Modeling the Tilt of Bend-Traversing Turbidity Currents: Implications for Sinuous Submarine Channel Development

IF 3.3 2区 地球科学 Q1 OCEANOGRAPHY Journal of Geophysical Research-Oceans Pub Date : 2024-10-02 DOI:10.1029/2023JC020131
Adriana Crisóstomo-Figueroa, Robert M. Dorrell, Lawrence Amy, Adam D. McArthur, William D. McCaffrey
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Abstract

The controls on the development of submarine channel sinuosity are contested: slope gradient and Coriolis forcing have both been recognized as key governing factors: gradient via an inverse relationship (low sinuosity at high slope and vice versa), and Coriolis forcing through its effect on sedimentation patterns (reducing lateral bend migration, and hence sinuosity development, at high latitudes and/or in large channels). Using theoretical models to calculate the bulk properties of channelized turbidity currents, this study investigates the joint role of the Coriolis force and parameters including channel size, downchannel slope and turbidity current properties in the development of submarine channel sinuosity. Model validation is undertaken through the comparison of the calculated turbidity current tilting against the measured tilting of channel levees in the Northwest Atlantic Mid-Ocean Channel; this approach is then used to evaluate the controls on channel sinuosity in nine other modern seafloor channels. The results indicate that the Coriolis force only becomes significant when the size of the channel, the slope gradient and flow conditions are within appropriate ranges instead of solely being dependent on latitude. Thus, thick and dense (≥1% bulk sediment concentration) flows traveling within steep-gradient, small-scale channels were shown to be relatively less susceptible to flow modification by Coriolis forcing even at high latitudes. On the other hand, thin and dilute (≪1% bulk sediment concentration) flows in shallow-gradient, large-scale channels showed susceptibility to Coriolis forcing at all latitudes. These results offer new insights into submarine channel evolution and intra-channel sedimentation patterns.

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弯曲穿越浊流的倾斜建模:对蜿蜒海底通道发展的影响
对海底河道湍急度发展的控制存在争议:坡度梯度和科里奥利力都被认为是关键的控制因素:坡度梯度通过反比关系(坡度高湍急度低,反之亦然),而科里奥利力则通过对沉积模式的影响(在高纬度地区和/或大型河道中,减少横向弯曲迁移,从而减少湍急度的发展)。本研究利用理论模型计算渠化浊流的体积特性,研究了科里奥利力和包括河道大小、下行河道坡度和浊流特性在内的参数在海底河道弧度发展中的共同作用。通过将计算出的浊流倾斜度与西北大西洋洋中水道测量到的水道堤坝倾斜度进行比较,对模型进行了验证;然后用这种方法评估了其他九条现代海底水道对水道弧度的控制。结果表明,科里奥利力只有在航道大小、坡度和水流条件处于适当范围内时才会变得重要,而不是仅仅取决于纬度。因此,即使在高纬度地区,在陡峭坡度的小尺度水道中流动的粗大而密集(体积沉积物浓度≥1%)的水流相对不易受到科里奥利力作用的影响。另一方面,在浅梯度、大尺度水道中的稀薄水流(体积沉积物浓度≪1%)在所有纬度地区都易受科里奥利强迫的影响。这些结果为了解海底河道演变和河道内沉积模式提供了新的视角。
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来源期刊
Journal of Geophysical Research-Oceans
Journal of Geophysical Research-Oceans Earth and Planetary Sciences-Oceanography
CiteScore
7.00
自引率
13.90%
发文量
429
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