评估陆架边缘沉积系统的横向和纵向可变性及相关作用机制:前瞻性建模方法

John W. Shepherd, V. Paumard, Tristan Salles, Simon Lang, Annette D. George
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摘要

了解陆架边缘地层结构横向和纵向变化的主要驱动因素,是了解源-汇系统中沉积物如何从陆架向斜坡和盆地底层分区的关键。在本研究中,我们使用 Badlands 地层前向建模软件模拟了陆架边缘 18.5 m.y. 期间的 4-D 演化。建模系统类似于晚白垩世在 Bight 盆地(澳大利亚南部边缘)形成的 Hammerhead 陆架边缘,其作用力参数根据 "真实世界 "的三维地震数据解释。为了研究陆架边缘变化的潜在驱动因素,设计并测试了七个模型,其中包括海岸线过程制度(即,河流、波浪或混合海岸过程)、隆起、降雨和源区范围。我们发现,海岸线过程,在本研究中包括河流过程和波浪过程,虽然不太可能影响陆 棚边缘的长期演化,但可能对陆棚边缘的结构产生重大影响。增加河流或波浪过程都会增加沿岸的横向变化,而混合过程海岸线的变化最大。我们认为,这些水动力过程会影响局部的沉积物供应,从而导致 "失相 "供应,影响陆架边缘的结构和横向层序地层面的特征。研究还表明,与构造(隆起)的变化相比,降雨对陆架边缘结构的影响更为直接。这项研究的结果尤其适用于锤头陆架边缘,也可适用于其他陆架边缘,因为在这些陆架边缘,浮动并非陆架边缘构造的主要控制因素,而且(或者)古气候条件限制较少。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessing the lateral and vertical variability of shelf-margin depositional systems and associated forcing mechanisms: A forward modeling approach
Understanding the primary drivers of lateral and vertical variability in the stratal architecture of shelf-margin settings is key to understanding how sediments are partitioned from the shelf to the slope and the basin floor in source-to-sink systems. In this study, we model the 4-D evolution of a shelf margin over a period of 18.5 m.y. using Badlands stratigraphic forward modeling software. The modeled system is analogous to the Hammerhead shelf margin developed in the Bight Basin (southern Australian margin) during the Late Cretaceous, with forcing parameters interpreted from “real world” 3-D seismic data. A series of seven models were designed and tested to investigate potential drivers of shelf-margin variability, which include shoreline process regime (i.e., fluvial, wave, or mixed coastal processes), uplift, rainfall, and source area extent. We find that shoreline processes, which in the context of this study include fluvial and wave processes, may significantly impact shelf-margin architecture although they are less likely to affect the long-term evolution of a shelf margin. The addition of either fluvial or wave processes increases along-strike lateral variability with mixed-process shorelines resulting in the most variability. We propose that these hydrodynamic processes affect sediment supply locally leading to “out-of-phase” supply influencing both shelf-margin architecture and the character of sequence stratigraphic surfaces laterally. Rainfall is also shown to have a much more immediate effect on shelf-margin architecture compared to changes in tectonics (uplift). The results of this study are particularly applicable to the Hammerhead shelf margin and may also be applied to other shelf margins where eustasy is not the primary control on shelf-margin architecture and/or paleoclimatic conditions are poorly constrained.
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