1. High fire-derived nitrogen deposition on central African forests.
- Author
-
Bodé, Samuel, Boeckx, Pascal, Bauters, Marijn, Hervé-Fernández, Pedro, Verbeeck, Hans, Drake, Travis W., Zito, Phoebe, Spencer, Robert G. M., Podgorski, David C., Boyemba, Faustin, Makelele, Isaac, and Cizungu Ntaboba, Landry
- Subjects
- *
ATMOSPHERIC nitrogen , *ATMOSPHERIC deposition , *FORESTS & forestry , *BIOMASS burning , *ECOLOGICAL disturbances , *BIOGEOCHEMICAL cycles - Abstract
Atmospheric nitrogen (N) deposition is an important determinant of N availability for natural ecosystems worldwide. Increased anthropogenic N deposition shifts the stoichiometric equilibrium of ecosystems, with direct and indirect impacts on ecosystem functioning and biogeochemical cycles. Current simulation data suggest that remote tropical forests still receive low atmospheric N deposition due to a lack of proximate industry, low rates of fossil fuel combustion, and absence of intensive agriculture. We present field-based N deposition data for forests of the central Congo Basin, and use ultrahigh-resolution mass spectrometry to characterize the organic N fraction. Additionally, we use satellite data and modeling for atmospheric N source apportionment. Our results indicate that these forests receive 18.2 kg N hectare-1 years-1 as wet deposition, with dry deposition via canopy interception adding considerably to this flux. We also show that roughly half of the N deposition is organic, which is often ignored in N deposition measurements and simulations. The source of atmospheric N is predominantly derived from intensive seasonal burning of biomass on the continent. This high N deposition has important implications for the ecology of the Congo Basin and for global biogeochemical cycles more broadly. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF