Изучение градиента биоэлектрического потенциала в корнеобитаемой среде

The work is devoted to the study of the bioelectric potential gradient in the root zone using a non-invasive method. It is shown that the dynamics of biocurrents generated in the rhizosphere is associated with the development of the root system. The potential difference at the level of 250 mV is also present in the soil without a plant, it decreases with time and the depth of the soil layer. The increase of the bioelectropotential by 150 mV and more is observed in the presence of the root system, apparently, when it grows to the electrode.

Application of Kirlian Captures and Statistical Analysis of Human Bioelectricity and Energy of Different Organs

Bioelectricity occurs inside a living organism. It is nature through which living beings survive. It is a phenomenon through which organisms live and is also parallel to electrophysiology. Bioelectric potentials are generated by many biological processes. Bioelectric potentials are very like electrical potentials, which are generated by batteries. The bioelectric potential in a cell membrane has a potential of about 500 milli volts. Cells use their potential to control metabolic processes. But some cells use them differently for psychological functions. Cells allow the potential to be between inside and outside to discharge current to the nerves. The transportation of sodium ions is also involved in production of action potential, the ancient Indian vedic yajna, mantra, and meditation science has been proved effective to increase this bioelectricity. In this manuscript, the authors examined the different energy distribution of subjects on different organs.

Effect of Lemna minor population density on bioelectric parameters of electro-biosystems.

The article presents a study of the influence of Lemna minor population density on the bioelectric potential and current of model electro-biosystems in the laboratory сonditions using 500 and 1000 Ω resistors and in the open circuit. The positive effect of increasing the density of duckweed plants populations from 60 to 120 fronds/ml on the growth of bioelectric parameters of model electro-biosystems under load conditions and without resistors was revealed. Increasing the amount of duckweed biomass is a factor of enhancing the efficiency of electro-biosystems based on L. minor.

Bioelectric parameters of Pinus silvestris forest ecosystems

The article presents the study of the bioelectric potential of forest biotopes of Pinus silvestris to evaluate the possibility of their usage as a bioelectricity source. The increase of bioelectric potential in dry soils independent of moisture level was revealed. The positive effect of soil humidity on the generation of bioelectric potential was shown. Insignificant daily and seasonal fluctuations of bioelectric parameters of forest biotopes open their prospects as an important source of renewable energy.

Wetland meadows of carex acutiformis as a source of bioelectricity of agglomeration atmospheric air pollution and environmental safety of the practices

The article presents the assessment of bioelectroproductivity of wetland sedge ecosystems of Carex acutiformis in situ. It was found that it is possible to obtain a bioelectric potential at the level of 864.2-1114.8 mV, depending on external conditions using a pair of electrodes graphite/zinc-galvanized steel and graphite/aluminum. The increase in soil moisture had a positive effect on bioelectric potential parameters. Widespread in Polissya biotopes of sedge have prospects as sources of green plant-microbial energy.