华南地区晚三叠世含煤岩系层序—古地理

在对露头及钻孔剖面沉积特征研究的基础上,建立了华南地区晚三叠世含煤岩系层序地层格架,恢复了基于三级层序的岩相古地理,并分析了聚煤规律。根据岩相特征及岩相组合类型,在区内晚三叠世含煤地层中识别出陆相和海陆过渡相两大沉积类型,并可进一步识别出冲积扇、河流(包括辫状河和曲流河)、三角洲、湖泊、潮坪—潟湖、滨海平原和滨浅海等7种沉积类型。陆相沉积主要发育在上扬子地区的四川盆地;海陆过渡相沉积主要发育在东南部湘赣粤滨浅海。在晚三叠世含煤岩系中识别出区域性不整合面和构造应力转换面、砂砾岩体底部冲刷面和岩性突变面等类型的层序界面,将含煤岩系划分为5个三级层序。以三级层序为古地理作图单元,恢复了研究区的古地理格局。由煤层厚度与岩相古地理平面展布规律可知,最有利的成煤环境为三角洲沉积体系,其次为河流、潮坪—潟湖沉积体系,聚煤中心主要分部在四川盆地的乐威煤田以及华蓥山煤田、湘赣粤滨浅海地区的湘东南至赣西萍乡一带。     

大九湖钻孔记录的神农架地区中更新世晚期以来的气候环境变化

运用孢粉浓缩物AMS ¹⁴C测年和氨基酸测年方法结合气候地层对比,建立神农架地区大九湖盆地DJH-2 孔的地层年代序列。依据孢粉分析结果并结合沉积环境,将大九湖盆地中更新世晚期以来的植被演替和古气候演化划分为六个阶段：① 275.0-188.0 ka,寒冷偏干,寒温带针叶林、高山草甸;② 245.0-188.0 ka,暖湿偏干,常绿、落叶阔叶混交林;③ 188.0-129.0 ka,冷干,寒温带针叶林为主,过渡为高山草甸为主;④ 129.0-71.8 ka,暖湿,暖温带落叶阔叶林;⑤71.8-15 ka,冷干,寒温带针叶林与高山草甸间隔发育,中间有喜暖种属增多的迹象;⑥ 15.0-1.0 ka,暖湿,亚热带常绿、落叶阔叶林。孢粉组合特征及单种属特征所显示的盆地气候变化反映了良好的全球冰期、间冰期气候旋回。孢粉浓度特征反映大九湖盆地气候变化受北半球高纬冰量与低纬太阳辐射的双重控制。     

中国中西部前陆盆地多期成藏、晚期聚气的成藏特征

中国中西部前陆盆地具有优越的天然气成藏条件,同时具有晚期成藏的特征。文中在典型气藏解剖的基础上重点讨论了川西、柴北缘和准南缘前陆盆地的成藏过程,从而指出中国中西部前陆盆地具有多期聚集、晚期聚气的成藏特征,明确指出中国中西部前陆盆地具有最主要的两大成藏期,一是燕山晚期,主要是被动陆缘或中部前陆盆地三叠系烃源岩的油气聚集期;二是喜山晚期,受新构造运动影响,主要是西部陆内前陆盆地的中、新生界烃源岩的天然气成藏期和中部周缘前陆盆地的天然气的调整期。新近纪前陆盆地的发育期控制了中国中西部前陆盆地以中生界煤系烃源岩为主的晚期天然气的聚集。     

