Elevated anthropogenic nitrogen (N) deposition has become an important driver of soil acidification at both regional and global scales. It remains unclear, however, how long-term N deposition affects soil buffering capacity in tropical forest ecosystems and in ecosystems of contrasting land-use history. Here, we expand on a long-term N deposition experiment in three tropical forests that vary in land-use history (primary, secondary, and planted forests) in Southern China, with N addition as NH4NO3 of 0, 50, 100, and 150 kg N ha−1 yr−1, respectively. Results showed that all three forests were acid-sensitive ecosystems with poor soil buffering capacity, while the primary forest had higher base saturation and cation exchange capacity than others. ...
Land-use change resulting from natural succession enhances the nitrogen (N) accumulation capacity of...
Dissolved organic carbon (DOC) plays a critical role in the carbon (C) cycle of forest soils, and ha...
Scant information is available on how soil phosphorus (P) availability responds to atmospheric nitro...
Elevated anthropogenic nitrogen (N) deposition has become an important driver of soil acidification a...
ABSTRACT: Elevated anthropogenic nitrogen (N) deposition has become an important driver of soil acid...
Elevated anthropogenic nitrogen (N) deposition has become an important driver of soil acidification ...
Elevated anthropogenic nitrogen (N) deposition has become an important driver of soil acidification ...
Elevated anthropogenic nitrogen (N) deposition has greatly altered terrestrial ecosystem functioning...
Scant information is available on how soil phosphorus (P) availability responds to atmospheric nitro...
Elevated nitrogen (N) deposition to tropical forests may accelerate ecosystem phosphorus (P) limitat...
Elevated nitrogen (N) deposition to tropical forests may accelerate ecosystem phosphorus (P) limitat...
China has been experiencing a rapid increase in nitrogen (N) deposition due to intensified anthropog...
Rates of atmospheric nitrogen (N) deposition are increasing rapidly in tropical regions, which are p...
Nitrogen (N) saturation hypothesis suggests that when an ecosystem reaches N-saturation, continued N...
Nitrogen (N) deposition is a component of global change that has considerable impact on belowground ...
Land-use change resulting from natural succession enhances the nitrogen (N) accumulation capacity of...
Dissolved organic carbon (DOC) plays a critical role in the carbon (C) cycle of forest soils, and ha...
Scant information is available on how soil phosphorus (P) availability responds to atmospheric nitro...
Elevated anthropogenic nitrogen (N) deposition has become an important driver of soil acidification a...
ABSTRACT: Elevated anthropogenic nitrogen (N) deposition has become an important driver of soil acid...
Elevated anthropogenic nitrogen (N) deposition has become an important driver of soil acidification ...
Elevated anthropogenic nitrogen (N) deposition has become an important driver of soil acidification ...
Elevated anthropogenic nitrogen (N) deposition has greatly altered terrestrial ecosystem functioning...
Scant information is available on how soil phosphorus (P) availability responds to atmospheric nitro...
Elevated nitrogen (N) deposition to tropical forests may accelerate ecosystem phosphorus (P) limitat...
Elevated nitrogen (N) deposition to tropical forests may accelerate ecosystem phosphorus (P) limitat...
China has been experiencing a rapid increase in nitrogen (N) deposition due to intensified anthropog...
Rates of atmospheric nitrogen (N) deposition are increasing rapidly in tropical regions, which are p...
Nitrogen (N) saturation hypothesis suggests that when an ecosystem reaches N-saturation, continued N...
Nitrogen (N) deposition is a component of global change that has considerable impact on belowground ...
Land-use change resulting from natural succession enhances the nitrogen (N) accumulation capacity of...
Dissolved organic carbon (DOC) plays a critical role in the carbon (C) cycle of forest soils, and ha...
Scant information is available on how soil phosphorus (P) availability responds to atmospheric nitro...