基于下垂模型的浮游植物光合过程建模与动态评估

A. Abakumov, S. Pak
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引用次数: 0

摘要

Droop的著名模型基于营养限制模拟浮游植物生物量动态。定义参数是浮游植物细胞中的营养浓度(细胞配额)。这个模型被修改以描述光合作用过程。必须考虑到光合有效辐射的影响。同时,营养因素仍是主要因素。水温被认为是一个控制因素。光合作用过程中光的影响起着决定性的作用。决定性的因素是光合物质的存在。我们通常以“叶绿素”的名义将它们组合起来。浮游植物中叶绿素比例(叶绿素配额)的充分变异直接影响生物量生产。在Droop模型中加入了叶绿素配额的动力学方程。模型的参数取决于营养物浓度、光照和水温。研究了模型中解的性质,阐明了平衡解存在和稳定的条件。在不稳定平衡的情况下,揭示了复杂的动力机制。生物量动力学最敏感的参数是细胞配额的最小值。计算了季节变化的日周期和年周期指标的动态。阐明了营养、光照和温度对生物量生产的影响。在白天,由于时间短,叶绿素配额波动不显著。这种变化在较长的时间内是明显的,例如在赛季期间。
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Modeling of Photosynthesis Process and Assessing Of Phytoplankton Dynamics Based On Droop Model
Droop's well-known model simulates phytoplankton biomass dynamics based on nutrient limitation. The defining parameter is the nutrient concentration in phytoplankton cells (cell quota). This model is modified to description of the photosynthesis processes. The effects of photosynthetically active radiation must be taken into account. At the same time, the nutritional factor remains the main one. Water temperature is considered as a controlling factor. The influence of light during photosynthesis plays a decisive role. The decisive factor is the presence of photosynthetic substances. We conventionally combine them under the name "chlorophyll". Sufficient variability in the proportion of chlorophyll in phytoplankton (chlorophyll quota) directly affects biomass production. The equation for the dynamics of chlorophyll quota is added to the Droop model. The parameters of the model depend on the concentration of nutrients, illumination and water temperature. The properties of the solutions in the model are investigated, the conditions for the existence and stability of equilibrium solutions are clarified. Complex dynamic regimes are revealed in the case of unstable equilibria. It was found that the most sensitive parameter for biomass dynamics is the minimum value of the cell quota. The dynamics of indicators for the daily cycle and the annual cycle of seasonal changes are calculated. The influence of nutrition, illumination and temperature on biomass production has been clarified. During the day, the chlorophyll quota fluctuates insignificantly due to a short period of time. The changes are noticeable at longer times for example during the season.
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来源期刊
Mathematical Biology and Bioinformatics
Mathematical Biology and Bioinformatics Mathematics-Applied Mathematics
CiteScore
1.10
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13
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