A Physiological and Biochemical Study of the Effects of Extremely Low Frequency Electromagnetic Fields

Abstract

Exposure of the myxomycete Physarum polycephalum to either continuous wave (75 Hz) or frequency modulated wave (76 Hz) electromagnetic (EMF) fields (0.1G to 2.0 G and 0.035 V/m to 0.7 V/m) lengthens the mitotic cycle and depresses the respiration rate. Once induced, these effects persist indefinitely without increasing or decreasing in magnitude beyond that due to normal variability of the organism. Similar effects are observed when either individual electric fields (0.7 V/m) or magnetic fields (2.0 G) are applied, however the magnitude of the response is less than that observed with simultaneous fields. The individual field effects appear to be additive for respiration but not for nuclear division rate. For fields applied simultaneously at levels below 0.14 V/ m and 0.4 G the response was independent of field intensity. No threshold was observed for simultaneously applied electric and magnetic fields; however, indirect evidence is presented that suggests either the electric or magnetic field is below threshold at levels of 0.14 V/m and 0.4 G respectively. Frequency modulation of the fields seems to have no major effect on the response induced in P. polycephalum. Results of additional experiments re presented that are designed to rule out certain non-EMF factors as being responsible for the biological changes.

Document Details

Document Type

Technical Report

Publication Date

Jul 01, 1979

Accession Number

ADA071476

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