| 1. | A response of iap lasg oceanic general circulation model to the observed wind stress
海洋环流模式对风应力的响应 |
| 2. | Tangential wind stress
切向风应力 |
| 3. | Wind stress factor
风压系数 |
| 4. | The seasonal variation of ssh reveals the close relation between wind stress and scs circulation
海面高度的季节变化揭示了南海环流与季风的密切关系。 |
| 5. | The research on the effectiveness of early compound nutrition on plasma mda for rats with moist heat and wound stress
早期营养对湿热复合创伤大鼠丙二醛影响的研究 |
| 6. | The negative wind stress curl in winter is basic driving mechanism responsible for the scs warm current
冬季南海暖流的一个基本驱动机制是南海北部负的风应力旋度。 |
| 7. | The variations of wind stress curl are dominated by the monsoons in japan sea and south china sea and the value is stronger in winter than in summer
日本海与南海的风应力旋度周期变化由其冬夏季风决定。冬季影响强于夏季。 |
| 8. | Other subordinate components such as high - frequency oscillation in the actual wind stress data weaken the intention of el nino / la nina events
同时说明在原始资料中的高频振荡等其它次要成分起到了削弱elnino lanina事件强度和范围的作用。 |
| 9. | And this research also proves that heat flux influence predominantly the sst , but the impact of wind stress can reach the levels behind the isothermal layer
研究还证明了热通量对海温的影响主要出现在表层,而风应力的影响可以达到等温层以下。 |
| 10. | The results show that the oscillations of zonal wind stress have 35 47 57 months , the oscillations of meridional wind stress have 28 38 months
结果显示:纬向风应力有35 、 47和57个月周期的传播型振荡;经向风应力有28和38个月周期的传播型振荡。 |
