Current PlanetoPhysical alterations of the Earth are
becoming irreversible. Strong evidence exists that these
transformations are being caused by highly charged material
and energetic non-uniformity's in anisotropic interstellar
space which have broken into the interplanetary area
of our Solar System. This "donation"
of energy is producing hybrid processes and excited
energy states in all planets, as well as the Sun. Effects
here on Earth are to be found in the acceleration of
the magnetic pole shift, in the vertical and horizontal
ozone content distribution, and in the increased frequency
and magnitude of significant catastrophic climatic events.
There is growing probability that we are moving into
a rapid temperature instability period similar to the
one that took place 10,000 years ago. The adaptive responses
of the biosphere, and humanity, to these new conditions
may lead to a total global revision of the range of
species and life on Earth. It is only through
a deep understanding of the fundamental changes taking
place in the natural environment surrounding us that
politicians, and citizens a like, will be able to achieve
balance with the renewing flow of PlanetoPhysical states
and processes.
INTRODUCTION
Current, in process, geological, geophysical, and climatical
alterations of the Earth are becoming more, and more,
irreversible. At the present time researchers are revealing
some of the causes which are leading to a general reorganization
of the electro-magnetosphere (the electromagnetic skeleton)
of our planet, and of its climatic machinery. A
greater number of specialists in climatology, geophysics,
planetophysics, and heliophysics are tending towards
a cosmic causative sequence version for what is happening.
Indeed, events of the last decade give strong evidence
of unusually significant heliospheric and planetophysic
transformations [1,2]. Given the quality,
quantity, and scale of these transformations we may
say that:
The climatic and biosphere processes here on Earth
(through a tightly connected feedback system) are directly
impacted by, and linked back to, the general overall
transformational processes taking place in our Solar
System. We must begin to organize our attention
and thinking to understand that climatic changes on
Earth are only one part, or link, in a whole chain of
events taking place in our Heliosphere.
These deep physical processes, these new qualities
of our physical and geological environment, will impose
special adaptive challenges and requirements for all
life forms on Earth. Considering the problems of adaptation
our biosphere will have with these new physical conditions
on Earth, we need to distinguish the general tendency
and nature of the changes. As we will show below, these
tendencies may be traced in the direction of planet
energy capacity growth (capacitance), which is leading
to a highly excited or charged state of some of Earth's
systems.The most intense transformations are taking
place in the planetary gas-plasma envelopes to which
the productive possibilities of our biosphere are timed.
Currently this new scenario of excess energy run-off
is being formed, and observed:
In the ionosphere by plasma generation.
In the magnetosphere by magnetic storms.
In the atmosphere by cyclones.
This high-energy atmospheric phenomena,
which was rare in the past, is now becoming more frequent,
intense, and changed in its nature. The material composition
of the gas-plasma envelope is also being transformed.
It is quite natural for the whole biota of the Earth
to be subjected to these changing conditions of the
electromagnetic field, and to the significant deep alterations
of Earth's climatic machinery. These fundamental processes
of change create a demand within all of Earth's life
organisms for new forms of adaptation. The
natural development of these new forms may lead to a
total global revision of the range of species, and life,
on Earth . New deeper qualities of life
itself may come forth, bringing the new physical state
of the Earth to an equilibrium with the new organismic
possibilities of development, reproduction, and perfection.
In this sense it is evident that we are faced with a
problem of the adaptation of humanity to this new state
of the Earth; new conditions on Earth whose biospheric
qualities are varying, and non-uniformly distributed.
Therefore the current period of transformation is transient,
and the transition of life's representatives to the
future may take place only after a deep evaluation of
what it will take to comply with these new Earthly biospheric
conditions. Each living representative on Earth will
be getting a thorough "examination," or "quality
control inspection," to determine it's ability
to comply with these new conditions.These evolutionary
challenges always require effort, or endurance, be it
individual organisms, species, or communities. Therefore,
it is not only the climate that is becoming new, but
we as human beings are experiencing a global change
in the vital processes of living organisms, or life
itself; which is yet another link in the total process.
We cannot treat such things separately, or individually.
1.0 TRANSFORMATION OF THE SOLAR SYSTEM
We will list the recent large-scale events in the Solar
System in order to fully understand, and comprehend,
the PlanetoPhysical transformations taking place. This
development of events, as it has become clear in the
last few years, is being caused by material and energetic
non-uniformity's in anisotropic interstellar space[2,3,4].
The Heliosphere [solar system] transition through this
structure has led to an increase of the shock wave in
front of the Solar System from 3 to 4 AU, to 40 AU,
or more. This shock wave thickening has caused the formation
of a collusive plasma in a parietal layer, which has
led to a plasma overdraft around the Solar System, and
then to its breakthrough into interplanetary domains
[5,6]. This breakthrough constitutes a kind
of matter and energy donation made by interplanetary
space to our Solar System.
In response to this "donation of energy/matter,"
we have observed a number of large scale events:
A series of large PlanetoPhysical transformations.
A change in the quality of interplanetary space
in the direction of an increase in its interplanetary,
and solar-planetary transmitting properties.
The appearance of new states, and activity
regimes, of the Sun.
1.1 A Series of Large PlanetoPhysical Transformations.
The following processes are taking place on the distant
planets of our Solar System. But they are, essentially
speaking, operationally driving the whole System.
