Humans as Hybrid Plasma-Carbon Life-Forms

Biologists are beginning to realize that cooperation was just as important as competition in the evolution of life’s diversity and resilience. Every cell in the human body contains a mitochondrion which is thought to be a bacterial cell which invaded an early human cell. Instead of being digested, both cells tolerated each other and began to live with each other — a fusion which provided synergies to both. This is a startling example of endosymbiosis. But then every multi-cellular animal or plant is also an obvious example of co-operation rather than competition. Based on the latest estimates, the typical adult human body is composed of about thirty trillion human cells, living peacefully with thirty-eight trillion bacteria. Does human symbiosis extend further?

Endosymbiosis

In evolution, a “symbiosis” happens when life-forms of different species live with each other, often with some benefits to one or the other. Lynn Margulis, an American evolutionary biologist, was a champion for the significance of symbiosis in evolution. Endosymbiosis, which she further proposed, is a specialized form of symbiosis where one organism, termed the “endosymbiont,” lives within the cell of another organism, called the “host organism.” It is very common among unicellular organisms.

In fact, human cells, which are “eukaryotic” cells (i.e., cells that possess a nucleus enclosed in a membrane), are believed to have evolved through endosymbiosis with prokaryotes (such as bacteria, which have no true nucleus). The prokaryotic cells were engulfed and ingested by eukaryotic cells but were not digested as they provided additional functionality to the eukaryotic cell. Over generations, the ingested prokaryotic cell lost some of its independent utility and became an organelle (i.e., a tiny organ) in the eukaryotic cell. Cell organelles within the human cell, such as mitochondria, were once independent prokaryotes.

Endosymbiosis causes different life-forms to effectively fuse into one life-form. This means life does not only branch out, like the branches of a tree, due to competition and natural selection, but these branches also fuse with one another through co-operation and endosymbiosis. Hence, Darwin’s tree of life, on closer scrutiny, is not a tree at all, but a net. The topology of life on Earth should therefore be represented by the Darwin-Margullis’ net of life.

The Plasma Connection

Ordinary Plasma Cells

Early this century, laboratory experiments on electrical plasma cells were conducted by Russian researchers Erzilla Lozneanu and Mircea Sanduloviciu, who were physicists from the Department of Plasma Physics at A. I. Cuza University. In these experiments, electrical plasma cells that could metabolize, communicate and replicate, were generated. Through well-known plasma dynamics, they spontaneously self-organized to generate a semi-permeable membrane (i.e., plasma sheath) and a nucleus — looking very much like a eukaryotic cell, for e.g., a human blood cell, as shown below.

The striking resemblance between the plasma cell and the biomolecular cell seem to suggest that they could give rise to a new type of life form. Sanduloviciu says, “The cell-like spheres we describe could be at the origin of other forms of life we have not yet considered.” The forms of life that plasma cells could give arise to are plasma life-forms.

Plasma is an ideal substrate for life at high temperatures. Plasma life forms would adapt to environments which would be considered hostile to carbon-based life forms. It is possible that plasma life forms were already present in the gas and materials that formed the Earth 4.6 billion years ago. Carbon-based biomolecular life forms only appeared 1 billion years later. It would be easy to detect a high temperature life-form giving off a wide spectrum of electromagnetic frequencies constantly. Today, however, no ordinary plasma life-form has been detected on the surface of the Earth. (There could be other types of plasma life-forms that will be discussed below.)

Plasma life-forms composed of ordinary plasma are unlikely to survive long in a habitat such as the weakly ionized rocky surface of a cold and dense ordinary Earth. Natural plasma on the surface of the Earth dissipates almost instantly, unless confined by physical boundaries and/or magnetic fields. Almost every natural object on the surface of the Earth is composed of atomic or molecular matter. Due to the high density of particles, the strong electric charge and the low temperature, charged particles will rapidly recombine with other particles to become atoms. The Earth has a magnetic field that traps charged particles to create the plasmasphere. However, this plasmasphere peters out to almost nothing at lower altitudes.

Primitive ordinary plasma life-forms may have thrived in the early molten Earth, as imagined by Lozneanu and Sanduloviciu. However, with the Earth cooling down and becoming more dense, most of the originally existing ordinary matter plasma life-forms would have become extinct on the surface and body of the ordinary matter Earth. The ordinary matter Earth’s surface, where humans inhabit, is therefore a hostile place for ordinary matter plasma life-forms. Most of these life-forms can also be destroyed on the surface, if not dissipated. Nuclear blasts, bombs and even a vacuum pump could destroy these low energy mists of particles.

