Climate change and excess deposition of airborne nitrogen (N) are among the main stressors to floristic biodiversity. One particular concern is the deterioration of valuable habitats such as those protected under the European Habitat Directive. In future, climate-driven shifts (and losses) in the species potential distribution, but also N driven nutrient enrichment may threaten these habitats. We applied a dynamic geochemical soil model (VSD+) together with a novel niche-based plant response model (PROPS) to 5 forest habitat types (18 forest sites) protected under the EU Directive in Austria. We assessed how future climate change and N deposition might affect habitat suitability, defined as the capacity of a site to host its typical plant s...
A dynamic coupled biogeochemical-ecological model was used to simulate the effects of nitrogen depos...
A dynamic coupled biogeochemical-ecological model was used to simulate the effects of nitrogen depos...
Forest understory plant communities in the United States harbor most of the vegetation diversity of ...
Climate change and excess deposition of airborne nitrogen (N) are among the main stressors to floris...
<div><p>Climate change and excess deposition of airborne nitrogen (N) are among the main stressors t...
Atmospheric nitrogen (N) pollution is considered responsible for a substantial decline in plant spec...
Since the 1980’s, within the Geneva Convention on Long-Range Transboundary Air Pollution, European c...
International audienceAtmospheric N deposition is known to severely impact forest ecosystem function...
The aim of this paper is to determine whether a detectable impact of climate change is apparent in A...
A dynamic coupled biogeochemical-ecological model was used to simulate the effects of nitrogen depos...
A dynamic coupled biogeochemical-ecological model was used to simulate the effects of nitrogen depos...
Forest understory plant communities in the United States harbor most of the vegetation diversity of ...
Climate change and excess deposition of airborne nitrogen (N) are among the main stressors to floris...
<div><p>Climate change and excess deposition of airborne nitrogen (N) are among the main stressors t...
Atmospheric nitrogen (N) pollution is considered responsible for a substantial decline in plant spec...
Since the 1980’s, within the Geneva Convention on Long-Range Transboundary Air Pollution, European c...
International audienceAtmospheric N deposition is known to severely impact forest ecosystem function...
The aim of this paper is to determine whether a detectable impact of climate change is apparent in A...
A dynamic coupled biogeochemical-ecological model was used to simulate the effects of nitrogen depos...
A dynamic coupled biogeochemical-ecological model was used to simulate the effects of nitrogen depos...
Forest understory plant communities in the United States harbor most of the vegetation diversity of ...