Oxygen limitation may affect the temperature and size dependence of metabolism in aquatic ectotherms

Rubalcaba Juan G.; Verberk Wilco C. E. P.; Hendriks A. JanSaris BartWoods H. Arthur

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Oxygen limitation may affect the temperature and size dependence of metabolism in aquatic ectotherms

机译：Oxygen limitation may affect the temperature and size dependence of metabolism in aquatic ectotherms

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Both oxygen and temperature are fundamental factors determining metabolic performance, fitness, ecological niches, and responses of many aquatic organisms to climate change. Despite the importance of physical and physiological constraints on oxygen supply affecting aerobic metabolism of aquatic ectotherms, ecological theories such as the metabolic theory of ecology have focused on the effects of temperature rather than oxygen. This gap currently impedes mechanistic models from accurately predicting metabolic rates (i.e., oxygen consumption rates) of aquatic organisms and restricts predictions to resting metabolism, which is less affected by oxygen limitation. Here, we expand on models of metabolic scaling by accounting for the role of oxygen availability and temperature on both resting and active metabolic rates. Our model predicts that oxygen limitation is more likely to constrain metabolism in larger, warmer, and active fish. Consequently, active metabolic rates are less responsive to temperature than are resting metabolic rates, and metabolism scales to body size with a smaller exponent whenever temperatures or activity levels are higher. Results from a metaanalysis of fish metabolic rates are consistent with our model predictions. The observed interactive effects of temperature, oxygen availability, and body size predict that global warming will limit the aerobic scope of aquatic ectotherms and may place a greater metabolic burden on larger individuals, impairing their physiological performance in the future. Our model reconciles the metabolic theory with empirical observations of oxygen limitation and provides a formal, quantitative framework for predicting both resting and active metabolic rate and hence aerobic scope of aquatic ectotherms.

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《Proceedings of the National Academy of Sciences of the United States of America.》 |2020年第50期|31963-31968|共6页
作者
Rubalcaba Juan G.; Verberk Wilco C. E. P.; Hendriks A. JanSaris BartWoods H. Arthur;
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作者单位

Div Biol Sci,Univ Montana;

Inst Water & Wetland Res,Radboud Univ Nijmegen;

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收录信息美国《科学引文索引》(SCI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种英语
中图分类自然科学总论;
关键词
biophysical modeling; aerobic scope; fish; teleost; metabolic scaling; CLIMATE-CHANGE; THERMAL TOLERANCE; BODY-SIZE; IMPACTS; FISHES; BIOGEOGRAPHY; RESPONSES; MODELS; MASS;

Oxygen limitation may affect the temperature and size dependence of metabolism in aquatic ectotherms

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