云南楚雄前陆盆地晚三叠世沉积建造及盆地演化   总被引：6，自引：1，他引：5  

刘贻军  孟祥化 《现代地质》1998,12(4):576-581

根据沉积建造的类型、系列和体态认为楚雄盆地在晚三叠世经历了３个明显的发育阶段：第一阶段为早期聚敛碰撞阶段,发育了黑色页岩建造和碳酸盐复理石建造;第二阶段为构造相对静止期,发育了火山复理石建造和陆源复理石建造;第三阶段为盆地充填阶段,发育了海相磨拉石建造和陆相磨拉石建造。３个阶段中的沉积建造属于次稳定型和非稳定型两大类。  相似文献   

前陆盆地类型及其沉积动力学研究综述   总被引：17，自引：2，他引：15  

王华  吴巧生 《地质科技情报》1998,17(3):12-18

从前陆盆地的特点及类型入手,综述了前陆盆地研究的热点内容,最新方法及其沉积动力学进展状况,揭示了前陆背景下盆地充填序列的构成及内部演化特征,指出了盆地的沉积－地层格架与冲断造山带的幕式活动之间的响应关系。  相似文献   

裂缝储层岩芯检测技术及其应用     

徐思煌  李春梅 《地质科技情报》1998,17(2):65-70

针对目前裂缝岩芯检测的技术缺陷,建立了裂缝面、在层层面及钻井井身等产状要素之间的空间几何学联系,利用这种联系可以确定非定向取芯井裂缝的真实产状,研制了裂缝岩芯检测资料处理系统软件,可提高代作效率和精确度;应用该技术对江汉盆地王场地区潜江组非砂岩进行了研究,结果揭示了目的层裂缝成因类型、空间分布及对油气的控制作用。据此所提出的靶区经钻探已获得油流,说明该技术具有实用价值。  相似文献   

超压盆地中泥岩的流体压裂与幕式排烃作用   总被引：37，自引：5，他引：32  

解习农  刘晓峰 《地质科技情报》1998,17(4):59-64

流体压裂是在异常高流体压力体系的低渗泥岩中流体活动的主要输导通道。流体压裂不仅导致低渗泥岩的幕式压实作用,而且为油气运移,储集的研究提供了新的理论模式。超压盆地泥岩的压实演化可划分为两个阶段,即连续压实和幕式压实阶段,其中幕式压实阶段又可根据导致流体压裂的主控因素进一步划分为两个亚阶段,即水力压裂和生烃压裂,前者主要由于泥岩欠压实和新生流体源的增压所致,后者则主要由于泥岩中有机质生烃及烃类裂解后增  相似文献   

库车坳陷地质结构及油气带预测   总被引：3，自引：2，他引：1  

康志宏  梁慧社 《新疆地质》1998,(1)

利用油气地震勘探成果和露头的岩性资料 ,对库车坳陷地震层序进行划分 ,初步认为第三系膏盐层和三叠 -侏罗系煤层及泥岩是分布比较稳定的区域性软弱层 ,构成了区域内的主要滑脱面。将库车坳陷划分 6个构造带 ,对库车坳陷的构造样式进行归纳总结 ,并结合典型实例 ,采用平衡地质剖面技术对重要剖面进行地质平衡解译 ,使库车坳陷地质结构更加清晰。结合该区油气成藏的地质条件 ,划分出若干油气聚集带 ,对各油气聚集带进行分别评价  相似文献   

准噶尔盆地结构及其圈闭类型   总被引：12，自引：0，他引：12  

张功成  刘楼军  陈新发  刘锦文 《新疆地质》1998,(3)

准噶尔盆地是复合叠加前陆盆地 ,其原型分别形成于板块俯冲、碰撞、造山带后期复活、拗拉槽回返和板内皱陷作用有关的大地构造环境。其古生代盆地的形成与相邻的阿尔泰山和东、西准噶尔山、天山及博格达山的造山作用相关。中新生代盆地的形成和改造与其南部特提斯域板块俯冲碰撞造山引起的盆地相邻造山带的复活有关。相邻造山带时空上不均一的造山作用对盆地的影响不同 ,形成了盆地独特的结构。各坳陷均由与其形成有关的造山带前缘冲断带、陡坡带、山前凹陷、缓坡带和前隆及前缘皱陷等构成 ,前隆之间的叠加构成了盆地的大型隆起 ,皱陷叠加构成了盆地的中央坳陷。不同类型的圈闭在坳陷中有规律地分布着  相似文献   

准噶尔含煤盆地构造演化与聚煤作用   总被引：5，自引：1，他引：4  

王俊民 《新疆地质》1998,(1)

