中国东部渤海湾盆地中始新世车镇沙格湖湖面变化的天文强迫和沉积噪音模拟

IF 1.8 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Xuwei Luan, Jinliang Zhang, Na Li, Tao Chen, Long Sun, Xuecai Zhang
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引用次数: 0

摘要

地质年代的准确测定是了解古湖泊演化历史和过程以及大陆湖盆油气勘探的关键。然而,提高地质年龄的准确性一直是一个科学难题。中国东部车镇嵯峨609米厚的连续湖相泥岩和砂岩演替为建立高分辨率地层年代学框架提供了理想的中始新世沉积记录。基于对车镇下陷车271井(C271)天然伽马测井资料的频谱分析和滑动窗口频谱分析,采用高斯带通滤波器分别滤出了405 kyr和40.1 kyr的年代,建立了 "flngting "天体时间尺度(ATS)。结果表明,在始新世沙河街地层上统第4层(Es4U)至第3层(Es3)共记录了13.6个405 kyr偏心周期和138个40.1 kyr偏斜周期,沉积时间为5.53 Myr。相关系数(COCO)分析和演化相关系数(eCoCo)分析发现,不同地层的最佳沉积速率不同。沉积噪音模拟揭示了车镇嵯峨中新世古湖水位变化的历史,并据此划分了四个序列。研究表明,中始新世车镇沙沟湖泊水位变化呈现出显著的1.2Myr周期,并与纬度调制存在反相的良好耦合关系。最后,我们提出了一个解释大陆湖盆轨道周期与湖泊水位变化关系的模型。当地球纬度增大时,地球中高纬度地区距离太阳更近,太阳直射光更强,经向日照增加,从而加速了湖盆水的蒸发过程。当季节变化明显时(最大周期为 1.2 Myr 超长距平),这种效应更为显著。基于高精度 ATS 恢复的湖泊相对水位变化,对于了解大陆地层序列的垂直演化和油气资源的形成与分布具有重要的科学和经济价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Astronomical forcing and sedimentary noise modeling of lake-level changes in the Middle Eocene Chezhen Sag, Bohai Bay Basin, eastern China

The accurate determination of geological age is a key to understanding the history and process of paleolake evolution and oil and gas exploration in continental lake basin. However, improving the accuracy of geological age has always been a difficult scientific problem. A 609-m-thick, continuous lacustrine mudstone and sandstone succession in Chezhen Sag (eastern China) provides an ideal middle Eocene sedimentary record for establishing a high-resolution stratigraphic chronology framework. Based on spectrum analysis and sliding window spectrum analysis of the natural gamma (GR) logging data of well Che 271 (C271) in Chezhen Sag, the periods of 405 kyr and 40.1 kyr were filtered by a Gaussian bandpass filter, and a “flngting” astrochronological time scale (ATS) was established. The total number of 405 kyr eccentricity cycles were 13.6 and 40.1 kyr obliquity cycles were 138 which recorded from the upper member 4 (Es4U) to the member 3 (Es3) of the Eocene Shahejie Formation, and the depositional duration was 5.53 Myr. Correlation Coefficient (COCO) analysis and evolutionary Correlation Coefficient (eCoCo) analysis found that the optimal sedimentary rate of different strata. Sedimentary noise simulation revealed the history of paleolake water changes in the Middle Eocene in the Chezhen Sag, according to which four sequences are divided. The study shows that the lake level change of Chezhen Sag in the middle Eocene shows prominent 1.2 Myr cycles and an antiphase well-coupled relationship with obliquity modulation. Finally, we propose a model to explain the relationship between the orbital cycle and lake level change in the continental lake basin. When the obliquity of the earth increases, the middle and high latitudes of the earth will be closer to the sun, the direct sunlight will be higher, and the meridional sunshine will increase, thus accelerating the evaporation process of lake basin water. When the seasonal changes are obvious (maximum period of 1.2 Myr ultra-long obliquity), this effect is more significant. The relative lake level change based on the restoration of high-precision ATS has significant scientific and economic value for understanding the vertical evolution of continental stratigraphic sequences and the formation and distribution of oil and gas resources.

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来源期刊
Frontiers of Earth Science
Frontiers of Earth Science GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
3.50
自引率
5.00%
发文量
627
期刊介绍: Frontiers of Earth Science publishes original, peer-reviewed, theoretical and experimental frontier research papers as well as significant review articles of more general interest to earth scientists. The journal features articles dealing with observations, patterns, processes, and modeling of both innerspheres (including deep crust, mantle, and core) and outerspheres (including atmosphere, hydrosphere, and biosphere) of the earth. Its aim is to promote communication and share knowledge among the international earth science communities
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