Abstract
The ecological impact of night-time lighting is of concern because of its well-demonstrated effects on animal behaviour. However, the potential of light pollution to change plant phenology and its corresponding knock-on effects on associated herbivores are less clear. Here, we test if artificial lighting can advance the timing of budburst in trees. We took a UK-wide 13 year dataset of spatially referenced budburst data from four deciduous tree species and matched it with both satellite imagery of night-time lighting and average spring temperature. We find that budburst occurs up to 7.5 days earlier in brighter areas, with the relationship being more pronounced for later-budding species. Excluding large urban areas from the analysis showed an even more pronounced advance of budburst, confirming that the urban ‘heat-island’ effect is not the sole cause of earlier urban budburst. Similarly, the advance in budburst across all sites is too large to be explained by increases in temperature alone. This dramatic advance of budburst illustrates the need for further experimental investigation into the impact of artificial night-time lighting on plant phenology and subsequent species interactions. As light pollution is a growing global phenomenon, the findings of this study are likely to be applicable to a wide range of species interactions across the world.
Highlights
Most organisms have evolved for millions of years under predictable cycles of light and dark resulting from the Earth’s rotation and orbit
Our analysis showed no significant effect of DMSP value on the species with earliest budburst, A. pseudoplatanus but significant effects of the DMSP value on budburst date in three of the four species; listed here in order of budburst, Fa. sylvatica (x2 1⁄4 1190.5, p 0.001, n 1⁄4 10 061, Q. robur (x2 1⁄4 7093.8, p 0.001, n 1⁄4 8908) and Fr. excelsior (x2 1⁄4 953.2, p 0.001, n 1⁄4 10 899)
For Fa. sylvatica, the effect of DMSP was non-significant, but there was a significant interaction with spring temperature (x2 1⁄4 433.5, p 0.001, n 1⁄4 6053), with earlier budburst only associated with artificial light at higher temperatures
Summary
Most organisms have evolved for millions of years under predictable cycles of light and dark resulting from the Earth’s rotation and orbit. The global dataset of annual night-time satellite images for 1999– 2011 from the Defense Meteorological Satellite Program’s Operational Linescan System (DMSP OLS) was used to quantify the amount of artificial light at the locations of the spatially referenced budburst dates. These data are produced and made publicly available by the NOAA National Geophysical Data Centre [28] and have previously been used to map the extent of light pollution [14,29,30].
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
