Add to ORKGA combination of field/monolith-based experimentation and numerical modelling was used to study the short-term influence of snow distribution on various ecological/biogeochemical attributes of a range of contrasting Low Arctic tundra plant communities in northern Fennoscandia. Experimental snow augmentation delayed the timing of snow melt, postponing early-season phenological development in a number of plant species, but had no effect on average plot greenness. Significant changes in stem growth, branching, leaf growth, leaf nutrient content, flowering and fruit production were also observed in response to the artificial increases in snow cover. The responses were generally species-specific and in many cases were also dependent on the type ...
The Arctic is one of the ecosystems most affected by climate change; in particular, winter temperatu...
Abstract Main conclusion: Evergreen plants are more vulnerable than grasses and birch to snow and te...
Climate change is expected to have a large impact on northern ecosystems. Increased temperatures and...
The ongoing climate changes are predicted to accelerate fast in arctic regions with increases in bot...
Snow cover is one of the most important factors controlling microclimate and plant growing condition...
Snow is an important driver of ecosystem processes in cold biomes. Snow accumulation determines grou...
Snow is an important driver of ecosystem processes in cold biomes. Snow accumulation determines grou...
Abstract Snow is an important driver of ecosystem processes in cold biomes. Snow accumulation determ...
Non-sorted circles (NSCs) are important landscape components of Arctic tundra ecosystems as they det...
The Arctic is one of the ecosystems most affected by climate change; in particular, winter temperatu...
The Arctic is one of the ecosystems most affected by climate change; in particular, winter temperatu...
MAIN CONCLUSION: Evergreen plants are more vulnerable than grasses and birch to snow and temperature...
Snow is known to have a major impact on vegetation in arctic ecosystems, but little is known about h...
The Arctic is one of the ecosystems most affected by climate change; in particular, winter temperatu...
Abstract Main conclusion: Evergreen plants are more vulnerable than grasses and birch to snow and te...
Climate change is expected to have a large impact on northern ecosystems. Increased temperatures and...
The ongoing climate changes are predicted to accelerate fast in arctic regions with increases in bot...
Snow cover is one of the most important factors controlling microclimate and plant growing condition...
Snow is an important driver of ecosystem processes in cold biomes. Snow accumulation determines grou...
Snow is an important driver of ecosystem processes in cold biomes. Snow accumulation determines grou...
Abstract Snow is an important driver of ecosystem processes in cold biomes. Snow accumulation determ...
Non-sorted circles (NSCs) are important landscape components of Arctic tundra ecosystems as they det...
The Arctic is one of the ecosystems most affected by climate change; in particular, winter temperatu...
The Arctic is one of the ecosystems most affected by climate change; in particular, winter temperatu...
MAIN CONCLUSION: Evergreen plants are more vulnerable than grasses and birch to snow and temperature...
Snow is known to have a major impact on vegetation in arctic ecosystems, but little is known about h...
The Arctic is one of the ecosystems most affected by climate change; in particular, winter temperatu...
Abstract Main conclusion: Evergreen plants are more vulnerable than grasses and birch to snow and te...
Climate change is expected to have a large impact on northern ecosystems. Increased temperatures and...