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Subcritical escape waves in schooling fish.

Winnie Poel1,2, Bryan C Daniels3, Matthew M G Sosna4

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Summary
This summary is machine-generated.

Fish schools avoid critical transitions, staying subcritical to balance sensitivity and robustness. They adjust their proximity to criticality based on perceived environmental risk and noise.

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Area of Science:

  • Collective dynamics
  • Theoretical physics
  • Animal behavior

Background:

  • Theoretical physics suggests optimal information processing occurs near critical transitions.
  • However, the costs of criticality in noisy biological systems are often overlooked.
  • Living systems may benefit from proximity to critical points, like enhanced sensitivity.

Purpose of the Study:

  • To investigate whether fish schools operate near critical transitions.
  • To understand how environmental risk influences their proximity to criticality.
  • To explore the trade-offs between sensitivity and robustness in collective behavior.

Main Methods:

  • Analysis of startle cascades in fish schools.
  • Modeling of individual detection error costs (true and false alarms).
  • Quantification of distance to criticality in relation to perceived risk.

Main Results:

  • Fish school startle cascades are subcritical, not at maximal responsiveness.
  • The distance to criticality decreases as perceived environmental risk increases.
  • Subcriticality allows modulation of sensitivity and robustness based on environmental conditions.

Conclusions:

  • Fish schools manage a trade-off between sensitivity and robustness by being subcritical.
  • Modulating distance to criticality is a strategy for dealing with environmental risk and noise.
  • An individual-based, context-dependent view is crucial for understanding collective information processing.