准噶尔永进地区深部储层的保存与发育机理   总被引：2，自引：3，他引：2  

胡海燕  李平平 《中国地质》2007,34(1):81-85

随着油气勘探向深部发展,在深部寻找优质储层是一个亟待深入研究的问题。永进地区位于准噶尔腹部中石化中部3区块,勘探目的层埋藏深,大于5000m,储层多为低孔-特低孔低渗-特低渗储层,因此,在该地区深部寻找相对优质储层具有重要的理论意义和勘探意义。该地区发育区域性不整合,即J/K不整合。在不整合形成期间,大气淡水具有高的流速和相对开放的流体环境,可以溶蚀易溶矿物并将溶蚀产物带离出溶蚀区;颗粒包壳可以抑制石英加大和碳酸盐矿物沉淀,保存原生孔隙和形成的次生孔隙;永进地区油气充注早,早期的油气充注改善了流体成岩环境,抑制胶结作用,同时,其携带的有机酸溶蚀易溶矿物,产生次生孔隙,油气早期充注从两个方面改善储层。  相似文献   

鄂尔多斯盆地中新生代峰值年龄事件及其沉积-构造响应   总被引：6，自引：3，他引：6       下载免费PDF全文

陈 刚王志维  白国绢孙建博章辉若  李向东 《中国地质》2007,34(3):375-383

通过锆石-磷灰石裂变径迹年龄分布及其与粗碎屑沉积建造和地层不整合关系的综合分析,提供了鄂尔多斯盆地中新生代构造事件的年代学约束及其沉积响应特点。印支期构造事件主要发生在230～190Ma,包含215Ma和195Ma两个峰值年龄,在盆地西南缘发育晚三叠世粗碎屑类磨拉石建造及其与上覆地层的平行不整合。燕山期构造事件主要发生在燕山中晚期的150～85Ma,包含145Ma、120Ma和95Ma等3个峰值年龄,在盆地西南缘发育燕山中期的晚侏罗世和早白垩世的粗碎屑类磨拉石建造及其地层间的角度不整合。喜山期构造事件主要表现为盆地区域的多旋回构造隆升,至少包含55Ma、25Ma和5Ma等3个幕次的峰值年龄事件。其中,锆石和磷灰石叠合分布的峰值年龄(145Ma)和其相关的角度不整合、逆冲推覆和区域岩浆活动等,共同指示了鄂尔多斯盆地中新生代的一次关键构造变革事件。  相似文献   

准噶尔盆地陆西地区侏罗系西山窑组顶界不整合结构特征及其与油气关系   总被引：5，自引：0，他引：5  

赵卫军  支东明  党玉芳  肖燕  关键 《新疆地质》2007,25(1):92-95

根据测井、录井资料,对陆西地区所有井的侏罗系西山窑组顶界不整合面上、下的岩性组合做了统计,并从中总结出7种具有代表性的不整合结构,对组成不整合结构的底砾岩、水解带、淋滤带的岩性特征、测井响应、孔渗特征做了系统的分析.通过研究7种不整合结构与油气的运聚关系认为,第Ⅰ种和第Ⅴ种不整合结构最易聚集成藏,第Ⅱ和Ⅲ种不整合结构较易聚集成藏,第Ⅳ种不整合结构也可以聚集成藏,第Ⅵ种和第Ⅶ种不整合结构不易成藏.最后指出,石南油田和石西油田之间未勘探区块是油气聚集的最有利地带.  相似文献   

加拿大McArthur River铀矿床成矿特点及在我国寻找相同类型铀矿床的几点认识     

舒孝敬 《铀矿地质》2007,23(3):150-155

加拿大萨斯喀彻温省西北部阿萨巴斯卡盆地McArthur River铀矿床是世界上最大、最富的不整合面型铀矿床。笔者通过对该矿床的剖析，从宏观上对这类铀矿床的一些形成规律进行了初步探讨，并对在我国寻找不整合面型或相似类型的铀矿床提出了一些认识。  相似文献   

