Page 94 - The Final Appeal to Mankind
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«The Final Appeal to Mankind» by Nicolai Levashov
die, while the remaining millions, using the bridge of their own species, continue
moving forward. It is interesting that in the superorganismic state the instinct of self-
preservation is completely absent. Each individual becomes like the cell of a huge
organism that can afford the unnoticed loss of thousands, and, at times, hundred of
thousands of “cells” for the sake of saving itself.
b) The migration of the superorganism, of the entire colony, takes place over a distance
of tens, sometimes even hundreds of kilometers, to reach territories that are safe for
habitation. The migration of this entire mass of living organisms navigates in the
correct direction, even though no individual of the species has ever before left its
previous territory. How does the aggregate of individuals know which way to go, or
how to get to a region where none of the migrating individuals has ever been before?
Let us try to explain this phenomenon. The rapid increase in temperature, absence of
water, and decrease in food supply for several days affect an animal through its cortical
receptors, as well as influencing other brain functions, including the individual's
protective psi-field, ω. Unfavorable natural conditions create a prospect of physical
death for any or all members of the entire population in its natural habitat. Because of
its limited capacity the brain of a single individual is unable to handle such a
complicated situation. Therefore, in the case of any adverse natural phenomenon, a
change in the condition of the cortex occurs — an inhibition of the reflexes which
generate and monitor the protective psi-field of the individual. As the individual’s
protective psi-field disappears, the coefficient of interaction, k(N;S), becomes equal to
one and the individual’s nervous system becomes incorporated as a component element
in the shared nervous system of the superorganism.
In most species the superorganism phenomenon occurs only in extreme situations.
When normal conditions are reinstated, the condition of the nervous system of the
individual returns to normal and the superorganismic state is discontinued, k(N;S) < 1.
During evolution the acquisition of the superorganismic state enabled certain species
to survive and adapt to changing states of natural conditions.
In the superorganismic state the cumulative density of the population’s psi-fields
enables the shared nervous systems to solve qualitatively new tasks, such as orientation
in space during migration over long distances. This is accomplished at the price of
damage to individuals, who are part of the superorganism. If the condition is not
prolonged, after reinstatement of the normal protective psi-field, the organism
gradually returns to normal.
The superorganism phenomenon manifests periodically in a number of species. Most
of the time it is related to cyclic changes in the climate. An example may be found in
the phenomenon of birds migrating across great distances. As ornithological research
has shown, in six cases out of ten, a flock of migrating birds is led to a wintering place
by young birds making their first flight and unaquainted with the route. What is
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