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    西昆仑下石炭统乌鲁阿特组火山岩地球化学特征及地质意义

    Geochemical characteristics of the Lower Carboniferous volcanic rocks of the Wuluate Formation in the Western Kunlun Mountains and their geological significance

    • 摘要: 提要:西昆仑下石炭统乌鲁阿特组为一套火山-沉积岩系,主要由灰绿色枕状玄武岩、浅灰白色流纹岩组成,空间上与厚层碳酸盐岩及薄层大理岩相伴产出。地球化学特征表明:玄武岩SiO2含量集中在52.10%~54.42%, Na2O/K2O>1,TiO2为0.50%~2.03%,Mg#介于52~70之间,与拉班玄武岩的平均值较为相似。玄武岩ΣREE=14.46×10-6~91.83×10-6,LREE/HREE为1.12~2.55,(La/Yb)N为0.46~1.69,稀土元素球粒陨石标准化图解呈现出较为平坦的曲线,类似于E-BABB,而明显不同于N-MORB和OIB。微量元素中有明显的Rb负异常,可能与岩浆过程中下地壳的混染作用有关。流纹岩主体为钙碱性系列,稀土元素总量较高,介于73.46×10-6~316.80×10-6之间,(La/Yb)N为1.30~11.99,(La/Sm)N为1.15~4.07,稀土元素配分曲线有较明显的右倾趋势,轻稀土分馏较强。稀土、微量元素配分曲线类似于地壳特征。玄武岩与流纹岩表现出不同的稀土微量元素特征,并缺乏连续演化的趋势,暗示二者有不同的来源和成因。微量元素图解及区域地质特征指示乌鲁阿特组形成于弧后拉张的伸展环境。岩石成因特征研究表明,玄武岩由亏损地幔尖晶石二辉橄榄岩5%~10%部分熔融形成,并在底侵上升途中受到下地壳物质微弱的混染贡献。地幔物质上升,所携带的热量累积并加热下地壳,下地壳基性物质部分熔融从而形成流纹岩。综合认为,西昆仑北带在早石炭世处于一个伸展拉张环境(可能为弧后盆地),乌鲁阿特组火山岩正是此次构造事件的岩浆产物。

       

      Abstract: Abstract: The Wuluate Formation of Lower Carboniferous is distributed in the northern part of Western Kunlun Mountains. Associated with thick carbonate?rock?and thin? marble, it is a set of volcano-sedimentary rocks mainly?composed of grayish green?pillow basalts and grayish?white rhyolite. Based on the study of the chemistry of lavas, the authors hold that the major element values of the basalts are similar to the average values of tholeiite: SiO2 values vary between 52.10% and 54.42%, (Na2O/K2O)>1,TiO2(0.50%~2.03%),and Mg# values are in the range of 52~70. The ΣREE values of the samples range from 14.46×10-6 to 91.83×10-6,whereas (La/Yb)N values vary between 0.46 and 1.69,respectively. All these characteristics are extremely similar to things of the E-BABB and different from features of OIB and N-MORB. The basalts show depletion of Rb, suggesting that the lower crust contamination existed in the magma processing. Rhyolite belongs to both calc-alkaline and high-K calc-alkaline volcanic rock series. Concentrations of REE are higher than those of basalts, the (La/Yb)N radios are between 1.30 and 11.99, and (La/Sm)N radios are from 1.15 to 4.07. All these features are similar to features of the lower crust. Different REE patterns and trace element features between the two rock types and the absence of trend from the basalts to the rhyolite imply that the rhyolite and basalt had different sources and origins. Trace element diagrams and regional geological characteristics indicate that the Wuluate Formation formed in an extension environment of the back-arc pull-apart condition. The study of the genetic characteristics of rocks suggest that the basalts resulted from 5% –10% partial melting of spinel lherzolite in the depleted mantle, and were contaminated by the lower crust later. The heat carried by the mantle material led to the partial melting of the lower crust, and then the rhyolite was produced. Comprehensive studies show that the northern part of Western Kunlun Mountains was in a stretch tension environment (back–arc extensional environment) in the early Carboniferous, and the Wuluate Formation was the magmatic product of the tectonic event.

       

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