Environmental and genetic influences on body mass and resting metabolic rates (RMR) in a natural population of weasel Mustela nivalis

Karol Zub, Stuart Piertney, Paulina A. Szafranska, Marek Konarzewski

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23 Citations (Scopus)


Body mass (BM) and resting metabolic rates (RMR) are two inexorably linked traits strongly related to mammalian life histories. Yet, there have been no studies attempting to estimate heritable variation and covariation of BM and RMR in natural populations. We used a marker-based approach to construct a pedigree and then the animal model to estimate narrow sense heritability (h2) of these traits in a free-living population of weasels Mustela nivalisa small carnivore characterised by a wide range of BM and extremely high RMR. The most important factors affecting BM of weasels were sex and habitat type, whereas RMR was significantly affected only by seasonal variation of this trait. All environmental factors had only small effect on estimates of additive genetic variance of both BM and RMR. The amount of additive genetic variance associated with BM and estimates of heritability were high and significant in males (h2 = 0.61), but low and not significant in females (h2 = 0.32), probably due to small sample size for the latter sex. The results from the two-trait model revealed significant phenotypic (rP = 0.62) and genetic correlation (rA = 0.89) between BM and whole body RMR. The estimate of heritability of whole body RMR (0.54) and BM corrected RMR (0.45) were lower than estimates of heritability for BM. Both phenotypic and genetic correlations between BM corrected RMR and BM had negative signals (rP = -0.42 and rA = -0.58). Our results indicate that total energy expenditures of individuals can quickly evolve through concerted changes in BM and RMR.

Original languageEnglish
Pages (from-to)1283-1293
Number of pages11
JournalMolecular Ecology
Issue number5
Early online date31 Jan 2012
Publication statusPublished - Mar 2012


  • animal model'
  • body mass
  • heritability
  • Mustela nivalis
  • resting metabolic rate
  • quantitative genetics
  • small mammals
  • temperature regulation
  • oxygen-consumption
  • energy-expenditure
  • Phyllotis-Darwini
  • sexual-dimorphism
  • small carnivore
  • mus-musculus
  • wild


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