青海南部金沙江缝合带二叠纪硅质岩地球化学特征及沉积环境

青海省南部扎河地区金沙江缝合带中出露的通天河蛇绿混杂岩由不同时代、不同岩性的地层断片组成.对其中的二叠纪硅质岩进行地球化学研究后发现,该地区的硅质岩SiO2含量在71.56%～88.24%之间,Al/(Al Fe Mn)平均值为0.64,MnO/TiO2平均值为0.74,ΣREE平均为138.51×10-6,稀土元素配分曲线呈平坦型,δCe为0.97～1.49,平均为1.14,无明显异常;(La/Yb)N平均值为1.85,(La/Ce)N平均值为1.08,与已知大地构造背景的硅质岩地球化学特征对比,表明其形成环境为陆间洋盆环境.因此,金沙江带不能作为古特提斯域的主缝合带.     

黔中降起的油气勘探壁垒——兼论海相碳酸盐岩烃源岩

黔中隆起在地质构造上属于扬子地块的滇黔隆褶带．南华纪晚期初现雏形，震旦纪—奥陶纪为水下隆起，燕山运动使其整体抬高，喜马拉雅运动时急剧隆升，构造地貌长期相对隆起。地表油苗油样分析结果显示，在红外吸收谱图中缩合芳烃结构及含氧基团吸收明显，有机质热成熟度高，且遭受了氧化蚀变：震旦系以上地层大量暴露，地表水溶蚀下渗深度在黔西南地区可达3000-4000m；作为长期存在的古隆起，经历了多次抬升，直至挽近仍处于严重剥蚀阶段。地腹可能存在酸性岩浆热源使有机质过度热演化、保存条件不佳以及缺少勘探目的层，是黔中隆起油气勘探的三大壁垒。兼谈了碳酸盐岩烃源岩问题．认为形成大油气田的烃源岩主要是泥质岩系，“碳酸盐岩烃源岩”只是从属性的．分布在泥质烃源岩系的边缘或局部范围。     

珠江口盆地沉降史定量模拟和分析

运用Petrosys盆地模拟系统，定量和动态地模拟了珠江口盆地三个主要坳陷的沉降过程，论述了沉降速率的变化与生储盖发育之间的关联，认为珠江口盆地构造沉降史具有幕式、多阶段变化的特征。盆地第一幕和第二幕沉降是盆地发育的主要时期，奠定了盆地的构造格架，形成了盆地主要的沉积地层和油气资源。第三幕沉降为盆地的改造和完成阶段，是盆地区域盖层发育的主要时期。     

大直径硬岩环状取芯钻具的试验研究

在分析了国内外大直径基岩孔钻进取芯方法的基础上,提出了一套低能耗、高效率、低造价的大直径硬岩环状取芯钻具,设计制作了样机,并进行了样机试验.试验结果表明:该设计方案、工艺可行,达到了预期设计目标,为大直径硬岩取芯施工提供了一种新的机具.     

岩石非开挖冲击回转导向钻进施工工艺

详细介绍了采用潜孔锤冲击回转方法在岩石地层中实施定向钻进非开挖铺管的施工工艺,包括设备配置、仪器选用、造斜机理、清理岩屑和孔内事故处理等。     

平潭岛海蚀花岗岩地貌——兼述花岗岩地貌的系列研究和创新

平潭县有“千礁岛县”之称，所属的海潭为全国第五大岛，隔台湾海峡与台湾新竹相距仅68海里，是祖国大陆距台湾最近的地方。千礁岛县皆由花岗岩组成，潮涨潮落，海侵海蚀，铸就了岛上古代海蚀地貌和现代海蚀地貌，且种类齐全，典型奇特，分布广泛，集神、幽、险、趣于一体，尤其花岗岩球状风化铸成的，最突出的有国内最大的海蚀柱、天下奇观“半洋石帆”；浑身赤裸，形体逼真，比四川乐山大佛大四倍的“海坛天神”，横卧海边，头枕沙滩，腿伸大海；等等。素有花岗岩海蚀地貌“甲天下”之称。平潭已开发成国家级风景旅游区，其花岗岩海蚀地貌研究必将为中国研究花岗岩地貌增添新的内容和活力；平潭岛的区位最近台湾，优先利用双休日或节假日开展与台湾北东海岸的类同海蚀地貌进行双向互惠的观光旅游，将有无限广阔、美好前景。     

