内蒙古红格尔苏木地区奥陶系乌宾敖包组火山岩特征及构造环境探讨

通过对红格尔地区中下奥陶统乌宾敖包组中的火山岩进行系统研究,对其岩石类型、岩石地球化学、稀土元素、微量元素等特征、岩浆形成的温压条件等进行分析研究,对该组火山岩的岩浆起源及构造环境进行探讨。认为该组所夹火山岩具岛弧火山岩性质,岩浆起源于下地壳,并形成于岛弧或活动大陆边缘构造环境。该成果对研究本区大地构造演化及成矿地质背景具有重要意义。

东天山尾亚杂岩体:同源还是异源?——来自黑云母的证据

呈中心环状的尾亚杂岩体由外环石英正长岩和内环石英闪长岩、黑云母二长花岗岩以及细粒花岗岩组成,但对两个环带是同源还是异源的认识仍存在较大分歧。鉴于黑云母是大多数中酸性火成岩中比较重要的一种镁铁质矿物,它能很好地反映寄主岩浆的属性和成岩时的物理、化学条件,因此,本文的目的在于,通过比较外环石英正长岩和内环石英闪长岩、黑云母二长花岗岩以及细粒花岗岩中黑云母的成分变化,来为两个环带是同源还是异源提供矿物学方面的佐证。结果表明,外环黑云母与内环黑云母相比,富Fe和Ti,贫Mg和Al,前者为铁质黑云母,寄主岩浆属碱性岩系;后者皆属镁质黑云母,寄主岩浆属钙碱性岩系。碱性岩系中铁质黑云母的形成主要与其晶格中Fe→Mg和3Fe2+→2Al双替代有关,而钙碱性岩系中镁质黑云母则主要与2Al→3Mg替换有关。外环与内环黑云母成分的差别,归根结底,与其寄主岩浆形成于不同的源区、产于不同的构造环境密切相关。内环各相带云母之间没有明显的演化趋势,只是细粒花岗岩中的云母比石英闪长岩和黑云母二长花岗岩中的云母富Al和F,贫Ti。结合岩石地球化学、全岩氧同位素和锆石晶形及微量元素地球化学研究成果,外环和内环之间黑云母的成分变化,排斥了外环和内环同源的可能性;内环之间黑云母成分演化趋势表明石英闪长岩、黑云母二长花岗岩以及细粒花岗岩非同一母岩浆分离结晶所致,而可能是不同期次的异源岩浆相继侵入的产物。

西藏甲玛铜多金属矿区斑岩的岩浆混合作用及地球动力学机制——石英斑晶新证据

1地质背景西藏甲玛铜多金属矿区斑岩显示钙碱性岩系-高钾钙碱性岩系的演化趋势,表现为闪长玢岩-花岗斑岩的岩石系列(汪雄武等,2010;唐菊兴等,2010)。花岗斑岩侵位于15.31～16.27Ma左右(秦志鹏等,2010);(石英)闪长玢岩、二长花岗斑岩、花岗闪长斑岩侵位时间均晚于花岗斑岩。与成矿年龄相比。

湖南蓝山县天鹅寨火山杂岩体岩石地球化学特征与成因探讨

天鹅寨火山杂岩体位于钦—杭(钦州—杭州)成矿带湖南段南部。各类岩石主量元素富Si、富Alk、Al饱和、贫Ca、贫Mg等,属高钾钙碱性岩系;稀土元素为轻稀土富集分配模式;微量元素富Rb、Pb、Yb、Zr、Th、U等,贫Ba、Sr、Nb、Ta、Hf、Y等。具有相似主量元素与微量元素特征,指示为同源岩浆分异演化形成。根据富K、Rb、Th、Zr,贫Na、Ta、P等元素特征结合(87Sr/86Sr)初始值与成岩年龄(t)图解,表明岩浆源区以上地壳物质为主,下地壳物质混染熔融形成。结合区域构造背景分析,推测由于太平洋板块自东向西俯冲,造成华南陆块内扬子板块与华夏板块碰撞,碰撞产生热效益使区内上地壳物质及部分下地壳物质熔融形成岩浆,至燕山晚期,区内演化成碰撞后伸展阶段,岩浆喷发—侵入形成此火山杂岩体。

Zircon SHRIMP U-Pb dating of granites from Dulan and the chronological framework of the North Qaidam UHP belt, NW China

Zircon SHRIMP dating of granites from Dulan,east segment of North Qaidam UHP belt shows that they are 406.6±3.5 Ma for Yematan-E,407.3±4.3 and 397±6 Ma for Balijiehatan-W,404.5±4.0 and 397.0±3.7 Ma for Shuiwenzhan-N,380.5±5.0 Ma for Shuiwenzhan-S,382.5±3.6 and 372.5±2.8 Ma for Chachagongma.These granites from Dulan represent the products of the third and fourth periods of Paleozoic magmatism in North Qaidam.Geochemically,the granitoids with metalumious to weak peratuminous are quartz diorite,granodiorite,and granite in composition and mainly belong to calc-alkaline series,a few samples to calc or alkali-calc series.The third period of granites is a rock association of granodiorite+granite,with initial 87Sr/86Sr ratios from 0.7082 to 0.7110 and T2DM model ages from 1.41–1.90 Ga;and the fourth period of granites is a rock association of quartz diorite+granodiorite+granite,with initial 87Sr/86Sr ratios from 0.7072 to 0.7091 and T2DM model ages from 1.07–1.38 Ga.Therefore,the third period of granites has higher initial 87Sr/86Sr ratios and T2DM model ages.On the contrary,the fourth period of granites has Nd(t)values from 0.6 to-3.0,higher than that of the third granite with Nd(t)values-3.2 to-9.3.Thus,the data comparison indicates that the third granites may derive from Paleo-proterzoic continental crust with mantle material whereas the fourth granites may derive from the Meso-proterzoic basalt crust with continental material.Combined with regional geology,we thought that the third granites were formed relative to plate exhumation and the fourth granites to delamination of the lithospheric mantle.