English

Algorithmic bottlenecks in evolution: Genetic code, symbolic language, and the Great Filter hypothesis

Populations and Evolution 2026-05-07 v1

Abstract

The Great Filter hypothesis proposes that the emergence of technological societies capable of interstellar travel depends on a small number of exceptionally hard and highly improbable steps. Traditional versions of this hypothesis enumerate such "hard steps" along the trajectory from inanimate matter to complex technological societies, but diverge in their explanations for why these particular steps should be so improbable. The theory of Major Evolutionary Transitions also faces challenges in identifying which steps should be considered universally "hard" across different evolutionary pathways. In contrast, we argue that two deeply structural obstacles dominate the evolutionary landscape: the coding threshold associated with the origin of the genetic code, and the language threshold associated with the emergence of symbolic communication. We examine the developmental precursors of both transitions and analyze the underlying algorithmic bottlenecks: points at which evolving systems separate code from function, while entangling them within information hierarchies. Using a game-theoretic analysis of coupled signaling and coordination dynamics, we then argue that the corresponding multichannel games exhibit unstable equilibria that render the transitions intrinsically difficult. We conjecture that the so-called Great Filter is best understood not as a sequence of isolated improbable events, but as a nested structure of tangled information hierarchies. Under this interpretation, the rarity of advanced societies follows from the difficulty of crossing these coding thresholds in a competitive noisy environment. This perspective reframes the Great Filter as an algorithmic property of evolving systems, highlighting why only a vanishingly small fraction of life may ever traverse the path toward technological societies capable of interstellar travel.

Keywords

Cite

@article{arxiv.2605.04498,
  title  = {Algorithmic bottlenecks in evolution: Genetic code, symbolic language, and the Great Filter hypothesis},
  author = {Mikhail Prokopenko and Nihat Ay and Angelica Breviario and Roland M. Crocker and Paul C. W. Davies and Pauline Davies and Darren Dougan and Roland Fletcher and Michael Harré and Marcus G. Heisler and Zdenka Kuncic and Geraint F. Lewis and Ori Livson and Vivienne Reiner and Jaime Ruiz Serra},
  journal= {arXiv preprint arXiv:2605.04498},
  year   = {2026}
}

Comments

21 pages, 1 table

R2 v1 2026-07-01T12:52:09.679Z