Molecular, behavioral, and performance responses of juvenile largemouth bass acclimated to an elevated carbon dioxide environment

Molecular, behavioral, and performance responses of juvenile largemouth bass acclimated to an elevated carbon dioxide environment

Aquatic hypercarbia, either naturally occurring or anthropogenically induced, can have extensive impacts on aquatic environments and resident organisms. While the impact of acute hypercarbia exposure on the behavior and physiology of fishes has been well studied, relatively little work has examined...

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Bibliographic Details
Published in:Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology Vol. 186; no. 3; pp. 297 - 311
Main Authors: Dennis, Clark E., Adhikari, Shivani, Wright, Adam W., Suski, Cory D.
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-04-2016
Springer Nature B.V
Subjects:
Acclimatization
Animal Physiology
Animals
Anthropogenic factors
Aquatic environment
Bass
Bass - physiology
Behavior
Behavior, Animal - physiology
Biochemistry
Biomedical and Life Sciences
Biomedicine
Carbon Dioxide
Climate change
Erythrocytes
Fish Proteins - genetics
Freshwater
Gene Expression Regulation
Genes, fos
HSP70 Heat-Shock Proteins - genetics
Human Physiology
Hydrocortisone - blood
Lactic Acid - blood
Life Sciences
Metabolism
Micropterus salmoides
Original Paper
Physiology
Sodium - blood
Swimming
Zoology
Hypercarbia
Invasive species
Behavior
Performance
Stress
Acclimation
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Summary:Aquatic hypercarbia, either naturally occurring or anthropogenically induced, can have extensive impacts on aquatic environments and resident organisms. While the impact of acute hypercarbia exposure on the behavior and physiology of fishes has been well studied, relatively little work has examined the physiological impact and acclimation capacity of fishes to chronic hypercarbia. To better understand the impacts of prolonged hypercarbia exposure, largemouth bass were held at ambient CO 2 (13 mg L −1 ) and elevated CO 2 (31 mg L −1 ; ≈21,000 µatm) for 58 days. Following this acclimation period, fish were subjected to three separate, yet complementary, experiments: (1) acute hypercarbia challenge of 120 mg L −1 CO 2 for 1 h to quantify physiological and molecular responses; (2) hypercarbia avoidance challenge to compare CO 2 agitation and avoidance responses; and (3) swim performance challenge to quantify burst swimming performance. Acclimation to 31 mg L −1 CO 2 resulted in a significant constitutive upregulation of c - fos expression in erythrocytes, combined with significant constitutive expression of hsp70 in both gill and erythrocytes, relative to controls. Largemouth bass acclimated to elevated CO 2 also had a reduced glucose response (relative to controls) following an acute CO 2 exposure, indicating a reduced stress response to CO 2 stressors. In addition, largemouth bass acclimated to elevated CO 2 conditions required 50 % higher CO 2 concentrations to illicit agitation behaviors and displayed prolonged burst swimming abilities in high CO 2 environments relative to controls. Together, results demonstrate that largemouth bass exposed to chronic hypercarbia may possess a physiological advantage during periods of elevated CO 2 relative to naïve fish, which may permit increased performance in hypercarbia.
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ISSN:0174-1578
1432-136X
DOI:10.1007/s00360-016-0958-4