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1 November 2002 PHYLOGENY AFFECTS ESTIMATION OF METABOLIC SCALING IN MAMMALS
Matthew R. E. Symonds, Mark A. Elgar
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Abstract

The relationship between body size and metabolic rate is a crucial issue in organismal biology and evolution. There has been considerable debate over whether the scaling exponent of the relationship is 0.75 (Kleiber's Law) or 0.67. Here we show that determination of this exponent for mammals depends on both the evolutionary tree and the regression model used in the comparative analysis. For example, more recent molecular-based phylogenies tend to support a 0.67 exponent, whereas older phylogenies, mostly based on morphological data, suggest a 0.75 exponent. However, molecular phylogenies yield more variable results than morphological phylogenies and thus are not currently helping to resolve the issue.

Matthew R. E. Symonds and Mark A. Elgar "PHYLOGENY AFFECTS ESTIMATION OF METABOLIC SCALING IN MAMMALS," Evolution 56(11), 2330-2333, (1 November 2002). https://doi.org/10.1554/0014-3820(2002)056[2330:PAEOMS]2.0.CO;2
Received: 19 July 2002; Accepted: 7 August 2002; Published: 1 November 2002
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KEYWORDS
body size
comparative method
independent contrasts
Kleiber's Law
metabolic rate
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