新疆“大哈拉军山组”火山岩的形成时代问题及其解体方案

基于前人的资料和本文获得的锆石SHRIMP数据,故建议解体“大哈拉军山组”。西天山东段拉尔敦达坂一带出露的火山岩是晚石炭世火山作用的产物,建议创名“拉尔敦达坂组”。新源城南的早石炭世火山-沉积岩依然使用“大哈拉军山组”。西天山西段大面积出露的“大哈拉军山组”火山岩比较复杂,原始创名剖面(特克斯南大哈拉军山一带)分布的早石炭世火山-沉积岩暂时继续使用“大哈拉军山组”的名称,但其北部大面积分布(昭苏北—特克斯—巩留-阿希金矿地区)的火山岩形成于晚泥盆世(而不是以前认为的早石炭世),建议用“特克斯达坂组”表述这套晚泥盆世火山—沉积地层。

西天山昭苏北部石炭纪火山岩的岩石地球化学特征、成因及形成环境

西天山昭苏北部早石炭纪大哈拉军山组火山岩由碱性橄榄玄武岩和少量的拉斑玄武岩组成。火山岩TiO2（1．10～1．99％）和P2O5（0．22～0．70％）含量较高，富集大离子亲石元素（Rb，Ba，K）并强烈亏损高场强元素（Nb，Ta，Ti）（（Nb／La）N=0．20～0．36），轻重稀土分异，其地球化学特征总体上与美国盆岭地区新生代（中新世中期之前）火山岩以及中美洲和南美洲的弧后“过渡型”基性火山岩相似，但与典型火山弧岩浆岩有些不同。大量元古代继承锆石的出现以及主量、微量元素和Nd同位素地球化学特征均表明火山岩经历了相当程度的结晶分异和陆壳混染（AFC）。与碱性玄武岩相比，拉斑玄武岩的SiO2含量和K2O／Na2O比值较高，而εNd（t），MgO和Mg^#值较低，可能由碱性玄武岩浆经AFC演化形成。碱性橄榄玄武岩中含富Fe，Ti贫Si的火山岩夹层（Fe-Ti玄武岩），是碱性玄武质岩浆依Fenner趋势发生较高程度结晶分异的产物。火山岩的元素地球化学特征指示岩浆源区可能为俯冲流体交代富集的岩石圈地幔，然而，Fe-Ti玄武岩的出现以及地球化学特征随时间的规律性变化均指示它们形成于拉张的构造环境。我们提出，昭苏北部大哈拉军山组火山岩可能形成于具有元古代陆壳基底的活动大陆边缘弧后拉张环境。这一认识与前人提出的大哈拉军山组火山岩为地幔柱活动影响的大陆裂谷岩浆岩的认识有所不同。

西天山乌孙山一带大哈拉军山组火山岩LA-ICP-MS锆石U-Pb定年

西天山乌孙山一带广泛分布大哈拉军山火山岩,对其下段下部肉红色流纹质玻屑弱熔结凝灰岩和上部褐色英安岩进行LA-ICP-MS锆石U-Pb定年分析,得到(353.3±3.5)Ma、(344±6)Ma年龄,证实了乌孙山一带大哈拉军山组火山岩形成于早石炭世.

新疆伊宁县吐呼拉苏金矿床地质特征

吐呼拉苏金矿床赋存于下石炭统大哈拉军山组底部的硅化凝灰质砾岩、硅化砾岩、黄铁矿化酸性凝灰岩中。大哈拉军山组陆相火山碎屑岩、火山岩沉积期,使金初步富集形成矿源层,后期含矿热液的交代蚀变作用使矿源层中的金进一步富集形成硅化岩型金矿床。

新疆昭苏县北高铝玄武岩时代、岩石学和地球化学特征——西天山早石炭世汇聚板块构造的标志

西天山乌孙山南坡赛克散萨依一带出露的早石炭世杜内阶大哈拉军山组火山岩,LA-ICP-MS锆石U-Pb年龄为355.1+4.0 Ma。火山岩岩石类型主要为玄武岩和少量钠质粗面玄武岩(夏威夷岩),SiO_(2)含量为45.04%~49.84%,Na_(2)O含量为2.36%~4.63% ,K_(2)O含量为0.35%~2.31%,Na_(2)O/K_(2)O值为2.00~8.69,表明均属钠质火山岩;Al2O3含量集中在16.01%~17.15%之间,以偏碱性的高铝质玄武岩为主,有少量碱性玄武岩。火山岩稀土元素总量为94.71×10^(-6)~127.2×10^(-6),(La/Yb)N值为2.41~4.07,δEu值为0.99~1.15具有轻、重稀土元素分馏明显的右倾式配分型式。大离子亲石元素较洋脊玄武岩富集,存在明显的Th-U槽和Nb-Ta槽。高场强元素多数与洋脊玄武岩接近,TiO_(2)的亏损不显著,K_(2)O明显富集。玄武岩的演化具有典型的拉斑质玄武岩经分离结晶作用形成的铁富集演化趋势,且以辉石和斜长石为主要的分离结晶矿物,橄榄石的分离结晶作用不明显。高铝质玄武岩的确定是早石炭世伊犁地区中天山板块汇聚构造环境的标志,与现今高铝质火山岩产出构造环境对比认为,这些火山岩形成于大陆边缘岛弧,其构造位置可能为俯冲带上的第二火山链;火山岩浆则可能由俯冲带上流体交代的富集地幔部分熔融形成。

The zircon SHRIMP chronology and trace elementgeochemistry of the Carboniferous volcanic rocksin western Tianshan Mountains

The genesis of the Carboniferous volcanic rocks in the Dahalajunshan group, mainly consisting of trachytes and trachy-andesites and distributing widely in western Tianshan Mountains, remains to be controversial. It has been proposed to be relevant to “rift” or “plume”. Detailed pe-trology and geochemical data presented in this paper show that these volcanic rocks represent typical continental arc magmatism. The volcanic rocks are mainly trachy-andesitic, and the magma source is enriched in LILE, Th and Pb, and depleted in HFSE and Ce. Trace element geochemical study suggests that the basalts could be modeled by 7%-11% partial melt of garnet lherzolite. The volcanic rocks in the Dahala-junshan group are neither the products of “rift” nor so-called “plume” but represent the continental island arc of the Pa-leo-Southern Tianshan Ocean. The mantle wedge had been modified by the melt generating in subduction zone during a long evolution history of this island arc. The continental crust materials (i.e. mainly sediment on ocean floor) had been added into island arc through melt in subduction zone. Volcanic rocks occurring in different regions might represent magma eruption in different time. The zircon SHRIMP dat-ing indicates that the ages of the basalt varies between 334.0 Ma and 394.9 Ma. The 13 analyses give an average age of 353.7 ±4.5 Ma (MSWD = 1.7). The apparent ages of zircons in trachy-andesite vary between 293.0 Ma and 465.4 Ma. All analyses fall on the U-Pb concordant line and are divided into two groups. 8 analyses produce an average age of 312.8±4.2 Ma (MSWD = 1.7), which represents the crystal-lizing age of zircon rims in trachy-andesite. The acquired two ages (i.e. 354 and 313 Ma) belong to the Early Carboniferous and Late Carboniferous epochs, respectively. Thus, the Da-halajunshan group would be separated into several groups with the accumulation of high-quality age dating and data of trace element and isotopic geochemistry, in our opinion.