新疆柯坪大湾沟剖面中-上奥陶统烃源岩高频海平面变化与有机质的关系

通过对柯坪大湾沟剖面中-上奥陶统萨尔干组与印干组页岩的自然伽马测量,建立了此两套页岩的高频海平面变化曲线。同时,对采自于大湾沟剖面的54块泥页岩样品进行了热解与有机碳含量、泥岩X衍射的矿物种类与含量、泥岩密度等分析,将泥页岩样品的分析结果与高频海平面升降变化对比后,认为:①萨尔干组页岩厚13.4 m,属于一个三级层序的海平面升降变化。在萨尔干组页岩的海侵体系域内,发育4次高频海平面升降变化,而在高位体系域内发育3次高频海平面升降变化。印干组页岩厚34 m,也同样属于一个三级层序的海平面升降变化。海侵体系域内发育2次高频海平面升降变化,在高位体系域内则发育6次高频海平面变化。②萨尔干组页岩与印干组页岩均在海平面上升期黏土矿物含量增加,且有机质丰度增高(有机碳含量值增大)。萨尔干组页岩黏土矿物含量高于印干组页岩,碳酸盐矿物低于印干组页岩,其有机质丰度亦高于印干组页岩。③萨尔干组页岩与印干组页岩的黏土矿物成分主要为伊-蒙混层,由于蒙皂石伊利石化是烃源岩催化活性的主要来源,因此富含伊-蒙混合层的这两套烃源岩是最有利的烃源岩。④萨尔干组页岩、印干组页岩均具有海平面上升,有机质丰度增高、泥页岩密度降低和海平面下降,有机质丰度降低、泥岩密度增高的特征。

阿克库勒凸起中-上奥陶统地层划分及加里东中期第Ⅰ幕古喀斯特特征

随着阿克库勒凸起奥陶系油气勘探向外围拓展,需要重新认识中-上奥陶统地层划分方案和加里东中期第Ⅰ幕古喀斯特作用。通过岩心、FMI成像测井、自然伽马能谱测井和古生物资料的对比分析,认为恰尔巴克组GR尖峰下面的含泥灰岩段归于上奥陶统,恰尔巴克组厚度受一间房组上段滩相沉积底形的控制,含泥灰岩段起到填平补齐的作用;FMI成像测井和自然伽马能谱测井中KU和KThU两个参数能较好地划分该界线,新方案在塔北具有借鉴意义。根据该地层划分方案,中-上奥陶统在S109-S119-S114井以南地区为连续沉积,以北的地区存在暴露剥蚀。加里东中期第Ⅰ幕喀斯特对北部的于奇地区影响较大。

塔中隆起中-上奥陶统之间的不整合成因机制

塔里木盆地众多岩溶储层不整合中，中-上奥陶统之间的不整合研究意义重大。本文以塔中隆起中-上奥陶统之间的不整合结构特征为依据，对不整合成因机制进行了分析。研究表明，发生在恰尔巴克组沉积期间的地壳褶皱作用控制了不整合的发育，其分布范围受背斜控制。在背斜区，不同层系缺失的原因存在差异，一间房组和鹰山组的缺失是剥蚀缺失，而恰尔巴克组的缺失是沉积缺失。成因上可将其不整合划分为同构造型和后构造型两种不整合类型。同构造不整合分布在塔中背斜型隆起两翼的恰尔巴克组与一间房组之间，后构造不整合分布在塔中背斜型隆起顶部的良里塔格组与鹰山组之间。

