Transcript Slide 1
INTRODUCTORY E-SEMINAR
© 2011
Are the agents of Nature’s AGENTS
In their defense
We are also their Protectors
Embryonic Phytochemistry Never
Endangers the Destruction of any Plant
Species.
Remember that all of the earth is nothing more than
a fragile balance and that we must not take for
granted and take from her beyond what she can
sustain. Over harvesting, particularly due to
commercial harvesting of medicinal and edible
plants has brought many once plentiful plant species
to the brink of extinction. As 'plant people', we
should adopt a green guardianship relationship for
Mother Earth whom is so plentifully providing us with
her bounty but not endless if we keep on robbing her
beyond that of her capacity.
Embryonic Plant Stem Cell Biophotons provides us much
needed light to debris our dark toxic cells from the toxins
we are exposed to and the one’s that we have deliberately
chosen. These biophotons also restores the electron wall
energy of our cell protecting us from invasion.
Healthy
Cell with all
of its electrons
Broken electron chain
open for invasion
into
the cell
Biophoton: biophysical interpretation of the phenomena
based on a new understanding of life derived from
quantum optics, non-equilibrium thermodynamics, and
other recent developments in science, which today is
accepted by a growing minority of the researchers in the
field.
We do not deny that free radical reactions oxidation and
other biochemical processes occur and may generate some
of the light emitted by these reactions, but we also see
biophoton emission mainly as the expression of an overall
regulating energetic field in the organism in which also such
chemiluminescent events are embedded. In contrast to the
classical, molecular view of the biochemical school of
thought, that describe the organism as a macroscopic
quantum system in which not the particle aspect, but the
holistic field aspect predominates.
They assume that all the molecules of the organism are
coupled to each other by a coherent radiation field in such
a way that they form a unity in which biophotons cannot be
assigned any more to any particular emitters, but must be
considered to be emitted by the organism as a whole.
The analysis of biophoton measurements has shown that the
emitting matter forms a biological laser mechanism, which
at the same time is an experimental confirmation of the
view that the organism is an open system far from
thermodynamic equilibrium.
This coherent biophoton field which permeates and
envelopes the solid body is assumed to regulate and control
all the life processes in the organism.
This hypothetical mechanism is based on the assumption
that the laser mechanism of biological systems operates not
only with the low-grade coherence known from technical
optics, but uses the ideal quantum-optical coherence
defined by Harvard physicist Roy J. Glauber around 1970.
Popp believes the quantum field of living systems realizes
the form of a "coherent state", a paradoxical state with
minimal quantum uncertainty that unites the properties of
wave and particle, coherence and incoherence, localization
and delocalization.
All the evidence of biophoton research so far suggests that
biological systems realize a form of optimal coherence that
science has yet to fully understand.
The measurements show evidence for the existence in
biological systems of a new class of quantum phenomena
recently investigated by a number of very advanced
disciplines of quantum optics and electrodynamics, such as
Non-Classical Light and Cavity Quantum Electrodynamics.
A new picture of the organism
The experimental findings of biophoton research, together
with recent insights from other fields of advanced science,
are suggesting an entirely new picture of the living
organism.
First of all, as a complement to the solid body of molecules,
we have an important new component or aspect of the
organism to consider, namely the "electromagnetic field
body" (Zhang, 2003). From this point of view, the living
organism appears as a highly complex and self-tunable
resonating system of oscillating fields that are coupled
non linearly by their phase relations (Bischof, 2003).
If we consider the role of the molecules, the organism can
be defined as a extremely sensitive and highly effective
antennae system, able to tune itself according to need to
a broad range of frequencies and polarizations.
The organism is able to react sensitively to the smallest
stimuli, but at the same time can also abruptly become
transparent for quite strong stimuli.
“Biophoton
emission is a general phenomenon of living
systems. It concerns low luminescence from a few up to some
hundred photons per second, per square centimeter surface
area, at least within the spectral region from 200 to 800nm. The
experimental results indicate that biophotons originate from a
coherent (or/and squeezed) photon field within the living
organism, its function being intra and intercellular regulation
and communication.” Popp, 1999.
We
are Primarily Energetic and Informational Beings with
field dependent chemical reactions.
Typically,
the treatment of biological effects of EM fields is
restricted to ionizing radiation and cell membrane potentials.
But Integrative Biophysics is more than a molecular-genetic
approach to biology. It focuses on our intrinsic systemic holism,
an inseparable whole with the environment, interconnection
within and without the organism.
“Professor
Fritz-Albert Popp, a well-known biophysicist at
Kaiserslautern University, Germany, states that: "All living
organisms emit certain electromagnetic waves. If they are in a
healthy condition, they emit more. If not, they emit less. This
electromagnetic emission is called biophotons.”
All
living cells from plants to human beings emit biophotons,
ultra weak photon emission of electromagnetic wave in the
optical range of the spectrum. Biophotons can’t be seen with the
naked eye, but can be detected.
Biophotonics
is a rapidly increasing field of current scientific
research and applications, based on the discovery of biophotons, a
permanent, weak photon current emanating from all living
systems. The biophoton emission reflects some, if not all, of the
essential biological and physiological activities in biological
systems. Energy and information can move about the body
through other means than nerve transmission and hormonal
regulation via quantum coherence.
Light is not only what brightens up our world by day and makes
us see the things around us, light is also produced by our own
cells and forms a major component of man's inner
environment and a non-material part of our bodies
connecting us with the outer environment.
The existence of this endogenous light has been discovered in
1920 by the Russian embryologist Alexander Gurwitsch and has
been conclusively demonstrated by modern biophysicists since
the late 1960's with state-of-the-art technology and methods.
