Resting Metabolic Rate Does Not Predict Peak Metabolic Rate in the Glanville Fritillary Butterfly.

IF 2.2 3区 生物学 Q1 ZOOLOGY Integrative and Comparative Biology Pub Date : 2024-09-17 DOI:10.1093/icb/icae085
Kristjan Niitepõld
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Abstract

Peak metabolic rate reflects maximal performance and may have direct fitness consequences, whereas resting metabolic rate (RMR) represents the maintenance cost of the whole animal. These traits may be linked, which has significant implications for the evolution of both traits. In vertebrates, a positive correlation between RMR and aerobic capacity has been proposed to explain the origin of endothermy. However, as studies on the relationship between RMR and aerobic capacity have focused on vertebrates, we know much less about these traits in ectothermic insects. I measured RMR in the Glanville fritillary butterfly (Melitaea cinxia) using two configurations: one optimized for measuring flight metabolic rate and the other optimized for RMR. The relationship between RMR and body mass was similar for the two configurations. Body mass explained 82% of the variation in RMR when it was measured using the "flight" configuration at 32°C, and 91% when using the "rest" configuration at 23°C. The Q10 coefficient calculated based on the two RMR measurements was 2.8. Mass-independent RMR was positively correlated between measurements obtained using the two instrument configurations. However, neither measure of RMR was correlated with peak metabolic rate, which indicates that RMR cannot be used as a surrogate measure for aerobic capacity in the Glanville fritillary. Ectothermic insects may be able to combine high metabolic capacity with no apparent increase in maintenance cost. Even though RMR is among the most frequently measured physiological variables, it may have limited predictive power when it comes to questions related to activity or aerobic capacity, or in the case of butterflies, flight performance.

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静息代谢率无法预测格兰维尔蝶的峰值代谢率
峰值代谢率反映了动物的最大表现,可能会直接影响动物的适应性,而静息代谢率则代表了整个动物的维持成本。这些性状可能是相互关联的,这对这两种性状的进化具有重要影响。在脊椎动物中,静息代谢率与有氧能力之间的正相关性被认为是内热起源的原因。然而,由于对静止代谢率和有氧能力之间关系的研究主要集中在脊椎动物身上,我们对外温性昆虫这些特征的了解要少得多。我使用两种配置测量了格兰维尔凤蝶(Melitaea cinxia)的代谢率:一种优化用于测量飞行代谢率,另一种优化用于测量静止代谢率。在两种配置下,RMR 与体重之间的关系相似。在 32°C 温度下使用 "飞行 "配置测量 RMR 时,体重可以解释 82% 的变化,而在 23°C 温度下使用 "静止 "配置时,体重可以解释 91% 的变化。根据两次 RMR 测量结果计算得出的 Q10 系数为 2.8。在使用两种仪器配置进行测量时,与质量无关的 RMR 呈正相关。然而,两种 RMR 测量值都与峰值代谢率不相关,这表明 RMR 不能用作格兰维尔凤蝶有氧能力的替代测量值。外温性昆虫可能能够在不明显增加维持成本的情况下兼具高代谢能力。尽管RMR是最常测量的生理变量之一,但在涉及与活动或有氧能力相关的问题时,或者在蝴蝶的飞行性能方面,它的预测能力可能有限。
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来源期刊
CiteScore
4.70
自引率
7.70%
发文量
150
审稿时长
6-12 weeks
期刊介绍: Integrative and Comparative Biology ( ICB ), formerly American Zoologist , is one of the most highly respected and cited journals in the field of biology. The journal''s primary focus is to integrate the varying disciplines in this broad field, while maintaining the highest scientific quality. ICB''s peer-reviewed symposia provide first class syntheses of the top research in a field. ICB also publishes book reviews, reports, and special bulletins.
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