Below the Earth’s surface, the temperature rises. This would allow for ionization. However, pressure also increases. Hence, the formation and sustenance of plasma bodies would be problematic. If the pressure was even greater, like in neutron stars, plasma could form. However, the pressure levels are very much lower relative to neutron stars and much higher compared to the surface of the Earth currently. At this level, it would make the core inhabitable for ordinary plasma life-forms.

Ordinary Bioplasma Body?

Russian scientists, including Inyushin and Sedlak, in the seventies, proposed that living organisms contained a form of plasma, which they termed “bioplasma,” consisting of ions, free electrons, and free protons. Their experiments indicated that this bioplasma is concentrated in the brain and spinal cord, and is produced by mitochondria, as well as absorbed from the environment. These findings were mainly based on indirect evidence from Kirlian photography and circumstantial evidence. Results of scientific experiments published in 1976 involving Kirlian photography of living tissue showed that the variations in corona discharge streamer length, density, curvature, and color can largely be accounted for by the moisture content and dirt on the surface of and within the living tissue. The bioplasma was never actually detected, measured or directly imaged by Inyushin or Sedlak.

In Inyushin’s view, bioplasma is a cold plasma of highly structured collective excitations produced by the polarization of biological semiconductors (e.g., cell membranes). However, it has been pointed out by more recent research (see below) that this type of ordinary bioplasma cannot exist in substantial volume or density in the human body. (This should not be conflated with fluctuating proton (charge carrier) concentrations in and around the cell.)

The hypothesis…that regions of semiconduction within living organisms may exhibit plasma behaviour is shown to be most unlikely. Although charge carrier concentrations may be acceptable, calculated Debye lengths are shown to be only marginally acceptable and calculated plasma frequencies are not sufficiently high to ensure that charge carrier motions are governed by electrical and magnetic forces rather than hydrodynamic considerations. For the latter reason, conventional semiconductors do not exhibit plasma behaviour except close to absolute zero and if they are free from impurities and lattice disorder. The experimental evidences presented for the existence of biological plasma (bioplasma) from the areas of Kirlian photography, mitogenetic radiation, acupuncture and studies of biological fields, are largely explainable in conventional terms without invoking the existence of biological plasma.

T I Quickenden, R N Tilbury, 1986

This is not surprising as we would expect the ordinary plasma to slowly dissipate as Earth’s crust cooled for at least two reasons. Firstly, the minimum temperature required to form ordinary plasma depends on the type of gas and the level of ionization needed. For many common gases, such as helium or argon, plasma can only begin forming at temperatures above a few thousand degrees Kelvin — typically in the range of 4,000 to 10,000 K (3,727 degrees Celsius or 6,740 degrees Fahrenheit to 9,727 degrees Celsius or 17,540 degrees Fahrenheit). These are temperatures that would scorch or vaporise biomolecular tissue. The average surface temperature on Earth is currently only about 288 K (15 degrees Celsius or 59 degrees Fahrenheit), according to NASA.

But plasma doesn’t always require high temperatures. It can also be generated by applying strong electromagnetic fields, such as in cold plasma used for medical treatments, electronics, and industrial processes. However, the electromagnetic fields in the ordinary human body, although present and are able to affect biochemical fields, are extremely weak. Furthermore, the electromagnetic charge is much stronger in the ordinary matter sector compared to the dark sector (as discussed by the author in previously published books), forcing particles to recombine quickly at low temperatures.

This does not exclude, however, the existence of microscopic soups of charged particles (i.e., charge carriers), in the form of non-neutral soups of proton (or ions). To qualify as a plasma body, the soups of charged particles must be overall neutral (in terms of electric charge) and they should be subject primarily to collective effects generated by fluctuating electric and magnetic fields. However, the proton soups and currents in the body are generated primarily by hydrodynamic processes (i.e., not by electromagnetic processes) and they are non-neutral over large spaces. They are also blocked from interacting more actively as they are embedded in biomolecular matter.

They could be considered a near-plasma (since they are soups of charged particles). However, collectively, it does not constitute an independent and separate bioplasma body, capable of forming large vortexes, double layers and other signature features that are normally associated with true plasma bodies in the laboratory. Hence, the probability of the existence of a relatively substantial and dense free-floating ordinary bioplasma body (that can also decouple from the ordinary matter biochemical body under certain conditions) is extremely low on the surface of the Earth.

