昼间暖层内的高位混合和周期性结构观测结果

IF 3.3 2区 地球科学 Q1 OCEANOGRAPHY Journal of Geophysical Research-Oceans Pub Date : 2024-11-09 DOI:10.1029/2024JC021399
Kristin Zeiden, Jim Thomson, Andrey Shcherbina, Eric D'Asaro
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引用次数: 0

摘要

利用配备下视高分辨率声学多普勒海流剖面仪(ADCPs)的海面漂流器(SWIFTs)估算了南加州海湾高度分层昼暖层(DWLs)内的湍流动能(TKE)耗散率(ϵ )$({\epsilon})$。在为期 10 天的时间里,观测到五次 DWLs,其表面温度异常高达 3°C,速度异常高达 0.3 m s - 1 ${\mathrm{s}}^{-1}$ 。上5米处的ϵ ${epsilon}$剖面表明湍流受到DWL分层的强烈调制。爆发平均(8.5 分钟)的ϵ ${epsilon}$ 强于 DWL 内的壁面边界层缩放定律预测,而在 DWL 以下则受到抑制。利用观测到的剪切力和线性衰减的湍流应力对 DWLs 内的ϵ ${epsilon}$进行剪切力生成缩放后,预测结果有所改善。然而,对ϵ ${epsilon}$ 的预测仍然不足。对非平均声学反向散射数据的研究表明,ϵ ${epsilon}$ 的升高与 DWLs 中湍流结构的存在有关,这些结构跨越层高,对 TKE 有强烈的调节作用。大量理查森数每天的变化表明,DWLs 在每天下午对层尺度的倾覆和夹带变得不稳定,因此湍流结构可能是剪切驱动的不稳定性造成的。以强周期性结构为特征的爆发期间数据的条件平均值支持了这一解释。这些结构类似于高频内波,在沿流方向上具有很强的不对称性(陡峭化),这表明它们是不稳定的。同时出现的上升流/下降流不对称模式以及相应的强垂直汇聚/发散区域表明,垂直传输和局部 TKE 的产生是 DWLs 中ϵ${\epsilon}$升高的可信来源。
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Observations of Elevated Mixing and Periodic Structures Within Diurnal Warm Layers

Surface drifters (SWIFTs) equipped with down-looking high-resolution acoustic doppler current profilers (ADCPs) were used to estimate the turbulent kinetic energy (TKE) dissipation rate ( ϵ ) $({\epsilon})$ within highly stratified diurnal warm layers (DWLs) in the Southern California Bight. Over a 10-day period, five instances of DWLs were observed with strong surface temperature anomalies up to 3°C and velocity anomalies up to 0.3 m  s 1 ${\mathrm{s}}^{-1}$ . Profiles of ϵ ${\epsilon}$ in the upper 5 m suggest turbulence is strongly modulated by the DWL stratification. Burst-averaged (8.5 min) ϵ ${\epsilon}$ is stronger than predicted by law-of-the-wall boundary layer scaling within the DWLs and suppressed below. Predictions for ϵ ${\epsilon}$ within the DWLs are improved by a shear-production scaling using observed shear and linearly decaying turbulent stress. However, ϵ ${\epsilon}$ is still under-predicted. Examination of the un-averaged acoustic backscatter data suggests elevated ϵ ${\epsilon}$ is related to the presence of turbulent structures in the DWLs which span the layer height and strongly modulate TKE. Evolution in the bulk Richardson number each day suggests the DWLs become unstable to layer-scale overturning and entrainment each afternoon, thus the turbulent structures may result from shear-driven instability. This interpretation is supported by a conditional average of the data during a burst characterized by strongly periodic structures. The structures resemble high-frequency internal waves with strong asymmetry in the along-flow direction (steepening) which suggests they are unstable. Coincident asymmetric patterns in upwelling/downwelling and corresponding regions of strong vertical convergence/divergence suggest that both vertical transport and local TKE generation are plausible sources of elevated ϵ ${\epsilon}$ in the DWLs.

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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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