沉积物覆盖调节层状岩石的地貌侵蚀模式和河道陡度:SPACE 模型的启示

IF 3.5 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Journal of Geophysical Research: Earth Surface Pub Date : 2024-07-14 DOI:10.1029/2023JF007509
G. J. Guryan, J. P. L. Johnson, N. M. Gasparini
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引用次数: 0

摘要

基岩河流的剖面中记录了气候或构造变化引起的侵蚀扰动,但在岩性不均匀的环境中,要解开这些信号可能具有挑战性。在层状岩石中,特定位置的地表岩性会随着时间的推移而变化,因为侵蚀会暴露出不同的岩层。最近的建模研究使用了溪流动力模型(SPM)来突出基岩河流切入层状岩石时侵蚀速率的复杂变化。然而,这些研究并没有捕捉到粗沉积物覆盖对河道演变的影响。我们使用 "冲积层保护和诱导的溪流动力"(SPACE)模型来探索沉积物覆盖如何影响地貌演变,以及如何调节水平层状岩石中侵蚀性对比的地形表达。我们模拟了河流在百万年时间尺度内通过软硬交替的岩石层的演变过程,并模拟了恒定和均匀的隆升速率。与 SPM 相比,在有沉积物覆盖的模型运行中,软岩层的河道陡度值明显较高,而硬岩层的河道陡度值较低。随着沉积物的增加,两种岩石类型的陡度对比会减小。假设 SPM 进行回算的有效基岩侵蚀率受沉积物覆盖的影响很大。我们还发现,沉积物覆盖会显著增加总的地形起伏,以及向景观平均稳态地形和侵蚀率调整的时间尺度。
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Sediment Cover Modulates Landscape Erosion Patterns and Channel Steepness in Layered Rocks: Insights From the SPACE Model

Erosional perturbations from changes in climate or tectonics are recorded in the profiles of bedrock rivers, but these signals can be challenging to unravel in settings with non-uniform lithology. In layered rocks, the surface lithology at a given location varies through time as erosion exposes different layers of rock. Recent modeling studies have used the Stream Power Model (SPM) to highlight complex variations in erosion rates that arise in bedrock rivers incising through layered rocks. However, these studies do not capture the effects of coarse sediment cover on channel evolution. We use the “Stream Power with Alluvium Conservation and Entrainment” (SPACE) model to explore how sediment cover influences landscape evolution and modulates the topographic expression of erodibility contrasts in horizontally layered rocks. We simulate river evolution through alternating layers of hard and soft rock over million-year timescales with a constant and uniform uplift rate. Compared to the SPM, model runs with sediment cover have systematically higher channel steepness values in soft rock layers and lower channel steepness values in hard rock layers. As more sediment accumulates, the contrast in steepness between the two rock types decreases. Effective bedrock erodibilities back-calculated assuming the SPM are strongly influenced by sediment cover. We also find that sediment cover can significantly increase total relief and timescales of adjustment toward landscape-averaged steady-state topography and erosion rates.

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来源期刊
Journal of Geophysical Research: Earth Surface
Journal of Geophysical Research: Earth Surface Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
6.30
自引率
10.30%
发文量
162
期刊最新文献
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