Add to ORKGAbstract Nitrogen (N) fertilization, as a grassland management strategy, has been widely used to improve forage quality and increase the productivity of grasslands degraded by overstocking. It is widely accepted that N addition will alter ecosystem structure and function, and that these effects may be altered by natural disturbances, such as fire. We examined the effects of annual burning and N fertilization (17.5 g N m−2 year−1, at a surplus rate in order to simulate agriculture treatment) on foliar chemistry and stoichiometric ratios of eight dominant species (Leymus chinensis, Stipa grandis, Cleistogenes squar-rosa, Potentilla bifurca, Thalictrum squarrosum, Arte-misia frigida, Kochia prostrata and Caragana microphylla) in a temperate st...
Aims Uncovering the importance of soil and plant characteristics in driving the legacy effects of ni...
In the alpine steppe zone on the Central Tibetan Plateau, a large amount of area has been degraded d...
Changes in soil nutrient pools and microbial activity due to fire are important for understanding th...
Plant nitrogen (N) use strategies have great implications for primary production and ecosystem nutri...
Plant nutrient concentrations and stoichiometry drive fundamental ecosystem processes, with importan...
BACKGROUND: Although community structure and species richness are known to respond to nitrogen ferti...
The aboveground primary production is a major source of carbon (C) and nitrogen (N) pool and plays a...
Chinese grasslands are extensive natural ecosystems that comprise 40 % of the total land area of the...
Background: Although community structure and species richness are known to respond to nitrogen ferti...
The dynamics of leaf nitrogen (N) and phosphorus (P) have been intensively explored in short-term ex...
Common grassland management practices affect plant and soil element stoichiometry, but the primary e...
Increasing deposition of atmospheric nitrogen (N) due to accelerated human activities is a threat to...
Increasing nitrogen deposition influences natural and semi-natural ecosystems, especially nutrient-p...
The dynamics of leaf nitrogen (N) and phosphorus (P) have been intensively explored in short-term ex...
Background and aims: Nitrogen (N) deposition greatly influences ecosystem processes through the alte...
Aims Uncovering the importance of soil and plant characteristics in driving the legacy effects of ni...
In the alpine steppe zone on the Central Tibetan Plateau, a large amount of area has been degraded d...
Changes in soil nutrient pools and microbial activity due to fire are important for understanding th...
Plant nitrogen (N) use strategies have great implications for primary production and ecosystem nutri...
Plant nutrient concentrations and stoichiometry drive fundamental ecosystem processes, with importan...
BACKGROUND: Although community structure and species richness are known to respond to nitrogen ferti...
The aboveground primary production is a major source of carbon (C) and nitrogen (N) pool and plays a...
Chinese grasslands are extensive natural ecosystems that comprise 40 % of the total land area of the...
Background: Although community structure and species richness are known to respond to nitrogen ferti...
The dynamics of leaf nitrogen (N) and phosphorus (P) have been intensively explored in short-term ex...
Common grassland management practices affect plant and soil element stoichiometry, but the primary e...
Increasing deposition of atmospheric nitrogen (N) due to accelerated human activities is a threat to...
Increasing nitrogen deposition influences natural and semi-natural ecosystems, especially nutrient-p...
The dynamics of leaf nitrogen (N) and phosphorus (P) have been intensively explored in short-term ex...
Background and aims: Nitrogen (N) deposition greatly influences ecosystem processes through the alte...
Aims Uncovering the importance of soil and plant characteristics in driving the legacy effects of ni...
In the alpine steppe zone on the Central Tibetan Plateau, a large amount of area has been degraded d...
Changes in soil nutrient pools and microbial activity due to fire are important for understanding th...