Nevoit, G.; Landauskas, M.; McCarty, R.; Bumblyte, I.A.; Potyazhenko, M.; Taletaviciene, G.; Jarusevicius, G.; Vainoras, A. Schumann Resonances and the Human Body: Questions About Interactions, Problems and Prospects. Appl. Sci. 2025, 15, 449. https://doi.org/10.3390/app15010449
This review should strengthen the transdisciplinary dialogue between scientists for further studying the influence of the Earth’s magnetic field on the human body. This review should draw attention to the issue among biomedical scientists and physicians.
The study of aspects of the interaction of the human body with the Earth’s magnetic field is relevant to modern fundamental science for two main reasons. The first reason is the scientific proof of the fact that the human body, at the micro level of its structure, is formed by electromagnetic fields [1,2,3]. The quantum mechanical characteristics of subatomic molecular structures determine the occurrence of all chemical reactions of metabolism in the human body [4,5]. The chemistry of metabolic reactions in the human body is a secondary consequence of the dynamics of the electromagnetic states of the atoms of the molecules in the body and their subatomic structures [3,6,7]. Therefore, it is logical that the electromagnetic field structures that form the atoms of the molecules in the human body should respond to changes in the parameters of the external electromagnetic influence on them by changing their quantum mechanical characteristics. This interaction must obey the fundamental universal biophysical laws of nature. These aspects must be comprehended by fundamental science. Therefore, this is a new challenge for modern scientists. It is very important to study and understand these mechanisms of interaction between the human body and the Earth’s magnetic field because the Earth’s magnetic field is an important external component for the occurrence of magnetoelectrochemical processes in the phenomenology of biological life [8,9,10,11,12] and exerts a dynamic influence on the processes of cellular metabolism.