ABSTRACT It is presented the results of a long-term and intensive experiment, which models the processes of primary soil formation under controlled agro-ecosystems. The influence of mineral substrate transformation is analyzed on the content of chemical elements in plants tomato, and wheat. For the first time have been established dynamic synergistic and antagonistic interrelations between the chemical elements in a various bodies of the plant (roots, reproductive bodies, stems, and leaves). Using methods of the theory of information was revealed dynamics of collective state of chemical elements in the plants. It is shown that the collective states of the chemical elements which defined by the information function is strictly differentiated for different plant bodies, and have hierarchic order. We analyzed the following chemical elements Si, Al, Fe, Mg, Ca, K, P, S, Cl, Na, Mn, Zn.
Cite this paper
nullV. Mukhomorov and L. Anikina, "Interrelation of Chemical Elements Content in Plants underConditions of Primary Soil Formation," Open Journal of Soil Science, Vol. 1 No. 1, 2011, pp. 1-7. doi: 10.4236/ojss.2011.11001.
 Aristovskaya, T. V. (1980). Microbiology of soil-formation processes. Moscow: Nauka.
 Ermakov, A. I. (1987). Methods of biochemical investigation of plants. Moscow: Nauka.
 Ermakov, E. I., & Anikina, L. M. (1987). Method of combined chemical sterilization and regeneration of soil substrates. Inventor’s Certificate No. 1303063.
 Ermakov, E. I., & Mukhomorov, V. K. (2001). Evolution of diversity measures as a reflection of the process of primary soil formation in a model soil-plant system. Doklady Biochemistry and Biophysics, 379, 297-301. doi:10.1023/A:1011671306861
 Ermakov, E. I., Mukhomorov, V. K., & Anikina, L. M. (2006). Cause-and-effect relation in the distribution of chemical elements in plant organs during long-term cultivation in regulated agroecosystem. Russian Agricultural Sciences, 3, 1-4.
 Ermakov, E. I., & Anikina, L. M. (2007). Formation of an organic compounds and their role in transformation of mineral root-inhabited media in regulated agroecosystem. Russian Agricultural Sciences, 6, 30-32.
 Kolmogorov, A. N. (1987). Theory of information and theory of algoritms. Moscow: Nauka.
 Lurie, D., & Wegenberg, J. (1983). On biomass diversity in ecology. Bulletin of Mathematical Biology, 45, 287-293.
 Mc Arthur, R. H. (1955). Fluctuations of animal populations and a measure of community stability. Ecology, 36, 533-536.
 Mukhomorov, V. K., & Anikina, L. M. (2009). Elemental chemical composition of plants under primary pedogenic conditions. Russian Agricultural Sciences, 35, 378-383.
 Polynov, B. B. (1956). Selected works. Russian Academy of Sciences: Moscow.
 Samsonova, N. E. (2005). Silicon in soil and plants. Agricultural Chemistry, 6, 76-86.
 Vernadsky, V. I. (1922). Chemical composition of living matter in connection with chemistry of the Earth’s crust. Pegas: Petrograd.