Simulating N2O fluxes from a Brazilian cropped soil with contrasted tillage practices

Assessing the N₂O fluxes balance is a key challenge to estimate the effect of agriculture practices on greenhouse gas production. N₂O fluxes remained difficult to measure on a field scale due to high spatial and temporal variability and usually low concentrations. Our work aimed at (i) characterizing by laboratory measurements soil potential N₂O emissions from nitrification and denitrification and (ii) testing a modelling approach of N₂O emissions that circumvents the problem of discrete measurements for two Brazilian rainfed rice cropping systems, no-tillage (NT) vs. disk tillage (DT). This latter approach consisted in the combination of 2 models: a mechanistic water transfer model and a N₂O emission model, namely PASTIS and NOE. Simulations with the PASTIS + NOE approach showed for both NT and DT treatments that: (i) the soil emitted low amounts of N₂O, (ii) emissions by denitrification corresponded to short periods of high N₂O emissions (15 times as high as emission by nitrification), (iii) nitrification contributed to ca 35% of the total N₂O emissions at the crop cycle scale, (iv) field N₂O emission measurements corresponded to the low bound of simulated emissions from nitrification.