1. Origin and Primary Phase (Homo sapiens)
The oldest palaeogenetic records indicate that Homo sapiens emerged on the home planet Concordia—a globe with a dense, highly oxygenated atmosphere, a highly variable ionospheric field, and limited availability of nitrogen compounds. Early populations were characterized by a narrow range of physiological tolerance, short life expectancy, and low tissue regeneration capacity. Compensation came in the form of a rapid expansion of neurocognitive functions: abstract modelling, symbolic creation, and complex social structuring. These abilities enabled the sapiens to gradually exert ecological control and achieve early suborbital flight experiments, paving the way for expansion beyond Concordia’s biosphere.

2. Expansion and Adaptation Phase (Homo superior)
Migration to the moons Valora and Etrix, as well as to mining stations in the asteroid belt, introduced long-term selective pressure. Variable gravity, extreme temperature fluctuations, and chronic cosmic radiation triggered reprogramming of gene expression in the respiratory, nervous, and endocrine systems. This led to the emergence of numerous Homo superior morphotypes, equipped with enhanced gas-exchange systems and expanded metabolic capabilities.
Significant increases were observed in working memory capacity, reorganization of the associative cortex, and the development of endogenous bio-mental interfaces—crucial for functioning in environments with unstable light cycles. The adaptive process was primarily environmentally driven, with population engineering modulating the pace rather than the direction of change. Over 180 stable superior subtypes were identified, each specialized for distinct biospheres and orbital habitats.

3. Longevity and Transadaptational Phase (Homo deus)
The culmination of this developmental sequence was Homo deus—a form born from the synergy of extreme environmental pressure, multigenerational selection, and precise control of cellular processes. The implementation of telomerase stabilization systems, mitochondrial autoreplication, and epigenetic protection of neural networks resulted in a radical extension of the organism’s operational lifespan (several hundred full Concordian orbits).
Preserved somatic integrity allowed for further restructuring of cognitive systems: deepened hierarchical data processing, enhanced long-term consolidation, and multilayered causal modelling were achieved.
Today, Homo deus exists as a biologically durable and cognitively flexible form, capable of managing projects that span planetary epochs. Longevity serves as an operational prerequisite, enabling continuity in scientific research, infrastructure maintenance, and the development of transplanetary cultures throughout the Concordia system.

1. Primary Phase – Cris venari
The earliest recorded forms of Cris venari were characterized by heightened sensory dynamism combined with physiological fragility. Their bodies were composed of flexible cellular matrices based on carbon shielding fibers, surrounding a soft inner core with low thermal resistance. Their nervous system, dispersed along the body axis, was modulated by fluctuating networks of bioelectrical tension, which served both as data transmission channels and hormonal response mechanisms.
Despite limited regenerative capacity, Cris venari compensated with acute perceptual sensitivity and instinctive adaptation to environmental shifts. In conditions of constant environmental threat—cyclic gas storms, territorial instability—they developed precise motion synchronization techniques, kinetic signaling, and early social organization. Rhythmic-electrical communication—not sound or image—became their first medium for transmitting complex information.

2. Adaptive and Expansion Phase – Cris ascendari
As their living space gradually expanded into gravitationally unstable and atmospherically rarefied zones, Cris ascendari underwent a series of deep biological transformations. Their bodily structures were reengineered: flexible fibers were replaced with laminated organic panels serving as thermodynamic shields, actively regulating the flow of heat and particles. The density of transfer cells—specialized tissues responsible for distributing oxygen and electrical impulses—was also increased.
Their cognitive system advanced dramatically: previously decentralized neural transmission was integrated into a tri-nodal correlational system composed of centers for decision-making, memory, and simulation. Cris ascendari developed bio-conductive sensory panels capable of encoding emotional and logical data into a single kinetic signal. Communication between individuals occurred in real time via modulated surface vibrations, eliminating the need for language or symbols.
Environmental diversification led to the emergence of over 200 functional ascendari subtypes, some of which maintained forced symbiosis with ion-based microorganisms or utilized semi-permanent mechanobiological interfaces to process environmental information.

