We used satellite-derived estimates of global fire emissions and a chemical transport model to estimate atmospheric nitrogen (N) fluxes from savanna and deforestation fires in tropical ecosystems. N emissions and reactive N deposition led to a net transport of N equatorward, from savannas and areas undergoing deforestation to tropical forests. Deposition of fire-emitted N in savannas was only 26% of emissions - indicating a net export from this biome. On average, net N loss from fires (the sum of emissions and deposition) was equivalent to approximately 22% of biological N fixation (BNF) in savannas (4.0 kg N ha-1 yr-1) and 38% of BNF in ecosystems at the deforestation frontier (9.3 kg N ha-1 yr-1). Net N gains from fires occurred in interi...
In this study, we investigate the biogeochemical consequences of fire in seasonally flooded Amazon f...
nitrous oxide, nutrient limitation, phosphorus, productivity, tropical ecosystems Abstract. Human ac...
Biomass burning in the tropics is an important source of trace gases. Shifting cultivation in India ...
We used satellite-derived estimates of global fire emissions and a chemical transport model to estim...
Atmospheric nitrogen (N) deposition is an important determinant of N availability for natural ecosys...
Abstract. Among all global ecosystems, tropical savannas are the most severely and extensively affec...
Primary tropical forests generally exhibit large gaseous nitrogen (N) losses, occurring as nitric ox...
Many pristine humid tropical forests show simultaneously high nitrogen (N) richness and sustained lo...
Among all global ecosystems, tropical savannas are the most severely and extensively affected by ant...
International audienceThe atmospheric nitrogen budget depends on emission and deposition fluxes both...
African tropical forests of the equatorial belt might receive significant input of extra nitrogen de...
Biological nitrogen fixation (BNF) is the largest natural source of exogenous nitrogen (N) to unmana...
Nitrogen (N) deposition significantly affects forest dynamics, carbon stocks and biodiversity, and n...
We use a terrestrial carbon-nitrogen cycle component of the Integrated Science Assessment Model (ISA...
Global carbon emissions from fires are difficult to quantify and have the potential to influence int...
In this study, we investigate the biogeochemical consequences of fire in seasonally flooded Amazon f...
nitrous oxide, nutrient limitation, phosphorus, productivity, tropical ecosystems Abstract. Human ac...
Biomass burning in the tropics is an important source of trace gases. Shifting cultivation in India ...
We used satellite-derived estimates of global fire emissions and a chemical transport model to estim...
Atmospheric nitrogen (N) deposition is an important determinant of N availability for natural ecosys...
Abstract. Among all global ecosystems, tropical savannas are the most severely and extensively affec...
Primary tropical forests generally exhibit large gaseous nitrogen (N) losses, occurring as nitric ox...
Many pristine humid tropical forests show simultaneously high nitrogen (N) richness and sustained lo...
Among all global ecosystems, tropical savannas are the most severely and extensively affected by ant...
International audienceThe atmospheric nitrogen budget depends on emission and deposition fluxes both...
African tropical forests of the equatorial belt might receive significant input of extra nitrogen de...
Biological nitrogen fixation (BNF) is the largest natural source of exogenous nitrogen (N) to unmana...
Nitrogen (N) deposition significantly affects forest dynamics, carbon stocks and biodiversity, and n...
We use a terrestrial carbon-nitrogen cycle component of the Integrated Science Assessment Model (ISA...
Global carbon emissions from fires are difficult to quantify and have the potential to influence int...
In this study, we investigate the biogeochemical consequences of fire in seasonally flooded Amazon f...
nitrous oxide, nutrient limitation, phosphorus, productivity, tropical ecosystems Abstract. Human ac...
Biomass burning in the tropics is an important source of trace gases. Shifting cultivation in India ...