Unlike chemical bioluminescence, before the death of an
organism its intensity increases steeply more than a hundred
or a thousand-fold, and then decreases down to zero at the
moment of death. The radiation also increases during mitosis
(cell division) and undergoes very characteristic changes during
all phases of the cell cycle. It reacts very sensitively to all
disturbances, external influences, and inner changes in the
organism.
Another conclusion that can be drawn from this behavior
of the re-emitted biophotons is that the emission is not
originating from isolated molecules in the cells, but that
the emitting molecules are coupled-united by a
connecting coherent radiation synergistic field.
A central role in the light storage seems to be
attributable to the DNA in the cell Nucleus which Popp's
group has shown to be the main light source in the cell.
Learning to meditate has shown that when in deep
meditation we emit so much light and this is not that of
light emitted by free radical oxidation.
PSC
• Plant Stem
Cells
Meristems
BIOPHOTONS
The light in
our cells and
in PLANTS
• Are the PSC
INITIAL
Meristem
Non
Differentiated
Becomes
2
Specialized
Cell
Becomes
2
Specialized
Cell
Contains “All of the Genetic Information” (chemistry) from all
of the different parts of the adult future plant in its embryonic
stage.
This is why more often than not embryonic plants; Are
Adaptive to the Environment as they enter (here into the blood
stream) and Becomes Specialized Agents making them
Bipolar/Biphasic in actions.
This is why we have anticoagulant that are at the same time
coagulant preventing ever the risk of causing hemorrhages.
Hypo-Hyper functions, Increases or Inhibits more RegulatoryModulatory in Nature due to their Synergy of Interactions.
Never Adulterated thru Isolation leaving them the way they
were intended to be by who designed them so.
Embryonic Phytochemistry Works very differently than that of
Adult phytochemistry.
Meristem, the botanical term, refers to specialized cells
responsible for plant growth and regeneration. Plant stem cells
show remarkable promise, and they’re already proving
themselves powerful healers.
The Apical Meristem, or growing tip, is a completely
undifferentiated meristematic tissue found in the buds, young
shoots, germinated seeds, sap, flower male catkins, internal
epithelium of young barks and growing tips of root in plants.
The shoot apical meristem (SAM) of higher plants functions as
a site of continuous organogenesis within which a small pool of
pluripotent stem cells replenishes our cells incorporated into
organs. Like human stem cells, plant stem cells develop
according to the environment they’re in and then become two
specialized and differentiated cells.
Meristem combinatorial genetic information and all of its
present and future phytochemicals, phytohormones, enzymes,
proteins, antioxidants, vitamins and minerals.
Nature does it all PSC Meristem Human Health Benefits
Cell cycle regulation
Epigenetic
Increases the activity of human lymphocytes
Intervene with genetic toxicity
Plant stem cell regulatory pathway
Positive influence of PSC extract on mitotic (cell division)
Prevents collagen and elastin loss
PSC are the rejuvenators of dying cells
Regulatory master genes
Sexual propagation
Signaling cascades
Stimulate human stem cell proliferation by 80%
Support cellular turnover
Information flows via a Ligand-Receptor Signal Transduction
Pathway, resulting in the formation of a Spatial Feedback Loop that
Stabilizes the size of the stem cell population.
Not only prevents and limits but also heals the cytological injury caused
by toxins.
In vascular plants (all plants except mosses and their relatives), phloem
is the living tissue that carries sugar and organic nutrients throughout the
plant. The other type of transport tissue in plants, xylem, transports
water. In trees, the phloem and other tissues make up the bark, hence its
name, derived from the Greek word for "bark."
Commonly, an analogy is drawn between the vascular system and sap of
plants and the blood vessels and blood of the human body. Similar to the
network of veins and arteries, the phloem and xylem of a vascular plant
comprises an extensive network of tubes that transport essential fluids
from one part of a plant to another area. This view also aligns with the
theological concept that human beings "are microcosms of creation"
(Burns 2006), encapsulating the structure, elements, and qualities of the
macrocosm.
Although the phloem is the principle pathway for the movement of sugar
from the leaf to other plant parts, maple sap, used to produce maple
syrup, actually derives from the xylem, not the phloem.
In the spring when the sap is rising and the buds are swelling and
nature is awakening from her winter sleep, in an intense phase of
energetic cells multiplications. The air is humming with energy and
activity turn to flowers and sweet fragrances, the bees, birds and
butterflies are all buzzing. This sensual season culminates in May,
when all of nature seems to be intoxicated with the spirit of love.
Birds and animals are mating, and bees and butterflies are getting
drunk on the nectar from the juices of flowers. The exuberance and
joy of life is tangibly permeating the air and even humans are
touched by the juicy flow of nature's libido and orgasms from Mother
Nature offspring beauty blooming everywhere.
Get to know the plants that grow around us on a personal, first
name basis. Familiarize yourself with the herbs, bushes, vines,
weeds, and trees in your neighborhood - try to learn as much as
you can possible about our ecosystem of which you are part of
and the plant a member of your 'extended family'. Learn to
identify them correctly and investigate all their uses. Try to
understand it as part of a larger ecosystem. With which other
plants does it co-exist and form communities? Is it native or
invasive? Does it protect the ground or deplete it of any of its
nutrients? How does it 'fit' into its environment? What can you
learn from its phytochemistry? Building this kind of wholistic
knowledge base will give you a much deeper insight, respect and
appreciation for the nature of a plant and its role within the
ecosystem. It’s a lengthy process, but vital if you want to truly
get to know our planet, the plants our friends cross talking to us
and the habitat we all share. These are the rules that everyone
should live and breathe by. We at PSC distribution feel a great
communion with Nature and all of Her Gifts.
Enjoy this Life the only one we know of
Thank you for watching
PSC Distribution LLC
© 2011