Information-based fitness and the emergence of criticality in living systems

TL;DR

This paper demonstrates that living systems can self-tune to a critical state to optimize adaptability and coordination in complex environments, using tools from statistical mechanics and information theory.

Contribution

It introduces a theoretical framework showing how adaptive systems naturally evolve towards criticality to handle environmental complexity effectively.

Findings

Systems operate near critical points in complex environments.

Co-evolution enhances convergence to criticality.

Criticality balances accuracy and flexibility.

Abstract

Empirical evidence suggesting that living systems might operate in the vicinity of critical points, at the borderline between order and disorder, has proliferated in recent years, with examples ranging from spontaneous brain activity to flock dynamics. However, a well-founded theory for understanding how and why interacting living systems could dynamically tune themselves to be poised in the vicinity of a critical point is lacking. Here we employ tools from statistical mechanics and information theory to show that complex adaptive or evolutionary systems can be much more efficient in coping with diverse heterogeneous environmental conditions when operating at criticality. Analytical as well as computational evolutionary and adaptive models vividly illustrate that a community of such systems dynamically self-tunes close to a critical state as the complexity of the environment increases while they remain non-critical for simple and predictable environments. A more robust convergence to criticality emerges in co-evolutionary and co-adaptive set-ups in which individuals aim to represent other agents in the community with fidelity, thereby creating a collective critical ensemble and providing the best possible trade-off between accuracy and flexibility. Our approach provides a parsimonious and general mechanism for the emergence of critical-like behavior in living systems needing to cope with complex environments or trying to efficiently coordinate themselves as an ensemble.