Citation Information

• Title : US agricultural nitrous oxide emissions: context, status, and trends
• Source : Frontiers in Ecology and the Environment
• Publisher : Ecological Society of America
• Volume : 10
• Issue : 10
• Pages : 537–546
• Year : 2012
• DOI : 10.1890/120054
• ISBN : 10.1890/120054
• Document Type : Journal Article
• Language : English
• Authors:
  • Leytem, A. B.
  • Venterea, R. T.
  • Fixen, P. E.
  • Snyder, C. S.
  • Liebig, M. A.
  • Del Grosso, S. J.
  • Cavigelli, M. A.
  • McLain, J. E.
  • Watts, D. B.
• Climates: Continental (D). Temperate (C). Steppe (BSh, BSk). Humid subtropical (Cwa, Cfa). Hot summer continental (Dsa, Dfa, Dwa). Warm summer continental/Hemiboreal (Dsb, Dfb, Dwb).
• Cropping Systems: Maize. Cover cropping. Till cropping systems.
• Countries: USA.

Summary

The use of commercial nitrogen (N) fertilizers has led to enormous increases in US agricultural productivity. However, N losses from agricultural systems have resulted in numerous deleterious environmental impacts, including a continuing increase in atmospheric nitrous oxide (N2O), a greenhouse gas (GHG) and an important catalyst of stratospheric ozone depletion. Although associated with about 7% of total US GHG emissions, agricultural systems account for 75% of total US N2O emissions. Increased productivity in the crop and livestock sectors during the past 30 to 70 years has resulted in decreased N2O emissions per unit of production, but N2O emissions from US agriculture continue to increase at a rate of approximately 0.46 teragrams of carbon dioxide equivalents per year (2002-2009). This rate is lower than that during the late 20th century. Improvements in agricultural productivity alone may be insufficient to lead to reduced emissions; implementing strategies specifically targeted at reducing N2O emissions may therefore be necessary. Front Ecol Environ 2012; 10(10): 537-546, doi:10.1890/120054

http://dx.doi.org/10.1890/120054