From Function to Whole: How RA Issues Instances
From Function to Whole:
How RA Issues Instances in AR**
A New Clarification on the Origin of Wholeness
Abstract
A persistent confusion in biology, philosophy, and systems theory concerns the origin of wholeness: how an organism, instance, or unified system comes into existence without being assembled from pre-existing parts. Through a joint philosophical–biological analysis, this article clarifies a crucial distinction between functions, conditions, parts, and wholes, and demonstrates that functions precede wholes, whereas parts do not. This result aligns precisely with the Instancological transition from RA (Relatively Absolute) to AR (Absolute Relative). The Whole appears at the moment of functional closure, not at the accumulation of components. Parts emerge only afterward, as internal differentiations of an already-existing Whole.
1. The Problem of Wholeness
Standard explanations of biological and natural formation implicitly assume a parts-first ontology:
parts → assembly → whole
This assumption appears in:
mechanical metaphors of life,
Intelligent Design arguments,
na?ve interpretations of evolution,
and reductionist readings of DNA.
Yet empirical cases—zygote formation, seed germination, and early embryogenesis—consistently contradict this picture. No organism is ever observed to be constructed by assembling pre-existing organismal parts.
The central question, therefore, is not how parts assemble, but:
At what stage, and in what sense, does the Whole first appear?
2. Conditions vs. Functions: A Necessary Distinction
The term condition is often used too broadly, masking critical ontological differences.
2.1 External enabling conditions
Examples:
water
nutrients
temperature
These enable processes but do not participate in regulation. They neither carry function nor impose internal constraints. Water enables growth, but does not determine what grows.
2.2 Functional prerequisites (pre-Whole)
Eggs, sperm, and seeds are not mere conditions. They possess functions:
genome delivery,
cytoplasmic regulation,
metabolic activation,
developmental triggering.
However, these functions are externally oriented. They serve reproduction or continuation of a prior organism. They do not yet constitute an autonomous system.
Thus, a crucial insight emerges:
Functions can exist before the Whole, but organismal parts cannot.
3. The Emergence of the Whole: Functional Closure
The Whole appears not gradually, and not by accumulation, but at a precise ontological transition:
When previously external functions become internally closed and self-referential.
This moment is observable across domains:
Zygote: fertilization produces a self-regulating organism, even though no new material parts are added.
Seed: the seed already exists as a whole; water merely releases its dynamics.
Origin of life: the first Whole appears when chemical functions close into self-maintenance.
This transition introduces:
self-reference,
internal regulation,
constraint of future states.
At this moment, the Whole exists.
4. Why Parts Come Later
Parts are not ontological primitives. They are roles defined within a Whole.
Before the Whole:
there is no heart,
no leaf,
no neuron,
no “part” in any organismal sense.
After the Whole:
differentiation occurs,
roles specialize,
structures stabilize.
Hence the correct order is:
functions → functional closure → Whole → parts
This reverses the dominant mechanical intuition.
5. Alignment with Instancology: RA → AR
This conclusion maps precisely onto the Instancological framework.
5.1 RA: Functional, formless realities
RA contains:
laws,
logic,
mathematics,
life.
These are non-representational, non-instantiated, and functional. They are not things; they are constraints.
RA does not contain Wholes.
5.2 Issuance into AR
When RA-level functions close upon themselves, an instance appears.
This is the exact point at which:
a zygote becomes an organism,
a seed is already a plant-instance,
life first appears in the universe.
Thus:
RA provides functions without instances;
AR begins when those functions close into a Whole.
5.3 Parts as AR-internal phenomena
Only after AR exists do we see:
organs,
tissues,
subsystems,
parts.
Parts are derivative, not foundational.
6. Consequences
This clarification resolves multiple confusions:
Against assembly metaphysics
Wholes are not constructed from parts.
Against blueprint teleology
No design plan is consulted.
Against DNA reductionism
Sequence alone does not regulate.
Against RR-origin myths
RR structures cannot generate Wholes.
For Instancology
The RA → AR issuance principle is independently rediscovered through biology.
7. Canonical Statement
Functions precede the Whole, but parts do not.
When functions close upon themselves, an AR instance appears.
Only afterward do parts emerge within that Whole.
8. Conclusion
What appears as “design” in nature is neither foresight nor assembly. It is constraint crystallized through closure. The Whole is not the end product of organization; it is the ontological starting point of organization.
This article establishes, with precision, the stage at which Wholeness appears—and why it could not appear earlier or later.