Seasonal acclimatization and temperature acclimation in small passerine birds is achieved via metabolic adjustments

IF 1.6 2区 生物学 Q1 ORNITHOLOGY Avian Research Pub Date : 2023-01-01 DOI:10.1016/j.avrs.2023.100084
Yujie XuanYuan , Ran Chen , Jieheng Xu, Jiacheng Zhou, Ming Li, Jinsong Liu
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Abstract

Temperature and other environmental factors play an integral role in the metabolic adjustments of animals and drive a series of morphological, physiological, and behavioral adaptions essential to survival. However, it is not clear how the capacity of an organism for temperature acclimation translates into seasonal acclimatization to maintain survival. Basal metabolic rate (BMR), evaporative water loss (EWL), and energy budget were measured in the Chinese Hwamei (Garrulax canorus) following winter and summer acclimatization, and in those acclimatized to 15 ​°C (cold) and 35 ​°C (warm) under laboratory conditions for 28 days. In addition to the above indicators, internal organ masses, as well as state 4 respiration and cytochrome c oxidase (COX) activity were also measured for the liver, skeletal muscle, heart, and kidney. Both winter-acclimatized and cold-acclimated birds exhibited significantly higher BMR, EWL, and energy budget, as well as organ masses, state 4 respiration, and COX activity compared with the summer-acclimatized and warm-acclimated birds. This indicated that the Chinese Hwamei could adapt to seasonal or just temperature changes through some physiological and biochemical thermogenic adjustments, which would be beneficial to cope with natural environmental changes. A general linear model showed that body mass, BMR, GEI, state 4 respiration in the liver and kidney, and COX activity in the skeletal muscle, liver, and kidney were significantly affected by temperature and acclimation. A positive correlation was observed between BMR and each of the other parameters (body mass, EWL, energy budget, heart dry mass, kidney dry mass, state 4 respiration) in the muscle, heart, and kidney and also between BMR and COX activity in the muscle and kidney. The results suggested that similar to seasonal acclimatization, Chinese Hwameis subjected to temperature acclimation also exhibited significant differences in metabolism-related physiological and biochemical parameters, depending on the temperature. The data also supported the prediction that metabolic adjustment might be the primary means by which small birds meet the energetic challenges triggered by cold conditions.

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小型雀形目鸟类的季节性适应和温度适应是通过代谢调节实现的
温度和其他环境因素在动物的代谢调节中起着不可或缺的作用,并驱动了一系列生存所必需的形态、生理和行为适应。然而,目前尚不清楚生物体的温度适应能力如何转化为维持生存的季节适应能力。在实验室条件下,分别测定了冬季和夏季驯化和15°C(冷)和35°C(暖)环境下驯化28 d的华梅(Garrulax canorus)的基础代谢率(BMR)、蒸发水分损失量(EWL)和能量收支。除上述指标外,还测量了肝脏、骨骼肌、心脏和肾脏的内脏器官质量、状态4呼吸和细胞色素c氧化酶(COX)活性。与夏季适应和温暖适应的鸟类相比,冬季适应和寒冷适应的鸟类均表现出更高的BMR、EWL、能量收支、器官质量、状态4呼吸和COX活性。这表明中国花梅可以通过一些生理生化产热调节来适应季节或单纯的温度变化,有利于应对自然环境变化。一般线性模型显示,温度和驯化对体重、BMR、GEI、肝脏和肾脏的状态4呼吸以及骨骼肌、肝脏和肾脏的COX活性有显著影响。BMR与肌肉、心脏和肾脏的其他参数(体重、EWL、能量收支、心脏干质量、肾脏干质量、状态4呼吸)之间以及BMR与肌肉和肾脏的COX活性之间均呈正相关。结果表明,与季节驯化相似,不同温度下华梅在代谢相关生理生化参数上也表现出显著差异。这些数据还支持了这样一种预测,即代谢调节可能是小鸟应对寒冷条件引发的能量挑战的主要手段。
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来源期刊
Avian Research
Avian Research ORNITHOLOGY-
CiteScore
2.90
自引率
16.70%
发文量
456
审稿时长
46 days
期刊介绍: Avian Research is an open access, peer-reviewed journal publishing high quality research and review articles on all aspects of ornithology from all over the world. It aims to report the latest and most significant progress in ornithology and to encourage exchange of ideas among international ornithologists. As an open access journal, Avian Research provides a unique opportunity to publish high quality contents that will be internationally accessible to any reader at no cost.
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