塔里木盆地阿瓦提断陷中-上奥陶统萨尔干组沉积地质模型与烃源岩分布预测

中-上奥陶统萨尔干组烃源岩是塔里木盆地重要的海相烃源岩。针对阿瓦提断陷中-上奥陶统埋深大、缺乏钻井进行层位标定,以及萨尔干组烃源岩发育层段的地震响应特征不明的问题,用传统的技术手段识别该套烃源岩的分布范围可能难以取得好的效果。通过对柯坪地区露头剖面中-上奥陶统萨尔干组及其上下地层不同岩性及地层结构的认识,建立沉积地质模型,进行地震正演模拟,将地质模型和地震模型有机地结合起来,为烃源岩地震相识别追踪提供依据;在对研究区内二维地震测线逐条解释的基础上,依据地震反射波组的反射特征,进行地震相-沉积相分析;针对露头发育烃源岩而断陷内未有钻井揭示的地区,建立了海相烃源岩识别方法和流程,对研究区中-上奥陶统萨尔干组烃源岩进行了重新识别和空间展布预测。研究表明,萨尔干组烃源岩的发育受海平面上升控制作用明显,属于深水陆棚相沉积;萨尔干组烃源岩在区内广泛分布,厚度范围约为0~120 m,在西南部最厚,受控于阿恰断裂和吐木休克断裂,向东北部减薄,向北超覆尖灭于英买3井以南,向东至阿-满过渡带西缘仍有少量分布。

论我国海相中上奥陶统烃源岩的形成条件——以塔里木盆地为例

在我国的华北、华南地区 ,尤其是西部的塔里木盆地 ,发育着面积辽阔、层位巨厚的下古生界海相地层 ,但关于塔里木盆地的古生界主力烃源岩一直有争议。本文根据两条有代表性的地表和两条钻井剖面的海相碳酸盐岩中碳、氧稳定同位素组成在中—上奥陶统的大幅度正向波动 ,认为这是当时全球范围大陆冰川作用的结果 ,这一时期有利于沉积有机质的保存。结合有机质丰度、成熟度指标 ,以及沉积相等地质因素综合分析 ,提出了塔里木盆地中—上奥陶统烃源岩发育的稳定同位素宏观证据。同时 ,论述了中—上奥陶统富含有机质的海相泥质岩作为我国下扬子地区及华北地台西缘海相下古生界寻找有效烃源岩重点层系的可能性与前提条件。

塔中Ⅰ号断裂构造带奥陶系碳酸盐岩圈闭类型及其勘探意义

塔中Ⅰ号断裂构造带奥陶系碳酸盐岩油气聚集在一定程度上受到了中 上奥陶统灰岩顶面构造形态的控制 ,而油气层或显示层段分布范围、发育位置不完全受构造圈闭控制 ;中 上奥陶统圈闭发育多种类型 ,有成岩型圈闭、礁型圈闭和受构造作用控制的成岩型圈闭。丰富的圈闭类型和储层特征表明塔中Ⅰ号断裂构造油气聚集带具有多种建设性储层改造因素存在 ,该带同时又是一个有利的油气聚集区带 ,具有很大的勘探潜力 ;

新疆巴楚中-晚奥陶世牙形刺生物地层和沉积环境研究

塔里木盆地中央隆起区的中—上奥陶统灰岩相地层露头分布在巴楚良里塔格地区的一间房—唐王城。以牙形刺动物群为依据厘定3个组的时代,从下至上为一间房组(Periodus flabellum层、Pygodus serra层,属达瑞威尔阶)、吐木休克组(Pygodus anserinus层、Baltoniodus alobatus带,属桑比阶)和良里塔格组(含B.confluens动物群层,属凯迪阶下部)。一间房组的开始标志了新一期的海进,此组下段发育1期藻丘,中段发育1期藻丘、1期瓶筐石礁丘和3—4期瓶筐石—棘屑滩,上段代表了海水加深至浪基面之下的过程;吐木休克组沉积过程中达到了海进最大值,为凝缩沉积;良里塔格组代表了逐渐海退的过程,由浅滩和3期藻丘建造组成。

新疆顺北油田和塔河油田中—上奥陶统牙形刺生物地层

通过对新疆顺北油田B、C两井与塔河油田D井中-上奥陶统牙形刺的研究,从一间房组上部至恰尔巴克组下部识别出Dzikodus tablepointensis,Eoplacognathus suecicus,Pygodus serra和Pygodus anserinus-Yangtzeplacognathus jianyeensis等4个生物带。结合塔河油田A井的牙形刺研究,进而将两个地区的一间房组上部归为中奥陶统达瑞威尔阶中上部,恰尔巴克组归为上奥陶统桑比阶中下部,良里塔格组归为上奥陶统桑比阶中上部至凯迪阶下部,桑塔木组底部归为凯迪阶中部。顺北油田和塔河油田的中-上奥陶统牙形刺生物地层序列可以与塔里木盆地的区域标准牙形刺生物带进行对比。

