Application the Statistical Conditional Entropy Function for Definition of Cause-and-Effect Relations during Primary Soil Formation
Within the framework of a method of the information
theory it is offered statistics and probabilistic model for definition of
cause-and-effect relations in the coupled multicomponent
subsystems. The quantitative parameter which is defined through
conditional and unconditional entropy functions is introduced. The
method is applied to the analysis of the experimental data on
dynamics of change of the chemical elements composition of plants
organs (roots, reproductive organs, leafs and stems). Experiment is
directed on studying of temporal processes of primary soil formation
and their connection with redistribution dynamics of chemical
elements in plant organs. This statistics and probabilistic model
allows also quantitatively and unambiguously to specify the
directions of the information streams on plant organs.
[1] E. I. Ermakov, V.K. Mukhomorov. "Evolution of diversity measures as a
reflection of the processes of primary soil formation in a model soilplant
system" Doklady - Biochemistry and Biophysics. vol. 379, no. 6,
pp. 297-301, Nov. 2001.
[2] G.V. Dobrovol-skii, E. D. Nikitin. Funktzii pochv v biosphere i
ekosistemakh (Ekologicheskoe znachenie pochv). (Soil Functions in
Biosphere and Ecosystems: The Ecological Significance of Soils),
Moscow: Nauka, 1990, ch. 6. (Russian Ed.).
[3] E. I. Ermakov, L. M. Anikina, L. A. Chaikovskaya. Inventor-s
Certificate No. 1303063, "Method of combined chemical sterilization
and regeneration of soil substitutes", Byull. Izobr., 1987, no. 14.
[4] V. I. Vernadskii. Khimicheskii sostav zhivogo veshchestva v svyazi s
khimiei zemnoi kory (Chemical Composition of Living Matter in the
Context of Chemistry of the Earth-s Crust). Moscow: Nauka, 2001, ch.
2, 3. (Russian Ed.).
[5] V. B. Il-in. Elementnyi khimicheskii sostav rastenii (Chemical-Elements
Composition of Plants). Novosibirsk: Nauka, 1985, p.23. (Russian Ed.).
[6] S. M. Korotaev. "O vozmozhnosti prichinnogo analiza geophizicheskih
processov (On the possibility of the causal analysis of the geophysical
processes" Geomagnetiz-m i Aeronomiya (Geomagnetism and
Aeronomy), vol.32, no. 1, pp.27-33, Jan. 1992. (Russian Ed.).
[7] C. E. Shannon. "A mathematical theory of communications" Bell
System Tech. J., vol. 27, no.3, pp.379-423, 1948.
[1] E. I. Ermakov, V.K. Mukhomorov. "Evolution of diversity measures as a
reflection of the processes of primary soil formation in a model soilplant
system" Doklady - Biochemistry and Biophysics. vol. 379, no. 6,
pp. 297-301, Nov. 2001.
[2] G.V. Dobrovol-skii, E. D. Nikitin. Funktzii pochv v biosphere i
ekosistemakh (Ekologicheskoe znachenie pochv). (Soil Functions in
Biosphere and Ecosystems: The Ecological Significance of Soils),
Moscow: Nauka, 1990, ch. 6. (Russian Ed.).
[3] E. I. Ermakov, L. M. Anikina, L. A. Chaikovskaya. Inventor-s
Certificate No. 1303063, "Method of combined chemical sterilization
and regeneration of soil substitutes", Byull. Izobr., 1987, no. 14.
[4] V. I. Vernadskii. Khimicheskii sostav zhivogo veshchestva v svyazi s
khimiei zemnoi kory (Chemical Composition of Living Matter in the
Context of Chemistry of the Earth-s Crust). Moscow: Nauka, 2001, ch.
2, 3. (Russian Ed.).
[5] V. B. Il-in. Elementnyi khimicheskii sostav rastenii (Chemical-Elements
Composition of Plants). Novosibirsk: Nauka, 1985, p.23. (Russian Ed.).
[6] S. M. Korotaev. "O vozmozhnosti prichinnogo analiza geophizicheskih
processov (On the possibility of the causal analysis of the geophysical
processes" Geomagnetiz-m i Aeronomiya (Geomagnetism and
Aeronomy), vol.32, no. 1, pp.27-33, Jan. 1992. (Russian Ed.).
[7] C. E. Shannon. "A mathematical theory of communications" Bell
System Tech. J., vol. 27, no.3, pp.379-423, 1948.
@article{"International Journal of Biological, Life and Agricultural Sciences:53707", author = "Vladimir K. Mukhomorov", title = "Application the Statistical Conditional Entropy Function for Definition of Cause-and-Effect Relations during Primary Soil Formation", abstract = "Within the framework of a method of the information
theory it is offered statistics and probabilistic model for definition of
cause-and-effect relations in the coupled multicomponent
subsystems. The quantitative parameter which is defined through
conditional and unconditional entropy functions is introduced. The
method is applied to the analysis of the experimental data on
dynamics of change of the chemical elements composition of plants
organs (roots, reproductive organs, leafs and stems). Experiment is
directed on studying of temporal processes of primary soil formation
and their connection with redistribution dynamics of chemical
elements in plant organs. This statistics and probabilistic model
allows also quantitatively and unambiguously to specify the
directions of the information streams on plant organs.", keywords = "Chemical elements, entropy function, information,
plants.", volume = "3", number = "8", pages = "382-5", }