# Biological Systems Depend on Communication Over Distances: A Review of the Fundamental Mechanisms, Associated challenges, and the Potential Effect of the Constrained Disorder Principle

**Authors:** Yaron Ilan

PMC · DOI: 10.1007/s10441-026-09515-w · Acta Biotheoretica · 2026-02-01

## TL;DR

This paper reviews how biological systems communicate over distances, exploring both established and speculative mechanisms.

## Contribution

It introduces the Constrained Disorder Principle as a novel theoretical framework for biological communication.

## Key findings

- Distance communication in biology is supported by mechanisms like diffusion and neural conduction.
- Claims about consciousness and morphic resonance lack verified evidence.
- The CDP offers a new perspective on variability within biological constraints.

## Abstract

Biological systems depend on communication over distances, ranging from molecular gradients to systemic neuroendocrine and neuroimmune circuits. While many distance effects in biology are explained by well-established mechanisms such as diffusion, paracrine signaling, neural conduction, and extracellular vesicle trafficking, there are also claims of long-distance influences that may be mediated by consciousness, electromagnetic fields, or hypothesized morphic fields. This review synthesizes controlled laboratory evidence, evaluates speculative mechanisms, including quantum field effects and morphic resonance, and compares them with well-replicated findings in immunology and bioelectromagnetics. The Constrained Disorder Principle (CDP) is a novel theoretical framework that posits variability within constraints as essential for biological function and may underlie some of these effects. The paper discusses the debate over methodological rigor and replicability in research on nonlocal biological effects. While evidence supports the importance of distance in biological communication through known carriers, claims regarding consciousness and morphic resonance remain unverified, despite challenges to their validity. Future research must strike a balance between openness and rigorous experimental standards.

## Full-text entities

- **Genes:** Gpt (glutamic pyruvic transaminase, soluble) [NCBI Gene 76282] {aka 1300007J06Rik, 2310022B03Rik, ALT, ALT1, Gpt-1, Gpt1}, Cux1 (cut-like homeobox 1) [NCBI Gene 13047] {aka CDP, Cutl1, Cux, Cux-1}
- **Diseases:** pain (MESH:D010146), Inflammation (MESH:D007249), Fisher (MESH:D019846)
- **Chemicals:** Water (MESH:D014867), ice (MESH:D007053)
- **Species:** Mus musculus (house mouse, species) [taxon 10090]

## Full text

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## Figures

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Source: https://tomesphere.com/paper/PMC12862024