Thresholds and noise limitations of colour vision in dim light

Kelber, Almut; Yovanovich, Carola A. M.; Olsson, Peter

doi:10.1098/rstb.2016.0065

Cited by 115 publications

(76 citation statements)

References 46 publications

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“…Artificial light at night (ALAN) is emerging as another potential threat to biodiversity world-wide (Bennie, Duffy, Davies, Correa-Cano, & Gaston, 2015;Davies & Smyth, 2018). It can be detected dozens of kilometres away from a major source like a city by biological photoreceptors (Aubé, 2015;Kocifaj & Lamphar, 2014), whose sensitivity can be very high for nocturnal species (Kelber & Roth, 2006;Kelber, Yovanovich, & Olsson, 2017). The latter is produced by the scattering of light by atmospheric particles and aerosols from distant sources.…”

Section: Al An a S An Emerg Ent G Lobal Ris K For B Iodiver S It Ymentioning

confidence: 99%

Assessing the effects of artificial light at night on biodiversity across latitude – Current knowledge gaps

Secondi

Davranche

Théry

et al. 2019

Global Ecol Biogeogr

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Aim: Exposure to artificial light at night (ALAN) is a risk factor for organisms.Considering the spread and increasing intensity of night brightness across the globe, and the key role of light at all biological levels, alterations of ecosystems are ex-pected. Yet, we cannot predict the severity of the effects of ALAN in several biomes because little information is available outside the temperate zone. We reviewed current knowledge and identified traits that could be targeted to fill this knowledge gap in order to contribute to the elaboration of a biogeographical framework for the study of ALAN at the global scale. Location: Global.Time period: Current and next decades. Methods:We analysed the latitudinal variation in ALAN and focused on environmental factors that vary with latitude but that have been overlooked. We reviewed biological traits that exhibit latitudinal variation and depend on light and photoperiod and compiled information about the predicted changes in human demography and road networks across different world regions. Results:Cloud cover amplifies ALAN far away from urbanized areas. Because of the higher frequency of overcast sky nights, exposure effects may be stronger both at high latitudes and across a large fraction of the intertropical zone, although at different times of the year. Intertropical biomes host the largest fraction of global biodiversity. Although currently they are not the most exposed to ALAN, their human populations are growing, and urbanized areas and road networks are expanding.Hence, ALAN could have strong ecological consequences, with cloud cover as an aggravating factor. Perspectives: Knowledge gaps currently limit our ability to predict the effects of ALAN in different biomes. Therefore, it will be important to start investigating the consequences of this novel environmental factor across the globe, in order to develop a relevant theoretical framework. K E Y W O R D SALAN, biogeography, exposure, global change, intertropical, latitude, light pollution | 405 SECONDI Et al.

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Section: Al An a S An Emerg Ent G Lobal Ris K For B Iodiver S It Ymentioning

confidence: 99%

Assessing the effects of artificial light at night on biodiversity across latitude – Current knowledge gaps

Secondi

Davranche

Théry

et al. 2019

Global Ecol Biogeogr

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“…While for most humans, the day is enriched by our ability to perceive our world in full colour, at night these colours fade away as we have only a single type of rod photoreceptor that provides useful night vision. As Kelber et al [57] review, however, the night world is far more colourful for a number of other animal groups which have evolved a variety of mechanisms to discriminate colours at night. A further new research paper on this topic, by Yovanovich et al [58] uses the power of a comparative behavioural approach to show for the first time that amphibians can use two different types of rod photoreceptor to discriminate colour at night, with some frogs displaying the ability to distinguish blue from green in an orientation task right down to the absolute limits of vision, where vision relies only on rod signals.…”

Section: A Special Issue Devoted To Vision In Dim Lightmentioning

confidence: 99%

Vision in dim light: highlights and challenges

O’Carroll

Warrant

2017

Phil. Trans. R. Soc. B

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“…Eine Vielzahl von Insekten, darunter die Kakerlaken, viele Ameisen-, Grillen-und Heuschreckenarten, alle Nachtfalter, aber auch einzelne Wespenund Bienenarten sind nachtaktiv. Tatsächlich haben Versuche gezeigt, dass zumindest große Nachtfalter wie die Linien-und Weinschwärmer und nachtaktive asiatische Holzbienen auch bei Nacht die Blüten, die sie besuchen, in Farbe sehen [56].…”

Section: » Bei Tetrachromatischen Fischen Reptilien Und Vögeln Ist Dunclassified

Farbensehen der Tiere

Scholtyssek

Kelber

2017

Ophthalmologe

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Thresholds and noise limitations of colour vision in dim light

Cited by 115 publications

References 46 publications

Assessing the effects of artificial light at night on biodiversity across latitude – Current knowledge gaps

Assessing the effects of artificial light at night on biodiversity across latitude – Current knowledge gaps

Vision in dim light: highlights and challenges

Farbensehen der Tiere

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