A compendium of photopigment peak sensitivities and visual spectral response curves of terrestrial wildlife to guide design of outdoor nighttime lighting

IF 3 2区 环境科学与生态学 Q2 ECOLOGY
Travis Longcore
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Abstract

The presence and proportions of photopigments, which are responsible for the visual and physiological effects of light, vary between taxonomic groups. This leads to differing wavelength sensitivities ranging from ultraviolet (UV; <400 nm) to infrared (IR; >780 nm) and complicates the balancing of spectra used for outdoor lighting to maximize human visual performance while mitigating light pollution effects on wildlife. I developed a database of spectral response information for terrestrial wildlife to create generalized spectral response curves by taxonomic phylum, class, and order. Existing data on species visual sensitivity were collected from previously published research that used behavioral responses, electroretinograms (ERGs), and reflectance within the eye. Resulting summaries of photopigment peak sensitivities (n=968) and sensitivity curves (n=177) allow for general observations. Overall, longer wavelengths provide the highest possibility for supporting human visual performance at night while reducing intrusive overlap with the vision of other species, because many taxonomic groups are sensitive to light in the blue and into the ultraviolet. Comparison of average response curves at the class level and the spectral power distribution of lamps suggests that spectral tuning might reduce the apparency of the lowest correlated color temperature (CCT) lamps to insects, spiders, and non-human mammals the most, with substantial but smaller reductions for reptiles, birds, and amphibians. Spectral tuning, most simply by reducing CCT, should be considered an additional benefit to be used in concert with other mitigation measures such as dimming, shielding, and part-night lighting.

陆生野生动物光色素峰值灵敏度和视光谱响应曲线纲要,指导室外夜间照明设计
负责光的视觉和生理效应的光色素的存在和比例在不同的分类组之间有所不同。这导致不同的波长灵敏度,从紫外线(UV;<400 nm)到红外(IR;>780 nm),并使用于室外照明的光谱平衡复杂化,以最大限度地提高人类的视觉表现,同时减轻光污染对野生动物的影响。建立了陆生野生动物光谱响应信息数据库,建立了按门、纲、目划分的广义光谱响应曲线。关于物种视觉敏感性的现有数据是从先前发表的研究中收集的,这些研究使用了行为反应、视网膜电图(ERGs)和眼睛内的反射。由此得出的光色素峰值灵敏度(n=968)和灵敏度曲线(n=177)的总结允许进行一般观察。总的来说,较长的波长提供了最大的可能性来支持人类在夜间的视觉表现,同时减少了与其他物种视觉的干扰重叠,因为许多分类类群对蓝光和紫外线都很敏感。在类水平上的平均响应曲线和灯的光谱功率分布的比较表明,光谱调节可能会降低最低相关色温(CCT)灯对昆虫、蜘蛛和非人类哺乳动物的明显性,对爬行动物、鸟类和两栖动物的明显性降低较小。光谱调谐,最简单地通过减少CCT,应被视为与其他缓解措施(如调光、屏蔽和夜间照明)配合使用的额外好处。
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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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