Starostová Zuzana, Kubicka Lukás, Konarzewski Marek, Kozłowski Jan, Kratochvíl Lukás
Department of Zoology, Faculty of Science, Charles University in Prague, 12844 Prague 2, Czech Republic.
Am Nat. 2009 Sep;174(3):E100-5. doi: 10.1086/603610.
The metabolic theory of ecology (MTE) predicts the ubiquity of the of 3/4 scaling exponent relating metabolic rate (MR) to body mass, as well as cell-size invariance coupled with body-size dependence of cellular MR in quickly dividing cells. An alternative prediction is that MR scales interspecifically with a coefficient that is between 2/3 and 1, depending on the cell size and cell MR, which is mostly driven by the cell surface-to-volume ratio. We tested (1) the contribution of cell size to interspecific differences in MR and (2) whether the cell size-MR relationship is mediated by genome size (GS), which usually correlates positively with cell size. We tested (1) and (2) using erythrocyte area as a proxy for cell size in 14 eyelid geckos, which belong to a monophyletic group exhibiting large body-size variation. The scaling of standard MR (SMR) was significantly lower than 3/4, whereas mass-specific SMR correlated with erythrocyte area in both phylogenetically adjusted and conventional analyses. This points to cell-size variation as the factor governing metabolic rate scaling, which questions predictions of the MTE. However, the nonsignificance of the correlation between mass-specific SMR and GS undermines the strength of the relation between GS and cell size, at least in these species.
生态学代谢理论(MTE)预测,代谢率(MR)与体重之间普遍存在3/4的标度指数关系,以及在快速分裂的细胞中细胞大小不变与细胞MR的体重依赖性相关。另一种预测是,种间MR的标度系数在2/3至1之间,这取决于细胞大小和细胞MR,这主要由细胞表面积与体积之比驱动。我们测试了(1)细胞大小对种间MR差异的贡献,以及(2)细胞大小与MR的关系是否由基因组大小(GS)介导,基因组大小通常与细胞大小呈正相关。我们以红细胞面积作为细胞大小的指标,在14种睑虎中测试了(1)和(2),这些睑虎属于一个表现出较大体型变化的单系类群。标准MR(SMR)的标度显著低于3/4,而在系统发育调整分析和传统分析中,质量特异性SMR均与红细胞面积相关。这表明细胞大小变化是控制代谢率标度的因素,这对MTE的预测提出了质疑。然而,质量特异性SMR与GS之间的相关性不显著,削弱了GS与细胞大小之间关系的强度至少在这些物种中是如此。
