Reconciling Rapid Glacial Erosion and Steady Basin Accumulation Rates in the Late Cenozoic Through the Effect of Glacial Sediment on Fluvial Erosion

IF 3.5 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Sarah A. Schanz, Brian J. Yanites
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Abstract

The onset of glaciation in the late Cenozoic caused rapid bedrock erosion above the snowline; however, whether the influx of eroded sediment is recorded in continental weathering and basin accumulation rates is an ongoing debate. We propose that the transport of glacially eroded bedrock through the fluvial system damps the signal of rapid headwater erosion and results in steady basin-integrated sediment flux. Using a numerical model with integrated glacial and fluvial erosion, we find that headwater bedrock erosion rates increase rapidly at the onset of glaciation and continue to fluctuate with climatic oscillation. However, bedrock erosion rates decrease in the downstream fluvial system because larger grain sizes from glaciers result in an increase in sediment cover effect. When erosion and sediment flux rates are averaged, long-term sediment flux is similar to nonglacial flux values, while localized bedrock erosion rates in the glaciated landscape are elevated 2–4 times compared to nonglacial values. Our simulated values are consistent with field measurements of headwater bedrock erosion, and the pattern of sediment flux and fluvial erosion matches paraglacial theory and terrace aggradation records. Thus, we emphasize that the bedload produced from glacial erosion provides a missing link to reconcile late Cenozoic erosion records.

Abstract Image

通过冰川沉积物对冲积侵蚀的影响来协调晚新生代的快速冰川侵蚀和稳定的盆地积累率
新生代晚期开始的冰川作用造成了雪线以上基岩的快速侵蚀;然而,侵蚀沉积物的涌入是否记录在大陆风化和盆地堆积率中一直是一个争论不休的问题。我们提出,冰川侵蚀的基岩通过河川系统的运移抑制了上游快速侵蚀的信号,并导致稳定的流域综合沉积通量。利用冰川和河川综合侵蚀的数值模型,我们发现在冰川期开始时,上游基岩侵蚀率迅速上升,并随着气候振荡而持续波动。然而,基岩侵蚀率在下游河川系统中却有所下降,因为冰川产生的更大粒径会导致沉积物覆盖效应增加。如果对侵蚀率和沉积通量率进行平均,长期沉积通量与非冰期通量值相似,而冰川地貌的局部基岩侵蚀率则比非冰期值高出 2-4 倍。我们的模拟值与顶水基岩侵蚀的实地测量值一致,沉积通量和河流侵蚀模式与副冰期理论和阶地侵蚀记录相吻合。因此,我们强调,冰川侵蚀产生的基岩负荷为协调晚新生代侵蚀记录提供了一个缺失的环节。
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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
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