Here are examples of these events:
1.1.1 A growth of dark spots on Pluto
[7].
1.1.2 Reporting of auroras on Saturn
[8].
1.1.3 Reporting of Uranus and Neptune polar
shifts (They are magnetically conjugate
planets), and the abrupt large-scale growth of Uranus'
magnetosphere intensity.
1.1.4 A change in light intensity and light
spot dynamics on Neptune [9,10].
1.1.5 The doubling of the magnetic field
intensity on Jupiter (based upon 1992
data), and a series of new states and processes observed
on this planet as an aftermath of a series of explosions
in July 1994
1.1.6 A series of Martian atmosphere transformations
increasing its biosphere quality. In particularly, a
cloudy growth in the equator area and an unusual growth
of ozone concentration[16].
1.1.7 A first stage atmosphere generation
on the Moon, where a growing natrium atmosphere is detected
that reaches 9,000 km in height. [17].
1.1.8 Significant physical, chemical and
optical changes observed on Venus; an inversion of dark
and light spots detected for the first time,
and a sharp decrease of sulfur-containing gases in its
atmosphere [16].
1. 2 A Change in the Quality of Interplanetary
Space Towards an Increase in Its Interplanetary and
Solar-Planetary Transmitting Properties.
When speaking of new energetic and material qualities
of interplanetary space, we must first point out the
increase of the interplanetary domains energetic charge,
and level of material saturation. This change of the
typical mean state of interplanetary space has two main
causes:
1.2.1 The supply/inflow of matter from interstellar
space. (Radiation material, ionized elements, and combinations.)
[19,20,21].
1.2.2 The after effects of Solar Cycle 22 activity,
especially as a result of fast coronal mass ejection's
[CME's] of magnetized solar plasmas. [22].
This newly changed quality of interplanetary
space not only performs the function of a planetary
interaction transmission mechanism, but it (this is
most important) exerts stimulating and programming action
upon the Solar activity both in it's maximal and minimal
phases.The seismic effectiveness of the
solar wind is also being observed [26,27].
1.3 The Appearance of New States and Activity RegimesS
of the Sun.
As far as the stellarphysical state of the Sun is concerned,
we must first note the fact that significant
modifications have occurred in the existing behavioral
model of the central object of our solar system.
This conclusion comes from observations and reportings
of unusual forms, energetic powers, and activities in
the Sun's functions [20,21], as well as modifications
in it's basic fundamental properties [28]. 1.3.1 Concerning
the velocity of reaching super-flash maximums.
1.3.2 Concerning the emissive power of separate flashes.
1.3.3 Concerning the energy of solar cosmic rays, etc.
As a whole, all of the reporting and observation
facilities give evidence to a growth in the velocity,
quality, quantity, and energetic power of our Solar
System's Heliospheric processes.
Update Note 1/8/98: The unexpected high level of Sun
activity in the later half of 1997, that is continuing
into present time, provides strong substantiation of
the above statement. There were three "X"
level Goes 9 X-Ray Flux events in 1997 where one was
forecasted; a 300% increase. The most dramatic of these,
a X-9.1 coronal mass ejection on November 6, 1997, produced
a proton event here on Earth of approximately 72 hours
in duration. The character, scale, and magnitude of
current Sun activity has increased to the point that
one official government Sun satellite reporting station
recently began their daily report by saying, "Everything
pretty much blew apart on the Sun today, Jan. 3,1998."
2.0 THE EARTH REORGANIZATION PROCESSES
The recorded and documented observations of all geophysical
(planetary environmental) processes, and the clearly
significant and progressive modifications in all reported
solar-terrestrial physical science relationships, combined
with the integral effects of the antropohenedus activity
in our Solar System's Heliosphere, [33,34], causes us
to conclude that a global reorganization
and transformation of the Earth's physical and environmental
qualities is taking place now; before our very eyes.
This current rearrangement constitutes one more in a
long line of cosmo-historic events of significant Solar
System evolutionary transformations which are caused
by the periodic modification, and amplification, of
the Heliospheric-Planetary-Sun processes. In the case
of our own planet these new events have placed an intense
pressure on the geophysical environment; causing new
qualities to be observed in the natural processes here
on Earth; causes and effects which have already produced
hybrid processes throughout the planets of our Solar
System; where the combining of effects on natural matter
and energy characteristics have been observed and reported.
We shall now discuss global, regional, and local processes.
2.1 The Geomagnetic Field Inversion.
Keeping clearly in mind the known significant role
of the magnetic field on human life, and all biological
processes, we will outline the general features of this
changing state of the Earth's geomagnetic field.
In recent years we have seen a growth of interest by
geophysicists and magnetologists, in general, to geomagnetic
processes [37-40], and specifically, to the travel of
Earth's magnetic poles [41,42]. They are
particularly interested in observing the facts surrounding
the directed, or vectored, travel of the Antarctic magnetic
pole. In the last 100 years this magnetic pole has traveled
almost 900 km towards, and into, the Indian ocean. This
significant shift by the magnetic poles began in 1885.
The most recent data about the state of the Arctic magnetic
pole (which is moving towards the Eastern Siberian world
magnetic anomaly by way of the Arctic Ocean) reveals
that this pole "traveled" more than 120 km
during the ten year period 1973 through 1984, and 150
km during the same interval, 1984 through 1994. This
estimated data has been confirmed by direct measurement
( L. Newwitt. The Arctic pole coordinates are now 78.3
deg. North and 104.0 deg. West) [42].
