Abstract
Climate change is warming the world’s oceans at an unprecedented rate. Under predicted end-of-century temperatures, many teleosts show impaired development and altered critical behaviors, including behavioral lateralisation. Since laterality is an expression of brain functional asymmetries, changes in the strength and direction of lateralisation suggest that rapid climate warming might impact brain development and function. However, despite the implications for cognitive functions, the potential effects of elevated temperature in lateralisation of elasmobranch fishes are unknown. We incubated and reared Port Jackson sharks at current and projected end-of-century temperatures and measured preferential detour responses to left or right. Sharks incubated at elevated temperature showed stronger absolute laterality and were significantly biased towards the right relative to sharks reared at current temperature. We propose that animals reared under elevated temperatures might have more strongly lateralized brains to cope with deleterious effects of climate change on brain development and growth. However, far more research in elasmobranch lateralisation is needed before the significance of these results can be fully comprehended. This study provides further evidence that elasmobranchs are susceptible to the effects of future ocean warming, though behavioral mechanisms might allow animals to compensate for some of the challenges imposed by climate change.
Highlights
Climate change has been identified as one of the major human-induced environmental impacts to ecosystems worldwide [1]
We examined the possible effect of age within the control group and found no relationship between age at testing and laterality index (LI) (d.f. = 10, t = −0.06, P = 0.953, R2 = 0.00036)
Vila Pouca and Brown [26] observed high individual variation in laterality in wild-caught juvenile Port Jackson sharks similar to our control group, suggesting the results from our sharks reared at current ocean temperature in captivity reflect those in wild populations and were not influenced by captive rearing
Summary
Climate change has been identified as one of the major human-induced environmental impacts to ecosystems worldwide [1]. The average temperature of the upper layers of the ocean has increased by. Levels have reached historically high levels [3]. Such rapid changes in important environmental parameters will considerably impact marine ecosystems. Elevated temperatures and CO2 levels in the ocean can significantly impair sensory functions and alter critical behavior in teleost fish and elasmobranchs. Coral reef fish and benthic sharks exposed to elevated CO2 levels showed impaired olfactory and auditory responses, important for predator/prey recognition and homing behavior [4,5,6,7,8,9]. Ectotherms are especially vulnerable to global warming because their body temperature and basic physiological functions are regulated by the external environment
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