Abstract
This study is the first to report nitrite occurrence and variability in surface water across an agricultural watershed in the province of Quebec, Canada. Nitrite (NO2 −) concentrations were monitored across a 2.4 km2 watershed during 2 years. Water samples were collected at the outlet from April to November and in three contrasted stream branches (six stations) during three hydrological regimes (summer low water levels, fall recharge, and snowmelt). Our study clearly demonstrates that NO2 − levels observed at the outlet are not representative of NO2 − variability across the micro-watershed. Surface water collected in cropped areas presents high NO2 − concentrations during summer low water levels, often exceeding guidelines for aquatic life, with NO2 − means ranging from 0.022 to 0.107 mg N L−1 and maximum value reaching 0.156 mg N L−1. Furthermore, the two stream branches in cropped area have demonstrated significant differences in NO2 − concentrations and other water quality parameters. The importance of groundwater discharge to streams in the micro-watershed Bras d’Henri may potentially generate different in-stream sources of NO2 − and water quality parameters. However, further studies are essential to determine sources and processes related to in-stream NO2 − peaks.
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References
American Public Health Association. (1995). Standard methods for the examination of water and wastewater (9th ed.). Washington D.C.: American Public Health Association.
Association of Analytical Communities. (1995). Official methods of analysis of AOAC International (16th ed.). Arlington Virginia: Agricultural Chemicals; Contaminants; Drugs.
Burns, L. C., Stevens, R. J., Smith, R. V., & Cooper, J. E. (1995). The occurrence and possible sources of nitrite in a grazed, fertilized, grassland soil. Soil Biology & Biochemistry, 27, 47–59. doi:10.1016/0038-0717(94)00130-S.
Canadian Council of Ministers of the Environment.(2007). Source to tap: Nitrate and Nitrite. http://www.ccme.ca/sourcetotap/nitrates.html Accessed 27 September 2007.
Corriveau, J., van Bochove, E., Bégin, G., & Cluis, D. (2008). Effect of preservation techniques on the determination of nitrite in freshwater samples. Water, Air, and Soil Pollution, 193, 335–342. doi:10.1007/s11270-008-9694-z.
Eddy, F. B., & Williams, E. M. (1987). Nitrite and freshwater fish. Chemistry and Ecology, 3, 1–38. doi:10.1080/02757548708070832.
Gadd, N. R. (1974). Surficial geology—Saint-Sylvestre. Map 1407A, scale 1:50000. Ottawa: Geological Survey of Canada.
Goyal, S. S., & Hafez, A. A. R. (1995). Phosphate-catalyzed decomposition of nitrite to nitrate during freezing and thawing of solutions. Journal of Agricultural and Food Chemistry, 43, 2641–2645. doi:10.1021/jf00058a016.
Health and Welfare Canada (HWC). (1996). Guidelines for Canadian drinking water quality (6th ed.). Ottawa: Canada Communications Group Publishing.
Hébert, S., & Légaré, S.(2000). Suivi de la qualité des rivières et petits cours d’eau, Québec, Direction du suivi de l’état de l’environnement, ministère de l’Environnement, envirodoq no ENV-2001-0141, rapport no QE-123,24p. et 3 annexes.
Keeney, D. R., & Nelson, D. W. (1982). Nitrogen-inorganic forms. In A. L. Page (Ed.), Methods of soils analysis. 2nd ed. Part 2. Agron. Monogr. 9 (pp. 643–648). Madison: ASA and SSSA.
Kelso, B. H. L., Glass, D. M., & Smith, R. V. (1999). Toxicity of nitrite to freshwater invertebrates. In W. S. Wilson, D. M. Ball & R. H. Hinton (Eds.), Managing risks of nitrates to humans and the environment (pp. 175–188). Cambridge: Royal Society of Chemistry.
Kelso, B. H. L., Smith, R. V., Laughlin, R. J., & Lennox, S. D. (1997). Dissimilatory nitrate reduction in anaerobic sediments leading to river nitrite accumulation. Applied and Environmental Microbiology, 63, 4679–4685.
Kroupova, H., MaChova, J., & Svobodova, Z. (2005). Nitrite influence on fish: a review. Veterinary Medicine—Czech, 50, 461–471.
Meybeck, M. (1982). Carbon, nitrogen, and phosphorus transport by world rivers. American Journal of Science, 282, 401–450.
