Soil type, bulk density and drainage effects on relative gas diffusivity and N2O emissions

摘要

Nitrous oxide (N2O), a greenhouse gas, contributes to stratospheric ozone depletion. Agricultural fertiliser use and animal excreta dominate anthropogenic N2O emissions. Soil relative gas diffusivity (D-p/D-o) has been used to predict the likelihood of soil N2O emissions, but limited information exists about how soil N2O emissions vary with soil type in relation to D-p/D-o. It was hypothesised that, regardless of soil type, the N2O emissions would peak at the previously reported D-p/D-o value of 0.006. Four pasture soils, sieved and repacked to three different bulk densities, were held at nine different soil matric potentials between near saturation and field capacity. Soil nitrate and dissolved organic matter concentrations were adequate for denitrification at all soil matric potentials. Increasing soil bulk density and soil matric potential causedD(p)/D-o to decline. AsDp/D-o declined to a value of 0.006, the N2O fluxes increased, peaking at D-p/D-o <= 0.006. This study shows that the elevation of N2O fluxes as a D-p/D-o threshold of 0.006 is approached, holds across soil types. However, the variability in the magnitude of the N2O flux as D-p/D-o declines is not explained by D-p/D-o and is likely to be dependent on factors affecting the N2O : (N2O + N-2) ratio.