摘要:The use of synthetic N fertilizers has grown exponentially over the last century, with severe environmental consequences. Most of the reactive N will ultimately be removed by denitrification, but estimates of denitrification are highly uncertain due to methodical constraints of existing methods. Here we present a novel, mobile isotope ratio mass spectrometer system (Field-IRMS) for in-situ quantification of N 2 and N 2 O fluxes from fertilized cropping systems. The system was tested in a sugarcane field continuously monitoring N 2 and N 2 O fluxes for 7 days following fertilization using a fully automated measuring cycle. The detection limit of the Field-IRMS proved to be highly sensitive for N 2 (54 g ha -1 day -1 ) and N 2 O (0.25 g ha -1 day -1 ) emissions. The main product of denitrification was N 2 with total denitrification losses of up to 1.3 kg N ha -1 day -1 . These losses demonstrate sugarcane systems in Australia are a hotspot for denitrification where high emissions of N 2 O and N 2 can be expected. The new Field-IRMS allows for the direct and highly sensitive detection of N 2 and N 2 O fluxes in real time at a high temporal resolution, which will help to improve our quantitative understanding of denitrification in fertilized cropping systems.
