There is evidence that anthropogenic nitrogen (N) deposition enhances carbon (C) sequestration in boreal soils. However, key underlying mechanisms explaining this increase have not been resolved. Two potentially important mechanisms are that aboveground litter production increases, or that litter quality changes in response to N enrichment. As such, our aim was to quantify whether simulated chronic N deposition caused changes in aboveground litter production or quality in a boreal forest. We conducted a long-term (17 years) stand-scale (0.1 ha) forest experiment, consisting of three N addition levels (0, 12.5, and 50 kg N ha(-1) yr(-1)) in northern Sweden, where background N deposition rates are very low. We measured the annual quantity of ...
Elevated atmospheric nitrogen deposition caused by human activity induces a forest carbon sink acros...
Nutrient enrichment can alleviate productivity limitations and thus substantially increase carbon (C...
High levels of atmospheric nitrogen (N) deposition in Europe and North America were maintained throu...
There is evidence that anthropogenic nitrogen (N) deposition enhances carbon (C) sequestration in bo...
The present study addresses the question why there is a positive relationship between nitrogen depos...
In nitrogen (N) limited boreal forests, N enrichment can impact litter decomposition by affecting li...
Recent meta-analyses of experimental studies simulating increased anthropogenic nitrogen (N) deposit...
Forest litter decomposition is a major component of the global carbon (C) budget, and is greatly aff...
There is evidence that anthropogenic nitrogen (N) deposition enhances carbon (C) sequestration in bo...
Nutrient limitations constrain the capacity for northern coniferous forests to capture and store car...
Ecosystem responses of carbon and nitrogen (N) biogeochemistry to N deposition have a high variation...
Boreal forests are an important source of wood products, and fertilizers could be used to improve fo...
Nitrogen (N) deposition can change the carbon (C) sink of northern coniferous forests by changing th...
Nitrogen (N) deposition is known to increase carbon (C) sequestration in N-limited boreal forests. H...
High-latitude peatlands are important soil carbon sinks. In these ecosystems, the mineralization of ...
Elevated atmospheric nitrogen deposition caused by human activity induces a forest carbon sink acros...
Nutrient enrichment can alleviate productivity limitations and thus substantially increase carbon (C...
High levels of atmospheric nitrogen (N) deposition in Europe and North America were maintained throu...
There is evidence that anthropogenic nitrogen (N) deposition enhances carbon (C) sequestration in bo...
The present study addresses the question why there is a positive relationship between nitrogen depos...
In nitrogen (N) limited boreal forests, N enrichment can impact litter decomposition by affecting li...
Recent meta-analyses of experimental studies simulating increased anthropogenic nitrogen (N) deposit...
Forest litter decomposition is a major component of the global carbon (C) budget, and is greatly aff...
There is evidence that anthropogenic nitrogen (N) deposition enhances carbon (C) sequestration in bo...
Nutrient limitations constrain the capacity for northern coniferous forests to capture and store car...
Ecosystem responses of carbon and nitrogen (N) biogeochemistry to N deposition have a high variation...
Boreal forests are an important source of wood products, and fertilizers could be used to improve fo...
Nitrogen (N) deposition can change the carbon (C) sink of northern coniferous forests by changing th...
Nitrogen (N) deposition is known to increase carbon (C) sequestration in N-limited boreal forests. H...
High-latitude peatlands are important soil carbon sinks. In these ecosystems, the mineralization of ...
Elevated atmospheric nitrogen deposition caused by human activity induces a forest carbon sink acros...
Nutrient enrichment can alleviate productivity limitations and thus substantially increase carbon (C...
High levels of atmospheric nitrogen (N) deposition in Europe and North America were maintained throu...