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ANALYSIS AND MODELING OF COMPLEX LIVING SYSTEMS
Modeling of calcium dynamics in soil organic layers
Yu. S. Khoraskinaa, A. S. Komarova, M. G. Bezrukovaa, M. Zhiyanskib a Institute of Physico-chemical and Biological Problems in Soil Science RAS, 2 Institutskaya, Pushchino, Moscow region, 142290, Russia
b Forest Institute of Bulgarian Academy of Sciences, “Kl. Ohridski” Blvd., 1756 Sofia, Bulgaria
Abstract:
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.
Keywords:
calcium turnover, mathematical modeling of ecosystems, secondary minerals.
Received: 17.03.2010
Citation:
Yu. S. Khoraskina, A. S. Komarov, M. G. Bezrukova, M. Zhiyanski, “Modeling of calcium dynamics in soil organic layers”, Computer Research and Modeling, 2:1 (2010), 103–110
Linking options:
https://www.mathnet.ru/eng/crm584 https://www.mathnet.ru/eng/crm/v2/i1/p103
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Abstract page: | 75 | Full-text PDF : | 26 | References: | 31 |
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