Add to ORKGN and P have different eutrophication effects on grassland communities, yet the underlying mechanisms are poorly understood. To examine plant growth in response to the varying (relative) supply of N and P, we conducted a two-year greenhouse experiment. Five grasses and three herbs were grown with three N:P supply ratios at two overall nutrient supply levels. During the first year the plant growth was relatively low at both high and low N:P supply ratios, whereas during the second year the growth was especially low at a high N:P supply ratio. This second-year low growth was attributed to the high root death rate, which was influenced by a high N:P supply ratio rather than by the nutrient supply level. Species responded differently, especiall...
Aims Nitrogen (N) deposition has negative consequences for plant communities and ecosystem functioni...
Plant species richness in European grasslands has been declining for several decades. In most Dutch ...
Plant diversity was shown to influence the N cycle, but plant diversity effects on other nutrients r...
N and P have different eutrophication effects on grassland communities, yet the underlying mechanism...
N and P have different eutrophication effects on grassland communities, yet the underlying mechani...
Eutrophication of Nitrogen (N) and Phosphorus (P) is threatening the functioning and biodiversity of...
Increased N deposition may change species composition in grassland communities by shifting them to P...
Increased N deposition may change species composition in grassland communities by shifting them to P...
Anthropogenic activities interfere with the nitrogen (N) and phosphorus (P) biogeochemical cycles gl...
Increased N deposition may change species composition in grassland communities by shifting them to P...
Although many studies have demonstrated that N deposition decreases biodiversity and alters ecosyste...
Background and aims: Nitrogen (N) deposition greatly influences ecosystem processes through the alte...
Nitrogen (N) enrichment has great consequences on several fundamental ecological processes through i...
In terrestrial ecosystems, atmospheric nitrogen (N) deposition has greatly increased N availability ...
The dynamics of leaf nitrogen (N) and phosphorus (P) have been intensively explored in short-term ex...
Aims Nitrogen (N) deposition has negative consequences for plant communities and ecosystem functioni...
Plant species richness in European grasslands has been declining for several decades. In most Dutch ...
Plant diversity was shown to influence the N cycle, but plant diversity effects on other nutrients r...
N and P have different eutrophication effects on grassland communities, yet the underlying mechanism...
N and P have different eutrophication effects on grassland communities, yet the underlying mechani...
Eutrophication of Nitrogen (N) and Phosphorus (P) is threatening the functioning and biodiversity of...
Increased N deposition may change species composition in grassland communities by shifting them to P...
Increased N deposition may change species composition in grassland communities by shifting them to P...
Anthropogenic activities interfere with the nitrogen (N) and phosphorus (P) biogeochemical cycles gl...
Increased N deposition may change species composition in grassland communities by shifting them to P...
Although many studies have demonstrated that N deposition decreases biodiversity and alters ecosyste...
Background and aims: Nitrogen (N) deposition greatly influences ecosystem processes through the alte...
Nitrogen (N) enrichment has great consequences on several fundamental ecological processes through i...
In terrestrial ecosystems, atmospheric nitrogen (N) deposition has greatly increased N availability ...
The dynamics of leaf nitrogen (N) and phosphorus (P) have been intensively explored in short-term ex...
Aims Nitrogen (N) deposition has negative consequences for plant communities and ecosystem functioni...
Plant species richness in European grasslands has been declining for several decades. In most Dutch ...
Plant diversity was shown to influence the N cycle, but plant diversity effects on other nutrients r...