Environmental determinants of total evaporative water loss in birds at multiple temperatures

The Auk Pub Date : 2019-12-09 DOI:10.1093/auk/ukz069
Soorim Song, S. Beissinger
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引用次数: 9

Abstract

ABSTRACT Endotherms dissipate heat to the environment to maintain a stable body temperature at high ambient temperatures, which requires them to maintain a balance between heat dissipation and water conservation. Birds are relatively small, contain a large amount of metabolically expensive tissue, and are mostly diurnal, making them susceptible to physiological challenges related to water balance and heat dissipation. We compiled total evaporative water loss (TEWL) measurements for 174 species of birds exposed to different temperatures and used comparative methods to examine their relationships with body size, ambient temperature, precipitation, diet, and diel activity cycle. TEWL in the thermoneutral zone (TNZ) was associated primarily with body mass and activity phase. Larger and more active-phase birds, with their higher metabolic rates, lost more water through evaporation than smaller, resting-phase birds, particularly at higher thermal exposures. However, maximum temperature of the natural habitat became an important determinant of TEWL when birds were exposed to temperatures exceeding the TNZ. Species from hotter climates exhibited higher TEWL. Adaptation to arid climates did not restrict evaporative water loss at thermal conditions within the TNZ, but promoted evaporative water loss at exposures above the TNZ. The TEWL of granivores, which ingest food with low water content, differed little from species with other food habitats under all thermal conditions. The effects of environmental covariates of TEWL were dissimilar across thermal exposures, suggesting no evidence for a tradeoff between water conservation in the TNZ and heat dissipation at exposure to higher temperatures. Thus, birds may be able to acclimate when climate change results in the need to increase heat dissipation due to warming, except perhaps in hot, arid environments where species will need to depend heavily upon evaporative cooling to maintain homeothermy.
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多种温度下鸟类总蒸发失水的环境决定因素
恒温动物为了在高温环境下保持稳定的体温,需要将热量散发到环境中,这就要求它们在散热和节水之间保持平衡。鸟类相对较小,含有大量代谢昂贵的组织,并且大多是昼行性的,这使它们容易受到与水平衡和散热有关的生理挑战。我们收集了174种暴露在不同温度下的鸟类的总蒸发失水(TEWL)数据,并使用比较方法研究了它们与体型、环境温度、降水、饮食和饮食活动周期的关系。热中性区(TNZ) TEWL主要与体重和活动期有关。体型更大、更活跃的鸟类代谢率更高,与体型更小、更安静的鸟类相比,它们通过蒸发失去了更多的水分,尤其是在高温环境下。然而,当鸟类暴露于超过TNZ的温度时,自然栖息地的最高温度成为TEWL的重要决定因素。来自较热气候的物种表现出较高的TEWL。对干旱气候的适应并未限制TNZ内热条件下的蒸发水分损失,但促进了TNZ以上暴露条件下的蒸发水分损失。在所有热条件下,摄食低含水量食物的花岗岩动物的TEWL与其他食物栖息地的物种差异不大。在不同的热暴露条件下,TEWL的环境协变量的影响是不同的,这表明没有证据表明TNZ的水保护和高温下的散热之间存在权衡。因此,当气候变化导致由于变暖而需要增加散热时,鸟类可能能够适应,除非在炎热、干旱的环境中,物种需要严重依赖蒸发冷却来维持恒温。
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