” The General Theory of Dynamics Systemicity” Part 7

Authors

  • Jean-Jacques BLANC

Keywords:

bioethism, systemicity, survival, metadynamics, symbiosis, feedback, entropy, metabolism, synergy, convergence, coalescence, neighboring, perception, senses, organs.

Abstract

"The Bioethism paradigm" (acronym for Biology-Ethology, ecology - Humanism) fosters universal specificities relative to the complexity of Life's processing, which in form of open systems, appeared on Earth from biochemical components and survival proprieties within propitious physicochemical environmental forces (J.-J. Blanc 1996).

For reference, the author’s past proceedings were developed - part after part since 2004 - as the structure and chapters of a “General Theory of Metadynamics Systemicity”. Its building blocks are being centered on the Universe diversity of x-dynamics: petadynamics teradynamics, gigadynamics’, metadynamics’, dynamics’, microdynamics’ and nanodynamics’ systemicity.  The set of X-dynamics are, in physics, multipliers defined in powers of 1015 to 10-6, proceeding in increments of three orders of magnitude (10' or 1`000), such as: peta, giga, meta, kilo, micro, nano...

The publication of these works is meant to support the acquisition of a large transdisciplinary understanding of the “x-dynamics’ systemicity world” that sustains the whole evolution of the Universe system’s components as well as those of living entities (things, objects, individuals), while perceiving and experiencing sets of forces and fluxes. This is why the theory of Systemicity emerged from synergies as applying the principles of “The Bioethism Transdisciplinary Paradigm of Universal Systems” down to ”Living systems” both having their specific temporal survival” that the author J.-J. Blanc developed since 1996.

-           “Systemicity” is a notion that surges from interrelation, interaction, intrication…within interdependent synergies. The systemicity of atomic and molecular cycles has made and sustains both cosmic systems and Life’s cycles on planet Earth along differential time periods (trillion of light-years to less than hours) and their specific retroactivity.

-          Intrication is the quantum entanglement of a physical phenomenon that occurs when pairs or groups of particles are generated or interact in ways such that the quantum state of each particle cannot be described independently — instead, a quantum state may be given for the system as a whole, in other ways its metabolism status.

-          Measurements of physical properties such as position, momentum, spin, polarization, etc. performed on entangled particles are found to be appropriately correlated.

The different parts of “X-dynamics Systemicity” are developed through a new “reading grid of natural structures and behaviors of entities, objects and things as adapting from “neighboring’” within “neighborhoods” (ecosystems) where they specifically cope with endogenous and exogenous events and forces inducing to the retroactive temporal restructuring of  their structure and behavioral aptitudes (as in part 6).

Neighboring is “to associate in a neighborly way, to communicate with, to live side by side with, and to overlook and look out. Biological molecule sequences, while neighboring, are participating in the structuring and the evolution of “cosmobjects”(JJB), organism, species and entities along their reproduction abilities. It infers nature and extent of selective forces, those driving the evolving shaping of atom sets and organism genes (mutations). In other words, as in this part 7, “survival means” possess diverse perception, memory and experience tools that empower their adaptability to the permanency of all things to happen and change, i.e.:  they possess means as how to “give sense to things around from the interpretation of what’s they perceive. The choice of the sense given may be lethal or propitious to their surviving.

 In order to exist, both objects and living creatures expressions are replicating and evolve thanks to their perception and feeling survival tools within global, glocal and local areas (ecosystems) and by their natural structures and behavioral components which shape some form of sytemicity processes that sustain their survival. Resulting actions and gene mutations are permanently changing both the endogen milieu and external environmental ecosystems metabolism and components quality (e.g.: means used from vision interpreting [1]the formation of a move or a feeling driving to its systemicity result like fear; the gravity effect of two masses as sustaining a balanced equilibrium, flying away…).

Subsequently, through ecosystems’ 3D multi-layers, from proto-organisms to humans, their individualities take on specific social traits and behavioral statuses that account for the diversity of species to get developed and/or to go extinct. For example, when the Earth became a "snowball" from a nearly total glaciation (-600 Mo/y), the survival of some neighboring bacteria and micro-organisms escaping the drastic extinction of most species, conversely perceiving ways of adaptation, boosted up an extraordinary explosion of marine species bearing quite new functions (- 545Mo/y), that then after volcanic holes progressively reheated areas of the planet and boosted some organisms population revivals from the systemicity of sets of interrelated metadynamics and their symbiotic outputs propitious with adaptation and evolution.

The Universe’s global environment generates x-dynamics such as cosmic petadynamics (black holes? Black energy?), teradynamics, gigadynamics and metadynamics cycles... in form of systemic forces, fluxes and moves occur within immense gas and particles neighborhoods. Interrelated, they are some of the main physicochemical cosmic, galactic, stellar, planetary and terrestrial feedback synergies from which x-dynamics systemicity retroactions emerge (i.e. rock cycles). Sets of systemicity results make atoms and molecules to participate in the structuring of matter and cosmic objects (nebulae, baby stars, stars and planets, waters and rocks), within a molecular world that originated from and after the “Big Bang” a nd the role of aggregation.

