Export to Reference Manager
Please use this identifier to cite or link to this item: http://www.lsln.net.au/jspui/handle/1/13351
Type: journalArticle
Title: Nitrogen removal by riparian buffers along a European climatic gradient: patterns and factors of variation
Authors: Sabater, S.
Butturini, A.
Clement, J. C.
Burt, T.
Dowrick, D.
Hefting, M.
Matre, V.
Pinay, G.
Postolache, C.
Rzepecki, M.
Sabater, F.
Year: 2003
Citation: Volume: 6
Issue: 1
Abstract: We evaluated nitrogen (N) removal efficiency by riparian buffers at 14 sites scattered throughout seven European countries subject to a wide range of climatic conditions. The sites also had a wide range of nitrate inputs, soil characteristics, and vegetation types. Dissolved forms of N in groundwater and associated hydrological parameters were measured at all sites; these data were used to calculate nitrate removal by the riparian buffers. Nitrate removal rates (expressed as the difference between the input and output nitrate concentration in relation to the width of the riparian zone) were mainly positive, ranging from 5% m⬚1 to 30% m⬚1, except for a few sites where the values were close to zero. Average N removal rates were similar for herbaceous (4.43% m⬚1) and forested (4.21% m⬚1) sites. Nitrogen removal efficiency was not affected by climatic variation between sites, and no significant seasonal pattern was detected. When nitrate inputs were low, a very large range of nitrate removal efficiencies was found both in the forested and in the nonforested sites. However, sites receiving nitrate inputs above 5 mg N L⬚1 showed an exponential negative decay of nitrate removal efficiency (nitrate removal efficiency ⬚ 33.6 e⬚0.11 NO3 input, r2 ⬚ 0.33, P ⬚ 0.001). Hydraulic gradient was also negatively related to nitrate removal (r⬚⬚0.27, P⬚0.05) at these sites. On the basis of this intersite comparison, we conclude that the removal of nitrate by biological mechanisms (for example, denitrification, plant uptake) in the riparian areas is related more closely to nitrate load and hydraulic gradient than to climatic parameters.
Zotero ID: MW4RHV28
URL: http://link.springer.com/article/10.1007/s10021-002-0183-8
URL: http://www.lsln.net.au/jspui/handle/1/13351
ISSN: 1432-9840
DOI: 10.1007/s10021-002-0183-8
Journal Title: Ecosystems
Geo Location: none
Appears in Collections:Hunter Local Land Services

Files in This Item:
File Description SizeFormat 
Sabater et al 2003.pdf160.54 kBAdobe PDFThumbnail

Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.