Nocturnal camouflage through background matching against moonlight Negro, Juan José Bará, Salvador Galadí, David Nieves Gómez, Juan Luis Martínez Domingo, Miguel Ángel Ferrero, Alejandro Campos Acosta, Joaquín Bao Varela, Carmen Masana, Eduard Camacho, Carlos Predators need to approach their prey undetected. Barn owls (Tyto alba) differ from the patterned designs of most nocturnal birds in having white underparts. Modeling radiometric quantities of the sky, the ground, and the barn owl itself, we provide evidence that this predator becomes invisible to ground-dwelling rodents under most moonlit skies. Paradoxically, a white owl minimizes detection by rodent prey located on the ground when approaching them from above under bright moonlight. The mechanism we describe is distinct from the current interpretation that barn owls are highly visible to their rodent prey and freeze them in fear. Our results provide insights into the role of the plumage spectral reflectance on hunting efficacy at night. Camouflage is often considered a daytime phenomenon based on light and shade. Nocturnal camouflage can also occur, but its mechanistic basis remains unclear. Here, we analyze the conditions for background matching (BM) of avian predators against the night sky. Such concealment is achieved when the contrast between the predator and the sky is smaller than the contrast detection threshold of prey. This condition cannot be fulfilled under isotropic skies, as in fully overcast or moonless nights. However, on clear moonlit nights, the isotropy of the sky radiance is broken due to the presence of the Moon, and the conditions for BM can be met for a wide range of sky directions. This effect is mainly dependent on the altitude of the Moon above the horizon, rather than on Moon phase. We have modeled the feasibility of concealment through BM of a typically white barn owl (Tyto alba) when hunting rodents, based on its contrast against the moonlit sky. We considered the radiometric quantities of the sky, the ground, and the bird’s undersides. Our results show that a barn owl with highly reflecting underparts may approach a rodent from broad regions of the moonlit sky while keeping itself below the contrast detection threshold of the mouse M-cones and rods. S-cones, in turn, remain below their excitation threshold for most of the lunar cycle. Our results demonstrate that the white color of barn owls serves as camouflage tailored to the moonlit sky background, providing a mechanistic basis for understanding nocturnal camouflage. 2025-03-06T07:00:53Z 2025-03-06T07:00:53Z 2024-12-16 journal article Negro, J. J., Bará, S., Galadí-Enríquez, D., Nieves, J. L., Martínez-Domingo, M. A., Ferrero, A., ... & Camacho, C. (2025). Nocturnal camouflage through background matching against moonlight. Proceedings of the National Academy of Sciences, 122(1), e2406808121. https://hdl.handle.net/10481/102878 https://doi.org/10.1073/pnas.2406808121 eng http://creativecommons.org/licenses/by-nc-nd/4.0/ open access Attribution-NonCommercial-NoDerivatives 4.0 Internacional Natural Academy of Science