Data from: Mammalian metabolic allometry: do intraspecific variation, phylogeny, and regression models matter?
Power scaling relationships between body mass and organismal traits are fundamental to biology. Compilations of mammalian masses and basal metabolic rates date back over a century and are used both to support and to assail the universal quarter‐power scaling invoked by the metabolic theory of ecolog...
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Zusammenfassung: | Power scaling relationships between body mass and organismal traits are
fundamental to biology. Compilations of mammalian masses and basal
metabolic rates date back over a century and are used both to support and
to assail the universal quarter‐power scaling invoked by the metabolic
theory of ecology. However, the slope of this interspecific allometry is
typically estimated without accounting for intraspecific variation in body
mass or phylogenetic constraints on metabolism. We returned to the
original literature and culled nearly all unique measurements of body mass
and basal metabolism for 695 mammal species and (1) phylogenetically
corrected the data using the fullest available phylogeny, (2) applied
several different regression analyses, (3) resampled regressions by
drawing randomly selected species from each of the polytomies in the
phylogenetic hypothesis at each iteration, and (4) ran these same analyses
independently on separate clades. Overall, 95% confidence intervals of
slope estimates frequently did not include 0.75, and clade‐specific slopes
varied from 0.5 to 0.85, depending on the clade and regression model. Our
approach reveals that the choice of analytical model has a systematic
influence on the estimated allometry, but irrespective of the model
applied, we find little support for a universal metabolic rate–body mass
scaling relationship. |
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DOI: | 10.5061/dryad.712 |