Assimilation of Satellite Observations of the Chlorophyll-a Concentration and the Calculated Data on the Marine Environment Dynamics in the Adaptive Model of the Ecosystem of the Black Sea Northwestern Shelf

IF 0.7 Q4 OCEANOGRAPHY
I. Timchenko, I. Naumenko, E. M. Igumnova
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引用次数: 1

Abstract

The model of the sea upper layer ecosystem based on the equations of the adaptive balance of causes method is proposed. The scheme of the cause-effect relations from the paper by Fasham, Ducklow and McKelvie constituting the nitrogen cycle reactions in the sea upper layer is used in the model. Parameterization of biochemical reactions of the substance interaction is substituted in this model for the normalized ratios of the substances’ average concentrations resulted from analyzing the observations of the biochemical fields of the Black Sea northwestern shelf. The satellite-derived chlorophylla concentrations as well as the data on advection and diffusion obtained from calculations of intraannual variability of the current velocity field in the sea upper sea layer using the hydrodynamic model, are used as the external influencing factors. Being regarded as the external influencing factors, the information was used for calculating the deviations of the biochemical fields’ concentrations from their average values assumed to be a stationary state of the ecosystem. The observations were assimilated through including the sources’ additional functions (representing the assimilated data) to the right parts of the adaptive ecosystem model equations. The regional maps of the biochemical fields permitting to analyze their spatial-temporal variability in 2015 were constructed. The drawn conclusion confirms utility of the proposed approach used for mapping the biochemical fields of the sea upper layer.
黑海西北陆架生态系统自适应模型中叶绿素a浓度卫星观测和海洋环境动力学计算数据的同化
提出了基于成因自适应平衡方法方程的海洋上层生态系统模型。模型中使用了Fasham、Ducklow和McKelvie的论文中构成海洋上层氮循环反应的因果关系方案。在该模型中,用物质相互作用的生化反应的参数化代替了对黑海西北陆架生物化学场观测结果的归一化平均浓度比。卫星得出的叶绿素浓度以及通过使用流体动力学模型计算海上层流速场的年内变化而获得的平流和扩散数据被用作外部影响因素。作为外部影响因素,该信息用于计算假设为生态系统稳定状态的生物化学场浓度与其平均值的偏差。通过将来源的附加函数(代表同化数据)纳入自适应生态系统模型方程的正确部分,对观测结果进行了同化。构建了2015年能够分析其时空变异性的生物化学场区域图。得出的结论证实了所提出的方法用于绘制海洋上层生物化学场的实用性。
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来源期刊
Physical Oceanography
Physical Oceanography OCEANOGRAPHY-
CiteScore
1.80
自引率
25.00%
发文量
8
审稿时长
24 weeks
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