Dark Plasma Life-Forms

We will therefore have to turn to the dark sectors for the presence of any plasma life-forms on the surface of the Earth. Dark sectors are thought to play a crucial role in the formation and evolution of the universe, influencing the distribution of matter and the expansion of space. These sectors are theorized to consist of different types of fundamental particles and forces from the standard model of particle physics. Most of the particles are thought to be electrically neutral. However, a small proportion are thought to hold a weak electric charge. These are generally called self-interacting dark matter. It may weakly interact with ordinary matter through the weak interactions and other processes. At small scales, due to the weakness of the interactions, this matter may be difficult to detect or observe directly. On cosmic scales, they interact with ordinary matter through gravitational fields.

In dark sectors, the electromagnetic charge is much weaker, allowing dark electrons and protons to easily dislodge to form dark plasmas. Furthermore, the neutral particles outnumber charged particles. The neutral particles will weakly insulate the soups of charged particles to enable a dark plasma to be sustained. The temperature in dark sectors is also much higher (as conjectured by the author). This also enables the sustenance of dark plasma. Nevertheless, it does not burn or scorch biomolecular tissue because dark plasma does not or only weakly interacts with ordinary matter. The interpenetrating, wholly dark plasmaspheres, are ideal habitats for plasma life-forms to thrive over a wide range of depths and heights.

Plasma-Carbon Endosymbiosis

Dark Earths, which are dark planets within dark sectors, have been discussed by the author in previous articles and books. Once we realize that the Darwin-Margullis’ net of life extends into dark sectors, more specifically within Dark Earths, we will need to consider inter-sector evolution.

Due to evolutionary pressures, it is conjectured that some intelligent dark plasma life-forms from the biospheres of Dark Earths underwent voluntary and opportunistic endosymbiosis, not simply with other plasma life-forms within their dark biosphere but also with life-forms in the visible biosphere (i.e., the ordinary matter sub-sector). It is logical to assume that this would most often be with the life-forms in the adjacent lowest energy Dark Earth. The intelligent dark plasma life-forms from this Dark Earth would most likely inhabit regions in the dark biosphere close to the surface of Earth. Being in close proximity in distance and energy levels to ordinary matter life-forms in the same sector, they would have undertaken voluntary endosymbiosis with them. These dark plasma life-forms would have formed endosymbiotic relationships with humans early in their evolutionary history. This is not a new hypothesis, the author published it in 2008 and wrote many articles on it (see references below).

Symbiotic Relationship between Plasma and Carbon Based Bodies: …the symbiotic relationship between the bioplasma and carbon-based bodies is one of “mutualism” where both species benefit. To generalize, plasma metaphysics hypothesizes that there are coupling forces between the carbon-based body and the invisible superstructure of bioplasma bodies which keeps them linked until any of the bodies die. This hypothesis can be cited as the “Plasma-Carbon Symbiotic Life Forms Hypothesis.”

Jay Alfred, Dark Panspermia, 2008

When a human fetus is in the womb, it would already be interpenetrated by many layers of dark matter particles, of varying energy levels. This is because a conjectured fifth force attracts dark matter particles to ordinary matter particles, creating many layers of dark matter particles that envelope ordinary matter objects. (The likely existence of this fifth force is discussed in the author’s published books.) Additionally, there were evolutionary developments in the early Earth, including possible dark panspermia, that introduced living hybrid (ordinary matter and dark matter) cells. In the early Earth these hybrid cells would include a dark plasma cell, coupled with an ordinary matter cell, and sandwiched by ordinary plasma.

The hybrid cells in the later Earth, however, would be slightly different from the very early Earth in that most of the ordinary plasma would have been dissipated as Earth’s crust cooled. The evolved human ordinary matter embryo would therefore be interpenetrated by a dark plasma cell, with some remnant ordinary plasma. These interpenetrating layers or envelopes would resemble the fetus as it grows — looking very much like a time-resolved plasma hologram (if we could see them using visualization techniques or alternative sensory systems). At this stage, the envisaged plasma-carbon endosymbiosis would not have occurred yet. For this, fusion would have to occur with another intelligent life-form.

“…all visible organisms, plants, animals and fungi evolved by “body fusion.” Fusion at the microscopic level led to genetic integration and formation of ever-more complex individuals.”

