣREE中等,δEu为0.55~0.62,Eu中等负异常。本文认为双尖子山银多金属矿床为多期次叠加的岩浆热液型矿床,160Ma和133Ma可能分别是岩浆活动的两个高峰期。花岗斑岩形成于陆内晚造山期-造山期后的伸展环境,蒙古-鄂霍次克洋俯冲板片在深部断离,引发软流圈物质上涌,这是导致大兴安岭南段早白垩世岩石圈伸展环境的主要机制。     

赞比亚谦比西铜矿花岗岩年龄及其指示意义

赞比亚谦比西铜矿位于新元古代卢菲利安弧构造带内。矿体呈似层状分布于新元古代罗安组的砂页岩中。罗安组地层不整合于古元古代穆瓦系砂砾岩之上,穆瓦系砂砾岩不整合于下部谦比西花岗岩基底之上。锆石U-Pb测年结果表明谦比西花岗岩年龄为(1984±6)Ma~(1986±6)Ma;穆瓦系年龄上限为(1932±8)Ma。谦比西花岗岩岩石地球化学、稀土元素与球粒陨石配分特征均表现为S型花岗岩的特征。区域地质资料表明,可能由于古元古代班韦卢地块与坦桑尼亚太古宙克拉通碰撞作用诱发了卢菲利安古元古代花岗岩基底的形成;太古宙刚果克拉通于早元古代(2100~1800 Ma)期间活化,并形成一稳定块体。     

西天山达巴特A型花岗岩的形成时代与构造背景

达巴特花岗斑岩侵入体位于西天山北部的赛里木湖北部,构造上属于准葛尔板块与伊犁.中天山板块之间的造山带.达巴特花岗岩斑岩具有A型花岗岩的特征,如高硅(SiO2=75.38%～77.61%)、碱(Na2O K2O=8.26%～10.10%)和Fe/(Fe Mg)(0.91～0.98),但低Al2O3(12.04～12.9%)和CaO(0.03%～0.42%),富集Rb、Th、U等大离子亲石元素和Nb、Ta、zr、Hf等高场强元素,(Ga/Al)×104值变化于3.19～3.40之间,具有明显的负Eu、Ba和Sr异常,稀土配分显示"海鸥型"特征.达巴特花岗岩斑岩具有较高的Rb/Nb和Y/Nb比值,显示了A2型花岗岩的特征.LA-ICP-MS锆石U-Pb测年结果显示达巴特岩体的侵位年龄为288.9±2.3Ma,并且一些锆石具有老的核(319.0±4.7),暗示花岗岩斑的源岩中可能包含有石炭纪的岩浆岩.结合区域地质和岩浆岩资料,我们认为西天山早二叠世处于伸展的背景中,可能与造山带后碰撞阶段的演化有关.     

新疆西南天山霍什布拉克碱长花岗岩体岩石学及地球化学特征——岩石成因及其构造与成矿意义

位于中国西南天山南缘的霍什布拉克岩体,由碱长花岗岩和碱长花岗斑岩组成。岩石化学成分比较均一,具有富SiO2、Al2O3,贫Fe2O3T、MgO、TiO2、P2O5等特点。AR-SiO2图解中,样品均落入碱性区间,在A/CNK-A/NK图解中,样品主要为准铝质。微量元素总体表现为高场强元素(HFSE)相对于大离子亲石元素的富集以及高场强元素P、Ti和大离子亲石元素Sr、Ba的明显亏损。稀土元素中轻稀土元素相对于重稀土元素富集,Eu的负异常十分明显。岩体含副矿物萤石,并具有高FeOT/MgO、低CaO等特征,10000Ga/Al的比值和Zr+Ni+Sr+Y的含量亦较高,岩石学和地球化学特征表明它为典型的A1型花岗岩,是铁镁质下地壳在低压条件下部分熔融的产物。岩体具有极低的Ti含量是由于源区部分熔融过程中大量磁铁矿的残留所致,而较高的Nb-Ta含量则与岩浆中富含F有关。岩体产出于板内环境,在构造岩体的形成上受到塔里木板块内部裂谷体系的影响。岩体对霍什布拉克铅锌矿成矿意义不大,但具有Sn元素的成矿潜力。     

南秦岭花岗岩锆石U-Pb定年及其地质意义

锆石Ｕ－Ｐｂ定年结果表明,南秦岭勉、略构造带以北迷坝、光头山和东江口等花岗岩体形成于三叠纪（２０６￣２２０Ｍａ）,与南秦岭勉－略构造带洋盆的闭合时代及大别山超高压变质时代基本一致显示了它们的形成与勉－略古生代洋盆闭合后及华南陆块与华北陆块碰撞之间的内在联系。它支持华南和华北两大陆块最终在印支期碰撞的观点。     