“崆峒山组砾岩”形成演化的动力学机制分析

查明"崆峒山组砾岩"形成的动力学环境是认识鄂尔多斯盆地西南缘的盆地原型、构造属性、华北克拉通西部破坏的关键。采用野外调查、取样与室内测样分析相结合的方法,系统研究了"崆峒山组砾岩"的沉积特征、裂变径迹热史,在此基础上以盆山耦合思想为指导,结合区域及深部背景资料,认为崆峒山组砾岩形成于秦祁海槽剪刀式闭合导致的右旋走滑区域背景下,走滑使位于砾岩西侧的青铜峡-固原古断裂复活,控制了崆峒山组砾岩形成。砾岩形成的动力学过程,可分为早期(231～218Ma)走滑拉张断陷沉积阶段,晚期(231～205Ma)走滑挤压坳陷沉积阶段和末期(205～195Ma)隆升剥蚀改造阶段,其分别与裂变径迹热史重建的砾岩快速增温、缓慢降温、快速冷却三个阶段相对应。崆峒山组砾岩埋藏增温的时刻及其形成演化的动力学过程表明,崆峒山组砾岩应为晚三叠世沉积。     

楚雄盆地与四川盆地中西部地质条件对比分析

通过楚雄盆地与四川盆地中西部区域地质条件和油气地质条件的对比研究,探讨了楚雄盆地与四川盆地中西部地区盆地性质、沉积序列、油气地质条件等方面的异同点,从而给楚雄盆地的油气勘探一些启示：它们间的基本地质特征、油气地质特征类似,且上三叠统地层为主要的烃源岩和自生自储组合,侏罗系储层也具有低孔、低渗、高含水饱和度、非均质性强的特征,裂缝对油气的富集、高产起到了重要作用。认为：加强砂体的展布、连通性研究,裂缝、断层性质、形态、沟通性、规模等研究,在有白垩系、第三系覆盖区完全有可能进行油气勘探。     

甘肃玉门地区二叠系-三叠系古地磁研究

玉门大山口白杨河一带古地磁研究结果:下二叠统的特征磁化方向为Ds=108.1°,Is=-46.1°;极点位置为λ=30.5°N,ψ=18.6°;古纬度为27.6°N.上二叠统的特征磁化方向为Ds=139.4°,Is=-47.4°;极点位置为λ=54.7N,ψ=359.9°;古纬度为28.2°N;下三叠统的特征磁化方向为Ds=150.8°,Is=-48.1°;极点位置为λ=63.7°N,ψ=351.1°;古纬度为29.1°N.说明二叠纪玉门地区所在的阿拉善地块已是华北地块的一部分,晚二叠世-早三叠世华北地块大体处于吐哈地块和华南地块之间,与俄罗斯地块的古纬度相近;华北、吐鲁番-哈密和塔里木地块都大体位于劳亚大陆的东南部.     

Neoproterozoic calc‐alkaline peraluminous granitoids of the Deleihimmi pluton,Central Eastern Desert,Egypt: implications for transition from late‐ to post‐collisional tectonomagmatic evolution in the northern Arabian–Nubian Shield

The widely distributed late‐collisional calc‐alkaline granitoids in the northern Arabian–Nubian Shield (ANS) have a geodynamic interest as they represent significant addition of material into the ANS juvenile crust in a short time interval (∼630–590 Ma). The Deleihimmi granitoids in the Egyptian Central Eastern Desert are, therefore, particularly interesting since they form a multiphase pluton composed largely of late‐collisional biotite granitoids enclosing granodiorite microgranular enclaves and intruded by leuco‐ and muscovite granites. Geochemically, different granitoid phases share some features and distinctly vary in others. They display slightly peraluminous (ASI = 1–1.16), non‐alkaline (calc‐alkaline and highly fractionated calc‐alkaline), I‐type affinities. Both biotite granitoids and leucogranites show similar rare earth element (REE) patterns [(La/Lu)_N = 3.04–2.92 and 1.9–1.14; Eu/Eu* = 0.26–0.19 and 0.11–0.08, respectively) and related most likely by closed system crystal fractionation of a common parent. On the other hand, the late phase muscovite granites have distinctive geochemical features typical of rare‐metal granites. They are remarkably depleted in Sr and Ba (4–35 and 13–18 ppm, respectively), and enriched in Rb (381–473 ppm) and many rare metals. Moreover, their REE patterns show a tetrad effect (TE_1,3 = 1.13 and 1.29) and pronounced negative Eu anomalies (Eu/Eu* = 0.07 and 0.08), implying extensive open system fractionation via fluid–rock interaction during the magmatic stage. Origin of the calc‐alkaline granitoids by high degree of partial melting of mafic lower crust with subsequent crystal fractionation is advocated. The broad distribution of late‐collisional calc‐alkaline granitoids in the northern ANS is related most likely to large areal and intensive lithospheric delamination subsequent to slab break‐off and crustal/mantle thickening. Such delamination caused both crustal uplift and partial melting of the remaining mantle lithosphere in response to asthenospheric uprise. The melts produced underplate the lower crust to promote its melting. The presence of microgranular enclaves, resulting from mingling of mantle‐derived mafic magma with felsic crustal‐derived liquid, favours this process. The derivation of the late‐phase rare‐metal granites by open system fractionation via fluid interaction is almost related to the onset of extension above the rising asthenosphere that results in mantle degassing during the switch to post‐collisional stage. Consequently, the switch from late‐ to post‐collisional stage of crustal evolution in the northern ANS could be potentially significant not only geodynamically but also economically. Copyright © 2011 John Wiley & Sons, Ltd.     

