野生小鼠静息和最大代谢率的个体(Co)变化。

IF 1.8 3区 生物学 Q3 PHYSIOLOGY
Alyssa Fiedler, Vincent Careau
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引用次数: 4

摘要

【摘要】基础代谢率(BMR)是在热中性区域内测量的静息、吸收后吸热动物的最低有氧代谢水平。而最大代谢率([公式:见文]max)则反映了剧烈运动时有氧代谢的上限。由于BMR和[公式:见文]max定义了常温个体可能表达的有氧代谢水平的界限,关键问题是BMR和[公式:见文]max是否相关。在本研究中,我们对165只白足小鼠(Peromyscus leucopus)进行了热中性静息代谢率(RMRt)和[公式:见文]max的重复配对测量。在一个夏季(5 - 10月),RMRt和[公式:见文本]max([公式:见文本])的重复性(R±SE)都很低,但具有统计学意义([公式:见文本]);[公式:见文本]max =[公式:见文本]。在强迫运动试验期间,跑步的意愿也具有显著的可重复性(公式:见文本)。在残差水平(个体内),RMRt与[公式:见文]max呈显著正相关([公式:见文],[公式:见文]),表明存在相关表型可塑性。而RMRt与[公式:见文]max在个体间水平呈显著负相关([公式:见文])。在某种程度上,RMRt的变化反映了BMR的变化,个体之间的负相关并不能证实需要昂贵的代谢机制来支持高[公式:见文本]max的观点。未来的研究应该调查RMRt(和BMR)与其他能量昂贵的行为和活动之间的(遗传)关系,以更好地了解能量是如何在个体内分配的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Individual (Co)variation in Resting and Maximal Metabolic Rates in Wild Mice.

AbstractBasal metabolic rate (BMR) represents the lowest level of aerobic metabolism in a resting, postabsorptive endotherm as measured within the thermoneutral zone. By contrast, maximal metabolic rate ([Formula: see text]max) reflects the upper limit of aerobic metabolism achieved during intensive exercise. As BMR and [Formula: see text]max define the boundaries of the possible levels of aerobic metabolism expressed by a normothermic individual, a key question is whether BMR and [Formula: see text]max are correlated. In the present study, we took repeated paired measurements of thermoneutral resting metabolic rate (RMRt) and [Formula: see text]max on 165 white-footed mice (Peromyscus leucopus). Over a single summer (May-October), repeatability (R ± SE) was low but statistically significant ([Formula: see text]) for both RMRt and [Formula: see text]max ([Formula: see text] for RMRt; [Formula: see text] for [Formula: see text]max). Willingness to run during the forced-exercise trials was also significantly repeatable ([Formula: see text]). At the residual level (within individual), RMRt and [Formula: see text]max tended to be positively correlated ([Formula: see text], [Formula: see text]), suggesting the presence of correlated phenotypic plasticity. By contrast, RMRt and [Formula: see text]max were significantly negatively correlated at the among-individual level ([Formula: see text]). To the extent that variation in RMRt reflects variation in BMR, the negative among-individual correlation does not corroborate the idea that a costly metabolic machinery is needed to support a high [Formula: see text]max. Future research should investigate the (genetic) relationship between RMRt (and BMR) and other energetically expensive behaviors and activities to better understand how energy is allocated within individuals.

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来源期刊
CiteScore
3.20
自引率
6.20%
发文量
62
审稿时长
6-12 weeks
期刊介绍: Physiological and Biochemical Zoology: Ecological and Evolutionary Approaches primarily publishes original research in animal physiology and biochemistry as considered from behavioral, ecological, and/or evolutionary perspectives. Studies at all levels of biological organization from the molecular to the whole organism are welcome, and work that integrates across levels of organization is particularly encouraged. Studies that focus on behavior or morphology are welcome, so long as they include ties to physiology or biochemistry, in addition to having an ecological or evolutionary context. Subdisciplines of interest include nutrition and digestion, salt and water balance, epithelial and membrane transport, gas exchange and transport, acid-base balance, temperature adaptation, energetics, structure and function of macromolecules, chemical coordination and signal transduction, nitrogen metabolism and excretion, locomotion and muscle function, biomechanics, circulation, behavioral, comparative and mechanistic endocrinology, sensory physiology, neural coordination, and ecotoxicology ecoimmunology.
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