Bats seek refuge in cluttered environment when exposed to white and red lights at night

Artificial light at night is recognized as an increasing threat to biodiversity. However, information on the way highly mobile taxa such as bats spatially respond to light is limited. Following the hypothesis of a behavioural adaptation to the perceived risks of predation, we hypothesised that bats...

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Bibliographic Details
Published in:Movement ecology Vol. 9; no. 1; p. 3
Main Authors: Barré, Kévin, Kerbiriou, Christian, Ing, Ros-Kiri, Bas, Yves, Azam, Clémentine, Le Viol, Isabelle, Spoelstra, Kamiel
Format: Journal Article
Language:English
Published: England BioMed Central Ltd 22-01-2021
BioMed Central
BMC
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Summary:Artificial light at night is recognized as an increasing threat to biodiversity. However, information on the way highly mobile taxa such as bats spatially respond to light is limited. Following the hypothesis of a behavioural adaptation to the perceived risks of predation, we hypothesised that bats should avoid lit areas by shifting their flight route to less exposed conditions. Using 3D acoustic localization at four experimentally illuminated sites, we studied how the distance to streetlights emitting white and red light affected the Probability of bats Flying Inside the Forest (PFIF) versus along the forest edge. We show that open-, edge-, and narrow-space foraging bats strongly change flight patterns by increasing PFIF when getting closer to white and red streetlights placed in the forest edge. These behavioural changes occurred mainly on the streetlight side where light was directed. The results show that bats cope with light exposure by actively seeking refuge in cluttered environment, potentially due to involved predation risks. This is a clear indication that bats make use of landscape structures when reacting to light, and shows the potential of vegetation and streetlight orientation in mitigating effects of light. The study nevertheless calls for preserving darkness as the most efficient way.
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ISSN:2051-3933
2051-3933
DOI:10.1186/s40462-020-00238-2