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羌塘盆地北部马料山侏罗纪布曲组地层古生物及沉积环境 总被引:3,自引:0,他引:3
详细描述了羌塘盆地北部乌兰乌拉湖地区马料山侏罗系剖面,将剖面划分为雀莫错组、布曲组和夏里组3个岩石地层单位,其中布曲组出露齐全,化石丰富。根据沉积环境及相对海平面变化规律将布曲组划分为2个沉积层序,并讨论了各体系域特征。依据马料山剖面布曲组的生物组合及分布特征建立了1个双壳类生物组合带即Chlamystipperi-Protocardiastricklandi组合带,并细分为3个组合亚带,其时限为中侏罗世巴通期。 相似文献
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青藏高原羌塘盆地东缘贡日地区中侏罗统布曲组碳酸盐岩微相与沉积环境 总被引:3,自引:0,他引:3
对西藏羌塘盆地东部边缘贡日地区产出石油沥青脉的中侏罗统布曲组的沉积相和沉积环境进行了详细研究,共区分出9种碳酸盐岩微相类型,即灰泥灰岩、纹层状粉泥晶灰岩、砂屑灰岩、球粒泥亮晶泥粒灰岩、含核形石和团块泥粒灰岩、生物碎屑泥粒灰岩、生物碎屑粒泥灰岩、含鲕粒生屑颗粒灰岩、含生物碎屑灰泥灰岩。根据微相类型组合特征和野外沉积构造,认为布曲组灰岩主要形成于碳酸盐台地浅缓坡、中缓坡和深缓坡3种沉积环境,在布曲组内共识别出4个沉积旋回,组成一个相对海平面逐渐上升的海进序列,与上覆地层布曲组岩层构成一个完整的三级海平面变化旋回。 相似文献
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羌塘盆地是我国陆上新区油气勘探程度最低的中生代海相含油气沉积盆地,其主力烃源岩一直认识不清。本文以胜利河地区中侏罗统布曲组烃源岩为研究对象,开展了有机地球化学和元素地球化学的系统研究,探讨了布曲组烃源岩的形成环境和有机质富集机制,为预测北羌塘坳陷中侏罗统布曲组优质烃源岩的分布提供了理论依据。胜利河地区布曲组烃源岩有机质丰度高,有机质类型为Ⅱ型,处于成熟阶段,综合评价为优质烃源岩。布曲组沉积时期,气候干旱炎热,研究区初级生产力水平较高,属于弱局限盆地,具有浅水、高盐度、贫氧—缺氧的沉积环境。布曲组沉积时期,羌塘盆地发生大规模海侵,研究区邻近中央隆起,陆源输入和热液活动携带大量营养物质磷、铁等进入海洋,导致较高的初级生产力,是北羌塘坳陷布曲组优质烃源岩有机质富集的主控因素。研究区位于北羌塘坳陷的最小含氧带区域,有利于大量浮游生物在此缺氧死亡埋藏保存。通过有机质富集机制的分析,北羌塘坳陷的近岸陆棚斜坡带可能是中侏罗统布曲组优质烃源岩分布的有利区域。 相似文献
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长江源地区在侏罗纪巴通斯发育一套稳定碳酸盐岩夹碎屑岩沉积(布曲组),其沉积环境经历了开阔海台地、右.台前缓坡、陆棚、近宾、陆棚、台前缓坡至开阔海台地等变化,于布曲组内部识别出三个Ⅱ型层序界面和四个不完整三级层序,在此基础上提出布曲组的顶底界面(岩性界面)可能不是一个等时面,而是穿时的,巴通期的相对海平面经历了下降、慢升快降、慢升慢降及慢降等变化。 相似文献
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研究羌塘盆地中侏罗统布曲组白云岩有序度和晶胞参数的特征、影响因素及地质意义。在前期对白云岩详细分类的基础上,通过X射线粉晶衍射方法进行测试,用jade 6.5软件对测试结果进行处理,获取白云石的最大晶面间距、有序度、晶胞参数等信息,探讨其影响因素及地质意义,结果表明:(1)北羌塘坳陷西南缘唢呐湖地区颗粒白云岩具低—中等的有序度,晶胞参数较为集中,可能是蒸发潟湖环境中发育的颗粒灰岩为高镁方解石,在经历埋藏过程的调整白云石化作用而成;(2)南羌塘坳陷古油藏带布曲组白云岩中,微—粉晶白云岩有序度、晶胞参数分布范围大,为灰岩在准同生阶段快速交代、在埋藏阶段重结晶形成;细晶白云岩有序度较高,晶胞参数呈正相关,发育在稳定的埋藏环境中,白云石晶体在继承先驱灰岩孔隙中自由生长而成;中—粗晶白云岩有序度最高,是在中—深埋藏阶段,经历了足够长久的白云石化作用过程,有限的空间限制了晶体的自由生长;微—粉晶白云岩→细晶白云岩→中—粗晶白云岩的有序度逐渐增高,表明稳定的埋藏过程有利于白云石向有序转化;(3)布曲组白云岩晶胞参数a、c以不同程度向理想白云石左下方偏移,说明布曲组白云岩形成以后经历了强烈的构造挤压,估算压力可达1000MPa,与晚白垩世的构造运动有关,指示南羌塘坳陷布曲组白云岩古油藏是由逆冲推覆运动造成的。 相似文献
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在对北羌塘拗陷侏罗系地层发育特征分析基础上,通过典型剖面沉积相、层序界面特征、准层序叠置序列、体系域构成等研究,将侏罗系地层划分为5个三级层序。其中第1层序(SQ1)对应于雀莫错组地层,第2层序(SQ2)对应于布曲组中下部地层,第3层序(SQ3)对应于布曲组上部和夏里组下部地层,第4层序(SQ4)对应于夏里组中上部和索瓦组下部地层,第5层序(SQ5)对应于索瓦组上部和雪山组地层。在此基础上,开展了北羌塘拗陷内侏罗系层序地层对比。研究区层序地层的划分与对比研究,对羌塘盆地地层划分与对比、分析盆地古地理微地貌、预测盆地埋藏区生储盖发育特征等都具有重要意义。 相似文献
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羌塘盆地隆鄂尼-鄂斯玛古油藏带中侏罗统布曲组含油白云岩带主要由潮坪相及潮下浅滩相颗粒灰岩和藻纹层白云岩、颗粒白云岩组成。藻纹层白云岩与颗粒灰岩组成旋回性沉积,发育藻纹层构造、鸟眼构造;含油白云岩带之间为潟湖相暗色微泥晶灰岩、泥质灰岩、介壳灰岩。采用优势相原则,横向对比分析编制隆起剥蚀区、潮坪相带、潟湖相带和潮下浅滩相带古地理展布,以及研究区生油岩与储集层及油气藏的空间分布,预测覆盖区可能存在残存油气藏分布区。 相似文献
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西藏羌塘盆地东部中-上侏罗统沉积特征及沉积相划分 总被引:1,自引:2,他引:1
