We tested the relationship between Sphagnum growth and the amount of nitrogen stored in free amino acids in a fertilisation experiment with intact peat monoliths in an open greenhouse in The Netherlands. Three nitrogen deposition scenarios were used: no nitrogen deposition, field conditions and a doubling of the latter, corresponding to 0, 40 and 80 kg N ham1 yearm1. Growth of Sphagnum as expressed by height increment was reduced in the 80 kg N treatment, but showed no correlation with the total nitrogen tissue concentration or with the concentration of individual or pooled free amino acids. The amount of nitrogen stored in free amino acids increased concomitantly with deposition, although it lagged more and more behind the total nitrogen c...
To predict the role of ombrotrophic bogs as carbon sinks in the future, it is crucial to understand ...
Long-term additions of nitrogen (N) to peatlands have altered bryophyte growth, species dominance, N...
We studied the effects of increasing levels of atmospheric nitrogen (N) deposition on nutrient limit...
We tested the relationship between Sphagnum growth and the amount of nitrogen stored in free amino a...
Human alteration of the global nitrogen (N) cycle has had major impacts on naturally N-limited ecosy...
Sphagnum plants are sensitive to nitrogen deposition changes. However, previous literature is inconc...
Although numerous studies have addressed the effects of increased N deposition on nutrient-poor envi...
S phagnum bogs harbour a wealth of rare vascular plant and bryophyte species, preserve an amazing po...
Dutch fens, subjected to high nitrogen (N) deposition levels with reduced N (NHy) highly dominating ...
Sphagnum-bog ecosystems have a limited capability to retain carbon and nutrients when subjected to i...
Sphagnum bogs play an important role when considering the impacts of global change on global carbon ...
1 In a 4-year fertilization experiment we studied the effects of increased nitrogen (N) or phosphoru...
Sphagnum-bog ecosystems have a limited capability to retain carbon and nutrients when subjected to i...
Sphagnum-bog ecosystems have a limited capability to retain carbon and nutrients when subjected to i...
We studied the effects of increasing levels of atmospheric nitrogen (N) deposition on nutrient limit...
To predict the role of ombrotrophic bogs as carbon sinks in the future, it is crucial to understand ...
Long-term additions of nitrogen (N) to peatlands have altered bryophyte growth, species dominance, N...
We studied the effects of increasing levels of atmospheric nitrogen (N) deposition on nutrient limit...
We tested the relationship between Sphagnum growth and the amount of nitrogen stored in free amino a...
Human alteration of the global nitrogen (N) cycle has had major impacts on naturally N-limited ecosy...
Sphagnum plants are sensitive to nitrogen deposition changes. However, previous literature is inconc...
Although numerous studies have addressed the effects of increased N deposition on nutrient-poor envi...
S phagnum bogs harbour a wealth of rare vascular plant and bryophyte species, preserve an amazing po...
Dutch fens, subjected to high nitrogen (N) deposition levels with reduced N (NHy) highly dominating ...
Sphagnum-bog ecosystems have a limited capability to retain carbon and nutrients when subjected to i...
Sphagnum bogs play an important role when considering the impacts of global change on global carbon ...
1 In a 4-year fertilization experiment we studied the effects of increased nitrogen (N) or phosphoru...
Sphagnum-bog ecosystems have a limited capability to retain carbon and nutrients when subjected to i...
Sphagnum-bog ecosystems have a limited capability to retain carbon and nutrients when subjected to i...
We studied the effects of increasing levels of atmospheric nitrogen (N) deposition on nutrient limit...
To predict the role of ombrotrophic bogs as carbon sinks in the future, it is crucial to understand ...
Long-term additions of nitrogen (N) to peatlands have altered bryophyte growth, species dominance, N...
We studied the effects of increasing levels of atmospheric nitrogen (N) deposition on nutrient limit...