Generation of Vertical Fine Structure by the Internal Waves with the Regard for Turbulent Viscosity and Diffusion

IF 0.7 Q4 OCEANOGRAPHY
S. Demyshev, N. Evstigneeva, D. Alekseev, O. Dymova, N. Miklashevskaya
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引用次数: 0

Abstract

Purpose. The study is aimed at evaluating effectiveness of the procedure of the observational data assimilation using the Kalman filter algorithm as compared to sequential analysis of the hydrophysical fields based on the optimal interpolation method, and at analyzing the mesoscale features of coastal circulation near the western Crimea coast and in the Sevastopol region. Methods and Results. Based on the hydrodynamic model adapted to the Black Sea coastal zone conditions including the open boundary and on the temperature and salinity data from the hydrological survey in 2007, the dynamic and energy characteristics of the Black Sea coastal circulation were calculated with high spatial resolution (horizontal grid is ~ 1.6 × 1.6 km and 30 vertical horizons). The hydrophysical fields were reconstructed using two algorithms of data assimilation: the sequential optimal interpolation and the modified Kalman filter. The kinetic energy changed mainly due to the wind action, vertical friction and the work of pressure forces; the potential energy – due to the potential energy advection and the horizontal turbulent diffusion. The following circulation features were reconstructed: the anticyclonic eddy with the radius about 15 km in the Kalamita Bay in the water upper layer, the anticyclonic eddy with the radius about 15 km between 32.2 and 32.6° E in the whole water layer, the intense current near Sevastopol and along the Crimea western coast directed to the north and northwest, and the submesoscale eddies of different signs of rotation in the upper layer. Conclusions. It is shown that having been taken into account, heterogeneity and non-isotropy of the error estimates of the temperature and salinity fields relative to the correlation function lead to qualitative and quantitative differences in the hydrodynamic fields (amplification of currents, change of the currents’ direction and eddy formations were better pronounced). At the same time, the mean square errors of the thermohaline fields’ estimates decreased. Formation of the anticyclonic eddy with the radius about 15 km in the Kalamita Bay could be related to the current shear instability. Submesoscale eddies with the diameters less than 5 km were formed when the current flowed around the coastline and the bottom topography inhomogeneities.
考虑湍流黏度和扩散的内波产生垂直精细结构
目的。本研究的目的是评价利用卡尔曼滤波算法同化观测资料的过程与基于最优插值方法的水物理场序列分析的有效性,并分析克里米亚西部海岸附近和塞瓦斯托波尔地区沿海环流的中尺度特征。方法与结果。基于黑海沿岸开放边界条件下的水动力模型和2007年水文调查的温、盐度资料,以高空间分辨率(水平网格为~ 1.6 × 1.6 km,垂直层数为30)计算了黑海沿岸环流的动力和能量特征。采用序列最优插值和改进卡尔曼滤波两种数据同化算法重构了水体物理场。动能的变化主要是由于风的作用、垂直摩擦和压力的做功;势能-由于势能平流和水平湍流扩散。重建了以下环流特征:水体上层卡拉米塔湾半径约15 km的反气旋涡旋,整个水层32.2 ~ 32.6°E范围内半径约15 km的反气旋涡旋,塞瓦斯托波尔附近和克里米亚西海岸向北和西北方向的强气流,上层不同旋转标志的亚中尺度涡旋。结论。结果表明,考虑到温度场和盐度场相对于相关函数误差估计的非均质性和非各向同性,导致了水动力场的定性和定量差异(水流的放大、水流方向的改变和涡流的形成更为明显)。同时,温盐场估计的均方误差减小。卡拉米塔湾半径约15 km的反气旋涡的形成可能与当前的切变不稳定有关。当洋流绕海岸线和海底地形不均匀性流动时,形成直径小于5 km的亚中尺度涡旋。
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来源期刊
Physical Oceanography
Physical Oceanography OCEANOGRAPHY-
CiteScore
1.80
自引率
25.00%
发文量
8
审稿时长
24 weeks
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