详细野外剖面测量基础上,对羌塘盆地东部中-上侏罗统剖面主要岩类的宏观特征(颜色和构造)、物质组分、结构及磁化率等特征进行系统研究,研究区碎屑岩主要为砾岩、砂岩、粉砂岩和泥岩等岩类,磁化率值呈现低→高→低→高→低(雀莫错组→布曲组→夏里组→索瓦组→雪山组)的规律性变化。综合沉积特征显示雀莫错组和雪山组主要为河流相-河控三角洲相沉积,布曲组为碳酸盐缓坡相沉积为主,夏里组主要为潮坪-泻湖相沉积,索瓦组主要为混积陆棚-泻湖-潮坪相沉积,中-晚侏罗世羌塘盆地古水深在下降的总趋势中呈现浅→深→浅→深→浅的升降旋回,盆地沉积中心由东向西迁移,区域构造演化和全球海平面变化共同控制了盆地沉积面貌。 相似文献
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羌塘盆地有较广泛的膏盐岩层分布,主要赋存于中侏罗统雀莫错组、布曲组、夏里组和上侏罗统索瓦组中,具有亮晶鲕粒灰岩→白云岩(云灰岩)→膏盐岩层、粉砂岩(或泥岩)→膏盐岩→粉砂岩(或泥岩)→膏盐岩层和膏质白云岩(或泥岩)→膏盐岩层三种沉积层序,分属潟湖—海湾型、潮坪和萨布哈型三种成因类型与沉积模式。潟湖型膏盐层较厚且展布稳定;潮坪型膏盐层较薄、变化快、层数多;萨布哈膏盐层呈薄层、极薄层夹于泥岩、白云岩中,也呈结核状、眼球状等,多发生表生水化变形。膏盐岩层除层状产出外,也呈盐丘产出,已在赤布张错、雁石坪、温泉等地多处发现盐丘构造,直径一般为100—1000m,并见有油气显示。因此,根据盐丘的发育情况,结合沉积相展布,在有利的构造部位寻找刺穿油气藏是大有可为的,应作为羌唐盆地油气早期勘探的突破点。 相似文献
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We have evaluated the hydrocarbon-bearing potential of Middle Jurassic marine source rocks in the Qiangtang Basin, Tibet, through a comprehensive study of samples from a large number of surface outcrops in different structural units, and from the Qiang-D2 Well in the southern Qiangtang Depression. Data that were acquired, including the depositional environment, thickness of sedimentary units, and organic geochemistry, are used to identify the principal controlling factors and predict the location of favorable hydrocarbon kitchens. The source rocks are mainly platform limestone of the Middle Jurassic Buqu Formation. This formation comprises a suite of intra-platform sag marls, micrites, and black shales that were deposited in a deep-water and restricted depositional environment. The marls form hydrocarbon-rich source rocks with organic matter that is mainly type II and in the mature to highly mature stage. In the Dongco–Hulu Lake and Tupoco–Baitan Lake deep sags, limestone also forms a medium-level source rock. In the Qiangtang Basin, limestone is the favorable source rock kitchen and is more significant in this regard than mudstone. The results provide important constraints on evaluating the hydrocarbon potential of Jurassic marine source rocks and for locating petroleum resources in the Qiangtang Basin. 相似文献
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藏北羌塘盆地独雪山地区,在原先认为不整合于早侏罗世火山岩系之上的“中侏罗统雀莫错组”中, 新近发现了一套早侏罗世淡水双壳类祁阳蚌(Qiyangia)组合,表明羌北盆地存在早侏罗世沉积地层,其为一套海陆交互相沉积的粗碎屑岩→灰岩→细碎屑岩夹灰岩,下侏罗统与中侏罗统为连续沉积。据此资料,该区侏罗系目前采用的岩石地层单位系统及地层的对比认识存有问题,文章对此套早侏罗世沉积的岩石地层划分方案进行了讨论, 指出雁石坪地区的侏罗系岩石地层系统作为等时的地层单位运用于羌北盆地北西部并不适宜,羌北盆地已有的地层系统格架有必要重新认识。 相似文献
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YU Yuanjiang ZOU Caineng DONG Dazhong WANG Shejiao LI Jianzhong YANG Hu LI Denghu LI Xinjing WANG Yuman HUANG Jinliang 《《地质学报》英文版》2014,88(2):598-619
