安徽东至早奥陶世红花园组生物礁:奥陶纪生物大辐射前的微生物礁

通过对安徽东至建新剖面红花园组的生物礁、微生物岩进行研究,发现蓝绿菌类Girvanella在生物礁中大量分布,是生物礁的主要造礁成分。其他造礁生物包括瓶筐虫、石海绵、腹足类、腕足类、棘皮类等。Girvanella以散乱分布、包壳、组成内碎屑以及与海绵伴生等4种方式在本区生物礁中存在,并且在生物礁成礁过程中以生物本体矿化作用及粘结、捕获颗粒的作用形成生物礁格架;瓶筐虫及石海绵为生物礁中的居住者,因此,生物礁性质为瓶筐虫/石海绵-微生物礁,微生物起到了主要的造礁作用。此外红花园组典型含生物礁沉积序列是由底部的生屑灰岩基底、中部的海绵层(少量微生物岩)及顶部的微生物岩组成的。通过与其他地区同时代生物礁的对比发现,东至建新剖面红花园组中瓶筐虫/石海绵-微生物礁的发育及微生物的繁盛是全球性的,是由于底栖生物扰动对潮下带微生物发育影响尚未彰显造成的。     

中国南方大地构造演化及其对油气的控制

按照板块构造理论及活动论、阶段论的思想，大致以中晚三叠世为界，将中国南方自震旦纪以来大地构造演化历史划分成海相盆地演化阶段（Z－T2）及陆相盆地演化阶级（T3－Q）两大阶段；又可进一步细分为扬子克拉通及其周缘裂谷盆地（Z－1q)、裂谷－克拉通－被动大陆边缘盆地（1c-O1）、被动陆缘－克拉通－前陆盆地（O2－S）、加里东运动（S末）、裂谷－克拉通盆地（D－T1）、克拉通残留海盆－弧后（浊积）盆地（T2）、印支运动（T2－T3）、华北－华南板块焊合、古特提斯封闭与前陆盆地的形成（T3－J2）、压扭背景下的改造作用及拉分盆地的形成（J3－K1）、伸展－裂陷盆地的形成（K2－E）、喜马拉雅运动（E末－N初）及披盖性构造层的形成（N－Q）12个阶段。特别是对南方自中晚三叠世以来的大地构造演化及其对现存油气的控制作用进行了系统研究，提出了晚侏罗世－早白垩世燕山运动对南方中生界、古生界原生油气藏的保存与破坏起到了决定性作用及燕山、喜马拉雅运动控制了现今南方原生、次生及再生烃（二次生烃）油气藏分布的新观点。     

安徽东至早奥陶世红花园组生物礁:奥陶纪生物大辐射前的微生物礁

通过对安徽东至建新剖面红花园组的生物礁、微生物岩进行研究,发现蓝绿菌类Girvanella在生物礁中大量分布,是生物礁的主要造礁成分.其他造礁生物包括瓶筐虫、石海绵、腹足类、腕足类、棘皮类等.Girvanella以散乱分布、包壳、组成内碎屑以及与海绵伴生等4种方式在本区生物礁中存在,并且在生物礁成礁过程中以生物本体矿化作用及粘结、捕获颗粒的作用形成生物礁格架;瓶筐虫及石海绵为生物礁中的居住者,因此,生物礁性质为瓶筐虫/石海绵-微生物礁,微生物起到了主要的造礁作用.此外红花园组典型含生物礁沉积序列是由底部的生屑灰岩基底、中部的海绵层(少量微生物岩)及顶部的微生物岩组成的.通过与其他地区同时代生物礁的对比发现,东至建新剖面红花园组中瓶筐虫/石海绵-微生物礁的发育及微生物的繁盛是全球性的,是由于底栖生物扰动对潮下带微生物发育影响尚未彰显造成的.     

轮南周缘地区奥陶系碳酸盐岩沉积相发育规律

塔里木盆地轮南周缘地区奥陶系发育良好,主要由海相碳酸盐岩和陆源碎屑岩组成。沉积相分析表明,中下奥陶统鹰山组为区域性的开阔台地相台内滩夹滩间海沉积,中奥陶统一间房组为区域性的海水变浅的开阔台地浅滩夹点礁沉积,上奥陶统吐木休克组发育沉没台地－斜坡相,上奥陶统良里塔格组是在晚奥陶世海侵背景下碳酸盐岩台地边缘－斜坡相的沉积产物。研究区奥陶系发育两期礁滩体,第一期礁滩体发育于中奥陶统一间房组,第二期礁滩体发育于上奥陶统良里塔格组上部,两期礁滩体的发育环境和分布范围各具特色。奥陶系碳酸盐岩沉积相带总体上呈近南北向展布,各相带在近东西方向上错落有序分布,并且随时间发生明显的侧向迁移。     

