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The Coupling of Atmospheric Electromagnetic Fields
in the presence of dim red light had a signifcantly decreased pineal melatonin synthesis as compared to
unexposed control animals (Welker et al., 1983). Ten, James Olcese reported that, in both albino and
pigmented rats, melatonin synthesis was markedly inhibited following a single, 30-minutes exposure to
a static magnetic feld stimulus consisting of a 50° rotation of the earth’s horizontal geomagnetic feld
(Olcese and Reuss, 1986).
Sensitivity to the geomagnetic feld is widespread among reptiles and birds. Both behavioral and
neurophysiological evidence suggests that there might be two magnetoreception mechanisms present
in some vertebrates, one system functioning as a source of directional compass information and the
other providing a geographic position (“map”) information based on geomagnetic cues (Phillips and
Deutschlander, 1997).
Contrary to the perception of electric feld, no literature has been reported that human can detect
magnetic feld. For example, Schmitt and Tucker could not verify that human perceived magnetic feld
sensation with 0.7–1.5 mT, 60 Hz magnetic feld exposure (Tucker and Schmitt, 1978).
In the late 1970s, the human homing experiments have been carried out to test magnetic feld percep
tion. Baker frst performed human homing experiments (1980, 1987). He made three experiments: walk
abouts, bus experiments, and chair experiments. In walkabouts and bus experiments, subject students
with helmet (magnetic strength between 0.014 and 0.030 T) had been blindfolded, and transported by
bus over a route to a point 6–52 km from “a home site (Manchester University)” with changes of direc
tion. Subjects were asked to indicate the direction of starting point. Baker found an overall ability to
name the compass courses to the starting point and to point in the respective direction. Although many
researchers tried to replicate the bus experiments, negative results were reported. In chair experiments,
the blindfolded subjects sat on a rotatable chair in the center of the large coil sets. Tis experiment also
showed a weak yet signifcant trend to name direction correctly (Wiltschko and Wiltschko, 1995). Two
claims gave the Baker’s experiment: One is in solving problems of orientation and navigation, humans
have access to some non-visual ability, and the second is at least, this non-visual ability involves magne
toreception (Baker, 1987). Although many researchers attempted to replicate Baker’s fndings, they were
unsuccessful. Te controversy still continues. It is not easy to perform the perception of human. In 2019,
Kirschvink’s research group from California Institute of Technology co-operated with researcher of the
University of Tokyo opening new research result on human sense to magnetic feld equal to the strength
of geomagnetic felds (Wang et al., 2019). His group recorded brain activity on the scalp to search for
some response to changes in magnetic feld. Te 34 participants sat in testing chamber with record
ing of EEG. Following magnetic stimulation, a drop in amplitude of EEG alpha-oscillations (8–13 Hz)
occurred in a repeatable manner. Alpha-ERD (alpha-event-related desynchronization) in response to
the geomagnetic fled was triggered only by horizontal rotations when the static vertical magnetic feld
was directed downwards. No brain responses were elicited by the same horizontal rotations when the
static vertical component was directed upwards. Tis test showed that the neural response was sensitive
to static components of the magnetic felds. Te neural response was also sensitive to the polarity of the
magnetic feld.
More interesting, apart from science, it has been suggested that very small special subsets of human
population show a signifcant ability to sense magnetic felds (König et al., 1981; Tromp, 1968). Dowser
belongs to this small special subset. Dowsing is known as diving rod (known as Wünschelrute, in
Germany). Dowsing may have originated in Germany in the sixteenth century. It was used in attempts
to fnd metals. Te point is that dowser responds to the variation of geomagnetic felds, the site of anom
aly. Te original form of the dowsing was a forked wooden twig (Tromp, 1968). It was used originally to
fnd metals (Agricola, 1556). Te dowser walks over land with a forked wooden twig in his hands and
experiences at certain places a contraction of his forearm muscles, which forces the forked wooden twig
to turn either upwards or downwards. Now, it is said that dowsing is a pseudoscience.
Te other document to magnetic feld is the case of dances of honeybees on a horizontal comb. When
honey bees communicate the direction and distance to food to their companions, and when food source
is very close (within about 50 m), they make a simple circular movement of the whole body while they