Furthermore, the physicochemical neighboring conditions for planet Earth to stabilize within the “Sun’s green belt” was a thermodynamics and environmental balanced state issued from the presence of the Moon’s mass aggregation at the right distance so as to become propitious for Life to “hatch” (gravity and tidal forces). Such favorable position, sustaining the Earth and Life’s evolution by the development of x-dynamic adaptive pathways, is in some sort of a synchronistic status with universal objects survival cycles, forces, fluxes, moves and matter that as “perceiving, giving sense and experiencing things” is highly evolving as to experiencing things” in several synergetic manners, (e.g. cosmic objects feeling, plants natural and emotional intelligence. . .). Perception tools are physicochemical and organic features treating signals- like neurons- or other microtubule as protein structures and links around brain networks. Microtubules are a component of the cytoskeleton[2], found throughout the cytoplasm. The microtubule can dynamically switch between growing and shrinking phases in this region (“search and capture model”), a matter of neighboring milieu.

Life as a whole and living entities, while neighboring around, are confronted with gravitation, electromagnetism, chemical and physical phenomena, and particularly with temperature and the “thermodynamics of entropy”. Filtering their milieu symptoms and their environmental events signals, living creatures develop means of perception in ways their inner systems and organs such as the immune one, emotional brain with amygdala and reptilian area or vision with eyes are well fit drivers for supporting their survival behaviors.

The neighboring areas (mille-feuille as 4D-networks) are diverse but concomitant producing forces and fluxes that are dynamical drivers within the diverse ecosystems. Their systemicity results from actions of coalescence, conjunction, co-evolution, convergence, symbiosis, percolation, phase transition or threshold output, neighborhood adaptation, etc. Universally, these actions and mechanisms concern atomic, molecular and physicochemical world’s permanently provoking feedback that drives the evolution of systemicity cycles and perception means. Because of the development of similarities in unrelated matters or organisms present in similar environments, a balanced equilibrium is necessary to sustain the whole of things to survive temporally. The disappearance of a link along a food chain completely disorganizes the ecosystem’s metabolism endangering its sustainability.

Specific bonds and traits of structures and behaviors, as well as evolution trends for “surviving objects and living creatures” require a certain knowledge and a memory about actions-reactions (drivers) from ago-antagonistic signals and stimuli in order to give the propitious answer to an adaptation, then evolution of things. Issued from ecosystemic and socio-systemic metabolism and environmental statuses (geophysics, climate, predator preys networks of food chains…), these signals sustain things thanks to the x-dynamics systemic retroactivity results reigning about from the convergence of multi-symbiosis.

A "Closer Look at Instincts", in animals, has the inherent tendency to engage spontaneously into particular pattern of behaviors. Examples of this include a dog shaking after it gets wet, a sea turtle seeking out the ocean after hatching, or a bird migrating before the winter season.

This part of the theory, the 7th one, describes the major dynamics that symbiotically pilot “key drivers” that represent the general act of “symbiotic perception”. This act, occurring at the cosmos and biological objects levels, is inducing to different physicochemical interactions and laws (gravity…), prolonged down to the Earth major dynamic drivers that induce to its survival as well as survival specifications, adaptations and an immense evolution n of bushy Life’s species which hatched from water, oxygen, carbo dioxide, hydrogen and nitrogen…showing the four functions of such an happening:

­       Proteins: Amino acids, protection of the body,

­       Lipid: Fats, store energy and build up cell membrane,

­       Carbohydrates: Sugar, provides physicochemical energy,

­       Nucleic Acid: DNA, RNA, provide an organism the knowledge of basic functions and genetics functions.

One may easily understand here that human sociology shows such the diversity of neighboring comportments and effects issued from these basic perception outfits, both being endogenous and exogenous. Observing then, that the various effects of systemicity are universally giving sense to what happens, driving the dynamics systemicity results at survival tools to induce to with adaptation and evolution necessities. Thanks to perception capacities (instinct, intelligence,) and a variety of memories (short, long term…) from which permanently emerge the symbiosis of differential qualities capable to give sense to things then to a survival timeline.


 

Author Biography

Jean-Jacques BLANC

Consulting Engineer

Published

2019-09-15

How to Cite

BLANC, J.-J. (2019). ” The General Theory of Dynamics Systemicity” Part 7. Proceedings of the 62nd Annual Meeting of the ISSS - 2018 Corvallis, OR, USA, 1(1). Retrieved from https://journals.isss.org/index.php/proceedings62nd/article/view/3461

Issue

Section

Research Toward a General Theory of Systems