Experimental warming during incubation improves cold tolerance of blue tit (Cyanistes caeruleus) chicks

J. Page, A. Nord, D. Dominoni, D. McCafferty
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引用次数: 5

Abstract

ABSTRACT Climate change and increasing air temperature may alter environmental conditions for developing birds, with a range of phenotypic consequences for offspring. The thermal environment during incubation may affect the trade-off between growth and thermoregulation, but the effects of temperature on the ontogeny of endothermy are not fully understood. Therefore, we experimentally tested whether heating the nest cup of Eurasian blue tits (Cyanistes caeruleus) during incubation would influence cold tolerance of the chicks after hatching. Chicks from both heated and control nests showed a decrease in cooling rate with age as they became increasingly endothermic and homeothermic. However, chicks from previously heated nests cooled at a lower rate per unit surface area and from across the whole body. These chicks also had a greater body mass during the first 12 days of life compared with chicks from control nests. Lower cooling rates in heated chicks may reflect greater thermogenic capacity or a reduced surface area to volume ratio owing to a greater body mass. Future projections for climate change predict rising air temperature and increased likelihood of heatwaves, even in temperate regions. Our results indicate that nest microclimate can affect thermoregulation in offspring, and thus may be used to predict some of the future physiological responses of birds to climate change during breeding.
孵育期间的实验升温提高了蓝山雀雏鸡的耐寒性
气候变化和气温升高可能改变鸟类发育的环境条件,对后代产生一系列表型后果。孵育期间的热环境可能会影响生长和体温调节之间的权衡,但温度对恒温动物个体发生的影响尚不完全清楚。因此,我们通过实验测试了欧亚蓝山雀(Cyanistes caeruleus)孵化期间加热巢杯是否会影响孵化后雏鸟的耐寒性。加热巢和对照巢的雏鸡随着年龄的增长,冷却速度下降,它们变得越来越吸热和恒温。然而,从先前加热过的巢中孵出的雏鸡,单位表面积和全身的冷却速度较低。与对照组的雏鸟相比,这些雏鸟在出生后的前12天体重也更大。受热雏鸡较低的冷却速率可能反映出更大的产热能力或由于较大的体重而降低的表面积体积比。对气候变化的未来预测预测气温将上升,甚至在温带地区出现热浪的可能性也会增加。研究结果表明,巢内小气候可以影响后代的体温调节,因此可以用来预测鸟类在繁殖过程中对气候变化的一些生理反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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