Climate-driven thermal opportunities and risks for leaf miners in aspen canopies

IF 7.1 1区 环境科学与生态学 Q1 ECOLOGY
H. Arthur Woods, Geoffrey Legault, Joel G. Kingsolver, Sylvain Pincebourde, Alisha A. Shah, Beau G. Larkin
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引用次数: 4

Abstract

In tree canopies, incoming solar radiation interacts with leaves and branches to generate temperature differences within and among leaves, presenting thermal opportunities and risks for leaf-dwelling ectotherms. Although leaf biophysics and insect thermal ecology are well understood, few studies have examined them together in single systems. We examined temperature variability in aspen canopies, Populus tremuloides, and its consequences for a common herbivore, the leaf-mining caterpillar Phyllocnistis populiella. We shaded leaves in the field and measured effects on leaf temperature and larval growth and survival. We also estimated larval thermal performance curves for feeding and growth and measured upper lethal temperatures. Sunlit leaves directly facing the incoming rays reached the highest temperatures, typically 3–8°C above ambient air temperature. Irradiance-driven increases in temperature, however, were transient enough that they did not alter observed growth rates of leaf miners. Incubator and ramping experiments suggested that larval performance peaks between 25 and 32°C and declines to zero between 35 and 40°C, depending on the duration of temperature exposure. Upper lethal temperatures during 1-h heat shocks were 42–43°C. When larvae were active in early spring, temperatures generally were low enough to depress rates of feeding and growth below their maxima, and only rarely did estimated mine temperatures rise beyond optimal temperatures. Observed leaf or mine temperatures never approached larval upper lethal temperatures. At this site during our experiments, larvae thus appeared to have a significant thermal safety margin; the more pressing problem was inadequate heat. Detailed information on mine temperatures and larval performance curves, however, allowed us to leverage long-term data sets on air temperature to estimate potential future shifts in performance and longer-term risks to larvae from lethally high temperatures. This analysis suggests that, in the past 20 years, larval performance has often been limited by cold and that the risk of heat stress has been low. Future warming will raise mean rates of feeding and growth but also the risk of exposure to injuriously or lethally high temperatures.

气候驱动的热机遇和风险的叶矿工在白杨树冠
在树冠层中,入射的太阳辐射与树叶和树枝相互作用,在树叶内部和树叶之间产生温差,为居住在树叶上的变温动物提供了热机会和风险。虽然叶片生物物理学和昆虫热生态学已经被很好地理解,但很少有研究将它们放在一个单独的系统中进行研究。我们研究了白杨树冠的温度变化,以及它对一种常见的食草动物——采叶毛虫的影响。在田间对叶片进行遮荫处理,测定了遮荫对叶片温度和幼虫生长存活的影响。我们还估算了幼虫取食和生长的热性能曲线,并测量了最高致死温度。直接面对入射光线的阳光照射下的叶子达到最高温度,通常比周围空气温度高3-8°C。然而,由光照引起的温度升高是短暂的,它们没有改变观察到的采叶虫的生长速度。孵化器和斜坡实验表明,幼虫的性能在25至32°C之间达到峰值,在35至40°C之间下降到零,这取决于温度暴露的持续时间。热休克1小时的最高致死温度为42-43°C。当幼虫在早春活跃时,温度通常低到足以使摄食和生长速度低于其最高水平,并且只有很少情况下估计矿井温度高于最佳温度。观察到的叶片或地雷温度从未接近幼虫上部致死温度。在我们的实验中,在这个地点,幼虫似乎有显著的热安全裕度;更紧迫的问题是热量不足。然而,关于矿井温度和幼虫性能曲线的详细信息使我们能够利用长期的空气温度数据集来估计未来性能的潜在变化以及致命高温对幼虫的长期风险。这一分析表明,在过去的20年里,幼虫的表现经常受到寒冷的限制,而热应激的风险很低。未来的气候变暖将提高平均摄食和生长速度,但也会增加暴露在有害或致命的高温下的风险。
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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来源期刊
Ecological Monographs
Ecological Monographs 环境科学-生态学
CiteScore
12.20
自引率
0.00%
发文量
61
审稿时长
3 months
期刊介绍: The vision for Ecological Monographs is that it should be the place for publishing integrative, synthetic papers that elaborate new directions for the field of ecology. Original Research Papers published in Ecological Monographs will continue to document complex observational, experimental, or theoretical studies that by their very integrated nature defy dissolution into shorter publications focused on a single topic or message. Reviews will be comprehensive and synthetic papers that establish new benchmarks in the field, define directions for future research, contribute to fundamental understanding of ecological principles, and derive principles for ecological management in its broadest sense (including, but not limited to: conservation, mitigation, restoration, and pro-active protection of the environment). Reviews should reflect the full development of a topic and encompass relevant natural history, observational and experimental data, analyses, models, and theory. Reviews published in Ecological Monographs should further blur the boundaries between “basic” and “applied” ecology. Concepts and Synthesis papers will conceptually advance the field of ecology. These papers are expected to go well beyond works being reviewed and include discussion of new directions, new syntheses, and resolutions of old questions. In this world of rapid scientific advancement and never-ending environmental change, there needs to be room for the thoughtful integration of scientific ideas, data, and concepts that feeds the mind and guides the development of the maturing science of ecology. Ecological Monographs provides that room, with an expansive view to a sustainable future.
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