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Ontogenetic Plasticity in Shoaling Behavior in a Forage Fish under Warming.

Fidji BerioCamille MorerodXuewei QiValentina Di Santo
Published in: Integrative and comparative biology (2023)
Shoaling behavior is known to increase survival rates during attacks from predators, minimize foraging time, favor mating, and potentially increase locomotor efficiency. The onset of shoaling typically occurs during the larval phase but it is unclear how it may improve across ontogenetic stages in forage fishes. Warming is known to increase metabolic rates during locomotion in solitary fish, and shoaling species may adjust their collective behavior to offset the elevated costs of swimming at higher temperatures. In this study, we quantified the effects of warming on shoaling performance across ontogeny of a small forage fish, zebrafish (Danio rerio) at different speeds. Shoals of larval, juvenile, and adult zebrafish were acclimated at two temperatures (28○C and 32○C), and metabolic rates were quantified prior and following non-exhaustive exercise at high speed. Shoals of 5 individuals were filmed in a flow tank to analyze kinematics of collective movement. We found that zebrafish improve shoaling swimming performance from larvae to juveniles to adults. In particular, shoals become more cohesive, and both tail beat frequency and head-to-tail amplitude decrease with ontogeny. Early life stages have higher thermal sensitivity in metabolic rates and tail beat frequency especially at high speeds, when compared to adults. Our study shows that shoaling behavior and thermal sensitivity improve as zebrafish shift from larval to juvenile to adult stages.
Keyphrases
  • high speed
  • early life
  • heart rate
  • physical activity
  • atomic force microscopy
  • spinal cord injury
  • blood pressure
  • childhood cancer
  • young adults
  • mass spectrometry