准噶尔含煤盆地是新疆主要含煤盆地之一 ,从含煤盆地内各煤田的含煤地层特征 ,构造特征及煤层赋存特征着手 ,分析了盆地内的沉积环境 ,构造演化和聚煤作用 ,论述了两个主要聚煤期所形成的含煤建造的发生、发展过程 ,指出了两个含煤建造中聚煤中心和富煤带的位置  相似文献   

Characteristics of telemagmatic metamorphism of the Ceshui Formation coal in Lianyuan coal basin     

毕华  彭格林 《中国地球化学学报》1998,17(4):379-384

The Ceshui Formation coal is mostly anthracite and its metamorphism has been less documented.By analyzing systematically the reflectance of vitrinite and the results of X-ray diffraction of the Ceshui Formation cola in the Lianyuan coal basin,the spatial variation characteristics of coal ranks,coal metamorphic regions,the extension of coal metamorphic belts.coal metamorphic gradients,coal chemical structure and the effect on the degree of metamorphism of heat-production and -storge conditions,buried depth of the Indosinian-Yenshanian granites at the margins of the Lianyuan coal basin are discussed.The research results in conjunction of the features of regional hydrothermal alterations,endogenetic deposits with the Ceshui Formation coal measures,and the development of secondary vesicles indicate that the telemagmatic metamorphism is the main factor leading to the metamorphism of the Ceshui Formation coal in the region studied.  相似文献   

Study on fine structure of crust-mantle transition zone in Yanqing-Hailai basin based on CDP and DSS data     

成瑾  李清河 《地震学报(英文版)》1998,11(1):81-88

ＳｔｕｄｙｏｎｆｉｎｅｓｔｒｕｃｔｕｒｅｏｆｃｒｕｓｔｍａｎｔｌｅｔｒａｎｓｉｔｉｏｎｚｏｎｅｉｎＹａｎｑｉｎｇＨａｉｌａｉｂａｓｉｎｂａｓｅｄｏｎＣＤＰａｎｄＤＳＳｄａｔａＪＩＮＣＨＥＮＧ１）（成瑾）ＱＩＮＧＨＥＬＩ２）（李清河）１）Ｉｎ...  相似文献   

Middle Proterozoic–early Palaeozoic evolution of central Baltoscandian intracratonic basins: evidence for asthenospheric diapirs     

R. T. van Balen  M. Heeremans 《Tectonophysics》1998,300(1-4):131-142

The three intracratonic sedimentary basins located in central Baltoscandinavia, namely the Bothnian Gulf basin, the Bothnian Sea basin and the Baltic basin, developed in response to Middle Proterozoic and Late Proterozoic tectonic events, separated in time by about 800 Ma. Only the Baltic basin was subsequently affected by Caledonian orogenesis and Mesozoic rifting. Crustal extension was minor or did not take place during the Proterozoic basin evolution phases. However, according to the Moho topography, crustal thinning did take place. This was probably a result of subcrustal magmatism. On a craton-wide scale, the ages of granitoids, which intruded during the Middle Proterozoic basin formation, generally decrease from east to west. This fact, combined with the evidence provided by mantle-derived flood basalt magmatism, points to a moving asthenospheric diapir as the cause for basin development. Asthenospheric upwelling was probably also responsible for the second, Late Proterozoic, basin evolution phase, as evidenced by the lack of crustal thinning and extension, and the occurrence of tholeiitic intrusions. In addition, a Late Proterozoic thermally induced palaeo-high, located at about the position of the intracratonic basins, is compatible with indications from glaciations. As the ages of Late Proterozoic intracratonic basins also decrease from east to west across the craton, the location of asthenospheric diapirism during this time interval was also moving. For the Fennoscandian lithosphere, the presence of fundamental lithospheric weakness zones (e.g. terrane boundaries) might be an explanation for the formation of two generations of basins originating from asthenospheric upwelling at about the same location in the Fennoscandian Shield. The spacing and size of the Proterozoic intracratonic basins suggest that the asthenospheric diapirism was not deep seated. Therefore, sublithospheric convective processes might be the cause for the asthenospheric upwellings. Such processes are related to Rayleigh–Taylor instabilities in the sublithospheric mantle. Emplacement of an asthenospheric diapir causes a thermal bulge at the surface of the lithosphere. Modelling results demonstrate that erosion of the surficial high, succeeded by cooling of the lithosphere, can explain the accumulation of early Palaeozoic sediments in the Bothnian Sea basin, taking into account post-Ordovician vertical and lateral erosion of the basin fill.  相似文献