Nitrous oxide sinks and emissions in boreal aquatic networks in Québec (original) (raw)

References

  1. Seitzinger, S. et al. Denitrification across landscapes and waterscapes: A synthesis. Ecol. Appl. 16, 2064–2090 (2006).
    Article Google Scholar
  2. Harrison, J. A. et al. The regional and global significance of nitrogen removal in lakes and reservoirs. Biogeochemistry 93, 143–157 (2008).
    Article Google Scholar
  3. Ivens, W., Tysmans, D. J. J., Kroeze, C., Lohr, A. J. & van Wijnen, J. Modeling global N2O emissions from aquatic systems. Curr. Opin. Environ. Sustain. 3, 350–358 (2011).
    Article Google Scholar
  4. Ciais, P. et al. in Climate Change 2013: The Physical Science Basis (eds Stocker, T. F. et al.) 465–570 (IPCC, Cambridge Univ. Press, 2013).
    Google Scholar
  5. Boyer, E. W. et al. Riverine nitrogen export from the continents to the coasts. Glob. Biogeochem. Cycles 20, GB1S91 (2006).
    Article Google Scholar
  6. Seitzinger, S. P., Kroeze, C. & Styles, R. V. Global distribution of N2O emissions from aquatic systems: Natural emissions and anthropogenic effects. Chemosphere 2, 267–279 (2000).
    Google Scholar
  7. Stow, C. A., Walker, J. T., Cardoch, L., Spence, P. & Geron, C. N2O emissions from streams in the Neuse River watershed, North Carolina. Environ. Sci. Technol. 39, 6999–7004 (2005).
    Article Google Scholar
  8. Clough, T. J., Buckthought, L. E., Casciotti, K. L., Kelliher, F. M. & Jones, P. K. Nitrous oxide dynamics in a braided river system, New Zealand. J. Environ. Qual. 40, 1532–1541 (2011).
    Article Google Scholar
  9. Beaulieu, J. J., Shuster, W. D. & Rebholz, J. A. Nitrous oxide emissions from a large, impounded river: The Ohio River. Environ. Sci. Technol. 44, 7527–7533 (2010).
    Article Google Scholar
  10. Baulch, H. M. et al. Night and day: Short-term variation in nitrogen chemistry and nitrous oxide emissions from streams. Freshwat. Biol. 57, 509–525 (2012).
    Article Google Scholar
  11. Baulch, H. M., Schiff, S. L., Maranger, R. & Dillon, P. J. Nitrogen enrichment and the emission of nitrous oxide from streams. Glob. Biogeochem. Cycles 25, GB4013 (2011).
    Article Google Scholar
  12. Beaulieu, J. J. et al. Nitrous oxide emission from denitrification in stream and river networks. Proc. Natl Acad. Sci. USA 108, 214–219 (2011).
    Article Google Scholar
  13. Whitfield, C. J., Aherne, J. & Baulch, H. M. Controls on greenhouse gas concentrations in polymictic headwater lakes in Ireland. Sci. Total Environ. 410, 217–225 (2011).
    Article Google Scholar
  14. Baron, J. S. et al. The interactive effects of excess reactive nitrogen and climate change on aquatic ecosystems and water resources of the United States. Biogeochemistry 114, 71–92 (2013).
    Article Google Scholar
  15. McCrackin, M. L. & Elser, J. J. Greenhouse gas dynamics in lakes receiving atmospheric nitrogen deposition. Glob. Biogeochem. Cycles 25, GB4005 (2011).
    Article Google Scholar
  16. Seitzinger, S. P. Denitrification in freshwater and coastal Marine ecosystems: Ecological and geochemical significance. Limnol. Oceanogr. 33, 702–724 (1988).
    Google Scholar
  17. Beman, J. M. et al. Global declines in oceanic nitrification rates as a consequence of ocean acidification. Proc. Natl Acad. Sci. USA 108, 208–213 (2011).
    Article Google Scholar
  18. Jacinthe, P. A., Filippelli, G. M., Tedesco, L. P. & Raftis, R. Carbon storage and greenhouse gases emission from a fluvial reservoir in an agricultural landscape. Catena 94, 53–63 (2012).
    Article Google Scholar
  19. Freing, A., Wallace, D. W. R. & Bange, H. W. Global oceanic production of nitrous oxide. Phil. Trans. R. Soc. B 367, 1245–1255 (2012).
    Article Google Scholar
  20. Syakila, A., Kroeze, C. & Slomp, C. P. Neglecting sinks for N2O at the Earth’s surface: Does it matter? J. Integrat. Environ. Sci. 7, 79–87 (2010).
    Article Google Scholar
  21. Knowles, R. & Lean, D. R. S. Nitrification—a significant cause of oxygen depletion under winter ice. Can. J. Fish. Aquat. Sci. 44, 743–749 (1987).
    Article Google Scholar
  22. Raymond, P. A. & Cole, J. J. Gas exchange in rivers and estuaries: Choosing a gas transfer velocity. Estuaries 24, 312–317 (2001).
    Article Google Scholar
  23. Rosamond, M. S., Thuss, S. J. & Schiff, S. L. Dependence of riverine nitrous oxide emissions on dissolved oxygen levels. Nature Geosci. 5, 715–718 (2012).
    Article Google Scholar
  24. Campeau, A. & del Giorgio, P. A. Patterns in CH4 and CO2 concentrations across boreal rivers: Major drivers and implications for fluvial greenhouse emissions under climate change scenarios. Glob. Change Biol. 20, 1075–1088 (2013).
    Article Google Scholar
  25. Cole, J. J. & Caraco, N. F. Atmospheric exchange of carbon dioxide in a low-wind oligotrophic lake measured by the addition of SF6. Limnol. Oceanogr. 43, 647–656 (1998).
    Article Google Scholar
  26. Cattaneo, A. & Prairie, Y. T. Temporal variability in the chemical characteristics along the Rivière de l’Achigan: How many samples are necessary to describe stream chemistry? Can. J. Fish. Aquat. Sci. 52, 828–835 (1995).
    Article Google Scholar
  27. Nusch, E. Comparison of different methods for chlorophyll and phaeopigment determination. Arch. Hydrobiol. Beih. 14, 14–36 (1980).
    Google Scholar
  28. National Hydro Network (Natural Resources Canada, accessed 19 November 2015); http://geogratis.gc.ca/api/en/nrcan-rncan/ess-sst/-/(urn:iso:series)geobase-national-hydro-network-nhn?sort-field=relevance
  29. Downing, J. A. et al. Global abundance and size distribution of streams and rivers. Inland Wat. 2, 229–236 (2012).
    Article Google Scholar
  30. Bastviken, D., Tranvik, L. J., Downing, J. A., Crill, P. M. & Enrich-Prast, A. Freshwater methane emissions offset the continental carbon sink. Science 331, 50 (2011).
    Article Google Scholar

Download references