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热力学效应及斯托克斯漂流对混合层影响的研究
引用本文:李雪薇,赵栋梁,邹仲水. 热力学效应及斯托克斯漂流对混合层影响的研究[J]. 海洋学报(英文版), 2020, 42(5): 35-45. DOI: 10.1007/s13131-019-1448-9
作者姓名:李雪薇  赵栋梁  邹仲水
作者单位:物理海洋实验室, 中国海洋大学, 松岭路238号, 青岛, 266100;海洋学院, 浙江大学, 定海区浙大路1号, 舟山市, 316021
摘    要:本文通过理想化的外部强迫以及海洋站点实测数据驱动普林斯顿海洋模式来研究海洋热力学效应和斯托克斯漂流对上混合层数值模拟的影响。在Mellor-Yamada湍流闭合方案中,经常出现夏季海表面温度偏暖和混合层深度偏浅的模拟误差。实验表明,斯托克斯漂流在冬季和夏季均能增强湍流动能,加深混合层深度。这种效应可以改善夏季的模拟结果,但与观测数据相比,将增大冬季混合层深度的模拟误差。斯托克斯漂流可以通过增强湍动能来加深混合层深度。结果表明,将斯托克斯漂流与冷皮层和暖层对上部混合层的热效应相结合,可以正确地模拟混合层深度。在夏季,海洋冷皮层和暖层通过“阻挡结构”和双温跃层结构模拟出更真实的上混合层变化。在冬季,海洋热力学效应通过增强上层海洋层结平衡了斯托克斯漂流的影响,并且由斯托克斯漂流引起的过度混合被校正。

关 键 词:混合层  冷皮层  暖层  斯托克斯漂流
收稿时间:2019-05-28

A numerical study of Stokes drift and thermal effects on the oceanic mixed layer
Li Xuewei,Zhao Dongliang,Zou Zhongshui. A numerical study of Stokes drift and thermal effects on the oceanic mixed layer[J]. Acta Oceanologica Sinica, 2020, 42(5): 35-45. DOI: 10.1007/s13131-019-1448-9
Authors:Li Xuewei  Zhao Dongliang  Zou Zhongshui
Affiliation:1.Physical Oceanography Laboratory, Ocean University of China, Qingdao 266100, China2.Ocean College, Zhejiang University, Zhoushan 316021, China
Abstract:This study explores the influence of Stokes drift and the thermal effects on the upper ocean bias which occurs in the summer with overestimated sea surface temperature (SST) and shallower mixed layer depth (MLD) using Mellor-Yamada turbulence closure scheme. The upper ocean thermal structures through Princeton ocean model are examined by experiments in the cases of idealized forcing and real observational situation. The results suggest that Stokes drift can generally enhance turbulence kinetic energy and deepen MLD either in summer or in winter. This effect will improve the simulation results in summer, but it will lead to much deeper MLD in winter compared to observational data. It is found that MLD can be correctly simulated by combining Stokes drift and the thermal effects of the cool skin layer and diurnal warm layer on the upper mixing layer. In the case of high shortwave radiation and weak wind speed, which usually occurs in summer, the heat absorbed from sun is blocked in the warm layer and prevented from being transferred downwards. As a result, the thermal effects in summer nearly has no influence on dynamic effect of Stokes drift that leads to deepening MLD. However, when the stratification is weak in winter, the thermal effects will counteract the dynamic effect of Stokes drift through enhancing the strength of stratification and suppress mixing impact. Therefore, the dynamic and thermal effects should be considered simultaneously in order to correctly simulate upper ocean thermal structures in both summer and winter.
Keywords:mixed layer  cool skin layer  diurnal warm layer  Stokes drift
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