Neurochemical exposure disrupts sex-specific trade-offs between body length and behaviour in a freshwater crustacean

Eli S.J. Thoré, Luc Brendonck, Tom Pinceel

Research output: Contribution to journalArticlepeer-review

Abstract

Ongoing pollution of aquatic ecosystems with neurochemical compounds warrants an improved understanding of how this affects key organisms. Neurochemicals are shown to alter the behaviour of common study species but it remains difficult to translate these results to biologically meaningful predictions across taxa. This is partly because studies on species with non-generic life-history strategies such as many freshwater crustaceans are currently underrepresented. Here, we use a laboratory experiment to assess baseline behavioural variation (spontaneous activity level and geotaxic behaviour) in the freshwater fairy shrimp Branchipodopsis wolfi and how this is affected by chronic exposure to an environmentally-relevant concentration of the anxiolytic pharmaceutical fluoxetine. The more conspicuously coloured and larger females of the species were overall less active and more benthic than males. Moreover, amongst females, vertical activity was negatively associated with size, while an opposite relationship was found for males. These trade-offs are likely part of an antipredator strategy to reduce the probability of being detected by visual hunters, but disappeared after exposure to fluoxetine. This is of particular interest since it is an effective proof of principle that neurochemicals may impact ecologically-relevant trade-offs between conspicuous morphology and antipredator behaviour. In natural ecosystems, such disturbed antipredator behavioural responses could have far-reaching fitness consequences.

Original languageEnglish
Article number105877
JournalAquatic Toxicology
Volume237
DOIs
Publication statusPublished - Aug 2021
Externally publishedYes

Keywords

  • Activity
  • Anostraca
  • Fairy shrimp
  • Geotaxis
  • Pollution
  • Temporary ponds

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