We must emphasize that this documented polar shift
acceleration (3 km per year average over 10 years),
and its travel along the geo-historic magnetic poles
inversion corridor (the corridor having been established
by the analysis of more than 400 paleoinversion sites)
necessarily leads us to the conclusion that the
currently observed polar travel acceleration is not
just a shift or digression from the norm, but is in
fact an inversion of the magnetic poles; in full process.
It is now seen that the acceleration of polar travel
may grow to a rate of up to 200 km per year. This means
that a polar inversion may happen far more rapidly than
is currently supposed by those investigators without
a familiarity with the overall polar shift problem.
We must also emphasize the significant growth of the
recognized world magnetic anomalies (Canadian, East-Siberian,
Brazilian, and Antarctic) in the Earth's magnetic reorganization.
Their significance is due to the fact that these world
anomalies constitute a magnetic source that is almost
independent from Earth's main magnetic field. It
is the inversion of the magnetic fields process which
is causing the various transformations of Earth's geophysical
processes and the present state of the polar magnetosphere.
We also have to take into account the factual growth
of the polar cusp's angle (i.e. The polar slots in the
magnetosphere; North and South), which in the middle
1990's reached 45 degrees (by IZMIRAN data). [Note:
The cusp angle was about 6 degrees most of the time.
It fluctuates depending upon the situation. During the
last five years, however, it has varied between 25 and
46 degrees.] The increasing and immense
amounts of matter and energy radiating from the Sun's
Solar Wind, and Interplanetary Space, by means previously
discussed, has began to rush into these widened slots
in the polar regions causing the Earth's crust, the
oceans, and the polar ice caps to warm[27].
Our study of geomagnetic field paleoinversions, and
their after effects, has lead us to the unambiguous,
and straight forth, conclusion that these present processes
being observed are following precisely the same scenarios
as those of their distant ancestors. And additional
signs of the inversion of the magnetic field are becoming
more intense in frequency and scale. For example: During
the previous 25 million years, the frequency of magnetic
inversions was twice in half a million years while the
frequency of inversions for the last 1 million years
is 8 to 14 inversions [43], or one inversion each 71
to 125 thousand years.
2.2 Climate Transformations.
Since public attention is so closely focused on the
symptoms of major alterations, or breakdowns, in the
climatic machinery, and the resulting and sometimes
severe biospheric effects, we shall consider these climatic
transformations in detail. Thus, while not claiming
to characterize the climatic and biospheric transition
period completely, we will provide a recent series of
brief communications regarding the temperature, hydrological
cycle, and the material composition of the Earth's atmosphere.
The temperature regime of any given phase
of climatic reorganization is characterized by contrasts,
and instabilities. The widely quoted, and believed,
"Greenhouse Effect" scenario for total climatic
changes is by far the weakest explanation, or link,
in accounting for this reorganization.
It has already been observed that the growth in the
concentration of CO2 has stopped, and that the methane
content in the atmosphere has began to decrease [45]
while the temperature imbalance, and the common global
pressure field dissolution has proceeded to grow.
There were reports of a global temperature maximum
in 1994, and the almost uninterrupted existence of an
"El-Nino" like hydrological effect. Satellite
air surface layer temperature tracking [49,50] allowed
the detection of a 0.22 degrees C global temperature
variation (within a typical specific time period of
about 30 days) that correlated with recorded middle
frequency magnetic oscillations. The Earth's
temperature regime is becoming more, and more, dependent
on external influences. The representative
regulating processes, or basis, of these general climatic
rearrangements are:
2.2.1. A new ozone layer distribution.
2.2.2. Radiation material (plasma) inflows and discharges
through the polar regions, and through the world's magnetic
anomaly locations.
2.2.3. Growth of the direct ionospheric effects on
the relationship between the Earth's meteorological
(weather), magnetic, and temperature fields.
There is a growing probability that we are moving into
a rapid temperature instability period similar to the
one that took place 10,000 years ago. This not so ancient
major instability was revealed by the analysis of ice
drilling core samples in Greenland [51]. The analysis
of these core samples established:
2.2.4.That annual temperatures increased by 7 degrees
centigrade.
2.2.5.That precipitation grew in the range of 3 to
4 times.
2.2.6.That the mass of dust material increased by a
factor of 100.
Such high-speed transformations of the global climatic
mechanism parameters, and its effects on Earth's physical
and biospheric qualities has not yet been rigorously
studied by the reigning scientific community. But,
researchers are now insisting more, and more, that the
Earth's temperature increases are dependent upon, and
directly linked to, space-terrestrial interactions [52,53];
be it Earth-Sun, Earth-Solar System, and/or Earth-Interstellar.
2.3 Vertical and Horizontal Ozone Content Redistribution.
Vertical and horizontal ozone content redistribution
is the main indicator, and active agent, of general
climatic transformations on Earth. And,
evidence exists that ozone concentrations also have
a strong influence upon Earth's biospheric processes.
Widespread models for "ozone holes" being
in the stratosphere [7 to 10 miles above Earth] (Antarctic
and Siberian) are receiving serious corrective modifications
from reports of vertical ozone redistribution, and its
growth in the troposphere [below 7 miles]. It is now
clear that the decrease in our atmosphere's total ozone
content is caused by technogeneous [industrial, human
designed, pollution], and that the total ozone content
in general has serious effects upon the energy distribution
processes within Earth's gas-plasma [atmospheric] envelopes
[54].