鄂尔多斯盆地早奥陶世沉积特征及其演化

鄂尔多斯盆地的早奥陶世沉积可划分为西缘末端变陡的碳酸盐岩缓坡、东缘蒸发-局限台地和南缘镶边碳酸盐岩台地3个沉积区。岩相古地理的发展可划分为3个阶段,即冶理—亮甲山期为稳定的发展阶段,早、晚马家沟期为岩相分异阶段,峰峰期为中奥陶世陆源浊积盆地这一新的发展阶段的前奏。其演化具有东升西降的特点,东部沉积区的沉积相演化为一个向上变浅的沉积序列,而西部为一个向上变深的沉积序列。     

凯里动物群与我国早期后生动物演化的初步研究

作者所发现的中寒武世凯里动物群,属于带软躯体化石的布吉斯页岩型的动物群,是继云南澄江动物群之后我国发现的又一个早期后生动物群。它和新近发现的晚震旦世庙河生物群,分别填补了晚震旦世、中寒武世我国带软躯化石生(动)物群的空白,形成了我国多时期带软躯化石的生(动)物群体系。对于研究我国及世界早期后生动物演化并不断揭示其演化规律有重要意义。     

New material of microfossils from the Ediacaran Doushantuo Formation in the Zhangcunping area, Yichang, Hubei Province and its zircon SHRIMP U-Pb age

The Zhangcunping area is located at the north limb of the Huangling anticline in Yichang, Hubei Province. Here, the sedimentary succession of the Ediacaran Doushantuo Formation is similar with that in the Weng’an area, Guizhou Province. A large number of new microfossils (mainly acanthoacritarchs) from the Doushantuo Formation in this area are reported in this paper. The fossil assemblage shows similarity as the phosphatized biota of the Doushantuo Formation at Weng’an, Guizhou Province and the silicified biota of the Doushantuo Formation at the Yangtze Gorges, which suggests that the Zhangcunping area is a key for correlation of the Doushantuo Formation between the Weng’an area, Guizhou Province and the Yangtze Gorges. Besides, a new zircon SHRIMP U-Pb age (614.0±7.6 Ma) is first obtained from a horizon underneath the exposed surface in the middle of the Doushantuo Formation in the Zhangcunping area. This age not only provides a new datum for subdivision of the Ediacaran Doushantuo Formation, but also indicates that the age of the exposed surface in the middle of the Doushantuo Formation in the Yangtze Platform should be posterior to 614.0±7.6 Ma. Due to the horizon of the Weng’an biota situated above the exposed surface, the age of the Weng’an biota should be posterior to 614.0±7.6 Ma as well. Supported jointly by the Basic Foundation of scientific research work from Ministry of Science and Technology of the People’s Republic of China (Grant No. J0716), Science and Technology of China for fundamental work (Grant No. 2006FY120300-2), National Natural Science Foundation of China (Grant Nos. 40772013 and 40672022) and China Geological Survey (1212010611801-3)     

Sm-Nd isotopic compositions of Cambrian-Ordovician strata at the Jinggangshan area in Jiangxi Province: Tectonic implications

Whole-rock Sm-Nd isotopes were investigated for Cambrian-Ordovician strata from the Jinggangshan area between the Yangtze Block and Cathysia Block in South China. These strata were deposited as a greatly thick unit of muddy-sandy laminas with intercalated carbonate and organic carbon-bearing layers. They have low εNd（t） values of -13.9 to -7.9 and old Nd model ages of 1842 to 2375 Ma. In tDM-tStr diagram, they are far away from the concordant line but fall within the evolution zone of the Proterozoic crust of South China. This indicates that the Cambrian-Ordovician strata are mainly composed of matters eroded from ancient Paleoproterozoic crust that may mainly consist of continental-derived detrital sediments with high maturity in the Cathysia Block. However, the Ordovician Jueshangou Formation and Dui＇ershi Formation have εNd（t） values of -10.5 and -7.9 at the higher end of the above range and Nd model ages of 1842 to 2059 Ma at the lower end of the above range. This suggests involvement of more detritus that were eroded from the relatively juvenile crust from Late Paleoproterozoic to the Early Neoproterozoic. All the Nd model ages for the Cambrian-Ordovician sedimentary rocks in the Cathysia Block and the southeastern margin of the Yangtze Block are older than 1800 Ma, suggesting that no material from the Early Paleozoic depleted mantle-derived magmas was involved in these regions.     

