Microbial pathways for nitrous oxide emissions from sheep urine and dung in a typical steppe grassland

The aim of this study was to determine the responses of nitrifiers and denitrifiers to understand microbial pathways of nitrous oxide (N₂O) emissions in grassland soils that received inputs of sheep excreta. Sheep dung and synthetic sheep urine were applied at three different rates, simulating a single, double, or triple overlapping of urine or dung depositions in the field. Quantitative PCR and high-throughput sequencing were combined with process-based modeling to understand effects of sheep excreta on microbial populations and on pathways for N₂O production. Results showed that emissions of N₂O from urine were significantly higher than from dung, ranging from 0.12 to 0.78 kg N₂O-N ha¯¹ during the 3 months. The N₂O emissions were significantly related to the bacterial amoA (r = 0.373, P < 0.001) and nirK (r = 0.614, P < 0.001) gene abundances. It was autotrophic nitrification that dominated N₂O production in the low urine-N rate soils, whereas it was denitrification (including nitrifier denitrification and heterotrophic denitrification) that dominated N₂O production in the high urine-N rate soils. Nitrifier denitrification was responsible for most of the N₂O emissions in the dung-treated soils. This study suggests that nitrifier denitrification is indeed an important pathway for N₂O emissions in these low fertility and dry grazed grassland ecosystems