Influence on microorganisms’vital activity of high frequency electromagnetic fields and solutions of catolytes and anolithes
DOI: 10.17586/1606-4313-2019-18-4-42-48
UDC 664 : 613.2 : 543.4 : 57.083.1/.04
Vladimir S.Sibirtsev , Chekanov M.A., Naumov Igor A., Stroev Sergei A.
Keywords: biotesting, microorganisms, anolytes, catholytes, electromagnetic field.
UDC 664 : 613.2 : 543.4 : 57.083.1/.04
Influence on microorganisms’vital activity of high frequency electromagnetic fields and solutions of catolytes and anolithes
For citation: Sibirtsev V.S., Chekanov M.A., Naumov I.A., Stroyev S.A. Influence on microorganisms’vital activity of high frequency electromagnetic fields and solutions of catolytes and anolithes. Vestnik Mezhdunarodnoi akademii kholoda. 2019. No 4. p. 42-48
Abstract
A biotesting technique is described, which provides for recording changes in the intensities of elastic light scattering, as well as light absorption and intrinsic photofluorescence of the protein component of samples with viable test microorganisms incubated in a liquid nutrient medium in the presence and absence of various test factors. The results of the analysis using this technique of the influence on thedynamics of vitalactivity of microorganisms (such as Escherichia coli, Rhodotorula glutinis and Chlorella vulgaris) of various amounts of anolyte and catholyte (obtained by electrolysis of aqueous solutions of NaCl and Na2SO4), as well as external high-frequency electromagnetic fields (EHFEF) with different intensity (U) and frequency of its change (ν) and with different modes of exposure to test microorganisms (TM), are presented. On the basis the results it has been shown that even a fairly simple electrolysis treatment of aqueous solutions of commonly available non-organic salts can be used to prepare effective and safe antiseptic (solutions of anolytes) and probiotic (solutions of catholytes) agents.Weak EHFEF of the megahertz range, depending on their frequency, can significantly inhibit and activate the vital activity of TM. Periodic exposure to EHFEF has a greater effect on TM than permanent one. With the combined action of EHFEF and solutions of anolytes or catholytes, they can mutually reinforce their influence on the vital activity of TM.
Abstract
A biotesting technique is described, which provides for recording changes in the intensities of elastic light scattering, as well as light absorption and intrinsic photofluorescence of the protein component of samples with viable test microorganisms incubated in a liquid nutrient medium in the presence and absence of various test factors. The results of the analysis using this technique of the influence on thedynamics of vitalactivity of microorganisms (such as Escherichia coli, Rhodotorula glutinis and Chlorella vulgaris) of various amounts of anolyte and catholyte (obtained by electrolysis of aqueous solutions of NaCl and Na2SO4), as well as external high-frequency electromagnetic fields (EHFEF) with different intensity (U) and frequency of its change (ν) and with different modes of exposure to test microorganisms (TM), are presented. On the basis the results it has been shown that even a fairly simple electrolysis treatment of aqueous solutions of commonly available non-organic salts can be used to prepare effective and safe antiseptic (solutions of anolytes) and probiotic (solutions of catholytes) agents.Weak EHFEF of the megahertz range, depending on their frequency, can significantly inhibit and activate the vital activity of TM. Periodic exposure to EHFEF has a greater effect on TM than permanent one. With the combined action of EHFEF and solutions of anolytes or catholytes, they can mutually reinforce their influence on the vital activity of TM.
Keywords: biotesting, microorganisms, anolytes, catholytes, electromagnetic field.