VARIABILITY OF THE THERMOHALINE STRUCTURE AT THE CONTINENTAL SLOPE OFF THE RUSSIAN COAST, THE NORTHWESTERN JAPAN SEA

DEDICATED TO THE 90TH ANNIVERSARY OF PROF. K.N. FEDOROV OCEAN PHYSICS Pub Date : 2019-11-06 DOI:10.29006/1564-2291.jor-2019.47(3).15

O. Trusenkova, A. G. Ostrovskii, A. Lazaryuk, V. Lobanov

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Abstract

The study is based on unique data from the autonomous Aqualog profiler installed in the northwestern Japan Sea at the continental slope off the southeastern Primorye coast from April 18 through October 14, 2015. Data set for the 64–300 m depths, with the depth step of 1 m and time step of 6 hours, and the time series averaged for the 320–420 m depths, with the time step of 6 days, are used. Variability in the upper and lower profiled layers is found to be of different nature. Above 100–150 m short-lived (2–4 days) temperature and salinity anomalies are mostly of the same sign. Based on our earlier analysis of satellite information it is possible to link these anomalies with water intrusions of different origins. Conversely, these anomalies are usually of the opposite signs and are longer-lived (up to 10–15 days) in the lower layer which can be explained by vertical displacements of isopycnals, probably due to passing mesoscale and submesoscale disturbances. Based on wavelet transform it is found that the longest-period fluctuations (with the periods of 80–110 days) were the most intense in the entire profiled layer throughout the entire record. Isopycnal displacements with the periods of 80–110 days were also found, being in-phase with the temperature fluctuations. The wavelet transform also revealed that variability strengthened in the upper layer and weakened in the lower layer from mid-August onwards.

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日本海西北部俄罗斯海岸外大陆斜坡温盐构造的变化

该研究基于2015年4月18日至10月14日期间安装在日本海西北部滨海海岸东南部大陆斜坡上的自主Aqualog剖面仪的独特数据。数据集为64 ~ 300 m深度，深度步长为1 m，时间步长为6 h，时间序列平均值为320 ~ 420 m深度，时间步长为6 d。发现上下剖面层的变率具有不同的性质。在100-150米以上，短期(2-4天)的温度和盐度异常大多具有相同的特征。根据我们先前对卫星信息的分析，有可能将这些异常与不同来源的水侵入联系起来。相反，这些异常通常是相反的迹象，并且在低层持续时间较长(可达10-15天)，这可以用等平面线的垂直位移来解释，可能是由于经过中尺度和亚中尺度的扰动。基于小波变换发现，在整个记录中，整个剖面层的最长周期波动(周期为80-110 d)最为强烈。还发现了周期为80-110天的等平位移，与温度波动相一致。小波变换还显示，自8月中旬以来，高层变率增强，低层变率减弱。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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DEDICATED TO THE 90TH ANNIVERSARY OF PROF. K.N. FEDOROV OCEAN PHYSICS

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