Lynn Margulis, Dorion Sagan, 2002

Higher energy dark plasma life-forms from interpenetrating dark biospheres won’t be able to see ordinary matter, but they will be able to see or sense the dark plasma envelope(s) around ordinary matter objects and the human plasma cell, enveloping the human ordinary matter embryo. They would then opportunistically absorb a human fetus in the womb into its dark plasma body. This is done by using the lowest energy dark plasma envelope, around the fetus, as a port to latch on while lowering and synchronizing their own plasma frequencies with the plasma frequencies of all the relevant dark plasma envelope(s) around the human ordinary matter embryo. A fusion will then occur between the dark plasma envelope of the fetus and the dark plasma body of the higher energy dark plasma life-form. This results in a cross-sector endosymbiosis of an ordinary matter life-form (the “host”) with a dark matter life-form (the “symbiont”).

Homo-Plasma Sapiens

The population of dark plasma life-forms in the Dark Earths, collectively, is likely to be many times larger than the human population today as there are multiple large dark biospheres gravitationally couped to the ordinary matter Earth. As a result, there would be competition among these plasma life-forms to undertake this endosymbiosis. This process would therefore most likely occur for almost every member of the human species. We could describe the product of this endosymbiosis between the species Homo sapiens from visible Earth and the species Plasma sapiens from Dark Earths, Homo-Plasma sapiens.

The endosymbiosis gave homo sapiens, the hosts, a comparative reproductive advantage as a result of augmented cognitive capacities (through quantum processes in the brain). On the other hand, the host (the ordinary matter body) provides experiences relating to different sensory modalities to experience the ordinary matter Earth to the symbiont (the dark plasma life-form) which it would otherwise be deprived of. With the perceived benefits that came with this symbiosis, the voluntary process, initiated by the plasma life-form, continues today.

In their 2017 paper, Patrick Keeling and John McCutcheon, from the Institute for Advanced Research, Program in Integrated Microbial Biodiversity, in Canada, argued that endosymbiotic interactions are best thought of not as totally mutualistic “happily ever-after” stories, but instead as “use it up and cast it off” situations that are stable for variable lengths of time. They explain that endosymbiosis nearly always produces dead ends for one of the two partners. For e.g., in the case of Plasmodium and other traditional parasites, the host is the partner that is cast off in the short term. However, in the case of Hodgkinia and other beneficial endosymbionts it is the symbiont that is cast off in the longer term.

It is important to note, therefore, that the evolutionary pathways of Homo sapiens (the host) and Plasma sapiens (the symbiont) are overall different, although they merge or intersect briefly in Homo-Plasma sapiens during the lifetime of a human. This endosymbiosis is therefore transient as the two species separate on the death of the host, i.e., the ordinary matter body. Overall, the relationship could be described as an endosymbiosis based on mutual benefits (i.e., mutualism), based on cooperation rather than exploitation, with the symbionts (the dark plasma bodies) living on for varying periods of time (within the relevant Dark Earth) after the death of the ordinary matter life-form.

Plasma-Carbon Chimeras

Chimeras are life forms which are composites of body parts (in this case bodies) which have different origins. For decades, biologists have been creating chimeras that are a mix of cells from different species. For example, mice with human immune systems have long been used for medical research. Homo sapiens and Plasma sapiens are different species of life-forms. Hence, the endosymbiosis gives rise to a plasma-carbon chimera.

During the period of symbiosis there would be power relationships, as pointed out by Keeling and McCutcheon. Since both bodies, from different origins, have consciousness, these relationships can give rise to mental conflicts between the self associated with the ordinary matter primate body and the self associated with the higher energy dark plasma body.

Limitations in Current Science

Current evolutionary theories in biology only account for the Homo sapiens component, so it has completely ignored the Homo plasma component, which in human history has often been identified in the antiquated and ambiguous notion of a “soul” or “soul body” (in some definitions of the soul). The dark plasma symbiont provides a significant boost to the cognitive capacity of Homo sapiens through quantum interactions. This is currently unaccounted for in brain evolutionary theory.

References

1.Sender, Ron. Fuchs, Shai. Milo, Ron. Revised Estimates for the Number of Human and Bacteria Cells in the Body. PLoS Biol. 2016 Aug 19; 14(8):e1002533. doi: 10.1371/journal.pbio.1002533.

2. Margullis, Lynn. Sagan, Dorian. Acquiring Genomes: A Theory Of The Origin Of Species. Basic Books. 2008. (First published 2002.)

