松辽盆地断陷层系年代地层时间框架及其地质意义

为厘定松辽盆地深部断陷层系地层的地质时代,解决不同断陷间断陷层系地层横向对比难度大的问题,笔者整理了松辽盆地及其周边露头断陷层系火山岩(火山灰)锆石U-Pb测年数据,选择有断代地质意义的有效年龄数据,并结合国际标准地层年代表对松辽盆地白垩系断陷层系年龄的限定,建立了松辽盆地断陷层系年代地层时间框架。确定了断陷层系地层年龄范围为登娄库组105.5~100.5 Ma、营城组118.0~105.5 Ma、沙河子组124.0~118.0 Ma、火石岭组135.0~124.0 Ma。该研究成果为松辽盆地开展断陷层系区域地层划分对比研究提供了时间标尺,为其他早白垩世断陷盆地的地层划分对比研究提供了参考。

地球磁场变化对珠江三角洲万顷沙沉积钻孔年代地层的约束

珠江三角洲晚更新世海侵沉积的历史,是始于氧同位素三阶段(MIS3)还是五阶段(MIS5)已争议几十年,严重制约了该区域海平面升降对全球变化响应方式的讨论和区域地质演化历史的认识。本文以位于珠江三角洲腹地伶仃洋河口地区万顷沙的GZ-2钻孔(22°42.339′N,113°30.831′E)岩心为研究对象,对沉积物进行岩石磁学和古地磁学研究,提取沉积物中记录的地球磁场极性漂移和相对强度变化信息。在AMS;C和光释光年龄限定之下,将地球磁场相对强度曲线与高分辨率的、具有精确年代控制的标准曲线进行对比,尝试确定晚更新世细粒沉积物的年代框架。结果表明钻孔细粒沉积物发生在约43 ka以来,海侵历史始于MIS3阶段。这一认识表明中国东南沿海可能普遍存在MIS3阶段的海侵,其控制因素在于在该时期构造沉降和全球相对海平面上升时,海水沿部分深切河谷入侵,形成局部海侵沉积层。

中国古近纪综合地层和时间框架

古近纪是中生代末大灭绝事件之后的第一个纪,哺乳动物迅速辐射成为陆地生态系统的统治者,亚洲被认为是众多类群的起源地.由于亚洲特别是东亚地区古近系中绝大部分是陆相沉积,且存在明显的地区差异,建立一个年代地层框架是认识古近纪地质历史和生命演化历史及相互关系的基础.古近系在国际年代地层系统中分为古新统、始新统和渐新统.以反映哺乳动物演化阶段的哺乳动物期为基础,中国的陆相古近系可以划分为11个阶:上湖阶、浓山阶和巴彦乌兰阶(古新统),岭茶阶、阿山头阶、伊尔丁曼哈阶、沙拉木伦阶、乌兰戈楚阶和白音阶(始新统)以及乌兰塔塔尔阶和塔奔布鲁克阶(渐新统).各阶具有明显的古生物学特征,特别是古哺乳动物学特征,为实际运用提供了可靠的基础.底界与统一致的各阶,其底界年龄值采用国际地质年表中相应的数据,即上湖阶、岭茶阶和乌兰塔塔尔阶的底界分别定为66.0、56.0和33.9Ma.对于其他各阶,利用现有的古地磁资料,给出了相应的建议值.

塔里木盆地高频波识别及其意义

以测井资料为纽带 ,把小波分析与米兰柯维奇旋回结合起来 ,实现了地层持续时间的精确确定 ,进而计算了研究层段的沉积速率。利用滑动窗口和小波分析的方法找到了控制和影响盆地沉积演化的两种高频波动过程 ,高频波的识别为波动过程与层序地层学、与储盖组合的结合奠定了基础 ,提高了与波动分析有关的各项研究的精度 。

Geochemical-Sequence Stratigraphy and Its Application Prospects in Lake Basins

As a useful approach for hydrocarbon exploration, the sequence stratigraphy has been commonly accepted. The concepts of sequence and parasequence provide a state-of-the-artframework for studying the distribution and characters of depositional system, and analyzing the occurrence, distribution, characteristics of source, reservoir and seal-play elements. The newly-developed geochemical-sequence stratigraphy focuses mainly on the occurrence, distribution and characters of source rocks and reservoir hydrocarbons within a chronostratigraphic framework. Integrated with sequence stratigraphy, geochemistry can be used to study the source rock potential within a sequence stratigraphic framework and to describe the characteristics of hydrocarbons accumulated in reservoirs, which were predicted by way of sequence stratigraphy. The concept of geochemical-sequence stratigraphy was proposed by Peters et al. (2000). Constructing a reliable sequence stratigraphic framework is the basis of geochemical-sequence stratigraphic study although it is not the main goal. High-resolution biomarker analysis is critical to the construction of a geochemical-sequence stratigraphic model. The geochemical-stratigraphic study involves mainly: (1) the distribution and geochemical characteristics of source rocks within a sequence chronostratigraphic framework; (2) the geochemical features of source rocks with relative sea (lake)-level change; (3) to predict if these reservoirs bear hydrocarbons and their geochemical features; (4) to be used to construct the time-stratigraphic framework. This paper also summarizes the lake basin types, and introduces their facies associations, source potential and organic geochemical features. At the end, the authors offer some suggestions about how to carry out geochemical-sequence stratigraphic study in lacustrine strata.

中上扬子区寒武纪层序地层划分与对比

在对研究区寒武纪典型地层剖面测量的基础上,在新的年代地层框架内,从沉积相的分析入手,研究了中上扬子区寒武系层序地层的划分,共识别出14个三级层序,其中,滇东统划分出3个三级层序,黔东统划分出7个三级层序;武陵统和芙蓉统共4个三级层序,分属两个二级层序,其中滇东统和黔东统的10个三级层序划归寒武系下部的二级层序,武陵统和芙蓉统划归寒武系上部的二级层序;同时,对不同沉积相区的层序地层进行了对比。