So, with the established fact that a statistically
significant rise in the ozone concentrations has taken
place in the tropospheric layers between 5 and 7 miles,
and with the addition, and full knowledge, of ozone's
oxidizing properties, we must conclude that a basic
and fundamental alteration of the gas composition and
physical state of Earth's atmosphere has already begun.
The most serious concern of aeronomists
comes from the detection of H02 that is being produced
at an altitude of 11 miles by a completely unknown source
or mechanism. This source of HO2 was discovered
as a result of the investigation of OH/HO2 ratios in
the interval between 4.35 and 21.70 miles in the upper
troposphere and stratosphere. This significant growth
of HO2, over the course of time, will create a dependence
on this substance for the ozone transfer and redistribution
process in the lower stratosphere[56].
The submission of the ozone's dynamic regime and space
distribution to the above unknown source of HO2, signifies
a transition of Earth's atmosphere to a new physico-chemical
process. This is very important because non-uniformity's
in the Earth's ozone concentrations can, and will, cause
an abrupt growth in temperature gradients, which in
turn do lead to the increase of air mass movement velocities,
and to irregularities of moisture circulation patterns[46,59].
Temperature gradient changes, and alterations, over
the entire planet would create new thermodynamic conditions
for entire regions; especially when the hydrospheres
[oceans] begin to participate in the new thermal non-equilibrium.
The study [53] supports this conclusion, and the consideration
of a highly possible abrupt cooling of the European
and North American Continents. The probability of such
a scenario increases when you take into account the
ten year idleness of the North Atlantic hydrothermal
pump. With this in mind, the creation of
a global, ecology-oriented, climate map which might
reveal these global catastrophes becomes critically
important.
3.0
THE ARRIVAL OF NEW CONDITIONS AND CONSEQUENCES
Considering the totality and sequential relationship
of transient background, and newly formed processes,
brought about by the above stated cosmogenic and anthropogenic
PlanetoPhysical transformations and alterations of our
weather and climatic systems, we find it reasonable
to divide matters into their manifest (explicit) and
non-manifest (implicit) influences upon Earth's environment.
3.1 The Manifest or Explicit Consequences.
The classes or categories of effects brought about
by the Earth's current stage of reorganization are very
diverse. Most often, however, they tend to the transient
high-energy type of event. Based on the results of the
Yokohama Conference (Fall 1994,) they can be called
"significant catastrophes". There
are nine types of "significant catastrophes:"
Catastrophes By Type: For the period of 1963-1993
Number
$ Damage(Billions)
Deaths
Flooding
76
162
202,000
Hurricanes
73
153,000
Drought
53
167
Frost
24
Storms
6
Epidemics
100
133,000
Earthquakes
20
102,000
Starvation
18
Landslides
54,000
In addition, we must point out the abrupt growth of
meteorological/weather catastrophes in recent years.
In the Atlantic region alone there were 19 cyclones
in 1994; 11 of which became hurricanes. This is a 100
year record [ 60]. The current year, 1996, is especially
laden with reports of flooding and other types of meteocatastrophes.
The dynamic growth of significant catastrophes shows
a major increase in the rate of production since 1973.
And in general, the number of catastrophes
has grown by 410% between 1963 and 1993. Special
attention must be focused on the growing number and
variety of catastrophes, and to their consequences.
Years
total
Annual
total
annual
total
annual
1963-1967
16
3.2
39
7.8
89
17.8
1968-1972
15
3.0
54
10.8
98
19.6
1973-1977
31
6.2
56
11.2
95
19
1978-1982
55
11.0
99
19.8
138
27.6
1983-1987
58
11.6
116
23.2
153
30.6
1988-1992
66
13.2
139
27.8
205
41.0
241
8.0
503
16.8
778
25.5
Damage >1% of Casualties>1%
gross national product. of population. > 100 deaths.
One must keep in mind that the growing complexity of
climatic and weather patterns signals a transformation
tending towards a new state, or as Academician Kondratyev
says, data indicates that we are moving in the direction
of climatic chaos. In reality this transition state
of our climatic machinery is placing new requirements
upon Earth's entire biosphere; which does include the
human species. In particular, there are reports from
Antarctica that show a dramatic reaction by vegetation
to the recent changes in climate; there were 700 species
found growing in 1964 and 17,500 in 1990 [61]. This
increase in Earth's vegetative cover provides evidence
of the biosphere's reaction to the ongoing process of
climatic rearrangement.
The overall pattern of the generation and movement
of cyclones has also changed. For example, the number
of cyclones moving to Russia from the West has grown
2.5 times during the last 10 years. Increased ocean
levels caused by the shedding of ice from the polar
regions will lead to sharp changes in coast lines, a
redistribution of land and sea relationships, and to
the activation of significant geodynamic processes.
This is the main characteristic of those processes leading
to a new climatic and biospheric order.
3.2 The Non-Manifest or Implicit Consequences.
Implicit consequences are those processes
which are below the threshold of usual human perception,
and are therefore not brought to our common attention.
Instrument recordings, and even direct observations,
of these phenomena throughout Earth's electromagnetic
field provides evidence that an immense transformation
of Earth's environment is taking place.
