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Inferring Whole-Organism Metabolic Rate From Red Blood Cells in Birds. | LitMetric

Inferring Whole-Organism Metabolic Rate From Red Blood Cells in Birds.

Front Physiol

Research Group for Evolutionary Physiology, Max Planck Institute for Ornithology, Seewiesen, Germany.

Published: July 2021

AI Article Synopsis

  • Metabolic rate is crucial for understanding energy use in organisms, but traditional measurement methods can cause stress, potentially skewing results.
  • New techniques to measure cellular metabolic rate (cMR) from blood samples promise a less invasive way to assess aerobic performance in free-living animals.
  • In a study of great tits, researchers found that cMR decreased with activity level changes and showed a positive correlation with whole-organism metabolic rate (woMR) under low-stress conditions.

Article Abstract

Metabolic rate is a key ecological variable that quantifies the energy expenditure needed to fuel almost all biological processes in an organism. Metabolic rates are typically measured at the whole-organism level (woMR) with protocols that can elicit stress responses due to handling and confinement, potentially biasing resulting data. Improved, non-stressful methodology would be especially valuable for measures of field metabolic rate, which quantifies the energy expenditure of free-living individuals. Recently, techniques to measure cellular metabolic rate (cMR) in mitochondria of blood cells have become available, suggesting that blood-based cMR can be a proxy of organismal aerobic performance. Aerobic metabolism actually takes place in the mitochondria. Quantifying cMR from blood samples offers several advantages such as direct estimates of metabolism and minimized disturbance of individuals. To our knowledge, the hypothesis that blood-based cMR correlates with woMR has not yet been directly tested. We measured cMR in red blood cells of captive great tits (), first during their morning activity period and second after subjecting them to a 2.5 h day-time respirometry protocol to quantify woMR. We predicted cMR to decrease as individuals transitioned from an active to a resting state. In the two blood samples we also assessed circulating corticosterone concentrations to determine the perceived disturbance of individuals. From respirometry traces we extracted initial and final woMR measures to test for a predicted positive correlation with cMR measures, while accounting for corticosterone concentrations. Indeed, cMR declined from the first to the second measurement. Furthermore, woMR and cMR were positively related in individuals that had relatively low corticosterone concentrations and displayed little locomotor activity throughout respirometry. By contrast, woMR and cMR covaried negatively in birds that increased corticosterone concentrations and activity levels substantially. Our results show that red blood cell cMR represents a proxy for woMR when birds do not display signs of stress, i.e., either before increases in hormonal or behavioral parameters have occurred or after they have abated. This method represents a valuable tool for obtaining metabolic data repeatedly and in free-living individuals. Our findings also highlight the importance of accounting for individual stress responses when measuring metabolic rate at any level.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8322697PMC
http://dx.doi.org/10.3389/fphys.2021.691633DOI Listing

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