Data from: Zebrafish aggression on the sub-second time-scale: evidence for mutual motor coordination and multi-functional attack maneuvers
Most animals fight by repeating complex stereotypic behaviors, yet the internal structure of these behaviors has rarely been dissected in detail. We characterized the internal structure of fighting behaviors by developing a machine learning pipeline that measures and classifies the behavior of indiv...
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Zusammenfassung: | Most animals fight by repeating complex stereotypic behaviors, yet the
internal structure of these behaviors has rarely been dissected in detail.
We characterized the internal structure of fighting behaviors by
developing a machine learning pipeline that measures and classifies the
behavior of individual unmarked animals on a sub-second timescale. This
allowed us to quantify several previously hidden features of zebrafish
fighting strategies. We found strong correlations between the velocity of
the attacker and the defender indicating a dynamic matching of approach
and avoidance efforts. While velocity matching was ubiquitous, the spatial
dynamics of attacks showed phase-specific differences. Contest phase
attacks were characterized by a paradoxical sideways attraction of the
retreating animal towards the attacker suggesting that the defender
combines avoidance maneuvers with display-like maneuvers. Post-resolution
attacks lacked display-like features and the the defender was
avoidance-focused. From the perspective of the winner, game theory
modeling further suggested that highly energetically costly post
resolution attacks occurred because the winner was trying to increase its
relative dominance over the loser. Overall, the rich structure of
zebrafish motor coordination during fighting indicates a greater
complexity and layering of strategies than has previously been recognized. |
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DOI: | 10.5061/dryad.142q2vb |