This situation is aggravated by the fact that in the
1990's anthropogeneous (human) power production/usage
increased to (1-9)E+26 ergs/per year which means it
reached the conservative energetic production/usage
values of our planet. For example, Earth's annual energy
consumption is comprised of (1-9)E+26 ergs for earthquakes,
(1-9)E+24 for geomagnetic storms, and (1-9)E+28 for
heat emission [54].
There already are technogeneous effects upon the functional
state of Earth's electromagnetic skeleton being registered
and recorded. A seven-day technogeneous cycle for geomagnetic
field dynamic parameter variations was revealed in 1985
[62,63]. This cycle has affected many of the short cycles
in Solar-terrestrial relationships. More
than 30% of middle magnetosphere disturbances are caused
by power production, transmission, and consumption.
Moreover, the increase in the frequency,
and scope, of natural self-luminous formations in the
atmosphere and geospace forces us to wake up, and take
notice [64,65,66]. The processes of generation, and
the existence of such formations, spreading all over
the Earth, represents a remarkable physical phenomenon.
What is most unusual about these natural
self-luminous formations is that while they have distinct
features of well-known physical processes, they are
in entirely unusual combinations, and are accompanied
by process features which cannot be explained on the
basis of existing physical knowledge.Thus, features
of intense electromagnetic processes are being found
in the space inside and near these natural self-luminous
objects. These features include:
3.2.1. Intense electromagnetic emissions ranging from
the micrometer wave band through the visible diapason,
to television, and radio wavelengths.
3.2.2. Electric and magnetic field changes such as
electric breakdowns, and the magnetization of rocks
and technical objects.
3.2.3. Destructive electrical discharges.
3.2.4. Gravitation effects such as levitation.
3.2.5. Others.
All of the qualities of this class of phenomena are
requiring the development of new branches of modern
physics; particularly the creation of a "non-homogeneous
physical vacuum model".[67]. An advancement of
the sciences in this direction would allow us to reveal
the true nature of these objects, which are acting apparently,
and latently, upon our geological-geophysical and biospheric
environment, and on human life [68].
Therefore, we must first take into account all of the
newly developed processes and states of our geological-geophysical
environment. These processes, for the most part, manifest
themselves in the hard-to-register, and observe, qualities
of the Earth's electromagnetic skeleton. This data also
concerns the geophysical and climatic meanings of Solar-terrestrial
and planetary-terrestrial interactions. This is especially
true of Jupiter which is magnetically conjugate to our
planet. The totality of these planet-transforming processes
develops precipitately, ubiquitously, and diversely.
It is critical that politicians be informed and trained
to understand these global relationships between the
totality of natural and anthropogeneous activities,
and there fundamental causes and effects [69]. A
compelling need exists to commence a scientific study
which would delineate the problems associated with Earth's
current transformational processes, and the effects
they will have on global demographic dynamics.[70].
The sharp rise of our technogeneous system's destructive
force on a planetary as well as a cosmic scale, has
now placed the future survival of our technocratic civilization
in question[33,7]. Additionally, the principle
of Natures supremacy [72] over that of humanities current
integral technogeneous and psychogenic activities and
results, becomes more, and more, apparent.
CONCLUSIONS
The situation that has been created here in our Heliosphere
is of external, Interstellar, cosmic space origin, and
is herein assumed to be caused by the underlying fundamental
auto-oscillation, space-physical, processes of continuous
creation that has shaped, and continues to evolve our
Universe. The present excited state of our Heliosphere
exists within the whole, or entire, organism that makes
up the Solar System; the Sun, Planets, Moons, Comets,
and Asteroids, as well as the plasmas, and/or electromagnetic
mediums, and structures, of Interplanetary Space. The
response to these Interstellar energy and matter injections
into our Heliosphere has been, and continues to be,
a series of newly observed energetic processes and formations
on all of the Planets; between the Planets and their
Moons, and the Planets and the Sun.
Earth's ability to adapt to these external actions
and transference's is aggravated, made more difficult,
by the technogeneous alterations we have made to the
natural quality, or state, of our geological-geophysical
environment. Our Planet Earth is now in
the process of a dramatic transformation; by altering
the electromagnetic skeleton through a shift of the
geomagnetic field poles, and through compositional changes
in the ozone, and hydrogen, saturation levels of its
gas-plasma envelopes. These changes in
the Earth's physical state are being accompanied by
resultant climatic/atmospheric, and biospheric, adaptation
processes. These processes are becoming more and more
intense, and frequent, as evidenced by the real time
increase in "non-periodic transient events";
ie., catastrophes. There are reasons favoring,
or pointing to, the fact that a growth in the ethical,
or spiritual quality, of humanity would decrease the
number and intensity of complex catastrophes.
It has become vitally important that a world chart be
prepared setting forth the favorable, and the catastrophic,
regions on Earth taking into account the quality of
the geologic-geophysical environment, the variety and
intensity of cosmic influences, and the real level of
spiritual-ethical development of the people occupying
those areas.
