On the Foundations of the Theory of Evolution

TL;DR

This paper introduces the CAP formalism, proposing a quantum-inspired model of evolution emphasizing potentiality and context-driven actualization, challenging traditional Darwinian materialistic views.

Contribution

It develops a novel formalism, CAP, that models evolution as potentiality actualization influenced by context, integrating quantum concepts into biological evolution theory.

Findings

CAP formalism handles potentiality and context in evolution.

Quantum evolution game illustrates differences from Darwinian theory.

Evolution as potentiality actualization is more fundamental than materialistic views.

Abstract

Darwinism conceives evolution as a consequence of random variation and natural selection, hence it is based on a materialistic, i.e. matter-based, view of science inspired by classical physics. But matter in itself is considered a very complex notion in modern physics. More specifically, at a microscopic level, matter and energy are no longer retained within their simple form, and quantum mechanical models are proposed wherein potential form is considered in addition to actual form. In this paper we propose an alternative to standard Neodarwinian evolution theory. We suggest that the starting point of evolution theory cannot be limited to actual variation whereupon is selected, but to variation in the potential of entities according to the context. We therefore develop a formalism, referred to as Context driven Actualization of Potential (CAP), which handles potentiality and describes the evolution of entities as an actualization of potential through a reiterated interaction with the context. As in quantum mechanics, lack of knowledge of the entity, its context, or the interaction between context and entity leads to different forms of indeterminism in relation to the state of the entity. This indeterminism generates a non-Kolmogorovian distribution of probabilities that is different from the classical distribution of chance described by Darwinian evolution theory, which stems from a 'actuality focused', i.e. materialistic, view of nature. We also present a quantum evolution game that highlights the main differences arising from our new perspective and shows that it is more fundamental to consider evolution in general, and biological evolution in specific, as a process of actualization of potential induced by context, for which its material reduction is only a special case.