Nitrousoxide(N2O)isagreenhousegas31

Nitrousoxide(N2O)isagreenhousegas310times more potent than carbon dioxide (CO2) in its ability to trap and radiate heat in Earth’s atmosphere (USEPA 2014). Agriculture accounts for 10% of all greenhouse gas emissions in the United States but 75%ofthecountry’sN2Oemissions(USEPA2014).

In the agricultural sector N2O is typically associated with corn (Zea mays L.) production, where increased nitrogen (N) fertilization is related to higher N2O emissions (Hoben et al. 2011; McSwiney and

Robertson 2005; Millar et al. 2010; Mosier et al. 2006; Parkin and Kaspar 2006). Because soybean production does not rely on N fertilizers like corn production does, N2O emissions from soils planted with soybean are generally two to five times lower than N2O emissions from soils planted with corn

(Drury et al. 2008; Nangia et al. 2013; Parkin and Kaspar 2006; Wagner-Riddle et al. 2007). For example, N2O emissions were 3.1 times lower for monoculture soybean (0.84 kg N ha21) than mono-culture corn (2.62 kg N ha21) when data were averaged over three growing seasons in Ontario, Canada (Drury et al. 2008). Even though emissions from soybean are lower than those from corn, they areimportanttounderstandgiventheenvironmental impact of N2O.

N2O emissions are influenced by soil nitrate

(NH2

3), ammonium (NH2

4), carbon (C), water

availability, pH, and temperature (Bateman and Baggs 2005; Bouwman 1990; Bremner and Shaw 1958; Weier et al. 1993; Zumft 1997). Management