微藻培养物中叶绿素a含量的模拟

Q3 Mathematics
A. Lelekov, R. P. Trenkenshu
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引用次数: 3

摘要

研究了光照对微藻生物量叶绿素a含量影响机制的数学建模。众所周知的定性模型是基于叶绿素a的合成和光破坏性氧化的概念,然而,对于某些微藻物种来说,后者似乎值得怀疑。我们提出了一种替代方法来模拟微藻生物量中光依赖性叶绿素a含量。基本模型是基于普遍接受的微藻两阶段光自养生长。第一阶段,在光合作用过程中形成储备部分生物量,并在第二阶段进行细胞结构的生物合成。在各种限制条件下,考虑了描述叶绿素a含量与外界光强关系的基本方程组的三个部分解。由于储备形成的比增长率和生物量的结构形式相等,所得的方程只能用于浊化粪池培养。对得到的平节螺旋体方程进行验证,可以估计出动力学系数,其值与理论计算值基本一致。为了进行近似计算,我们提出了一个简单的方程,该方程与实验数据吻合较好,对于绿体四瓣藻(R2 = 0.98)、叔藻杜氏藻(R2 = 0.92),对腰状鳞藻和寻常小球藻(R2 = 0.8)的结果也有较好的描述。叶绿素a是指生物量的结构形式。叶绿素a在结构生物量中所占的比例约为2.5 ~ 3.5%,是一个物种特有的参数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling Of Chlorophyll a Content in Microalgae Cultures
The work focuses on mathematical modeling of light influence mechanisms on chlorophyll a content in microalgae biomass. The well-known qualitative models are based on concepts of synthesis and photodestructive oxidation of chlorophyll a, however the later for some microalgae species seems doubtful. We proposed an alternative approach to modeling the light-dependent chlorophyll a content in microalgae biomass. The basic model is based on generally accepted two-stage photoautotrophic growth of microalgae. At the first stage, during photosynthesis a reserve part of biomass is formed, from which the biosynthesis of cell structures occurs at the second stage. Three partial solutions of the basic system of equations describing the dependence of chlorophyll a content on the external light intensity are considered for various limiting conditions. Due to the equality of specific growth rates of formation of reserve and structural forms of biomass, the equations obtained can be used only for turbidostat cultures. Verification of the obtained equations for Arthrospira platensis allows us to estimate kinetic coefficients, the values of which are generally in good agreement with theoretically calculated ones. For approximate calculations, a simple equation is proposed that shows a good agreement with experimental data for Tetraselmis viridis (R2 = 0.98), Dunaliella tertiolecta (R2 = 0.92) and describes the results for Sceletonema costatum and Chlorella vulgaris (R2 = 0.8) quite well. Chlorophyll a refers to structural forms of biomass. The proportion of chlorophyll a in the structural biomass is about 2.5–3.5 %, it is a species-specific parameter.
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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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