黑潮秋季在十卡拉海峡平濑海山上空流动的数值模拟:巴洛克射流中的潮汐漩涡脱落

IF 2.8 2区 地球科学 Q1 OCEANOGRAPHY Journal of Physical Oceanography Pub Date : 2024-01-01 DOI:10.1175/jpo-d-23-0050.1
R. Inoue, E. Tsutsumi, Hirohiko Nakamura
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引用次数: 0

摘要

对流经平濑海山的黑潮西部边界流进行了理想化数值模拟,以研究船载和系泊测量所观测到的现象的机理。在黑潮沿岸,低潮前后在高切变层之间的低阶梯层中观测到混合增强[垂直扩散率,Kρ = O(10-2) m2 s-1],还观测到相对涡度(ζz)负垂直分量的 V 形带。包括 D2 潮汐在内的黑潮模拟再现了这些特征。在模拟中,脱离平濑的负ζz条纹变成了垂直倾斜的 10 公里尺度涡。系泊位置的浮力频率平方(N2)预算表明,低分层是由垂直和水平平流以及水平倾斜造成的。正如惯性不稳定性所预期的那样,当 Ertel 潜在涡度 (PV) < 0 时,Kρ 趋于增大。然而,Kρ的大小还取决于平濑附近的潮汐相位,在应变运动较大的涡旋外围高垂直剪切区,Kρ也会增大。这些结果表明,不仅惯性不稳定性,潮汐和垂直切变效应也是驱动湍流混合的重要因素。 海盆尺度的风应力分布在每个大洋海盆的西部驱动着强大的表面强化流,如湾流和黑潮。这种西部边界流被认为是风产生的动能和涡度的消散地,使海盆尺度环流保持稳定状态,但其消散机制尚不十分清楚。为了了解其机理,我们进行了理想化的数值模拟,将海山与海流以及潮汐流之间的相互作用隔离开来,并将结果与观测结果进行了比较。我们的研究结果为了解海流在流经海山时如何将动能转移到更小的尺度上提供了启示。
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Numerical Simulation of the Kuroshio Flowing over the Hirase Seamount in the Tokara Strait in Autumn: Tidal Vortex Shedding in a Baroclinic Jet
Idealized numerical simulations of the Kuroshio western boundary current flowing over the Hirase seamount were conducted to examine the mechanisms of phenomena observed by shipboard and mooring measurements. Along the Kuroshio, enhanced mixing [vertical diffusivity, Kρ = O(10−2) m2 s−1] was observed in a low-stratification layer between high-shear layers around low tide, and a V-shaped band of the negative vertical component of relative vorticity (ζz) was also observed. Those features were reproduced in simulations of the Kuroshio that included the D2 tide. In the simulation, a streak of negative ζz detached from the Hirase turned into vertically tilted 10-km-scale vortices. The buoyancy frequency squared (N2) budget at the mooring position showed that the low stratification was caused by vertical and horizontal advection and horizontal tilting. The Kρ tended to increase when the Ertel potential vorticity (PV) < 0, as expected given the inertial instability. However, the magnitude of Kρ also depended on the tidal phase near Hirase, and Kρ was increased in the high vertical shear zones at the periphery of vortices where a strain motion is large. These results indicate that not only inertial instability but also tidal and vertical shear effects are important for driving turbulent mixing. A basin-scale distribution of wind stress drives a strong surface-intensified current in the western part of each ocean basin, such as the Gulf Stream and the Kuroshio. This western boundary current is regarded as a place where the kinetic energy and vorticity generated by winds are dissipated, allowing the basin-scale circulation to keep a steady state, but its dissipation mechanisms are not well understood. To understand the mechanisms, we conducted idealized numerical simulations that isolate the interactions between a seamount and the current as well as tidal currents, and compared results with observations. Our findings provide insights into how the current transfers kinetic energy to smaller scales when it flows over a seamount.
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来源期刊
CiteScore
2.40
自引率
20.00%
发文量
200
审稿时长
4.5 months
期刊介绍: The Journal of Physical Oceanography (JPO) (ISSN: 0022-3670; eISSN: 1520-0485) publishes research related to the physics of the ocean and to processes operating at its boundaries. Observational, theoretical, and modeling studies are all welcome, especially those that focus on elucidating specific physical processes. Papers that investigate interactions with other components of the Earth system (e.g., ocean–atmosphere, physical–biological, and physical–chemical interactions) as well as studies of other fluid systems (e.g., lakes and laboratory tanks) are also invited, as long as their focus is on understanding the ocean or its role in the Earth system.
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