The presence of shale gas has been confirmed in almost every marine shale distribution area in North America.Formation conditions of shale gas in China are the most favorable for marine,organic-rich shale as well.But there has been little research focusing on shale gas in Qiangtang Basin,Qinghai-Tibet Plateau,where a lot of Mesozoic marine shale formations developed.Based on the survey results of petroleum geology and comprehensive test analysis data for Qinghai-Tibet Plateau,for the first time,this paper discusses characteristics of sedimentary development,thickness distribution,geochemistry,reservoir and burial depth of organic-rich shale,and geological conditions for shale gas formation in Qiangtang Basin.There are four sets of marine shale strata in Qiangtang Basin including Upper Triassic Xiaochaka Formation (T3x),Middle Jurassic Buqu Formation (J2b),Xiali Formation (J2x) and Upper Jurassic Suowa Formation (J3s),the sedimentary types of which are mainly bathyal-basin facies,open platform-platform margin slope facies,lagoon and tidal-fiat facies,as well as delta facies.By comparing it with the indicators of gas shale in the main U.S.basins,it was found that the four marine shale formations in Qiangtang Basin constitute a multi-layer distribution of organic-rich shale,featuring a high degree of thickness and low abundance of organic matter,high thermal evolution maturity,many kinds of brittle minerals,an equivalent content of quartz and clay minerals,a high content of feldspar and low porosity,which provide basic conditions for an accumulation of shale gas resources.Xiaochaka Formation shale is widely distributed,with big thickness and the best gas generating indicators.It is the main gas source layer.Xiali Formation shale is of intermediate thickness and coverage area,with relatively good gas generating indicators and moderate gas formation potential.Buqu Formation shale and Suowa Formation shale are of relatively large thickness,and covering a small area,with poor gas generating indicators,and limited gas formation potential.The shale gas geological resources and technically recoverable resources were estimated by using geologic analogy method,and the prospective areas and potentially favorable areas for Mesozoic marine shale gas in Qiangtang Basin are forecast and analyzed.It is relatively favorable in a tectonic setting and indication of oil and gas,shale maturity,sedimentary thickness and gypsum-salt beds,and in terms of mineral association for shale gas accumulation.But the challenge lies in overcoming the harsh natural conditions which contributes to great difficulties in ground engineering and exploration,and high exploration costs. 相似文献