西南石油大学学报(自然科学版) ›› 2009, Vol. 31 ›› Issue (4): 24-30.DOI: 10.3863/j.issn.1674-5086.2009.04.005

• 地质勘探 • 上一篇    下一篇

天文周期与地层基准面旋回及其识别技术

王起琮   

  1. 西安石油大学油气资源学院,陕西西安710065
  • 收稿日期:1900-01-01 修回日期:1900-01-01 出版日期:2009-08-20 发布日期:2009-08-20

ASTRONOMICAL PERIODS AND STRATIGRAPHIC BASE-LEVEL CYCLES AND ITS IDENTIFICATION TECHNOLOGY

WANG Qi-cong   

  1. School of Petroleum Resources,Xi′an Petroleum University,Xi′an Shanxi 710065,China
  • Received:1900-01-01 Revised:1900-01-01 Online:2009-08-20 Published:2009-08-20

摘要:

探讨了天文周期对基准面旋回的控制作用及应用离散小波变换和频谱分析技术识别天文周期并划分旋回层序的方法。地层基准面旋回是受天体运动控制的地球内、外动力地质作用的综合结果。因此,地层基准面旋回与天文周期相对应,基准面旋回层序为该过程的结果。应用离散小波变换法对GR曲线进行信号分解、重构及滤波,应用傅立叶分析法对小波分解结构重构信号进行频谱分析,以此确定了各细节分量主频及其比例。根据主频比例与天文频率比例之间的对应关系,判断出与各天文周期相对应的沉积旋回,并在绝对地质年龄约束下估算出各沉积旋回时限。计算结果显示,据细节分量划分的沉积旋回时限均两倍于对应的天文周期,如以天文周期为旋回层序划分依据,则每个沉积旋回可划分2个旋回层序,层序界面即位于地层叠加方式转换点。研究成果表明,以天文周期为依据,以小波变换及频谱分析为手段可以合理并有效地开展层序地层定年即等时对比。

关键词: 天文周期, 基准面旋回, 离散小波, 频谱分析, 延长组

Abstract:

In this article,the control of astronomical periods on the basal-level cycles,as well as methods of the identification of astronomical periods and the division of cyclic sequence by discrete wavelet transformation and spectrum analysis are probed.Stratigraphic basal level cycles are controlled by internal and external dynamic geologic actions resulted from celestial body movement and are consistent with astronomical periods.Cyclic sequences are the response of basal level cyclic movements.Discrete wavelet transformation and spectrum analysis technique are used in signal decomposing,reconstructing and filtering.Fourier transform technique is used in spectrum analysis of DWT detail components to confirm the master frequencies and the ratios.The relationship between sedimentary and astronomical cycles is ascertained according to the consistent relationship between master frequency ratios and astronomical frequency ratios.The geologic age of sedimentary cycles are defined by the absolute geologic age.The results indicate that periods of sedimentary cycles divided on the basis of detail components are twice of astronomical periods and can be divided into two cyclic sequences.Boundary surfaces and flooding faces of cyclic sequences locate at switch points of formation stacking pattern.The research shows that the division of stratigraphy sequence can be carried out reasonably and effectively with discrete wavelet transformation and spectrum analysis technique on the ground of the astronomical cycles.

Key words: astronomical period, basal-level cycle, discrete wavelet, spectrum analysis, Yanchang formation

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