Competition for light has profound effects on plant performance in virtually all terrestrial ecosystems. Nowhere is this more evident than in forests, where trees create environmental heterogeneity that shapes the dynamics of forest-floor communities. Observational evidence suggests that biotic responses to both anthropogenic global warming and nitrogen pollution may be attenuated by the shading effects of trees and shrubs. Here we show experimentally that tree shade is slowing down changes in below-canopy communities due to warming. We manipulated levels of photosynthetically active radiation, temperature and nitrogen, alone and in combination, in a temperate forest understorey over a 3-year period, and monitored the composition of the und...
1. Temperate forests across Europe and eastern North America have become denser since the 1950s due ...
1. Climate change is likely to shift plant communities towards species from warmer regions, a proces...
Increasing light availability by opening up the forest canopy is a key tool for forest managers to s...
Competition for light has profound effects on plant performance in virtually all terrestrial ecosyst...
Competition for light has profound effects on plant performance in virtually all terrestrial ecosyst...
The vast majority of plant biodiversity associated with temperate forests is harboured by the unders...
Climate change, eutrophication and intensified forest management are affecting forest understorey pl...
Forests harbour large spatiotemporal heterogeneity in canopy structure. This variation drives the mi...
Recent global warming is acting across marine, freshwater, and terrestrial ecosystems to favor speci...
Rising mean annual temperatures due to climate change have intensified the need to understand the ef...
Climate warming is causing a shift in biological communities in favor of warm-affinity species (i.e....
Shade, in ecological sense, is not merely a lack of light, but a multi-faceted phenomenon that creat...
Plant community composition and functional traits respond to chronic drivers such as climate change ...
1. Temperate forests across Europe and eastern North America have become denser since the 1950s due ...
1. Climate change is likely to shift plant communities towards species from warmer regions, a proces...
Increasing light availability by opening up the forest canopy is a key tool for forest managers to s...
Competition for light has profound effects on plant performance in virtually all terrestrial ecosyst...
Competition for light has profound effects on plant performance in virtually all terrestrial ecosyst...
The vast majority of plant biodiversity associated with temperate forests is harboured by the unders...
Climate change, eutrophication and intensified forest management are affecting forest understorey pl...
Forests harbour large spatiotemporal heterogeneity in canopy structure. This variation drives the mi...
Recent global warming is acting across marine, freshwater, and terrestrial ecosystems to favor speci...
Rising mean annual temperatures due to climate change have intensified the need to understand the ef...
Climate warming is causing a shift in biological communities in favor of warm-affinity species (i.e....
Shade, in ecological sense, is not merely a lack of light, but a multi-faceted phenomenon that creat...
Plant community composition and functional traits respond to chronic drivers such as climate change ...
1. Temperate forests across Europe and eastern North America have become denser since the 1950s due ...
1. Climate change is likely to shift plant communities towards species from warmer regions, a proces...
Increasing light availability by opening up the forest canopy is a key tool for forest managers to s...