青藏高原羌塘中部果干加年山上三叠统望湖岭组的建立及意义   总被引：7，自引：3，他引：7  

李才  翟庆国  董永胜  于介江  黄小鹏 《地质通报》2007,26(8):1003-1008

在果干加年山的主脊及其以北识别出一套稳定的沉积岩系,角度不整合于蛇绿混杂岩之上,以细砂岩、硅质粉砂岩为主,其中夹有大小不等的古生代外来岩块,底砾岩成分因地而异并具有快速堆积的特点,底部夹有流纹岩。厚度大于1633m。流纹岩夹层获得的锆石SHRIMPU-Pb谐和年龄为214Ma±4Ma,时代为晚三叠世诺利期。在剖面测制和区域对比的基础上建立了上三叠统望湖岭组,代表龙木错-双湖缝合带闭合以后接受的最早的沉积盖层。望湖岭组之下的蛇绿混杂岩获得阳起石Ar-Ar年龄219.7Ma±6.5Ma。同位素定年确定构造转化事件发生在214～220Ma之间,为龙木错-双湖缝合带的闭合时间提供了确切的时间约束,望湖岭组是这一事件的沉积记录,是龙木错-双湖缝合带蛇绿混杂岩之上首次发现的沉积盖层。  相似文献   

Ore mineralization related to the zone of the pre-Riphean structural-stratigraphic unconformity and Lower Riphean platform cover of the Uchur-Maya depression, the southeastern Siberian Platform     

M. V. Goroshko  V. A. Gur’yanov 《Russian Journal of Pacific Geology》2007,1(6):586-601

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Upper Silurian–Middle Devonian radiolarian zones of the Yokokurayama and Konomori areas in the Kurosegawa Belt, Southwest Japan     

M. Umeda 《Island Arc》1998,7(4):637-646

Five radiolarian zones, from the Upper Silurian to Middle Devonian, are discriminated from the tuffaceous successions of the Joryu and Nakahata Formations of the Yokokurayama Group of the Yokokurayama area and the Konomori area in the Kurosegawa Belt, Southwest Japan. The definition of the zones is based on the first appearance biohorizon of the characteristic species. The zones are the Pseudospongoprunum sagittatum, Futobari solidus, Trilonche (?) sp. A, Glanta fragilis and Protoholoeciscus hindea zones, in ascending order. The preliminary age assignments for the zones are discussed on the basis of the comparison with other previous documented faunas. The age determination of the formations suggests the presence of unconformities and the episodic sedimentation of the tuffaceous strata in the Yokokurayama Group.  相似文献   

Distribution of Palaeozoic tectonic superimposed unconformities in the Tarim Basin,NW China: significance for the evolution of palaeogeomorphology and sedimentary response     

Hao Liu  Ian D. Somerville  Changsong Lin  Shengjie Zuo 《Geological Journal》2016,51(4):627-651

Seismic and drilling well data were used to examine the occurrence of multiple stratigraphic unconformities in the Tarim Basin, NW China. The Early Cambrian, the Late Ordovician and the late Middle Devonian unconformities constitute three important tectonic sequence boundaries within the Palaeozoic succession. In the Tazhong, Tabei, Tadong uplifts and the southwestern Tarim palaeo‐uplift, unconformities obviously belong to superimposed unconformities. A superimposed unconformity is formed by superimposition of unconformities of multiple periods. Areas where superimposed unconformities develop are shown as composite belts of multiple tectonic unconformities, and as higher uplift areas of palaeo‐uplifts in palaeogeomorphologic units. The contact relationship of unconformities in the lower uplift areas is indicative of truncation‐overlap. A slope belt is located below the uplift areas, and the main and secondary unconformities are characterized by local onlap reflection on seismic profiles. The regional dynamics controlled the palaeotectonic setting of the Palaeozoic rocks in the Tarim Basin and the origin and evolution of the basin constrained deposition. From the Sinian to the Cambrian, the Tarim landmass and its surrounding areas belonged to an extensional tectonic setting. Since the Late Ordovician, the neighbouring north Kunlun Ocean and Altyn Ocean was transformed from a spreading ocean basin to a closed compressional setting. The maximum compression was attained in the Late Ordovician. The formation of a tectonic palaeogeomorphologic evolution succession from a cratonic margin aulacogen depression to a peripheral foreland basin in the Early Caledonian cycle controlled the deposition of platform, platform margin, and deep‐water basin. Tectonic uplift during the Late Ordovician resulted in a shallower basin which was followed by substantial erosion. Subsequently, a cratonic depression and peripheral or back‐arc foreland basin began their development in the Silurian to Early–Middle Devonian interval. In this period, the Tabei Uplift, the Northern Depression and the southern Tarim palaeo‐uplift showed obvious control on depositional systems, including onshore slope, shelf and deep‐water basin. The southern Tarim Plate was in a continuous continental compressional setting after collision, whereas the southern Tianshan Ocean began to close in the Early Ordovician and was completely closed by the Middle Devonian. At the same time, further compression from peripheral tectonic units in the eastern and southern parts of the Tarim Basin led to the expansion of palaeo‐uplift in the Late Devonian–Early Carboniferous interval, and the connection of the Tabei Uplift and Tadong Uplift, thus controlling onshore, fluvial delta, clastic coast, lagoon‐bay and shallow marine deposition. Copyright © 2015 John Wiley & Sons, Ltd.  相似文献   

