Subinertial Variations in the Soya Warm Current Revealed by HF Ocean Radars, Coastal Tide Gauges, and Bottom-Mounted ADCP

机译：HF海洋雷达，沿海潮仪和底部安装的ADCP透露的大豆温热电流的下降型变化

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Subinertial variations in the Soya Warm Current (SWC) are investigated using data obtained by high frequency (HF) ocean radars, coastal tide gauges, and a bottom-mounted acoustic Doppler current profiler (ADCP). The SWC exhibited subinertial variations with a period of 5-20 days. The surface transport by the SWC was significantly correlated with the sea level difference between the Sea of Japan and Sea of Okhotsk for both the seasonal and subinertial variations, indicating that the SWC is driven by the sea level difference between the two seas. The subinertial variations in the SWC were significantly correlated with the meridional wind stress component over the region. Sea level difference through the strait caused by wind-generated coastally trapped waves along the east coast of Sakhalin and west coast of Hokkaido are considered to be a possible mechanism causing the subinertial variations in the SWC.

机译：使用高频（HF）海洋雷达，沿海潮仪表和底部安装的声学多普勒电流分析器（ADCP）获得的数据研究了大豆温电流（SWC）的潜水液中的差异。 SWC表现出具有5-20天的子系期变化。 SWC的表面传输与日本海洋和Okhotsk海洋之间的海平面差异显着相关，这对于季节性和子学变化，表明SWC由两海之间的海平差异驱动。 SWC中的子发电术变异与该区域上的子午线风应力分量显着相关。海平面差异通过海峡沿着北海道西海岸的东海岸沿着风发的沿海捕获的海峡造成的海峡，被认为是一种可能的机制，导致SWC的子发行变化。

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《International Geoscience Remote Sensing Symposium》|2008年||共1页
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中图分类 P3-53;
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HF radar; Sea of Okhotsk; Soya Warm Current; coastal current; coastally trapped wave;

机译：HF雷达;Okhotsk的海洋;豆油温控;沿海电流;沿海捕获的波浪;

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1. Subinertial and Seasonal Variations in the Soya Warm Current Revealed by HF Ocean Radars, Coastal Tide Gauges, and Bottom-Mounted ADCP [J] . Naoto Ebuchi, Yasushi Fukamachi, Kay I. Ohshima, Journal of oceanography . 2009,第1期

机译：HF海洋雷达，沿海潮汐计和底装ADCP揭示的大豆暖流的亚惯性和季节变化
2. Subinertial and seasonal variations in the Soya Warm Current revealed by HF ocean radars, coastal tide gauges, and bottom-mounted ADCP [J] . Naoto Ebuchi, Yasushi Fukamachi, Kay I. Ohshima, Journal of oceanography . 2009,第1期

机译：HF海洋雷达，沿海潮汐仪和底部安装的ADCP揭示的大豆暖流的亚惯性和季节性变化
3. Volume Transport of the Soya Warm Current Revealed by Bottom-Mounted ADCP and Ocean-Radar Measure-ment [J] . Yasushi Fukamachi, Iori Tanaka, Kay I. Ohshima, Journal of oceanography . 2008,第3期

机译：底装ADCP和海洋雷达测量显示的大豆暖流的体积输运
4. Subinertial Variations in the Soya Warm Current Revealed by HF Ocean Radars, Coastal Tide Gauges, and Bottom-Mounted ADCP [C] . Ebuchi Naoto, Fukamachi Yasushi, Ohshima Kay I., International Geoscience Remote Sensing Symposium . 2008

机译：HF海洋雷达，沿海潮仪和底部安装的ADCP透露的大豆温热电流的下降型变化
5. An algorithm for the extraction of ocean surface current velocity from bistatic HF groundwave radar data: A simulation [D] . Jin, Qiu 2007

机译：从双基地高频地面波雷达数据中提取海面流速的算法：仿真
6. Half a century of coastal temperature records reveal complex warming trends in western boundary currents [O] . Nick T. Shears, Melissa M. Bowen -1

机译：半个世纪的沿海温度记录揭示了西部边界流的复杂变暖趋势
7. DATA ASSIMILATION OF CURRENTS OBSERVED BY HF RADAR AND ADCPS IN OSAKA BAY [O] . Teruhisa OKADA, Masayasu IRIE, Takeharu KUWATA, 2016

机译：HF雷达和ADCPS在大阪湾观察到的数据同化

Subinertial Variations in the Soya Warm Current Revealed by HF Ocean Radars, Coastal Tide Gauges, and Bottom-Mounted ADCP

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