The effect of ocean warming on black sea bass (Centropristis striata) aerobic scope and hypoxia tolerance
Autor: | Daniel Wieczorek, Beth Phelan, Alyssa Andres, Brad A. Seibel, Grace Saba, Rachael Young, John Rosendale, Vincent S. Saba, Emily Slesinger |
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Rok vydání: | 2018 |
Předmět: |
030110 physiology
0106 biological sciences 0301 basic medicine Physiology Effects of global warming on oceans Adaptation Biological Marine and Aquatic Sciences Oceanography Global Warming 01 natural sciences Biochemistry Medicine and Health Sciences Marine Fish Black sea Centropristis Hypoxia Multidisciplinary geography.geographical_feature_category biology Eukaryota Hypoxia (environmental) Oxygen Metabolism Chemistry Black Sea Physical Sciences Vertebrates Medicine Seasons Research Article Chemical Elements Fish Biology Oceans and Seas Science Marine Biology 010603 evolutionary biology Acclimatization 03 medical and health sciences Oxygen Consumption Fish physiology Animal science Sea Water Fish Physiology Animal Physiology Animals Ocean Temperature Swimming geography Biological Locomotion Continental shelf Ecology and Environmental Sciences Organisms Correction Biology and Life Sciences Aquatic Environments biology.organism_classification Marine Environments Vertebrate Physiology Oxygen Sea surface temperature Metabolism Fish Basal metabolic rate Earth Sciences Environmental science Bass Seawater Basal Metabolism Zoology |
Zdroj: | PLoS ONE PLoS ONE, Vol 14, Iss 6, p e0218390 (2019) |
Popis: | Over the last decade, ocean temperature in the U.S. Northeast Continental Shelf (U.S. NES) has warmed faster than the global average and is associated with observed distribution changes of the northern stock of black sea bass (Centropristis striata). Mechanistic models based on physiological responses to environmental conditions can improve future habitat suitability projections. We measured maximum, resting metabolic rate, and hypoxia tolerance (Scrit) of the northern adult black sea bass stock to assess performance across the known temperature range of the species. A subset of individuals was held at 30°C for one month (30chronic°C) prior to experiments to test acclimation potential. Absolute aerobic scope (maximum – resting metabolic rate) reached a maximum of 367.21 mgO2 kg−1 hr−1 at 24.4°C while Scrit continued to increase in proportion to resting metabolic rate up to 30°C. The 30chronic°C group had a significant decrease in maximum metabolic rate and absolute aerobic scope but resting metabolic rate or Scrit were not affected. This suggests a decline in performance of oxygen demand processes (e.g. muscle contraction) beyond 24°C despite maintenance of oxygen supply. The Metabolic Index, calculated from Scrit as an estimate of potential aerobic scope, closely matched the measured factorial aerobic scope (maximum / resting metabolic rate) and declined with increasing temperature to a minimum below 3. This may represent a critical value for the species. Temperature in the U.S. NES is projected to increase above 24°C in the southern portion of the northern stock’s range. Therefore, these black sea bass will likely continue to shift north as the ocean continues to warm. |
Databáze: | OpenAIRE |
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