Zircon LA-ICP-MS U-Pb dating and Sr-Nd isotope study of the Guposhan granite complex, Guangxi, China

Zircon U-Pb dating by the LA-ICP-MS method was applied to determining the ages of different units of the Guposhan granite complex, among which the East Guposhan unit is 160.8±1.6 Ma, the West Guposhan unit is 165.0±1.9 Ma, and the Lisong unit is 163.0±1.3 Ma in age. Much similarity in ages of the three units has thus proved that the whole Guposhan granite complex was formed in the same period of time. They were the products of large-scale granitic magmatism through crust-remelting in the first stage of the Middle Yanshanian in South China. However, the three units have differences both in petrology and in geochemistry. Besides the differences in major, trace and rare-earth elements, they are distinct in their Rb-Sr and Sm-Nd isotopic compositions. The East Guposhan unit and Lisong unit and its enclaves have a similar (87Sr/86Sr)i value of 0.7064 with an average of εNd(t)=-3.03, indicating that more mantle material was evolved in the magma derivation; whereas the West Guposhan unit has a higher (87Sr/86Sr)i value of 0.7173 but a lower εNd(t) value of -5.00, and is characterized by strong negative Eu anomalies and higher Rb/Sr ratios, suggesting that its source materials were composed of relatively old crust components and new mantle-derived components. In addition, an inherited zircon grain in the East Guposhan unit (GP-1) yielded a 206Pb/238U age of 806.4 Ma, which is similar to the ages of the Jiulin cordierite granite in northern Jiangxi and of the Yinqiao migmatic granite in Guangxi in the HZH granite zone. All this may provide new evidence for Late Proterozoic magmatism in the HZH granite zone.     

Cenozoic volcanic rocks in the Belog Co area, Qiangtang, northern Tibet, China： Petrochemical evidence for partial melting of the mantle-crust transition zone

Neogene volcanic rocks in the Belog Co area, Qiangtang, northern Tibet, are represented by a typical intermediate-basic and intermediate alkaline rock association, with latite-trachyte as the main rock type. The results of chemical analysis are: SiO2=52%–62%, Al2O3>15%, Na2O/K2O>1 and MgO<3.30%. In addition, the volcanic rocks are LREE-enriched with LREE/HREE=10–13, (La/Yb)N=15–19, and show a weak negative Eu anomaly with δEu=0.71–0.89. The close relationship between Mg# and SiO2 and the co-variation of the magmatophile elements and ultra-magmatophile elements such as La/Sm-La and Cr-Tb indicate that this association of volcanic rocks is the product of comagmatic fractional crystallization. The rock association type and lower Sm/Yb values (Sm/Yb=3.23–3.97) imply that this association of volcanic rocks should have originated from partial melting of spinel lherzolite in the lithospheric mantle. On the other hand, the weak negative Eu anomaly and relative depletion in Nb, Ta and Ti reflect the features of terrigenous magma. So the Neogene Belog Co alkaline volcanic rocks should be the result of partial melting of the special crust-mantle transition zone on the Qinghai-Tibet Plateau.     

Organic Material and Trace Elements of Bituminous Rocks in the Ozankiiy Field, Ankara, Turkey

Bituminous rocks in the Ozankoey （Ankara） field are different from those of the Paleocene- Eocene Mengen and Giineytepe （Bolu） regions in metal enrichment levels. Organic carbon （Corg） content of organic material-rich rocks in the Ozankoey （Ankara） field is 3.66-40.72% wt averaging 14.34%. The dominant organic materials are algae/amorphous accompanied by minor amount of herbaceous material （The dominant kerogen type is Type-I with a limited amount of Type-Ⅱ kerogen.）. The bituminous rocks in the Ozankoey field are enriched in heavy metals such as Ni, Mn, As and Cr. In comparison with the average enrichment values of dements, Ni, Mn, As and Cr in bituminous shales of the Ozankoey field are as about 4.38, 14.93, 10.90 and 5.58 times as average values. The average concentrations of these heavy metals are also as high as 215× 10^-6, 828 × 10^-6, 58.54 × 10^-6, and 148 × 10^-6 respectively. In addition, sorption properties of day and organic materials are also important for metal enrichments in the bituminous shales.