A Single Law to Describe Atmospheric Nitrogen Bulk Deposition versus Rainfall Amount: Inputs at the Seine River Watershed Scale

Titre
Publication TypeJournal Article
Year of Publication2004
AuthorsGarban, B, Motelay-Massei, A, Blanchoud, H, Ollivon, D
JournalWater, Air, & Soil Pollution
Volume155
Start Page339
Pagination15
Date Published06/2004
Mots-clésammonium, atmospheric deposition, flux, nitrate
Abstract
Atmospheric nitrogen species (NH4-N and (NO3+NO2)-N) were determined in weekly samples of atmospheric bulk deposition (dry plus wet), collected in France at seven sites over the course of a year. Rural, semi-rural and industrialised-urban sites were chosen in the Seine river watershed from the Seine estuary to upstream from Paris. Mean NH4-N concentrations varied from 0.7 to 1.7 mg L-1. Mean (NO3+NO2)-N concentrations were approximately 0.5 mg L-1 for all sites except Paris (0.7 mg L-1), which has a local impact on the fallout contamination from urban emissions. The relation between concentration and rainfall amount obeys a power law, in the form of y = ax b. When the nitrogen sources are very local, this relationship turns into a dilution law. Annual atmospheric nitrogen deposition (NH4-N+(NO3+NO2)-N) was calculated and varied from 7.8 kg ha-1 yr-1 in the neighbourhood of a rural town to 17.3 kg ha-1 yr-1 in a very industrialised harbour. 58% of the atmospheric nitrogen deposition occurred during ‘spring + summer’ period. The total nitrogen atmospheric input to the Seine estuary, via direct deposition + indirect input via the watershed, was estimated to about 5% of the total nitrogen load within the Seine river basin.
DOI10.1023/B:WATE.0000026550.61610.f0