塔里木中央隆起区奥陶纪碳同位素特征及其地层意义

对塔里木板块中央隆起区3口钻井及巴楚露头区南一沟剖面采集的139个碳同位素样品进行分析对比,查明中上奥陶统碳同位素组成及演化特征。鹰山组δ13 CPDB值均<0,分布范围在-2.50‰^-0.5‰之间,平均值约-1.5‰;一间房组δ13 CPDB值均接近0‰,分布范围在-0.40‰~0.6‰之间,平均值约为0;恰尔巴克组—良里塔格组δ13 CPDB值均>0,分布范围在0.40‰~2.9‰之间,一般在1‰上下,平均值不低于1.2‰。三者δ13 CPDB值差异明显,可作为该区地层划分对比依据。中央隆起区中上奥陶世发生过2次大的δ13 C正漂移,第一次正漂移发生于中奥陶世大坪期(O12)末到达瑞威尔期(O22)初期,δ13 CPDB变化幅度在1‰以上;第二次正漂移发生于中奥陶世达瑞威尔期(O22)末到晚奥陶世桑比期(O13)初期,δ13 CPDB变化幅度接近2‰。2次正漂移导致鹰山组、一间房组、恰尔巴克组以及良里塔格组碳同位素值出现明显差异,这一变化特征与达坂塔格一间房露头区相应层位一致,与贵州桐梓红花园剖面也很相似,与柯坪露头区大致相似。

新疆塔克拉玛干沙漠轮南区奥陶纪牙形刺及Pygodus属的演化

详细描述我国新疆塔克拉玛干沙漠东北部轮南探区50井的中-上奥陶统界线附近的牙形刺动物群,包括Pygodus anserinus,P.serra,P.xinjiangensis,Ansella jemtlandica,Cornuodus longibasis,Periodon aculeatus,Protopanderodus calceatus,P.cooperi,P.varicostatus,Scabbardella altipes,Spinodus spinatus和Cahabagnathus sweeti等,由上而下可划分Pygodus anserinus,P.serra和P.xinjiangensis等3个牙形刺带,并以Pygodus anserinus带的底界稍偏上处视为中-上奥陶统界线。尤为重要的是,本文对Pygodus xinjiangensis的有效性、Pygodus属的演化趋势及其3个种的区别进行详细讨论,同时说明Pygodus anserinus由P.serra演化而来。

Geochemistry and possible origin of the hydrocarbons from Wells Zhongshen1 and Zhongshen1C, Tazhong Uplift

In 2013, a great breakthrough of deep petroleum exploration was achieved in the Cambrian pre-salt intervals of Wells Zhongshen1(ZS1) and Zhongshen1C(ZS1C), Tazhong Uplift. However, the hydrocarbon discovery in the Cambrian pre-salt intervals has triggered extensive controversy regarding the source of marine oils in the Tarim Basin. The geochemistry and origin of the Cambrian pre-salt hydrocarbons in Wells ZS1 and ZS1 C were investigated using GC, GC-MS and stable carbon isotope technique. These hydrocarbons can be easily distinguished into two genetic families based on their geochemical and carbon isotopic compositions. The oil and natural gases from the Awatage Formation of Well ZS1 are derived from Middle-Upper Ordovician source rocks. In contrast, the condensate and gases from the Xiaoerbulake Formation of Wells ZS1 and ZS1 C probably originate from Cambrian source rocks. The recent discovery of these hydrocarbons with two different sources in Wells ZS1 and ZS1 C suggests that both Middle-Upper Ordovician-sourced hydrocarbons and Cambrian-sourced petroleums are accumulated in the Tazhong Uplift, presenting a great exploration potential.

Potential petroleum sources and exploration directions around the Manjar Sag in the Tarim Basin

Since the discovery of the Tahe oilfield, it has been controversial on whether the main source rock is in the Cambrian or Middle-Upper Ordovician strata. In this paper, it is assumed that the crude oil from the Wells YM 2 and TD 2 was derived from the Middle-Upper Ordovician and Cambrian source rocks, respectively. We analyzed the biomarkers of the crude oil, asphalt-adsorbed hydrocarbon and saturated hydrocarbon in bitumen inclusions from the Lunnan and Hade areas in the North Uplift of the Tarim Basin. Results show that the ratios of tricyclic terpane C2~/C23 in the crude oil, asphalt-adsorbed hydrocarbon and saturated hydrocarbon in bitumen inclusions are less than 1.0, indicating that they might be from Upper Ordovician source rocks; the ratios of C28/（C27＋C28＋C29） steranes in the saturated hydrocarbon from reservoir bitumen and bitumen inclusions are higher than 25, suggesting that they might come from the Cambrian source rocks, however, the ratios of C28/（C27＋C28＋C29） steranes in oil from the North Uplift are less than 25, suggesting that they might be sourced from the Upper Ordovician source rocks. These findings demonstrate that the sources of crude oil in the Tarim Basin are complicated. The chemical composition and carbon isotopes of Ordovician reservoired oil in the Tarim Basin indicated that the crude oil in the North Uplift （including the Tahe oilfield） and Tazhong Depression was within mixture areas of crude oil from the Wells YM 2 and TD 2 as the end members of the Cambrian and Middle-Upper Ordovician sourced oils, respectively. This observation suggests that the crude oil in the Ordovician strata is a mixture of oils from the Cambrian and Ordovician source rocks, with increasing contribution from the Cambrian source rocks from the southern slope of the North Uplift to northern slope of the Central Uplift of the Tarim Basin. Considering the lithology and sedimentary facies data, the spatial distribution of the Cambrian, Middle-Lower Ordovician and Upper Ordovician source rocks was reconstructed on the basis of seismic reflection characteristics, and high-quality source rocks were revealed to be mainly located in the slope belt of the basin and were longitudinally developed over the maximum flooding surface during the progressive-regressive cycle. Affected by the transformation of the tectonic framework in the basin, the overlays of source rocks in different regions are different and the distribution of oil and gas was determined by the initial basin sedimentary structure and later reformation process. The northern slope of the Central Uplift-Shuntuo-Gucheng areas would be a recent important target for oil and gas exploration, since they have been near the slope area for a long time.

Septal patterns in Agetolites from the Xiazhen Formation(Upper Ordovician) at Zhuzhai,Yushan County,Jiangxi Province,South China

Patterns of septal insertion were analyzed in three species of Agetolites from the Upper Ordovician in Yushan County, Jiangxi Province of China. Agetolites is a peculiar coral possessing features of both tabulate （e.g., mural pores） and rugose corals （e.g., welldeveloped septa）. Septal patterns have long been considered to be indicative of the origin of corals, and the pattern of septal insertion in Agetolites has been known to be typical of rugosans. This study, however, reveals that the patterns in Ageto lites are rather random and cannot be an indication of its rugosan affinity. It is suggested that Agetolites probably has a closer phylogenetic relation with tabulates than with either rugosans or scleractinians. Two insertion patterns of the first six septa were detected （Types I and II）. Type I is interpreted as scleractinian pattern whereas Type II as typical pattern of rugosans. Types 1 and 2 are septal patterns of the second stage recognized in this study. Type 1 insertion occurs in six sectors located in the center of each interseptal space, suggesting scleractinian pattern of insertion. Type 2 insertion occurs in four sectors that are comparable with alar and counter sectors in rugose corals. Four patterns of the third （Types AD） and fourth stages （Types ad） of septal insertion have also been recognized in Agetolites. Type A only occurs in two adjacent sectors possibly due to the in completeness of septal development. Type B presents rugosan pattern. Types C and D resemble scleractinian pattern in most aspects. Types a, b, and c present no clear attribution to rugosan or scleractinian pattern probably due to the incompleteness of septal development whereas Type d is observable in rugose corals.