On the quantum nature of magnetic phenomena in biology

Abstract

The review discusses the microscopic mechanisms of the action of weak magnetic fields on organisms. Magnetobiology distinguishes between magnetoreception, i.e., the effect of a magnetic field on specialized receptors, and a nonspecific response that develops without such receptors. The nonspecific effects of weak magnetic fields are highly general and universal: they occur in all organisms. Often these effects are disguised as the result of the action of uncontrolled random factors, appear as an increased scatter of measurements, and accompanied by low reproducibility. The nature of nonspecific magnetic effects, as is shown in this review, is related to the quantum dynamics of the magnetic moments of electrons, magnetic nuclei, and, possibly, rotations of molecular groups. Among the most substantiated is the spin-chemical mechanism, first of all. Its known low sensitivity to weak magnetic fields can be increased by including spin-correlated radical pairs in the enzymes that catalyze biopolymer processes, e.g., ribosomal ones. We show that research on the effects of significantly weakened magnetic fields compared with the geomagnetic field on cellular processes has prospects for various practical applications. The mechanisms proposed to explain nonspecific effects, but turned out to be untenable, are listed.