川东北元坝地区长兴组生物礁沉积特征研究

普光气田的发现启示着石油工作者把勘探目光转向了同样位于开江-梁平陆棚边缘的元坝地区。经过新一轮勘探,发现元坝地区长兴组生物礁具有很大勘探潜力。基于地震、钻井及岩芯资料的综合分析,对川东北元坝地区长兴组生物礁沉积特征进行了精细研究。研究表明,元坝地区长兴组生物礁主要发育于长二段,且不同沉积环境及不同部位控制了生物礁生长发育特征的差异,具体表现为：西部广海边缘生物礁比东部广海边缘及潮道边缘生物礁更发育,规模更大,且建隆特征十分明显;广海边缘因水动力强,营养物更加丰富,因此多发育以抗浪结构为主的骨架礁;而潮道边缘因水动力相对较弱,营养物相对贫乏,多发育障积礁;长兴晚期,元坝西部地势的隆升导致其沉积环境更加有利于生物礁的发育,从而表现为生物礁优势生长区自东向西迁移的特征。     

Reinterpretation of the Guangxian Orogeny

The Guangxian Orogeny, as an important concept on geology of South China, was created 70 years ago. It is generally regarded as an orogenic movement caused by the convergence of the Cathaysian and Yangtze blocks at the end of Silurian. Based on the recent progress of the geological research on Guangxi and adjacent areas, western Guangxi and Liuzhou-Heshan area of central Guangxi may belong to a stable block of Early Paleozoic. The Guangxian Orogeny originated from the northward translation of the Yunkai Block on its south at the end of Cambrian, and formed the Damingshan-Dayaoshan fold belt between the two blocks. It was possibly related with the Late Pan-African Orogeny. The convergence of the Cathaysian and Yangtze blocks occurred in Late Ordovician to Early Silurian and mainly had effect on Hunan and Jiangxi provinces. The term “Chongyu Orogeny” may be suitable for it. At the end of Silurian orogenic movement did not occur in this area.     

U-Pb zircon age for the Daohugou Biota at Ningcheng of Inner Mongolia and comments on related issues

SHRIMP U-Pb zircon dating was carried out for the Daohugou Biota near Ningcheng of Inner Mongolia and for lavas overlying or underlying sala-mander-bearing strata at Reshuitang in Lingyuan of West Liaoning. The results suggest that the Dao- hugou Biota occurred at an interval from 168 Ma to 164―152 Ma. Both the Daohugou Biota and the salamander-bearing fossil assemblage are the same biota and thus developed from 168 to 152 Ma, i.e. from late Middle Jurassic to the early Late Jurassic. The Daohugou Biota-bearing rocks, resting on the Jiulongshan Formation in disconformity and being overlain in unconformity by Late Jurassic Tuchengzi Formation and Early Cretaceous rocks containing the Jehol Biota, are mainly composed of volcanic-sedi- mentary rocks in a normal sequence. It is recom- mended that the Daohugou Biota and the related stratigraphy should be correlated with the Tiaojishan Formation (Lanqi Formation in West Liaoning) or its synchronous rocks. It is suggested that the Dao- hugou Biota and the Jehol Biota would be neither taken into one biota nor considered as the earliest elements of the Jehol Biota. The Daohugou Biota and the related rocks and the Yixian Formation were respectively formed in different periods of volcanic-sedimentary tectonics.     

The great Ordovician radiation of marine life: Examples from South China

The Ordovician radiation is the earliest and most important biodiversification event in the evolution of the Paleozoic Evolutionary Fauna (PEF), when the basic framework of PEF was established. The radiation underwent a gradual, protracted process spanning more than 40 million years and was marked by several diversity maxima of the PEF. Case studies conducted on the Upper Yangtze Platform (South China Palaeoplate) showed that the Ordovician radiation was characterized by drastic increases in a- and b-diversity in various groups of organisms. During the radiation, brachiopods, trilobites, and graptolites of the PEF became more diverse to dominate over the Cambrian Evolutionary Fauna (CEF) in all marine environments. At either global or regional scales, however, the Ordovician radiation was highly heterogeneous in time and space, and the rate and pattern of radiation exhibited by di?erent major fossil groups were also variable.     

黔中织金独店子茅口组生物礁的发现及其找气意义

本文描述了最新发现的黔中织金独店子茅口晚期生物礁的特征,分析了其发展阶段,指出茅口晚期生物礁的发育与古断裂活动和沉积分异有关,其形成于“台块—台槽”格局的浅水型台块上。这一发现,不但对研究上扬子地台内部茅口组沉积相增添了新内容,而且对四川盆地下二叠统天然气勘探具有重要的意义。     

滇东南木利锑矿坡脚期生物礁及其控矿意义

产于下泥盆统坡脚组的滇东南木利生物礁是华南泥盆系众多生物礁中层位最低的。礁类型特殊,属发育在砂泥质陆棚坡折带的堤礁。该礁长约8km,宽150-200m,高70-80m,由间隔黑色页岩的三层礁体组成,每个礁体可划分出6个亚相和5个生长演化阶段。通过锑矿定位机制和矿床成因研究,该礁对锑矿有极重要的层、相、位控制作用,控矿机理为礁型古“油气捕”转化为“矿捕”的作用。     