Indosinian Supergene Karsts in the Qaidam Basin, NW China: Evidence from Paleo-tectonics, Paleoclimates and Paleo-fluids

In the Qaidam basin,Northwest China,karstic fissures and caves are developed in many places of the Lower Carboniferous Chengqianggou Fm.and Huaitoutala Fm.and the Upper Carboniferous Keluke Fm.,in which are found typical karstic marks.Several suites of transgressive carbonate rocks formed during the Late Paleozoic epoch are preserved as reservoir properties in the Qaidam basin,with paleokarst-related cave-fractured diagenetic structures,which provided the basis for cavefractured development.Carbonate and clastic samples covering or infilling caves and fractures in Carboniferous strata were collected in the eastern Qaidam basin to focus on petrological and geochemical analyses of karst and infilling materials.Based on this study of the Caledonian diagenetic sequence,and bitumen-infilled inclusion temperature and burial history,there existed a continuous atmospheric freshwater leaching process,which played a critical role in the construction of the Carboniferous supergene paleokarsts.Investigation and survey of the tectonic setting,plate paleolatitude and river development intensity also proves that there was abundant rainfall during the Indosinian period,after which the strata undergo a shallow burial process.Because Indosinian period is earlier than the key timing of hydrocarbon-generation of the Carboniferous source rocks,this kind of karst reservoir has potential significance for oil-gas resources in this area.     

Early Triassic Volcanic Rocks in the Western Yarlung Zangbo Suture Zone: Implications for the Opening of the Neo-Tethys Ocean

In this study, zircon U-Pb dating of volcanic rocks from the Zhongba ophiolite of the Yarlung Zangbo Suture Zone (YZSZ) in southern Xizang (Tibet) yielded an age of 247 ± 3 Ma. According to whole rock geochemical and Sr-Nd-Pb isotopic data, the Early Triassic samples could be divided into two groups: Group 1 with P-MORB affinity, showing initial 87Sr/86Sr ratios of 0.70253–0.70602, εNd(t) values of 4.2–5.3, (206Pb/204Pb)t ratios of 16.353–18.222, (207Pb/204Pb)t ratios of 15.454–15.564, and (208Pb/204Pb)t ratios of 35.665–38.136; Group 2 with OIB affinity, showing initial 87Sr/86Sr ratios of 0.70249–0.70513, εNd(t) values of 4.4–4.9, (206Pb/204Pb)t ratios of 17.140–18.328, (207Pb/204Pb)t ratios of 15.491–15.575, and (208Pb/204Pb)t ratios of 36.051–38.247. Group 2 rocks formed by partial melting of the mantle source enriched by a former plume, and assimilated continental crustal material during melt ascension. The formation of Group 1 rocks corresponds to the mixing of OIB melts, with the same components as Group 2 and N-MORBs. The Zhongba Early Triassic rocks belong to the continental margin type ophiolite and formed in the continental–oceanic transition zone during the initial opening of the Neo-Tethys in southern Xizang (Tibet).