It is reasonable to point out that our Planet will
soon be experiencing these new conditions of growing
energy signifying the transition into a new state and
quality of Space-Earth relationship. The living organisms
of those regions of Earth having the major "inlets",
or attractions, for cosmic influences will be taking
the lead in evolving life's appropriate reactions, or
processes, to these new conditions. These zones of vertical
commutations and energy transfers are already becoming
the heart, or hotbeds, in the search for new systems
of adaptation and mutual transformation. The general
list of these zones includes the polar regions, the
eastern continental extremities of the equatorial regions
[Caribbean, Madagascar, Philippines, Yellow Sea, etc.],
and the inner continental zones tending to folding and
uplifting [Himalayas, Pamir-Hindukush, Altay-Sayan systems,
etc.]
The most significant of these areas are the helio-sensitive
zones which have intense responses to geoeffective solar
activities [Note #1]; responses that include
the very dramatic and unusual manifestation of non-homogeneous
vacuum, or classical non-mechanical ether, domain structures.These structures, or objects, then interact
with the heliosensitive zones producing deep and powerful
effects upon the environment such as the alteration
of seismic activities, and chemical compositions.
Because these non-homogeneous vacuum domain objects
display not-of-this-physical-world characteristics such
as "liquid light" and "non-Newtonian
movement" it is difficult not to describe their
manifestations as being "interworld processes".
It is important to note that those heliosensitive zones
that exhibit middle and large scale processes are also
those that are closely associated with these "interworld
processes" produced by physical vacuum homogeneity
disturbances.
Such disturbances cause, and create, energy
and matter transfer processes between the ether media
and our three-dimensional world. The multitude of such
phenomena, which is rich in it's quality and variety,
is already growing quickly.Hundreds
of thousands of these natural self-luminous formations
are exerting a increasing influence upon Earth's geophysic
fields and biosphere. We suggest that the presence of
these formations is the mainstream precedent to the
transformation of Earth; an Earth which becomes more
and more subject to the transitional physical processes
which exist within the borderland between the physical
vacuum and our material world.
All of this places humanity, and each one
of us, squarely in front of a very difficult and topical
problem; the creation of a revolutionary advancement
in knowledge which will require a transformation of
our thinking and being equal to this never-before-seen
phenomena now presenting itself in our world. There
is no other path to the future than a profound internal
experiential perception and knowledge of the events
now underway in the natural environment that surrounds
us. It is only through this understanding that humanity
will achieve balance with the renewing flow of the PlanetoPhysical
States and Processes.
NOTES
1. Since the Earth is a large very highly organized
organism, each of its structural units or territories
such as, mountain systems, rivers, tectonic faults,
ore deposits, oil fields etc. plays a certain functional
role in its life, and in its connections with the outer
world. For example, iron ore deposits support the climate
stability because they perform the connection between
the electrical activity in the atmosphere, and the electrical
activity beneath the Earth's surface.
2. Nowadays we all know the works of Tschizhevsky who
discovered, and proved in the 1920's, that deep and
various connections exist between Solar activity and
various life processes. Using vast historical
and statistical material he showed that Solar activity
acts as an accelerator and moderator upon the whole
biosphere, which manifests in the frequency and quantity
of : births, deaths , harvests, epidemics, heart attacks,
emergencies, bank crashes, catastrophes, suicides, populations
growths and decreases, etc., etc.
3. Since different zones of Earth have different functions
in the Earth organism, their response to Solar activity
is also different. For example, the polar regions are
first to react to Solar disturbances, which we know
well in the form of magnetic storms, auroras, and nowadays,
in ocean warming at the 75 degree North latitudes. We
also know other places which demonstrate intense reactions
to different kinds of solar activity; that's what we
call heliosensitive zones. Such reactions include local
electromagnetic disturbances, low-latitude auroras,
and specific changes in the pattern of magnetic field
variations on the short term scale. There are also long-term
reactions in the state of the biosphere. One of our
colleagues, Ildar Mingazov, found, in studying the distribution
and frequency of different types of diseases in various
regions, that the intensity of disease frequency in
correlation with solar activity varies between regions,
and is maximal for heliosensitive zones (for example,
cardiovascular diseases).
(Notes by: Andrew Tetenov)
END NOTES
REFERENCES
1. Vasil'yeva G.Ya.,Kuznetsov D.A., Shpitalnaya A.A.
On the question of galactic factors' influence upon
Solar activity. "Solar Data", 1972, , N9,
p. 99- 106 (in Russian).
2. Kurt V. G. Interstellar medium and it's interaction
with stars. Zemlya i Vselennaya ( Earth and Universe),
1994,N5, p.3-10. (in Russian).
3. Parker E.. Space magnetic fields (their formation
and manifestations). 2-, 1982, 469'.
4. Zakoldaev Yu.A., Shpitalnaya A.A., Efimov A.A. Cyclic
pattern and evolution of geology processes as a consequence
of Sun's circulation in anisotropy interstellar space.
// New ideas in interaction of sciences on Earth and
Universe (Internat. conference transactions). Sanct-Peterburg.,
1996. - p. 23-24.
5. Kruzhevskii B.M.,Petrov V.M, Shestopalov I P. On
radiation conditions forecasting in interstellar space.
/ Kosmicheskiye Issledovaniya (Space research), v. 31,
no. 6, - 1993. - p. 89-103.
6. Dmitriev A.N. Mahatmas and the Science of new quality
of Solar System. Tomsk. Human Sciences Institute, "Natural
Sciences" series, 1995.
7. Science News, 1994. 144. 334.
8. Science News, 1955. vol. 148, N 21.
9. Dolginov Sh.Sh. Magnetic fields of Uranus and Neptune
: a look from the Earth. // Geomagnetism and aeronomy.33,
N 2, 1993. 1-22.