3. Lozneanu, Erzilia, and Mircea Sanduloviciu. Minimal-Cell System Created in Laboratory by Self-Organization. Chaos Solitons and Fractals, 18, 2003, 335–343.

4. Inyushin V.M. Bioplasma: The Fifth State of Matter? In (J. White and S. Krippner, eds.) Future Science: Life Energies and the Physics of Paranormal Phenomena. Garden City, NY: Anchor Books. 1977.

5. Sedlak, Włodzimierz. Outline of Biological Magnetohydrodynamics.
Translated by Leane Roffey Line, Ph.D. and Jaroslaw Kempczynski, Ph.D.
A Bioelektronika report. 2012.

6. Pehek, John O.; Kyler, Harry J. & Faust, David L. (15 October 1976). Image Modulatic Corona Discharge Photography. Science. 194 (4262): 263–270. Bibcode:1976Sci…194..263P. doi:10.1126/science.968480. PMID 968480.

7. Quickenden T.I., Tilbury R.N.. A Critical Examination of the Bioplasma Hypothesis. Physiol Chem Phys Med NMR. 1986;18(2):89–101.PMID: 3809263.

8. Patrick J. Keeling and John P. McCutcheon. Endosymbiosis: The Feeling Is Not Mutual. 2017.

9. Alfred, Jay. Plasma Life-Forms — Dark Panspermia. Unexplained Mysteries Articles website. 2008.

“Symbiosis” is a term used to describe a close ecological relationship between the individuals of two (or more) different species. Sometimes a symbiotic relationship benefits both species, sometimes one species benefits at the other’s expense, and in other cases neither species benefits. It has been observed by metaphysicists that the symbiotic relationship between the bioplasma and carbon-based bodies is one of “mutualism” where both species benefit. Dr. Robert Foot has suggested a coupling force between ordinary and mirror photons. He believes that one effect of this force is to make dark mirror matter intermittently visible as it travels through the atmosphere. To generalize, plasma metaphysics hypothesizes that there are coupling forces between the carbon-based body and the invisible superstructure of bioplasma bodies which keeps them linked until any of the bodies die. This hypothesis can be cited as the “Plasma-Carbon Symbiotic Life Forms hypothesis.”

While the carbon-based body was ordinarily visible, the dark matter body was invisible. It is conceivable that a series of invisible bodies, developing over a spectrum of energy levels and composed of dark matter, formed an invisible superstructure over the biological body. The higher energy bodies and the biological bodies then co-evolved as a composite during the lifetime of the carbon-based biological body. When the biological bodies died, however, dark matter bodies continued to evolve on their own. At periodic intervals these older dark matter bodies (with accumulated memories) fused with the young dark matter counterpart bodies of embryonic biological bodies to continue their evolution with biological bodies. The evolution of these dark matter bodies were therefore inter-twined with the evolution of biological bodies over vast stretches of time.”

10. Alfred, Jay. Plasma-Carbon Symbiosis and Bioplasma Body Fusion. Ezine Articles website. 2008.

Lynn Margulis, member of the National Academy of Sciences and Distinguished Professor at the University of Massachusetts, has argued that random mutation, claimed to be the main source of genetic variation, is of only limited importance. Much more significant is the acquisition and integration of new genomes by symbiotic merger. But of course, she was confining herself to only carbon-based life forms.

The “Parallel Earth” hypothesis proposes that a counterpart dark matter Earth co-accreted with the visible Earth in the embryonic Solar System. According to dark plasma theory, dark matter consists largely of a plasma of very high energy non-standard particles (sometimes of a different parity) — or “dark plasma”. On this counterpart Earth, life flourished, just like it did on our visible Earth. The difference was that the life forms were plasma-based. Two different substrates, plasma and carbon, gave rise to life-forms in two different habitats. The “Parallel Earth” hypothesis proposes that a counterpart dark matter Earth co-accreted with the visible Earth in the embryonic Solar System.

According to dark plasma theory, dark matter consists largely of a plasma of very high energy non-standard particles (sometimes of a different parity) — or “dark plasma.” On this counterpart Earth, life flourished, just like it did on our visible Earth. The difference was that the life forms were plasma-based. Two different substrates, plasma and carbon, gave rise to life-forms in two different habitats. Hence, even when life began on the visible Earth, plasma life forms were already forming symbiotic relationships with the abundant carbon-based life forms on our counterpart Earth…

The “Dark Panspermia” hypothesis proposes that meteorites, asteroids and comets, containing both the dark and visible building blocks of life fell into habitable zones and generated the first single-celled and later multi-cellular life-forms which developed both ordinary and dark bioplasma bodies that were coupled to each other. Hence, even when life began on the visible Earth, plasma life forms were already forming symbiotic relationships with the abundant carbon-based life forms on our counterpart Earth.

