新疆北部晚石炭世至晚三叠世地壳热演化--东准噶尔考克塞尔盖山荒草坡群的40Ar-39Ar定年

在野外考察和室内研究的基础上,40Ar-39Ar定年揭示出新疆东准噶尔考克塞尔盖山前志留纪荒草坡群下组的主变质作用发生在石炭纪晚期,此后还受到了晚三叠世热事件的改造.结合区域地质资料,对新疆北部晚石炭世至三叠纪的地壳热演化进行了初步探讨.     

云南岔河铜矿成矿时代与成因

早元古界岔河变质岩中铜矿石黄铜矿的Ｐｂ－Ｐｂ等时线年龄为９５１±３６Ｍａ，属于晋宁运动早期的成矿作用。矿石稀土分配模式与围岩相似，二者均以富轻稀土为特征，Ｅｕ轻微亏损，矿床成因与含铜变质岩系有关。黄铜矿的δ３４Ｓ值分布范围为－１２．４７‰－－５．３２‰，平均值为－８．９３‰。含矿岩系形成于近海开放体系中。微量元素研究表明，区域地层Ｃｕ、Ｍｏ、Ｓ的丰度较高，比泰勒的地壳丰度值高３－１０倍。Ｃｕ在矿化过程中，变质作用和构造控制有重要意义，地层中的成矿元素在有利的构造部位沉淀，形成浸染状矿化和石英硫化物脉。该矿床属于火山－沉积变质矿床。     

新疆东天山地区星星峡群的解体及地质意义

新疆东天山地区星星峡一带的原星星峡群为一套岩性复杂、变质程度差异很大的变质岩系, 在该区进行的1:50000区调工作中, 通过详细的地表调查和地层剖面测量, 并参考了相关变质侵入体的同位素年龄后认为, 根据岩石组合、变质程度、同位素年龄等地质标志, 可将其初步解体为大致形成于晚太古代—古元古代的天湖岩群(Ar₃—Pt₁T.)和长城纪星星峡岩群(ChX.)两套时代不同的岩群。该岩群的解体和区域对比表明, 中天山星星峡一带和塔里木北缘库鲁克塔格一带的前南华系基底应该是一致的, 属于统一的塔里木北缘隆起带。      

The Microarea Composition of Garnet and Biotite from the Ji‘an Group in Tonghua District and Its Significance as an Indicator of Metamorphic P—T—t Path

The garnet(Grt)and biotite(Bt) from gneisses of the Ji‘an Group are characterized by diffusion zoning at the rim,but equilibrium composition of metamorphic peak is usually remained in extensive interior area.Garnet with growth zoning is also found in the kyanite zone.In the light of microarea compositional variation of Grt and Bt,the temperature and pressure at the progressive,peak and post-peak metamorphic stages are determined by correctly using Grt Bt thermometer and GASP barometer.On this basis,a counterclockwise P-T-t path can be constructed,which reflects the closing process of an ensialic rift belt in this region during the Early Proterozoic.     

多硅白云母b0值对澜沧群中压和高压变质的反映

多硅白云母b₀值作为相对地质压力计的理论和方法,已受到各国地质学家的普遍重视。本文以澜沧群多硅白云母作为研究对象,提出运用多硅白云母b₀值区分不同压力变质的方法。研究结果表明澜沧群经历了中压和高压变质作用,两期变质的多硅白云母b₀值分别为9.027Å和9.047Å。     

滇西洋拉矿区火山岩构造—岩浆类型

羊拉矿区的火山岩形成于石炭纪金沙江裂谷洋盆中段,其构造－岩浆类型有３：早石炭世羊拉岩组的富集型洋中脊拉斑玄武岩;晚石炭世里农岩组的洋岛钙碱性安山岩和洋岛碱性率武岩。各种构造－岩浆类型的形成均与地幔热性相关。     

医巫闾山变质核杂岩中金矿的稳定同位素特征

医巫闾山变质核杂岩中金矿及相关岩石的氢、氧、铅、硅、碳、硫稳定同位素测试结果为:成矿流体δD为-97‰~-72‰,δ18O为0.3‰~3.8‰,在δ18O-δD分布图上,位于变质水、岩浆水与当地雨水之间;其他稳定同位素数据及综合资料均说明,以排山楼金矿为代表的该区金矿成矿具有长期性、复杂性和多源性;医巫闾山变质核杂岩构造系统对区内金矿有一定控制作用.     

Interactions between basalts and oil source rocks in rift basins： CO2 generation

Basalts interbedded with oil source rocks are discovered frequently in rift basins of eastern China, where CO2 is found in reservoirs around or within basalts, for example in the Binnan reservoir of the Dongying Depression. In the reservoirs, CO2 with heavy carbon isotopic composition (δ13C>-10‰ PDB) is in most cases accounts for 40% of the total gas reserve, and is believed to have resulted from degassing of basaltic magma from the mantle. In their investigations of the Binnan reservoir, the authors suggested that the CO2 would result from interactions between the source rocks and basalts. As the source rocks around basalts are rich in carbonate minerals, volcanic minerals, transition metals and organic matter, during their burial history some of the transition metals were catalyzed on the thermal degradation of organic matter into hydrocarbons and on the decomposition of carbonate minerals into CO2, which was reproduced in thermal simulations of the source rocks with the transition metals (Ni and Co). This kind of CO2 accounts for 55%-85% of the total gas reserve generated in the process of thermal simulation, and its δ13C values range from -11‰- -7.2‰ PDB, which are very similar to those of CO2 found in the Binnan reservoir. The co-generation of CO2 and hydrocarbon gases makes it possible their accumulation together in one trap. In other words, if the CO2 resulted directly from degassing of basaltic magma or was derived from the mantle, it could not be accumulated with hydrocarbon gases because it came into the basin much earlier than hydrocarbon generation and much earlier than trap formation. Therefore, the source rocks around basalts generated hydrocarbons and CO2 simultaneously through catalysis of Co and Ni transition metals, which is useful for the explanation of co-accumulation of hydrocarbon gases and CO2 in rift basins in eastern China.     

榍石：U－Pb定年及变质P－T－t轨迹的建立

榍石在各类岩石中普遍存在，其稳定性受全岩成分、氧逸度和水活度以及温度和压力等因素影响。它在岩浆岩中主要存在于高Ca/Al比值的岩石中，在变质岩中常见于绿片岩相、蓝片岩相和角闪岩相岩石，在钙质变质岩中其稳定范围可达榴辉岩相或高压麻粒岩相。一般榍石结构中U含量较高，且具有高达高角闪岩相上限的U Pb同位素体系封闭温度，是理想的U-Pb定年矿物。由于榍石的组成元素均为岩石中的主要元素，很容易与其它矿物、熔体及流体发生反应，所以榍石的U-Pb年龄记录的更可能是结晶年龄，而不是简单的扩散重置年龄；也因为它容易反应，变质榍石复杂的U Pb体系可能记录了岩石的整个变质历史信息。通过与榍石平衡共生的矿物组合或利用榍石Zr温压计可确定岩石的P T条件，结合相关的榍石年龄信息即可建立变质过程的P T t轨迹。利用SHRIMP、LA MC ICP MS以及LA ICP MS方法可对不均一榍石颗粒内部进行原位微区分析得到有意义的U Pb年龄；利用榍石中Zr含量对温度，尤其是对压力比较敏感，可建立榍石Zr含量温压计。