川西地区中古生界海相天然气基础地质条件分析

川西海相区域在中古生代位于上扬子地台西缘台-槽过渡带,经历了基底形成阶段、地台及其周缘盆地形成演化阶段、前陆盆地形成演化盆山耦合三大演化阶段。"槽盆"或"台盆"形成演化控制烃源坳陷形成及演化,孕育多套烃源岩。印支晚期构造运动是川西构造发展中一个重要的转折,改变了晚三叠世以前扬子西缘川西克拉通及其周缘盆地演化的构造格局,调整了印支晚期前的川西海相油气系统。燕山-喜马拉雅多期次构造运动龙门造山带的强烈抬升挤压,使该区海相油气系统遭到破坏,部分可能被调整改造,在新的成藏背景下调整成藏;龙门山推覆带下存在的中古生界"原地体",保存条件好,其中有可能形成大中型的天然气藏。川西海相中古生界天然气基础地质条件优越,是有利的天然气勘探远景地区。     

The great Ordovician radiation of marine life: Examples from South China

The Ordovician radiation is the earliest and most important biodiversification event in the evolution of the Paleozoic Evolutionary Fauna （PEF）, when the basic framework of PEF was established. The radiation underwent a gradual, protracted process spanning more than 40 million years and was marked by several diversity maxima of the PEF. Case studies conducted on the Upper Yangtze Platform （South China Palaeoplate） showed that the Ordovician radiation was characterized by drastic increases in α- and β-diversity in various groups of organisms. During the radiation, brachiopods, trilobites, and graptolites of the PEF became more diverse to dominate over the Cambrian Evolutionary Fauna （CEF） in all marine environments. At either global or regional scales, however, the Ordovician radiation was highly heterogeneous in time and space, and the rate and pattem of radiation exhibited by different major fossil groups were also variable.     

鄂尔多斯盆地南缘晚古生代沉积物源及其对秦岭造山带北部演化的指示

鄂尔多斯盆地南缘位于华北克拉通盆地的西南部,其形成演化和沉积过程与华北克拉通南侧秦岭造山带的活动有紧密的联系.晚古生代沉积的物源特征能够帮助提取关于秦岭造山带的演化信息.基于对鄂尔多斯盆地南缘澄城和韩城2条出露本溪组－石千峰组的剖面岩石学特征的详细研究,从岩石性质、碎屑特征、重矿物组合和碎屑组分的Dickinson三角图解等方面进行分析讨论,获得了鄂尔多斯盆地南缘晚古生代物源的详细信息,并揭示了秦岭造山带北部晚古生代的演化过程.研究表明,本溪组－太原组的物源为秦岭造山带中的华北板块南缘带;山西组－石千峰组的物源来自于北秦岭构造带,物源区有向南迁移的特征.晚泥盆－晚石炭世商丹带的点接触初始碰撞造成华北板块南缘发生抬升,早二叠世秦岭造山带进入面接触碰撞阶段,造成北秦岭弧后盆地和岛弧带依次发生隆升,成为鄂尔多斯南缘沉积区的主要物源供给区.扬子板块与华北板块自东向西剪刀状的碰撞,造成鄂尔多斯南缘沉积的山西组－下石盒子组的古流向由南东－北西方向朝南西－北东方向的转变.     

下扬子前中生代构造演化

下扬子具有前震旦系变质基底,自震旦纪进入板内演化。震旦纪－早古生代发育三个向ＮＥ方向打开的拗拉槽,具有典型的三段式建造序列,槽内沉积作用不同于槽间区域的沉积作用。自晚奥陶世末期到志留纪末期,下扬子转变为前陆盆地。碎屑沉积厚度逾６０００ｍ,物质来自东侧,说明东侧有一新生的造山带崛起。自晚泥盆世初期到二叠纪末期,该造山带向前陆推挤,下扬子发生ＳＮ向引张,在晚二叠世出现成熟的撞击槽。槽内发育火山岩,碎屑沉积物来自该造山带。建议称之为东海造山带。     

华南上扬子区奥陶纪特马豆克阶的海平面变化

在较为精细的生物地层学研究基础上,对位于华南上扬子区4条剖面的沉积相组合以及沉积相序列进行分析,建立上扬子区特马豆克期高分辨率相对海平面变化曲线。识别出10个沉积相,划分出3个沉积相组合,分别沉积于浅潮下带、深潮下带和页岩盆地带;识别出5次重要的海侵事件,分别发生在TS.1a早期、TS.1a晚期、TS.1c早期、TS.1c晚期和TS.1d晚期,其中TS.1c早期的海侵为特马豆克期最大海侵事件。通过与其他板块海平面变化曲线的对比,发现上扬子区海平面变化主要受全球海平面变化的控制。