Elsevier

Animal Behaviour

Volume 167, September 2020, Pages 55-64
Animal Behaviour

Behavioural lateralization in a detour test is not repeatable in fishes

https://doi.org/10.1016/j.anbehav.2020.06.025Get rights and content
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Highlights

  • Behavioural lateralization reportedly enhances many fitness-relevant traits.

  • Thus, negative effects of environmental stressors on lateralization are worrisome.

  • We develop and propose new statistical analyses to test for lateralization.

  • Lateralization in five fish species using a detour test was highly nonrepeatable.

  • Potential fitness benefits of lateralization must be tested using validated methods.

Behavioural lateralization, the asymmetric expression of cognitive functions, is reported to enhance key fitness-relevant traits such as group coordination, multitasking and predator escape. Therefore, studies reporting negative effects on lateralization in fish due to environmental stressors such as ocean acidification, hypoxia and pollutants are worrisome. However, such studies tend to use a detour test and focus on population level measures, without validating whether lateralization is consistent within individuals across time. We conducted a multispecies, international assessment of the repeatability (R) of lateralization in four previously studied fish species using a detour test (T-maze), a common method for testing lateralization. We also reanalysed a published data set on a fifth species using new statistical methods. We expected the three shoaling species to exhibit greater within-individual consistency in lateralization than their nonshoaling counterparts given previous reports of stronger lateralization in group-living fishes. Absolute and relative lateralization scores were highly nonrepeatable in all five species (0.01<R<0.08), irrespective of their shoaling status. We carefully reviewed 31 published studies in which the detour test was employed to examine lateralization in fish and identified statistical issues in all of them. We develop and propose new statistical analyses to test for population and individual level lateralization. The commonly used detour test does not appear to be appropriate for quantifying behavioural lateralization in fishes, calling into question functional inferences drawn by many published studies, including our own. Potential fitness benefits of lateralization and anthropogenic effects on lateralization as a proxy for adaptive brain functioning need to be assessed with alternative paradigms.

Keywords

behavioural plasticity
laterality
lateralization
repeatability
T-maze

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