9
Introduction
reason, the question has been raised as to whether humans can sense magnetism in the same way. Tis
question has been addressed in outdoor and indoor experiments using human subjects. In the 1980s
Baker and later in 2019 Kirschvink’s group conducted experiments that showed that people can sense
magnetism, but they have not yet been able to determine it clearly (Baker, 1980; Wang et al., 2019).
Te study of magnetic-related phenomena also includes the change of magnetic properties of
every material which occurs under high strength magnet. During the 1930s and 1940s, scientists have
attempted to study the efects on living systems. However, they ignored the fundamental laws of elec
tromagnetism. Signifcantly more intensive research in magnetobiology began in the 1960s with the
research of space biology.
From these advances, considerable experimental and theoretical research studies involving the inter
action between electromagnetic felds and living systems emerged, trying to elucidate what kind of
relationship exists between electricity, magnetism and life, how electricity and magnetism give action to
living systems, and how the living systems utilize electricity and magnetism. Furthermore, it is impor
tant to understand the interaction of electromagnetic felds with biological systems not only for medical
applications but also for the protection from exposure to electromagnetic felds. In this way, bioelectro
magnetism is an interdisciplinary science which combines biology, medicine, engineering, chemistry
and physics.
1.3 Harmonization of Electromagnetic
Fields with Biological Systems
Biological systems have been and are exposed to man-made electromagnetic felds. However, since
ancient times, living organisms have been exposed to electromagnetic waves from cosmic rays, elec
tromagnetic felds created by the earth, air ions and low-frequency electromagnetic felds that travel
around the earth. Tere have been studies on how organisms interact with these natural electromag
netic phenomena and how they actively use the natural electromagnetic phenomena to sustain life. In
particular, research has been conducted on the efects of the earth’s electric feld and the efects of air
ions on living organisms and on how they are utilized by living organisms, and also on the relation
ship between low-frequency electromagnetic felds generated by lightning discharges with physiological
changes in humans and animals. In addition, studies have shown that the geomagnetic feld is used by
migrating birds, fsh and bees to determine their orientation.
Static magnetic felds can cause changes in the mass transfer due to the magnetic orientation of bio
logical tissues and bio-macromolecules, changes in chemical reactions of radical pairs and efects on
enzymes. Medical diagnostic equipment using static magnetic felds has been developed and now used
clinically. Presently, it is believed that a static magnetic feld below 2 T has no harmful efects on health.
Tere are many animals and microorganisms that use weak static magnetic felds as an aid to their
survival. Electric fsh and cartilaginous fshes such as sharks or rays are known to be able to detect
electricity.
Invertebrates such as the honeybee, fruit fies, some beetle species, ants and wild pollinators (e.g.,
Diptera, Hymenoptera, Lepidoptera, Coleoptera) have been used to study the efects of electromagnetic
radiation. Te studies on the responses of invertebrates to natural electromagnetic felds have demon
strated how they detect and orientate with electromagnetic felds, and what are the electromagnetic feld
efects on their behavior, physiological functions and reproduction. Te laboratory studies are focused
on physiological or developmental responses to short-term or acute exposure to electromagnetic felds.
Tere are still no studies that examine efects on invertebrates of long-term exposure to electromagnetic
felds. Today, there is a need for more ecological studies focusing on measuring the efects of electro
magnetic radiation on wild communities. Te ecological study of electromagnetic felds on vertebrates
covers its wide spectrum range starting from hormone levels, other physiological parameters to behav
ior patterns. Tese studies might have ecological implications, but real ecological studies are extremely