3. Longevity and Synthesizing Phase – Cris deus
The Cris deus form represents the ultimate expression of oxygen-carbon-based biology combined with nanoscale informational integration. Their bodies are no longer organisms in the traditional sense, but living structural fields—actively reshaping their form according to operational conditions. Their external shielding is composed of a bioactive mesh of semi-intelligent cells, capable of reacting to environmental shifts with greater precision than mechanical automation.
The cognitive system of Cris deus functions in a hybrid model: a biological spinal brain is supported by embedded resonance spheres—structures capable of maintaining informational states in local fields without energy loss. Their consciousness no longer depends on continuous data processing but on the sequential activation of resonant cognitive patterns, allowing parallel execution of multiple operational layers without compromising identity integrity.
They do not pursue immortality—their goal is operational stability. A Cris deus unit can function for hundreds of orbital cycles without structural degradation, retaining full cognitive and adaptive plasticity. Their longevity serves to preserve cultural architecture continuity, oversee the evolution of lower species, and conduct long-term bioengineering experiments.
Within interspecies structures, they do not operate as an empire or fleet—they exist instead as a dispersed continuum of being, cooperating within a harmonic network in which each unit is autonomous, yet aligned with an overarching schema of biofunctional synchrony.

1. Primary Phase – Ros primus
The earliest known forms of Ros primus were oxygen-based organisms whose cellular structures were composed of fibrous conductive channels saturated with a pigment functionally similar to chlorophyll. This enabled Ros primus to directly absorb light and convert it into chemical energy, allowing them to survive in extremely unstable climatic and geochemical conditions.
Their metabolism was slow but efficient under stationary conditions—during periods of rapid environmental change, they would enter deep dormancy phases, fully transforming into semi-active structures that drew energy exclusively from their surroundings. This was not so much a physical as an ecological adaptation: Ros primus did not “fight” environmental conditions, but instead learned to disappear within them, integrating non-confrontationally with the biological matter of the planet.

2. Adaptive and Florocentric Phase – Ros florens
With the improvement of environmental conditions—and more importantly, the emergence of stable nutrient sources—the evolution of Ros florens marked a distinct shift toward mobility, activity, and relational engagement. While they retained photoactive pigments within their tissues, their function became limited primarily to antioxidant support and localized intercellular energy transfer.
The bodies of Ros florens developed active conductive bundles resembling phloem-like networks, enabling the rapid transport of both nutrients and informational signals. The most significant change occurred within the cognitive system: a tri-focal resonant brain emerged, allowing simultaneous processing of biological, chemical, and electromagnetic signals.
This phase also saw the emergence of a unique capacity—an ecological form of empathy. It was not verbal communication but reactive exchange: the mere presence of Ros florens could modulate plant growth rhythms, stabilize microfauna, and support natural regenerative processes in their vicinity.

3. Longevity and Bioharmonic Phase – Ros deus
The current form, Ros deus, embodies full integration with the biosphere and conscious management of life processes on an ecosystemic scale. Their organisms are no longer «bodies» in the classical sense but dynamic, self-regulating biological structures composed of living layers responsive to changing chemical, electromagnetic, and structural stimuli.
Though they function according to similar energetic principles as other oxygen-carbon beings, their internal systems have been enhanced with so-called resonant bio-cores—structures that allow them to synchronize their own metabolic processes with those of the environment. Through these, Ros deus can influence plant growth rates, reverse local ecological disturbances, and even repair damaged organic tissues in other organisms.
The most advanced members of this phase, known as Green Correctors, serve as guardians of biological balance—they can suppress degenerative reactions in dying forests, calm aggressive overgrowth of pathogenic species, or restore nutrient cycles in degraded soil layers. Their presence is not perceived as dominance, but as correction—subtle, precise, and acting deeper than the senses can detect.
The cognitive system of Ros deus operates simultaneously in three domains:
Biological (body and reaction), Bioinformational (energy and data flow within the ecosystem), and Relational-emotive (empathetic sensing of tension and harmony in the surroundings).
Longevity here is not a result of halting aging but of actively managing every aspect of their biological structure and environmental context.
Ros deus do not reshape the world—they correct it, without disturbing its integrity. Their ethics, knowledge, and way of life are one. They are the final link in a chain that never severed its connection to soil, light, and the circulation of matter.