10. New Scientist, 1994. 144. 18.
11. Space flight. - 1992, v. 34, N 3, p. 75.
12. Fortov V.E., Gnedin Yu.I.,Ivanov A.V., Ivlev A.V.,
Klumov B.A. The collision of Shoemaker-Levy comet with
Jupiter / Sov.Phys.Uspehi, v. 166, N 4, - 1996. - p.
391-422.
13. Churyumov K.I.. Once more about comet's collision
with Jupiter.- Zemlya i Vselennaya ( Earth and Universe)
- 1994, No.1. - p. 83-85.
14. Dmitriev A.N. Earth responses to high-energy processes
in Jovian system // Novosibirsk, IICA Transactions,
vol. 1, 1994. - p. 16-21.
15. Haynes P.L., Balogh A., Douoherty H.K., et. Null
fields in the outer Jovian magnetosphere: Ulysses observations
// Geophys. Res. Zett. - 1994, - 21, N 6. - p. 405-408.
16. Wireless File, 24,3. - 1995.
17. "Popular Science", N 4, 1995.
18. Shestopalov I.P., Bengin V.V., Kolesov G.Ya. et
al.. SCR Flashes and large-scale structures in interplanetary
environment. A forecast of proton Solar events. / Space
Research. v. 30. - Moscow: Nauka publishers., publ#6,
1992. p.816-825.
19. Ishkov V.N. Solar activity in 1991-1992 . (22-th
cycle) Astronomy calendar for 1994 . - Moscow:1993,
p. 190-197.
20. Ishkov V.N. 22-th cycle of Solar Activity : main
characteristics and evolution / Astronomy calendar for
1993 . - Moscow:1992, p.215-229.
21. preliminary Report and Forecast of Solar-Geophysical
Date / Space Environment Services Center, Boulder, Colorado
USA: 1992, N 2.
22. Crocker N.U. Geoeffective space storms: Abstr.
Spring Meet. Baltimore, Md, May 23-28, 1994 // EDS.
- 1994. - 75, N 16, Suppl. - p. 312-313.
23. Ivanov K.G. The Earth magnetosphere/Electromagnetic
and plasma processes from Sun to Earth core . - Moscow:
Nauka publishers,1989. - p. 62-75.
24. Kovalevskii I.V. Some aspects of Solar-Terrestrial
interactions energetics/ Interplanetary Environment
and Earth Magnetosphere - Moscow: Nauka publishers,
1982. - p. 25-63.
25. The Van-Helen radiation belts - two newly observed
populations: Abstr. Spring Meet. Baltimore. Md. May
23-28, 1994 / Blake J.R. // EOS. - 1994. -75. N 16.
26. Drobzhev V.I., Kazakov V.V. , Chepurchenko L.V.
Foundations of external helio- and geo- physical control
of seismicity./ Vestnik of Kazakh SSR Acad. of Sci.
, No. 3, - 1988. - p. 12-18.
27. Sytinsky A.D. On geoeffectivity of Solar wind streams.USSR
Acad.Sci. Doklady, 1988, v. 298, N 6. - p. 1355-1357.
28. Solar cycles and Solar output: Abstr. AGU Fol Meet.
San Francisco Calif. Dec. 7-11, 1992 / Mclntosh P.S.
// EOS. - 1992 - 73, N 43. Suppl. - p. 436.
29. "Geophysical Research Letters". vol.
21, 1994.
30. Mogilevsky E.I. Sun coronal holes energy and recurrent
geomagnetic distributions . // Geomagnetism and aeronomy.
1995,. 35, N 6. - 11-19.
31. Kazimirovsky E.S., Kokourov V.D. Meteorology effects
in ionosphere(a survey) // Geomagnetism and aeronomy.
1995,.35, N 3. - . 3-23.
32. New Scientist. 1995.- 147. 11.
33. Dmitriev A.N. Technogeneous impact upon Geospace
(the problems of global ecology). - Novosibirsk, Novosibirsk
State University, 1993. - p. 68.
34. Zanetti J., Potoma A., Anderson B. J. et set. Correlation's
of satellite observed auroral currents induced in a
power generating system: Abstr. AGU West. Pacif. Geophys.
Meet., Hong-Kong, July 25-29, 1994.
35. Space Rays physics: the research continues in SNG.
Russian Acad.Sci. Vestnik, v. 63, N 7, 1993. - p. 650-654.
36. Nesmenovich E.I. Resonance's in Solar System //
Space physics problems. Kiev, 1984, N 19. - p. 84-93.
37. Rodionov B.U. Possible geophysics manifestations
of magnetic monopoles. Preprint of Moscow Eng.Phys.Institute
- 1995 - N 021 - 95. - p.1-24.
38. Sumaruk Yu.P., Sumaruk P.V. Secular variations
of geomagnetic field in middle latitudes and their relation
to geomagnetic and solar activity. / Geophysics Journal
N 6, 1995, - v. 17. - p. 59-62.
39. Zhidkov M.P., Lihacheva N.A. Anomalous field influence
upon placement and growth of cities. / Russian Acad.
Sci. Izvestiya, geography series. N 1, 1996. - p. 71-84.