青海南部杂多地区新建扎青组的地层层序及地质意义     

王毅智  叶占福  李琳业  宋泰忠  任二峰  祁生胜  王伟  裴生菊  许长青 《西北地质》2010,43(3):20-27

在青藏高原北羌塘盆地青海南部,青海省杂多县扎青乡地区的然者涌一带,发现以基性火山熔岩为主夹有中基性火山碎屑岩,具大陆板内裂谷拉斑玄武岩喷发特点的一套火山地层。该地层底部角度不整合接触覆盖在早中二叠世开心岭群诺日巴尕日保组、九十道班组之上,其上被晚三叠世结扎群甲丕拉组角度不整合覆盖。主要岩性为灰绿—灰紫色橄榄玄武岩、粗面玄武岩、玄武粗安岩及流纹岩、中基性火山角砾岩、角砾凝灰岩夹少量流纹岩和紫红色岩屑砂岩及细砾岩,其特征与峨眉山低钛玄武岩相似,具陆相喷发-沉积特征。区域对比在北羌塘地区具有独特地层特征,可与四川峨眉山玄武岩地层进行对比。而区域上该地区晚二叠世主要为一套海陆交互相含煤碎屑岩建造,未发现陆相火山岩出露,本文建立正式地层单位扎青组,以供参考,其时代暂归晚二叠—早三叠世。  相似文献   

The evolution of rifting on the volcanic margin of the Pelotas Basin and the contextualization of the Paraná–Etendeka LIP in the separation of Gondwana in the South Atlantic     

《Marine and Petroleum Geology》2014

The Pelotas Basin is the classical example of a volcanic passive margin displaying large wedges of seaward-dipping reflectors (SDR). The SDR fill entirely its rifts throughout the basin, characterizing the abundant syn-rift magmatism (133–113 Ma). The Paraná–Etendeka Large Igneous Province (LIP), adjacent to west, constituted the pre-rift magmatism (134–132 Ma). The interpretation of ultra-deep seismic lines showed a very different geology from the adjacent Santos, Campos and Espírito Santo Basins, which constitute examples of magma-poor passive margins. Besides displaying rifts totally filled by volcanic rocks, diverse continental crustal domains were defined in the Pelotas Basin, such as an outer domain, probably constituted by highly stretched and permeated continental igneous crust, and a highly reflective lower crust probably reflecting underplating.The analysis of rifting in this portion of the South Atlantic is based on seismic interpretation and on the distribution of regional linear magnetic anomalies. The lateral accretion of SDR to the east towards the future site of the breakup and the temporal relationship between their rift and sag geometries allows the reconstitution of the evolution of rifting in the basin. Breakup propagated from south to north in three stages (130–127.5; 127.5–125; 125–113 Ma) physically separated by oceanic fracture zones (FZ). The width of the stretched, thinned and heavily intruded continental crust also showed a three-stage increase in the same direction and at the same FZ. Consequently, the Continental-Oceanic Boundary (COB) shows three marked shifts, from west to east, from south to north, resulting into rift to margin segmentation. Rifting also propagated from west to east, in the direction of the final breakup, in each of the three segments defined. The importance of the Paraná–Etendeka LIP upon the overall history of rupturing and breakup of Western Gondwanaland seems to have been restricted in time and in space only to the Pelotas Basin.  相似文献