东天山阿其克库都克断裂南侧花岗岩和花岗闪长岩锆石SHRIMP U-Pb测年及其地质意义

东天山地区古生代的构造格局一直是地质界争议的问题之一。本文对阿其克库都克断裂南侧花岗岩和花岗闪长岩2个岩体进行锆石SHRIMPU-Pb定年,分别获得318Ma±5Ma和350Ma±7Ma的206Pb/238U表面年龄,综合分析岩体结构及锆石的矿物学特征,将上述2个年龄分别解释为所研究的花岗岩和花岗闪长岩的侵位年龄。通过对已有资料的综合研究,得出如下结论:①中天山地区在古生代期间的构造背景为类似安第斯型的活动陆缘或岛弧链,其形成与南天山洋盆岩石圈板块向北的俯冲作用有关;②花岗闪长岩锆石中还保留有继承锆石的信息,表明研究区存在老于503Ma±9Ma的基底物质;③研究区内沿阿其克库都克断裂右行走滑变形事件的下限时间是350Ma±7Ma,很可能发生在石炭纪以后。     

Highly fractionated I-type granites in NE China (I): geochronology and petrogenesis

Northeastern (NE) China is the easternmost part of the Central Asian Orogenic Belt (CAOB), which is celebrated for its accretionary tectonics and the world's most important juvenile crust production in the Phanerozoic era. Abundant granitoids occur in the Great Xing'an, Lesser Xing'an and Zhangguangcai Ranges in NE China. This paper presents partial results of a series of studies on the granitoids from this region, aiming to understand their role in the building of new continental crust in eastern Asia. Three composite granite plutons (Xinhuatun, Lamashan and Yiershi) were chosen for geochemical and isotopic study in order to determine their emplacement ages and petrogenesis. Petrographically, they range from granodiorite (minor), monzogranite, syenogranite to alkali-feldspar granite. Quartz and perthitic feldspar are principal phases, accompanied by minor amounts of plagioclase, biotite (<5%) and other accessory minerals. In addition, many contain abundant miarolitic cavities which suggest that they were emplaced at shallow levels with extensive fractional crystallization. Geochemically, the granites are silica-rich, peraluminous and have high contents of alkalis. They invariably show enrichment in light rare earth elements (LREE) and significant negative Eu anomalies. All the granitic rocks demonstrate the characteristic negative anomalies in Ba, Nb, Sr, P, Eu, and Ti, and a positive anomaly in Pb in the spidergram.

The emplacement of the Xinhuatun pluton took place at 184±4 Ma as revealed by zircon SHRIMP U–Pb data. This is also supported by the slightly younger Rb–Sr whole-rock (WR) isochron age of 173±3 Ma. A whole-rock (WR) Rb–Sr isochron age of 154±3 Ma was obtained for the Lamashan pluton, which is interpreted as close to the time of emplacement. The Yiershi pluton was intruded at about 140 Ma as evidenced by a zircon U–Pb age of 137±2 Ma and WR Rb–Sr isochron age of 143±5 Ma. Biotite-WR Rb–Sr isochrons and ⁴⁰Ar/³⁹Ar ages of feldspars allow us to estimate the cooling rate of each pluton.

Geochemical data suggest that the rocks are highly fractionated I-type granites. Fractionation of biotite and feldspars was the principal process of magmatic differentiation and responsible for major element variation. Rb, Sr and Ba concentrations were controlled by feldspar separation, whereas REE elements were fractionated by accessory minerals, such as apatite, allanite and monazite.     

湘南骑田岭岩体芙蓉超单元的锆石SHRIMP U-Pb年龄及其地质意义

湘南骑田岭花岗岩体由于与钨锡矿化关系密切而越来越引起人们的关注.骑田岭花岗岩体是一个多阶段侵入的复式岩体,分菜岭、芙蓉和荒塘岭三个超单元.本文报道了对该岩体主体芙蓉超单元的锆石SHRIMP U-Pb定年结果.两个花岗岩样品中岩浆结晶锆石的定年结果分别为155.5±1.3Ma(MSWD=1.7)和157.1±1.2 Ma(MSWD=1.7).这代表了该超单元的形成年龄,这一年龄与菜岭超单元的形成年龄(159-160Ma)也较接近,表明两个超单元可能是同源分异的产物.这次研究同时揭露了古元古代残留锆石核的存在(2445Ma和1708Ma),为古元古代华夏地块的存在提供了直接的证据,也证实该地区中生代岩浆作用有古老下地壳物质的参与.同时也发现了907Ma的变质锆石残留,其形成可能与扬子地块和华夏地块的碰撞拼贴有关,同时为杭州-诸广山-花山这一低TDM值花岗岩带可能是扬子地块和华夏地块在新元古代时的一条板块碰撞带提供了证据.