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On January 24, a famous scientist, doctor of physical and mathematical sciences, professor and laureate of the Prize of S.V. Kowalevsky Alexey Vladimirovich Borisov passed away. Alexey Vladimirovich was born and raised in Moscow. After graduating from high school, he entered the Faculty of Special Mechanical Engineering of the Bauman Moscow State Technical University. Already during his studies, Alexey Vladimirovich attends a scientific seminar at the Faculty of Mechanics and Mathematics of the Lomnosov Moscow State University, which largely determines the direction of his future research. After defending his Ph.D. thesis, Alexey Vladimirovich creates a scientific group in Izhevsk, his subsequent scientific biography is very wide: Yekaterinburg, Cheboksary, Innopolis, Dolgoprudny, Moscow. Borisov founds and heads the series of scientific journals Regular and Chaotic Dynamics, Nonlinear Dynamics, is the editor-in-chief in the journals Bulletin of Udmurt University, Computer research and modeling. The scientific heritage of A.V. Borisov is extensive, the list of publications is more than 200 works, more than 170 of which have been published in journals indexed by international databases Scopus and Web of Science. More than 10 monographs belong to him.

Calcium is a major nutrient regulating metabolism in a plant. Deficiency of calcium results in a growth decline of plant tissues. Ca may be lost from forest soils due to acidic atmospheric deposition and tree harvesting. Plant-available calcium compounds are in the soil cation exchange complex and soil waters. Model of soil calcium dynamics linking it with the model of soil organic matter dynamics ROMUL in forest ecosystems is developed. ROMUL describes the mineralization and humification of the fraction of fresh litter which is further transformed into complex of partially humified substance (CHS) and then to stable humus (H) in dependence on temperature, soil moisture and chemical composition of the fraction (nitrogen, lignin and ash contents, pH). Rates of decomposition and humification being coefficients in the system of ordinary differential equations are evaluated using laboratory experiments and verified on a set of field experiments. Model of soil calcium dynamics describes calcium flows between pools of soil organic matter. Outputs are plant nutrition, leaching, synthesis of secondary minerals. The model describes transformation and mineralization of forest floor in detail. Experimental data for calibration model was used from spruсe forest of Bulgaria.

The model of potential dependent proton transfer trough the cell membrane of Chara alga developed in [1] is considered. In the last version of the model we considered two variables: proton concentration near the surface cell and transmembrane potential. In present version we introduce the new variable — proton concentration in cytoplasm. Oscillative and chaotic dynamic of transmembrane potential was obtained in calculations. The physiological role of these patterns is discussed.