40. Fedorova N.V.The research of long-wave large-scale
anomalies above northern Eurasia / Doklady RAN, 1996,
vol 347, N 5, p. 681-684.
41. Kopytenko A.Yu., Pochtarev V.I. On dynamics of
Earth magnetic poles./Geomagnetism and aeronomy.. v.
32, 1992, N 5 - p. 201-202.
42. Kuznetsov V.V. The position of North magnetic pole
in 1994 (forecast and detection) /Doklady RAN, 1996,
vol 348, No.3, p.397-399.
43. Milanovsky E.E.On phase correlation of geomagnetic
field inversions frequencing, World ocean level decrease
and Earth crust folding deformations strengthening phases
in Mesozoic and Cainozoic. / Geotectonics, 1996, N 1.
- p. 3-11.
44. Ryskunov A.L. The comparison of large scale characteristics
of geophysic fields./ USSR Acad.Sci. Doklady, v. 267,
N 6, 1982. - p. 1336-1340.
45. Kondratyev K.Ya. Modern stage of research of global
change: US program //Investigation of Earth from space
N 2, 1995. - p. 98-105.
46. Wilson N. Global temperatures approach record values
// J. Meteorol. - 1995. - 20, N 200. - p. 194-196.
47. "Science News", 1994.146.13.
48. New Scientist, 1995. 146. 18.
49. "Geophysical Research Letters", 1994,
v. 21.
50. "New Scientist", 1995, vol. 145, N 1962.
51. New Scientist, 1995, vol. 145, N 1967.
52. Netreba S.N. On relation of short-periodic thermodynamic
pulsation's of atmosphere boundary layer with Solar
X-Ray emission.// Meteorology and hydrology, N 4, -
1996. - p. 95-101.
53. New Scientist, 1995, vol. 147, N 1993.
54. Dmitriev A.N. Belyaev G.K.Technogeneous causes
of total ozone content decrease. ( USSR Ac.Sci. Siberian
Branch Institute of Geology and Geophysics preprint
No. 15) Novosibirsk, 1991.
55. Claude H., Schnenborn F., Stethbrecht W. New evidence
for ozone depletion in the upper stratosphere // Geophys.
Res. Lett. - 1994. - 21, N 22. - p. 2409-2412.
56. Wemberg P.O., Hanisco T.F., Stimphl R.M., Japson
L.B., Anderson J.G. In situ measurements of andin the
upper troposphere and stratosphere // J. Athmos. Sci.
- 1995, - 52, N 19. - p. 1413-1420.
57. Karol' M.L. , Klyatina L.P. , Romashkina K.I.,
Shalaminskii A.M. Extremely low ozone content above
Russia in 1995 winter . // Meteorology and hydrology,
N 6, - 1995. - p. 115-116.
58. Vozhkov R.D., Fioletov V.E., Kadygrova T.V. et
al. Ozone decrease estimate for Eurasia in 1973-1993
on a base of filter ozonometer registrations correlated
data. // Meteorology and hydrology, N 9, - 1995. - p.30-40.
59. "Global Change Newsletter", 1994, N 19.
60. Science News. vol. 148. N 25, 1995.
61. Science News. vol. 146. N 334, 1994.
62. Tsirs G.P.,Loginov G.A. The characteristics of
weekly moves of geomagnetic oscillations 1985, v. 25,
N 2. - p. 153-154.
63. Biryukov A.S., Grigoryan S.R., Garkusha V.I. et
al. Low frequency radiation sources. Their action upon
Earth radiation belts.(a survey) - Moscow: VINITI #
5204-88, 1988. - 1236.
64. Plasma generation in energy active zones./ Dmitriev
A.N., Poholkov Yu.P.,Protasyevic' E.T., Skavinskii V.P.
/ USSR Ac.Sci. Siberian Branch Institute of Geology
and Geophysics-
Novosibirsk, 1992.
65. Non-periodic transient phenomena in environment:
II interdisciplinary workshop transactions-Tomsk, Tomsk
Polytech.Inst.,1990.
66. Dmitriev A.N. Correcting dfunction of heliocentered
unusual atmospheric phenomena./ Izvestiya Vis'shih Uch.Zaved.,Physics,Tomsk,
v.35, 1992, N 3, p. 105-110.
67. Dmitriev A.N., Dyatlov V.L. A model of non-homogeneous
physical vacuum and natural self-luminous formations.
/IICA Transactions Novosibirsk, 1996, v.3 - p. 65-76.
68. Environment monitoring and problems of solar-terrestrial
physics. / Theses of international symposium June 18-21
1996 - Tomsk, Tomsk Univ., Sib.Phys.-Tech.Inst. , 1996.
69. Natek K. The necessity of future politicians learning
global relations between natural processes and antropogeneous
activity. // Global Changes and Geogr.: IGU Conf. Moscow.
Aug. 14-18, 1995: Abstr. - Moscow, 1995, - 251.
70. Kondratyev K.Ya. Global change and Demography dynamics.Rus.Acad.Sc.Vestnik,
1996, v. 66, N 4. - p. 364-375.
71. Dmitriev A.N.. Tecnogeneous challenge to the planet
Earth. / Vestnik Vys'shei Shkoly, 1989, N 7. - p. 38-44.
72. Kosygin Yu.A.. The highway of synthesis. / Pacific
Geology, 1995, v. 14, N 6. - p. 8-15.
END REFERENCES