中国西北部鄂尔多斯盆地中晚三叠世的两个沉降阶段及其形成机制

IF 7 Q1 ENERGY & FUELS
Xiuqin DENG , Meijuan CHU , Long WANG , Xiu CHEN , Yanxin WANG
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引用次数: 0

摘要

基于近年来新增的大量深井资料,对鄂尔多斯盆地中晚三叠世沉降进行了系统研究,提出鄂尔多斯盆地在这一沉积时期经历了两次重要的沉降事件。通过对两期构造沉陷的地层特征、岩性组合、汇水区位置和沉积演化等方面的对比分析,提出两期构造沉陷都是对印支期秦岭构造活动在克拉通盆地边缘的反应。长十组早期沉陷具有振幅大、碎屑供应量大、沉积速度快的特点,碎屑充填粗大,沉陷迅速,堆积迅速,地层厚度由东北向西南呈楔形递增。沉降中心位于盆地西南部的环县-镇原-庆阳-正宁地区,地层厚度为 800-1 300 m。在昌7系沉积期沉降和卡年暴雨事件的共同作用下,形成了沉积速度缓慢的大型深水坳陷,沉降中心与沉积中心基本重合,位于马皇山-华池-黄陵地区。沉降中心的深水沉积物厚度为 120-320 米,颗粒较细。两个阶段的沉降机理存在差异。早期下沉是中三叠世绵鹿洋向北俯冲和秦岭压缩作用下强烈凹陷的反应。而后一阶段的沉降则是受晚三叠世碰撞后阶段的弱伸展构造环境所控制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Two stages of subsidence and its formation mechanisms in Mid-Late Triassic Ordos Basin, NW China

Based on a large number of newly added deep well data in recent years, the subsidence of the Ordos Basin in the Mid-Late Triassic is systematically studied, and it is proposed that the Ordos Basin experienced two important subsidence events during this depositional period. Through contrastive analysis of the two stages of tectonic subsidence, including stratigraphic characteristics, lithology combination, location of catchment area and sedimentary evolution, it is proposed that both of them are responses to the Indosinian Qinling tectonic activity on the edge of the craton basin. The early subsidence occurred in the Chang 10 Member was featured by high amplitude, large debris supply and fast deposition rate, with coarse debris filling and rapid subsidence accompanied by rapid accumulation, resulting in strata thickness increasing from northeast to southwest in wedge-shape. The subsidence center was located in Huanxian–Zhenyuan–Qingyang–Zhengning areas of southwestern basin with the strata thickness of 800–1 300 m. The subsidence center deviating from the depocenter developed multiple catchment areas, until then, unified lake basin has not been formed yet. Under the combined action of subsidence and Carnian heavy rainfall event during the deposition period of Chang 7 Member, a large deep-water depression was formed with slow deposition rate, and the subsidence center coincided with the depocenter basically in the Mahuangshan–Huachi–Huangling areas. The deep-water sediments were 120–320 m thick in the subsidence center, characterized by fine grain. There are differences in the mechanism between the two stages of subsidence. The early one was the response to the northward subduction of the MianLüe Ocean and intense depression under compression in Qinling during Mid-Triassic. The later subsidence is controlled by the weak extensional tectonic environment of the post-collision stage during Late Triassic.

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CiteScore
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