EMBRYOLOGY AND PHYSIOLOGICAL NETWORKS.

Cells evolve ternary networks, which in its simplest fetal stage form 3x3 Non-AE regions proper of all animal forms:
- Max. T: The ectoderm, which gives birth to the nervous, sensorial and skin systems of max. perception.
-Max.E: The endoderm, which becomes the digestive system and its derivatives such as smooth muscles, lungs, livers and glands.
- ExT:Max. Reproduction. The mixed, mesoderm region, which will subdivide in 3 sub-zones, the reproductive, blood and muscular systems.

 

We have described the 3x3=1 dimensional tissues of living organisms in space. If we consider them in time, we observe a process of evolution that differentiate the original ideal spherical or spiralled Fractal Organism (seeds, cells, ovules) into complex morphological shapes, adapted to those inner and outer tissues. Thus living forms evolve and diversify, opening or invaginating their networks, organs and sensorial apertures to each specific ecosystem, which subsequently adapts the morphology of the cells and organs they control to the specific surfaces of their environments. So men, who exist on a planar surface, have a different morphology to the ideal spheres so common in water and space, 3-dimensional isomorphic ecosystems, as human evolution has adapted our networks and morphologies to the land-atmosphere environment.
In those different processes of ecosystemic adaptation the 3 dominant networks of living systems further quantize into secondary systems, departing from the 3 initial layers of cells. We can follow that process first temporally in the evolution of the embryo that resumes the palingenetic evolution of life and then spatially in the organic structure of living beings. It is the science of evol=devol that relates both phases of animal evolution, establishing a parallel correspondence between the spatial location of a tissue at birth and its functional evolution into i, e and e=T tissues. Thus according to their Non-AE location the ectoderm evolves into informative tissues and networks, the e=t mesoderm into reproductive tissues and the e-endoderm into energetic tissues and networks:

Max. i: Ectoderm: the 3 informative sub-systems.
The information network derived from the external ectoderm, dominated by neuronal cells, evolves and differentiates according to the ternary principle into:
      - E-endocrine systems, with internal neurosecretory cells that control internal, cellular information through chemical hormones.
      - E=T-nervous brain systems that control and ‘replicate’ in the neuronal, electric language all other functions and forms of the body.
      - T: Skin systems and outer senses, which are the openings to the world of the nervous system through which the organism emits or absorbs energy and information, communicating with the i+1 ecosystem. Those senses specialize in perceiving the external, energetic and informative cycles of the beings that share the ecosystem of the organism, duplicating them in a series of fractal, quantized, reduced images, with different languages that accomplish the ‘higher truth’ of each form through the ‘linguistic method’ that multiplies the perspectives on the cycle or form, extracting their ‘existential properties’, its spatial symmetry, form, density, force, etc. Thus senses and languages differentiated also along an E<=>T arrow from pure spatial senses (eyes) to the most complex, temporal senses (ears), defining an evolutionary arrow of increasing complexity in their capacity to gather information, which often defined the survival capacity of the species, as senses are the key to interpret correctly the destructive or creative action of all other beings. So from an initial simple phototropic stain, eyes, ears, antennas and mouths have multiplied,  close to the inner, neuronal informative brain that further processes their information, forming together a ‘Head’.

E: Endoderm: the 3 energetic sub-systems.
Max. E: The internal endoderm. Originally populated by wandering amoebocytes and glandular cells that digested food , the ‘energy hole’ of the first animals, sponges and hydras, invaginated forming the coelom between the endoderm and mesoderm that subdivides further into the 3 cavities of animal life: the digestive system, the breathing system and the heart cavity. The 2 first cavities evolved, surrounded by endoderm cells into 3 subsystems:
        - Max. E: The breathing system that gathers the smallest energy quanta, oxygen.
 -  E=T: The digestive system that gathers the bigger quanta, food, differentiated morphologically in 3 new subsystems that we classify in linear, wave-like and cyclical components:

Energy network: max. E (linear intestine) <stomach > (sensorial Mouth): max.i

       - Max. T: Glandular tissue: which forms organs dependant on the digestive system (liver, digestive organs, kidneys), that process their products.

E=T: Mesoderm: the 3±1 reproductive systems.
The 3rd coelom cavity, the heart, surrounded by mesoderm tissue, invaginates further into very thin vessels, created with striated muscles, densely populated by the original wandering amoebocytes reconverted now into leucocytes. In the blood networks the other 2 systems, merge and pour their products: quantic energy, oxygen and food; and quantic information, hormones, which the system takes to each cell. Since it mixes both energy and information quanta it is also the reproductive system by excellence with maximal contact with the intermediate region’s secondary tissues evolved from the mesoderm:
      -  Max. E: The skeleton: which sustains the system and reproduces blood cells.
      - E=T: Muscular tissue: The most resistant electric cells, form a muscle dual system with myosin cells that control the elongation and shortening of membranes.
     - Max. T: The blood and tegumentary system that prolongs the blood network between cells.
      - +1: Yet the fundamental reproductive tissue is the sexual, glandular tissue, that reproduces the organism beyond the cellular scale and further differentiates into the basic E=male Vs T=female duality of ‘energetic and informative subspecies’ .
Those 3 x 3(+1) standard systems and tissues, differentiated from the initial 3-layers of the embryo, define complex living organisms, which exist also in an external world where they become individual quanta, shaping external parallel cycles of energy, reproduction and information to those internal cycles performed by its cells and quantic networks. So all organisms have also an external, quantic territory with in its ecosystem.