赫拉克勒斯半岛附近黑海大陆架的内波:建模和观测

IF 0.7 Q4 OCEANOGRAPHY
V. Ivanov, T. Shul’ga, A. Bagaev, A. Medvedeva, T. Plastun, L. Verzhevskaia, I. A. Svishcheva
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引用次数: 6

摘要

意图目的是综合分析克里米亚海岸附近内波表面表现的卫星观测结果,以及季节性温盐条件及其起伏对其结构、动力学和增强的影响的数值模拟结果。方法和结果。基于陆地卫星-8号和哨兵-2号卫星高分辨率传感器的遥感数据分析和理论估计,确定了赫拉克勒斯半岛附近黑海陆架内波的主要时空特征。根据海洋水文研究所海洋数据库1951-2008年卫星测量和研究船测量获得的温度和盐度数据,研究了密度分层的结构,获得了叶夫帕托里亚至雅尔塔大陆架和斜坡区的浮力频率剖面。构造了陆架上前三种模式内波的垂直速度剖面。结果表明,第一种模式的内波在深海部分的相速度在2.6–5 m/s范围内变化,第二种模式的波在1.1–2.3 m/s范围内,第三种模式的波在0.7–1.4 m/s范围内。从卫星数据中探测到的波的平均长度为0.4公里;最长的波浪约1.1公里,最常见于叶夫帕托利亚和塞瓦斯托波尔之间,主要向东北方向传播。在同一列车内,出现了波散射,导致波长减小到0.1–0.3公里。结论。数值计算结果证实了关于由环流喷流与陆架边缘的相互作用引起的强烈内波产生原因的假设。内波的空间和时间特征、遥感综合数据和建模结果使估计陆架的垂直交换和确定最大Brunt–Väisälä频率的深度成为可能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Internal Waves on the Black Sea Shelf near the Heracles Peninsula: Modeling and Observation
Purpose . The purpose consists in a combined analysis of satellite observations of surface manifestations of internal waves near the Crimean coast and the results of numerical simulation of influence of seasonal thermohaline conditions and the relief on their structure, dynamics and intensification. Methods and Results. Based on the analysis of remote sensing data using high-resolution sensors of the Landsat -8 and Sentinel -2 satellites and the theoretical estimates, the main spatial and temporal characteristics of the internal waves on the Black Sea shelf near the Heracles Peninsula were determined. According to the temperature and salinity data obtained from the satellite measurements and the research vessels measurements in 1951–2008 from the Oceanographic Data Bank of Marine Hydrophysical Institute, the structure of density stratification was investigated, and buoyancy frequency profiles in the shelf and slope area from Yevpatoria to Yalta were obtained. Vertical velocity profiles of internal waves of the first three modes on the shelf were constructed. It was revealed that phase velocity of the internal waves of the first mode in the deep-sea part varied within the range of 2.6–5 m/s, the waves of the second mode – within 1.1–2.3 m/s, and the waves of the third mode – within 0.7–1.4 m/s. The average length of the waves detected from the satellite data was 0.4 km; the longest waves, about 1.1 km, were observed most often between Yevpatoria and Sevastopol, propagating predominantly to the northeast. Within the same train, wave dispersion occurred resulting in the wavelength diminution to 0.1–0.3 km. Conclusions. The stated assumption on the cause of generation of intense internal waves conditioned by the interaction of the Rim Current jet with the shelf edge was confirmed by the results of numerical calculations. Spatial and temporal characteristics of the internal waves, the integrated data of remote sensing and the modeling results make it possible to estimate vertical exchange at the shelf and to determine the depth of the maximum Brunt–Väisälä frequency.
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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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