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Ocean Acidification Alters the Acute Stress Response of a Marine Fish

pmid: 36349621
Ocean Acidification Alters the Acute Stress Response of a Marine Fish
The absorption of anthropogenic carbon dioxide from the atmosphere by oceans generates rapid changes in seawater carbonate system and pH, a process termed ocean acidification. Exposure to acidified water can impact the allostatic load of marine organism as the acclimation to suboptimal environments requires physiological adaptive responses that are energetically costly. As a consequence, fish facing ocean acidification may experience alterations of their stress response and a compromised ability to cope with additional stress, which may impact individuals' life traits and ultimately their fitness. In this context, we carried out an integrative study investigating the impact of ocean acidification on the physiological and behavioral stress responses to an acute stress in juvenile European sea bass. Fish were long term (11 months) exposed to present day pH/CO2 condition or acidified water as predicted by IPCC "business as usual" (RCP8.5) scenario for 2100 and subjected to netting stress (fish transfer and confinement test). Fish acclimated to acidified condition showed slower post stress return to plasma basal concentrations of cortisol and glucose. We found no clear indication of regulation in the central and interrenal tissues of the expression levels of gluco- and mineralocorticoid receptors and corticoid releasing factor. At 120 min post stress, sea bass acclimated to acidified water had divergent neurotransmitters concentrations pattern in the hypothalamus (higher serotonin levels and lower GABA and dopamine levels) and a reduction in motor activity. Our experimental data indicate that ocean acidification alters the physiological response to acute stress in European sea bass via the neuroendocrine regulation of the corticotropic axis, a response associated to an alteration of the motor behavioral profile. Overall, this study suggests that behavioral and physiological adaptive response to climate changes related constraints may impact fish resilience to further stressful events.
[SDE] Environmental Sciences, 570, Oceans and Seas, Climate Change, 150, Phenotypic plasticity, 551, 333, Climate change, Animals, Seawater, European sea bass, Climate change;Allostatic load;Phenotypic plasticity;European sea bass;Corticotropic axis;Neuroendocrine control and behavior, Corticotropic axis, Neuroendocrine control and behavior, Water, Hydrogen-Ion Concentration, Carbon Dioxide, Allostatic load, [SDE]Environmental Sciences, Bass
[SDE] Environmental Sciences, 570, Oceans and Seas, Climate Change, 150, Phenotypic plasticity, 551, 333, Climate change, Animals, Seawater, European sea bass, Climate change;Allostatic load;Phenotypic plasticity;European sea bass;Corticotropic axis;Neuroendocrine control and behavior, Corticotropic axis, Neuroendocrine control and behavior, Water, Hydrogen-Ion Concentration, Carbon Dioxide, Allostatic load, [SDE]Environmental Sciences, Bass
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