海洋锋 meaning in Chinese
marine fronts
oceanic front
Examples
- Ocean front model and modal coupling
海洋锋面模型及其简正波耦合 - Vertical distribution of phytoplankton biomass and numerical abundance of calanus sinicus were investigated across the tidal fronts in the yellow sea , in october 2000 and may 2001 . the abundance of calanus sinicus was higher at the frontal region than at the adjacent stratified and mixed areas while the chlorophyll - a concentration was highest in the stratified area or mixed area adjacent frontal region
结果显示中华哲水蚤丰度在海洋锋区比其临近两侧的混合区与层化区高;锋区叶绿素a浓度低于其邻近的层化区或混合区;叶绿素a浓度高值区通常位于锋区邻近的层化区或混合区一侧。 - By combining with the simulation result of the vertical circulation structure , we propose that the factors induced the distribution difference of calanus sinicus and chlorophyll - a concentration not only include the grazing activities , vertical circulation structure at the fronts also plays an important role . the circulation of bohai sea in spring is examined to provide a reliable physical environment for biological model
首次抽出黄海海洋锋区的垂向环流结构有利于中华哲水蚤在锋区的聚集,叶绿素a浓度高值区偏离锋区也与锋区上升流结构密切相关,模型研究中首先对渤海环流的物理机制进行了研究。 - By analyzing the abundance distribution of the calanus sinicus at the fronts in the two surveys , we try to find the direct dominant physical processes . and on the basis of that , provide a simple coupled physical and biological model and apply it in the bohai sea . the position of the tidal fronts and vertical circulation structure near the fronts are examined using the blumberg & mellor 3d nonlinear numerical coastal circulation model incorporating with mellor & yamada level 2 . 5 turbulent closure model
论文基于目前国际上普遍使用的blumberg & melior三维非线性环流模型( ecom )并结合mellor & yamada的21 / 2阶湍封闭模型,采用blumberg & mellor改进的半隐式数值差分格式,首先对黄海海洋锋位置及其锋区环流特征、形成锋的主要动力机制等进行了研究。