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Bioelectromagnetism
rare. Te lack of ecological system studies is probably founded on the multiple environmental variables
that afect ecological communities which make it difcult to identify the infuence of particular elec
tromagnetic felds. Furthermore, with the advance of our information societies such as the 5G net
works, the need for research into the efects of electromagnetic felds on ecology systems has become of
increased importance.
1.3.1 The Coupling of Atmospheric Electricity with Biological Systems
It is well known that there are various important processes occurring in the global electric circuit.
Particularly, the charge separation in thunderstorms creates a potential diference between the highly
conductive regions of the ionosphere and the earth’s surface. An atmospheric electric circuit is said
to form between the negatively charged earth’s surface and the positively charged surface of the iono
sphere. Tis structure has a strong resemblance to a spherical capacitor (Rycrof et al., 2012).
Negative air ions are believed to help purify the air. Negative air ions are present on the ground sur
face during clear weather and in large numbers near waterfalls, while the concentration of positive air
ions increases when thunderclouds approach. Air ions can produce physiological efects; the negative air
ions produced by atmospheric electrical phenomena tend to make you feel refreshed, while the positive
air ions are said to cause discomfort. However, there is still not enough scientifc evidence to clearly con
clude these efects. Other physiological efects include those exerted by the electrostatic force of strong
static electric felds on the hair and other parts of the body as well as the stimulation of nerve receptors
on the skin surfaces; however, they have no harmful efects on health.
An intimate afnity of atmospheric electricity to biological systems exists. It shows how atmospheric
electricity can govern human well-being (as well as for a wide array of organisms) and the processes they
sustain; therefore, atmospheric electricity must be considered as a signifcant direct and indirect driver
of biology (Cifra, 2021; Hunting, 2021a, b; Price et al., 2021).
Tere are various electromagnetic phenomena on earth. Since early times, living organisms have
been exposed to the electric and magnetic felds produced by the earth, as well as the electromag
netic felds associated with lightning discharges and solar activity. Terefore, it is presumed that the
evolution of organisms has been afected by these electromagnetic phenomena in various ways. In
other words, the question of what relationship exists between electromagnetic phenomena on earth
and the evolution of life has been a matter of great interest to both scientists and the general pub
lic. For example, it has been reported that animals actively use the geomagnetic feld. Tese include
magnetite-based magnetotactic bacteria, the behavior of honeybees and the migration of bird. It has
also been reported that sharks and rays use the Lorenzini organ to sense electric felds that can control
their behavior.
1.3.2 Safety Aspects of Electromagnetic Fields
According to the ICNIRP defnition, non-ionizing radiation refers to electromagnetic radiation and
felds with photon energy lower than 10 eV, which corresponds to frequencies lower than 3,000 THz. Te
groups of static electric and magnetic felds (0 Hz), low-frequency electromagnetic felds (1 Hz–100 kHz)
and radiofrequency electromagnetic felds (100 kHz–300 GHz) are categorized into non-ionizing radia
tion (ICNIRP, 2020a).
Te modern world is full of invisible electromagnetic waves. As mentioned previously, non-ionizing
radiation is an integral part of our lives. Tere are a wide variety of electromagnetic environments rang
ing from low frequency, intermediate frequency to millimeter and terahertz waves in our surround
ing (Figure 1.1). Since the electromagnetic environment of non-ionizing radiation is invisible to the
eye, many people are concerned about their potential health efects. Non-ionizing radiation are now
being used in information and communication technologies and are expected to be actively employed
further. In the future, as technological innovation advances, diferent frequencies will be used for the