国家海洋局一所海洋环境科学和数值模拟重点实验室最近在围隔实验基础上．提出了由围隔实验确定生态学源函数、建立海湾尺度浮游生态动力学模型，以研究如赤潮等现象的生消机制，最终建立海洋生态系复杂数值模式的研究路线。利用该研究成果建立海区生态模型，可以提出赤潮发生的定量化指标，对赤潮过程进行预测，也可进行环境容量估算，从而为海洋生态环境保护提供决策依据。国家海洋局一所海洋环境科学和数值模拟重点实验室最近在围隔实验基础上．提出了由围隔实验确定生态学源函数、建立海湾尺度浮游生态动力学模型，以研究如赤潮等现象的生消机制，最终建立海洋生态系复杂数值模式的研究路线。利用该研究成果建立海区生态模型，可以提出赤潮发生的定量化指标，对赤潮过程进行预测，也可进行环境容量估算，从而为海洋生态环境保护提供决策依据。 Recently, a key laboratory of marine environmental science and numerical simulation of the State Oceanic Administration was based on the experiment of enclosure. It is proposed that the ecological source function should be determined by the enclosing experiment and the model of bay scale ecological dynamics should be established to study the mechanism of elimination such as red tide and finally to establish the research route of complex numerical model of marine ecosystem. Using the research results to establish the ecological model of the sea area, quantitative indicators of the occurrence of red tide can be proposed to predict the process of red tide, but also to estimate the environmental capacity so as to provide decision-making basis for marine ecological environment protection. Recently, a key laboratory of marine environmental science and numerical simulation of the State Oceanic Administration was based on the experiment of enclosure. It is proposed that the ecological source function should be determined by the enclosing experiment and the model of bay scale ecological dynamics should be established to study the mechanism of elimination such as red tide and finally to establish the research route of complex numerical model of marine ecosystem. Using the research results to establish the ecological model of the sea area, quantitative indicators of the occurrence of red tide can be proposed to predict the process of red tide, but also to estimate the environmental capacity so as to provide decision-making basis for marine ecological environment protection.