Abstract
The continuous increase in the intensity and extent of anthropogenic artificial light has significantly shaped Earth’s nighttime environment. This environmental change has effects across the natural world, with consequences for organismal physiology and behaviour and the abundances and distributions of species. Here, we evaluate for the first time the relations between the spatio-temporal patterns of anthropogenic nighttime light and the distribution of terrestrial mammals, one of the most endangered species groups and one that expresses varying time partitioning strategies. Using descriptive statistics, trend tests and spatial prioritization analysis we show that in most places on earth there is a terrestrial mammal species whose range is experiencing detectable artificial light. For most species this tends only to be for small parts of their range, and those affected across large parts are typically rare. Over time (1992–2012), an increase in mean light intensity was found for the ranges of the majority of species, with very few experiencing a decrease. Moreover, nocturnal species are more likely to experience an increase in light within their ranges. This is of conservation concern as many terrestrial mammals are nocturnal and therefore often particularly vulnerable to a pressure such as artificial light at night.
Highlights
The continuous increase in the intensity and extent of anthropogenic artificial light has significantly shaped Earth’s nighttime environment
Natural light regimes are being disrupted over an increasingly large extent of the Earth’s surface. This has resulted in part from the direct effects of artificial light at night (ALAN), predominantly produced by electric lighting
It is caused by the skyglow that results from the diffuse scattering of these light emissions in the atmosphere
Summary
The continuous increase in the intensity and extent of anthropogenic artificial light has significantly shaped Earth’s nighttime environment. The former include effects on photosynthesis, the partitioning of activity between day and night, and dark repair and recovery, and the latter effects on circadian clocks and photoperiodism, visual perception, and spatial orientation (for review of empirical examples see[6]) This array of influences has given rise to substantial concerns, and growing evidence, about the consequences for the abundance and distribution of species, community structure, and ecosystem processes and dynamics[7,8,9,10], and as to the ways in which these can be mitigated[11,12]. We address these issues using terrestrial mammals as a case study, investigating the extent and change in ALAN within their ranges These provide an interesting study group because they are globally distributed, occupy a broad range of environments, and exhibit a wide diversity of time partitioning behaviour that can in substantial part be predicted based on patterns of natural light and darkness[13]
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