夜间的人造光改变了对颜色多形性伪装猎物的捕食

IF 3 2区 环境科学与生态学 Q2 ECOLOGY
Emma Moyse , Louise B. Firth , Tim Smyth , Svenja Tidau , Thomas W. Davies
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引用次数: 0

摘要

夜间人造光(ALAN)破坏了整个分类群和各级组织的生物过程。尽管人们对这种全球普遍存在的感官污染物越来越感兴趣,但它对颜色引导过程的影响在很大程度上仍未被探索。考虑到近年来从窄光谱照明向广谱照明(如白光led)的快速转变,这一点尤其令人担忧。白光led富含短波长的光,许多物种对短波长的光特别敏感。由于背景匹配猎物的显著性变化,更宽的ALAN光谱特别可能破坏伪装,这可能会改变视觉引导的捕食者对猎物的识别。我们模拟了有和没有ALAN的月光的自然强度,使用广谱(“白色”)ALAN和ALAN滤波来去除广谱led的特征短(蓝色)波长峰,以测试滤波是否可以减轻它们的影响。我们测试了暴露于这些光处理如何影响捕食者-猎物的相互作用,使用潮间带蟹癌和颜色多形性蜗牛Littorina obtusata的对比色变化作为模型系统。暴露于广谱ALAN减少了总体捕食,并逆转了在控制条件下观察到的基于颜色的猎物选择模式。在广谱ALAN条件下,蜗牛被攻击的可能性比对照组低55%,而黄色蜗牛被攻击的可能性降低了70%以上。在对照条件下,黄色蜗牛被攻击的可能性比棕色蜗牛高26%以上,而在广谱ALAN条件下,棕色蜗牛被攻击的可能性比黄色蜗牛高40%以上。暴露在经过过滤的ALAN中,猎物识别中任何基于颜色的显著差异都消失了。我们的研究结果表明,光谱组成是ALAN作为一种感官污染物的一个重要方面,能够引发捕食者-猎物相互作用的深刻变化,从而驱动种群人口统计学的变化,并增加依赖颜色多态性进行伪装的物种的形态同质性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Artificial light at night alters predation on colour-polymorphic camouflaged prey

Artificial light at night (ALAN) disrupts biological processes across taxa and at all levels of organisation. Despite growing interest in this globally pervasive sensory pollutant, its impact on colour-guided processes remains largely unexplored. This is especially concerning given the rapid transition in recent years away from narrow-spectrum lighting and towards broad-spectrum options such as white LEDs, which are rich in the short wavelengths of light to which many taxa are particularly sensitive. Camouflage is particularly likely to be disrupted by broader spectra of ALAN due to changes in conspicuousness in background matching prey, which may alter prey recognition in visually guided predators. We simulated natural intensities of moonlight with and without ALAN, using both broad-spectrum (‘white’) ALAN and ALAN filtered to remove the characteristic short (blue) wavelength peak of broad-spectrum LEDs to test whether filtering might mitigate their effects. We tested how exposure to these light treatments impacted predator-prey interactions, using the intertidal crab Carcinus maenas and contrasting colour morphs of the colour-polymorphic snail Littorina obtusata as a model system. Exposure to broad-spectrum ALAN reduced overall predation and reversed the pattern of colour-based prey selection observed under control conditions. Snails were 55 % less likely to be attacked under broad-spectrum ALAN than in control conditions, with likelihood decreasing over 70 % for yellow snails. Yellow snails were over 26 % more likely to be attacked than brown ones under control conditions, but brown snails were over 40 % more likely to be attacked than yellow ones under broad-spectrum ALAN. Exposure to filtered ALAN removed any significant colour-based difference in prey recognition. Our results demonstrate that spectral composition is a crucial aspect of ALAN as a sensory pollutant, capable of instigating profound changes in predator-prey interactions that could drive changes in population demography and increase morphological homogeneity in species that depend on colour polymorphism for camouflage.

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来源期刊
Basic and Applied Ecology
Basic and Applied Ecology 环境科学-生态学
CiteScore
6.90
自引率
5.30%
发文量
103
审稿时长
10.6 weeks
期刊介绍: Basic and Applied Ecology provides a forum in which significant advances and ideas can be rapidly communicated to a wide audience. Basic and Applied Ecology publishes original contributions, perspectives and reviews from all areas of basic and applied ecology. Ecologists from all countries are invited to publish ecological research of international interest in its pages. There is no bias with regard to taxon or geographical area.
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