Journal
SCIENCE OF THE TOTAL ENVIRONMENT
Volume 456, Issue -, Pages 384-391Publisher
ELSEVIER
DOI: 10.1016/j.scitotenv.2013.02.078
Keywords
Dissolved organic carbon (DOC); Nitrate; Reagentless UV sensor; In-situ monitoring; High temporal resolution; Grassland
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Funding
- Seale Hayne Educational Trust
- Biotechnology and Biological Sciences Research Council (BBSRC)
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Co-deployment of two reagentless UV sensors for high temporal resolution (15 min) real time determination of wintertime DOC and nitrate-N export from a grassland lysimeter plot (North Wyke, Devon, UK) is reported. They showed rapid, transient but high impact perturbations of DOC (5.3-23 mg C L-1) and nitrate-N export after storm/snow melt which discontinuous sampling would not have observed. During a winter freeze/thaw cycle, DOC export (1.25 kg C ha(-1) d(-1)) was significantly higher than typical UK catchment values (maximum 025 kg C ha d(-1)) and historical North Wyke data (0.7 kg C ha(-1) d(-1)). DOC concentrations were inversely correlated with the key DOC physico-chemical drivers of pH (January r = -0.65), and conductivity (January r = -0.64). Nitrate-N export (0.8-1.5 mg N L-1) was strongly correlated with DOC export (r >= 0.8). The DOC:NO3-N molar ratios showed that soil microbial N assimilation was not C limited and therefore high N accrual was not promoted in the River Taw, which is classified as a nitrate vulnerable zone (NVZ). The sensor was shown to be an effective sentinel device for identifying critical periods when rapid ecosystem N accumulation could be triggered by a shift in resource stoichiometry. It is therefore a useful tool to help evaluate land management strategies and impacts from climate change and intensive agriculture. (C) 2013 Elsevier B.V. All rights reserved.
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