Ocean acidification slows retinal function in a damselfish through interference with GABAA receptors

Vision is one of the most efficient senses used by animals to catch prey and avoid predators. Therefore, any deficiency in the visual system could have important consequences for individual performance. We examined the effect of CO2 levels projected to occur by the end of this century on retinal res...

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Bibliographic Details
Published in:Journal of Experimental Biology
Main Authors: Chung, Wen-Sung, Marshall, N. Justin, Watson, Sue-Ann, Munday, Philip L., Nilsson, Goran E.
Format: Article in Journal/Newspaper
Language:English
Published: The Company of Biologists Ltd. 2014
Subjects:
Carbon dioxide
Coral reef
Electroretinogram
Flicker fusion frequency
Vision
1103 Clinical Sciences
1104 Complementary and Alternative Medicine
1105 Dentistry
1109 Neurosciences
1312 Molecular Biology
1314 Physiology
Ocean acidification
Online Access:https://espace.library.uq.edu.au/view/UQ:324596
Description
Summary:Vision is one of the most efficient senses used by animals to catch prey and avoid predators. Therefore, any deficiency in the visual system could have important consequences for individual performance. We examined the effect of CO2 levels projected to occur by the end of this century on retinal responses in a damselfish, by determining the threshold of its flicker electroretinogram (fERG). The maximal flicker frequency of the retina was reduced by continuous exposure to elevated CO2, potentially impairing the capacity of fish to react to fast events. This effect was rapidly counteracted by treatment with a GABA antagonist (gabazine), indicating that GABAA receptor function is disrupted by elevated CO2. In addition to demonstrating the effects of elevated CO2 on fast flicker fusion of marine fishes, our results show that the fish retina could be a model system to study the effects of high CO2 on neural processing.

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