Abstract

It has been suggested that soil-thawing and snow-melting are critical triggers for vigorous emissions of nitrous oxide (N 2O) from soils in cold regions. However, because soil freezing is affected by air temperature and snow cover, accurate predictions that estimate subsequent emissions of this important greenhouse gas are difficult to make. In this study, we measured in situ soil gas N 2O and oxygen (O 2) concentrations at two experimental sites in northern Japan over the period of a year, from November 2008 to October 2009, to clarify the factors stimulating N 2O production in soil at low temperatures. The sites were N-fertilized bare arable lands with different soil frost depths and snowmelt rates, according to the snow cover management imposed. Winter-to-spring net N 2O fluxes, ranging from −0.10 to 1.95 kg N 2O–N ha −1, were positively correlated with the annual maximum soil frost depth (ranging from 0.03 to 0.41 m; r = 0.951***). In the plots with deeper maximum soil frost, winter-to-spring N 2O fluxes represented 58% to 85% of the annual values. Soil N 2O production was stimulated when the soil frost depth was greater than 0.15 m or the daily mean soil temperature at 0.05-m depth was below −2.0 °C. In the soil with the greatest frost depth, soil gas N 2O concentrations at the depth of 0.10 m peaked at 46 ppm when soil gas O 2 concentrations fell down to 0.12 m 3 m −3 under soil temperature below 0.0 °C. Snowmelt acceleration had no stimulating effect on N 2O production in the soil during the winter-to-spring period.

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