Currently, forests in the northeastern United States are net sinks of atmospheric carbon. Under future climate change scenarios, the combined effects of climate change and nitrogen deposition on soil decomposition, aboveground processes, and the forest carbon balance remain unclear. We applied carbon stock, flux, and isotope data from field studies at the Harvard forest, Massachusetts, to the ForCent model, which integrates above- and belowground processes. The model was able to represent decadal-scale measurements in soil C stocks, mean residence times, fluxes, and responses to a warming and N addition experiment. The calibrated model then simulated the longer term impacts of warming and N deposition on the distribution of forest carbon st...
Projections of terrestrial carbon (C) dynamics must account for interannual variation in ecosystem C...
In many forest ecosystems, nitrogen (N) deposition enhances plant uptake of carbon dioxide, thus red...
Nitrogen (N) supply often limits the productivity of temperate forests and is regulated by a complex...
Currently, forests in the northeastern United States are net sinks of atmospheric carbon. Under futu...
Currently, forests in the northeastern United States are net sinks of atmospheric carbon. Under futu...
Soil warming has the potential to alter both soil and plant processes that affect carbon storage in ...
Climate of the northern hardwood forests of North America will become significantly warmer in the co...
Recent observations indicate that long-term N additions can slow decomposition, leading to C accumul...
Recent observations indicate that long-term N additions can slow decomposition, leading to C accumul...
Changes in climate and atmospheric nitrogen (N) deposition caused pronounced changes in soil conditi...
High levels of atmospheric nitrogen (N) deposition in Europe and North America were maintained throu...
Forest ecosystems represent the dominant form of land cover in the northeastern United States and ar...
The carbon to nitrogen response of forest ecosystems depends on the possible occurrence of nitrogen ...
The carbon to nitrogen response of forest ecosystems depends on the possible occurrence of nitrogen ...
The carbon to nitrogen response of forest ecosystems depends on the possible occurrence of nitrogen ...
Projections of terrestrial carbon (C) dynamics must account for interannual variation in ecosystem C...
In many forest ecosystems, nitrogen (N) deposition enhances plant uptake of carbon dioxide, thus red...
Nitrogen (N) supply often limits the productivity of temperate forests and is regulated by a complex...
Currently, forests in the northeastern United States are net sinks of atmospheric carbon. Under futu...
Currently, forests in the northeastern United States are net sinks of atmospheric carbon. Under futu...
Soil warming has the potential to alter both soil and plant processes that affect carbon storage in ...
Climate of the northern hardwood forests of North America will become significantly warmer in the co...
Recent observations indicate that long-term N additions can slow decomposition, leading to C accumul...
Recent observations indicate that long-term N additions can slow decomposition, leading to C accumul...
Changes in climate and atmospheric nitrogen (N) deposition caused pronounced changes in soil conditi...
High levels of atmospheric nitrogen (N) deposition in Europe and North America were maintained throu...
Forest ecosystems represent the dominant form of land cover in the northeastern United States and ar...
The carbon to nitrogen response of forest ecosystems depends on the possible occurrence of nitrogen ...
The carbon to nitrogen response of forest ecosystems depends on the possible occurrence of nitrogen ...
The carbon to nitrogen response of forest ecosystems depends on the possible occurrence of nitrogen ...
Projections of terrestrial carbon (C) dynamics must account for interannual variation in ecosystem C...
In many forest ecosystems, nitrogen (N) deposition enhances plant uptake of carbon dioxide, thus red...
Nitrogen (N) supply often limits the productivity of temperate forests and is regulated by a complex...