Ministère de l’environnement et de la faune (MEF). (1998). Critères de qualité de l’eau de surface au Québec. Direction des écosystèmes aquatiques. Québec: Ministère de l’environnement et de la faune du Québec.
Nkonge, C., & Ballance, G. M. (1982). A sensitive colorimetric procedure for nitrogen determination in micro-Kjeldahl. Journal of Agricultural and Food Chemistry, 30, 416–420. doi:10.1021/jf00111a002.
Paul, E. A., & Clarke, F. E. (1989). Soil microbiology and biochemistry (2nd ed.). San Diego: Academic.
Gießen, R. (ed). (1994). Modellhafte Erarbeitung eines ökologisch begründeten Sanierungskonzeptes für kleine Fließgewässer am Beispiel der Lahn (Modelling the objectives of an ecological reconstruction draft for small running waters exemplified by the River Lahn). Endbericht: BMFT-Projekt.
Scherrer, B. (1984). Biostatistique. Montréal: Gaëtan Morin Éditeur.
Slivitzky, A., & St-Julien, P.(1987). Compilation géologique de la région de l’Estrie-Beauce (MM 85-04).Québec: Ministère de l’Énergie et des Ressources.
Smith, R. V., & Steward, D. A. (1989). A regression model of nitrate leaching in Northern Ireland. Soil Use and Management, 5, 71–76. doi:10.1111/j.1475-2743.1989.tb00764.x.
Smith, R. V., Foy, R. H., Lennoxe, S. D., Jordan, C., Burns, J. E., Cooper, J. E., et al. (1995). Occurence of nitrite in the Lough Neagh river system. Journal of Environmental Quality, 24, 952–959.
Smith, R. V., Burns, L. C., Doyle, R. M., Lennox, S. D., Kelso, R. H., Foy, R. H., et al. (1997). Free ammonia inhibition of nitrification in river sediments leading to nitrite accumulation. Journal of Environmental Quality, 26, 1049–1055.
Turtura, G. C., & De Pascale, A. (1991). Qualità delle acque irrigue di Malalbergo (Bologna). Annals of Microbiology, 41, 81–100.
van Bennekom, A. J., Berger, G. W., Helder, W., & De Vries, R. T. P. (1978). Nutrient distribution in the Zaire estuary and river plume. Netherlands Journal of Sea Research, 12, 296–323. doi:10.1016/0077-7579(78)90033-9.
van Bochove, E., Jones, H. G., Pelletier, F., & Prévost, D. (1996). Emission of N2O from agricultural soil under snow cover: a significant part of N budget. Hydrological Processes, 10, 1545–1549. doi:10.1002/(SICI)1099-1085(199611) 10:11<1545::AID-HYP492>3.0.CO;2-0.
van Bochove, E. Dechmi, Nolin, M.C., Chantigny, M.H., Lemieux, C., Thériault, G. & Corriveau, J. (2005). Evaluation of beneficial agricultural management practices on water quality at edge-of-field and micro-watershed scales in Southern Quebec, Canada. Proceedings of the International Water Association, 9th Diffuse Pollution Conference, August 16–19, Johannesburg, South Africa. 8p.
von der Wiesche, M., & Wetzel, A. (1998). Temporal and spatial dynamics of nitrite accumulation in the River Lahn. Water Research, 32, 1635–1661. doi:10.1016/S0043-1354(97)00376-X.
Acknowledgements
Grateful thanks are addressed to Nadia Goussard, Geneviève Begin, Jean-Thomas Denault, and Georges Thériault for their efficient contributions and suggestions while performing laboratory analyses of water samples, field work and data analysis. Particular thanks are addressed to the Institut national de la recherche scientifique en Eau, Terre et Environment (INRS-ETE) for its support and contribution to the study. This project has been funded by the Watershed Evaluation of BMPs (WEBs) and Information Gaps in Water Quality and Nutrients (GAPS#315) programs of AAFC, and by the Groundwater Program of Natural Resources Canada (management by A. Rivera, project of S. Chalifoux).
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Corriveau, J., van Bochove, E., Savard, M.M. et al. Occurrence of High In-Stream Nitrite Levels in a Temperate Region Agricultural Watershed. Water Air Soil Pollut 206, 335–347 (2010). https://doi.org/10.1007/s11270-009-0109-6
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DOI: https://doi.org/10.1007/s11270-009-0109-6