Skyglow facilitates prey detection in a crepuscular insectivore: Distant light sources create bright skies

Creemers, Jitse;Eens, Marcel;Ulenaers, Eddy;Lathouwers, Michiel;Evens, Ruben
(2025) Environmental Pollution — Vol. 369, p. 125821 (2025)

Files

Creemers_et_al_2025_EnvironmentalPollution.pdf
  • Open Access
  • Adobe PDF
  • 2.98 MB
Download

Details

Authors
  • Creemers, Jitseorcid-logoUCLouvain
    Author
  • Eens, Marcelorcid-logoUniversity of Antwerp, Department of Biology, Behavioural Ecology and Ecophysiology group, Universiteitsplein 1, Wilrijk, B-2610, Belgium
    Author
  • Ulenaers, EddyAgentschap Natuur en Bos, Regio Noord-Limburg, Havenlaan 88 bus 75, Herman Teirlinckgebouw, 1000, Brussels, Belgium
    Author
  • Lathouwers, MichielHasselt University, Centre for Environmental Sciences, Research Group: Zoology, Biodiversity and Toxicology, Campus Diepenbeek, Agoralaan, Gebouw D, 3590, Diepenbeek, Belgium
    Author
  • Evens, Rubenorcid-logoUCLouvain
    Author
Abstract
Light profoundly shapes ecosystems, influencing the behaviour and niche specialisation of many species. This is especially true for visual predators, particularly crepuscular and nocturnal animals, whose foraging depends on adequate illumination. Despite this, research on how animals perceive light sources and position themselves relative to these sources is scarce. Using a modified dead-reckoning protocol based on GPS, accelerometer, and magnetic compass data, we investigated the body orientation of foraging European Nightjars (Caprimulgus europaeus, hereafter nightjar) to determine their line of sight relative to bright sections of the nocturnal sky, created by natural or artificial light. We found that nightjars are more likely to align themselves with brighter sections of the sky, although not necessarily with the brightest patch. On full moon nights, they positioned the moon within their line of sight when it was low on the horizon, but this likelihood decreased as the moon rose higher. During other moon phases, the likelihood of having the moon within line of sight increased linearly with moon altitude. During moonless parts of the night, nightjars appeared to use skyglow as a background for prey detection, but only when it was sufficiently bright. When both moonlight and skyglow were present, nightjars showed a preference for moonlight. This study shows that European Nightjars use illuminated sections of the sky, including skyglow, as bright backgrounds to detect flying prey. This suggests that, in the absence of the moon, nightjars can actively take advantage of this form of light pollution while foraging. However, the success of their hunting under skyglow-induced lighting remains unclear. We hypothesise that the effectiveness of these backgrounds depends on their brightness and colour composition. Further research is needed to better understand the complex dynamics of contrast detection under varying lighting conditions.
Affiliations

Citations

  • APA
  • Chicago
  • FWB

Creemers, J., Eens, M., Ulenaers, E., Lathouwers, M., & Evens, R. (2025). Skyglow facilitates prey detection in a crepuscular insectivore: Distant light sources create bright skies. Environmental Pollution, 369, 125821. https://doi.org/10.1016/j.envpol.2025.125821 (Original work published 2025)