Inter-Substrate Plasma-Carbon Symbiogenesis:… Practically all carbon-based life forms today, including homo sapiens, had symbiotic relationships with plasma-based life forms. Hominids are the products of a symbiogenesis between a carbon-based and plasma-based life form. Unlike other animals, however, carbon-based hominids were able to utilize the alternative cognitive-sensory systems of their plasma-based symbiotic partners. Their unique brains allowed them to activate the higher energy bioplasma bodies that co-evolved with the carbon-based body without necessarily having any conscious awareness that they were accessing a different cognitive system. Relationships developed between the lower energy carbon-based bodies of hominids and the higher energy bioplasma bodies and were sustained for several millions of years up to the present.

The higher energy bodies and the biological bodies then co-evolved as a composite during the lifetime of the carbon-based biological body.

When the biological bodies died, however, dark matter bodies continued to evolve on their own. At periodic intervals these older dark matter bodies (with accumulated memories) fused with the young dark matter counterpart bodies of embryonic biological bodies to continue their evolution with biological bodies. The evolution of these dark matter bodies were therefore inter-twined with the evolution of biological bodies over vast stretches of time. The dark matter bodies of human beings have often been described as “subtle bodies” or “bioplasma bodies” in the metaphysical and off-mainstream scientific literature…

The symbiotic relationships between carbon based bodies and bioplasma bodies show that the principles and study of ecology should be extended to parallel environments — beyond the visible environment. Life on the visible Earth is intricately linked to invisible life in the parallel higher energy Earth. Human beings are chimeras. Chimeras are life forms which are composites of body parts (in this case bodies) which have different origins.

11. Alfred, Jay. Extreme Biology At All Scales And Energies. Ezine Articles website. 2008.

When physicists talk of parallel universes, would biologists consider symbiosis between life forms in parallel universes? Is Darwin’s tree of life complete? Where are its roots?

Inter-Substrate (Plasma-Carbon) Symbiogenesis: … Biologists are beginning to realize that cooperation was just as important as competition in the evolution of life’s diversity and resilience. Every cell in the human body contains a mitochondrion which is thought to be a bacterial cell which invaded an early eukaryote. Instead of being digested, both cells tolerated each other and began to live with each other — a merger which provided synergies to both. This is a startling example of symbiogenesis. But then every multi-cellular animal or plant is also an obvious example of co-operation rather than competition… Does symbiosis extend further?

There is anecdotal evidence that plasma life forms formed symbiotic relationships with the abundant carbon-based life forms on Earth — particularly with hominids. Unlike other known species of animals, the unique brains of hominids allowed them to activate the higher energy bioplasma bodies that co-evolved with the physical-biochemical body without necessarily having any conscious awareness that they were accessing a different cognitive system. Relationships developed between the lower energy carbon-based bodies and the higher energy bioplasma bodies which were sustained, perhaps, for several millions of years up to the present. This allowed the higher energy bioplasma bodies to evolve in a unique way on Earth.

12. Alfred, Jay. Aliens from Dark Earth — Evolution of Dark Plasma Life-Forms on Earth. New Dawn Magazine №114, May-June 2009.

The primitive dark plasma cells provided the scaffolding for ordinary biological cells to form in the early Earth. Hence, primitive biological cells evolved with an envelope of dark plasma around them. The dark plasma envelope around humans and other ordinary life forms caused dark matter in Earth’s environment to clump around them to form dark bioplasma bodies which coupled to the visible carbon-based bodies. When the carbon-based bodies died, the bioplasma bodies decoupled and continued to survive, retaining their awareness in Earth’s dark biosphere. These surviving plasma life forms then formed symbiotic relationships with other carbon-based bodies on Earth, including with humans. The symbiosis allowed shared cognitive systems to develop which gave continuity to the identities (i.e. autobiographical memories) of sentient individuals. The history and evolution of plasma life forms and humans have indeed become intertwined — a symbiosis which is likely to continue into the future.

13. Alfred, Jay. Creation of Minimal Plasma Cell Systems by Self-Organization in Earth’s Dark Biosphere Leading to the Evolution of Dark Plasma Life-Forms. Journal of Unconventional Theories and Research, March 17, 2009.