Simulated animal trampling of a free-draining stony soil stimulated denitrifier growth and increased nitrous oxide emissions

Abstract

Winter forage grazing systems in New Zealand cause compaction of soil by grazing animals, especially when the soil is wet. However, there is little information on the effects of animal trampling on denitrifiers in soil, despite their importance for N₂O production. Here, we report a field study of the abundance of the denitrifying genes nirS, nirK, and nosZ and N₂O emissions following the application of dairy cow urine in a free-draining stony soil. Importantly, we found that simulated animal trampling altered some of the denitrifying microbial communities, thus leading to increased N₂O emissions. Over the 111 day measurement period, the abundance of nitrite (NO₂⁻)-reducing nirS gene copy numbers increased significantly by 87% in the trampled soil with urine (P < 0.01) and increased by 40% in the trampled soil without urine (P < 0.05), but the nirS gene abundance did not change significantly in the nontrampled soil. The abundance of NO₂⁻ reducing nirK gene copy numbers was not affected by trampling, but increased significantly following urine application. The abundance of N₂O-reducing nosZ clade I and nosZ clade II gene copy numbers increased significantly in the trampled soil, but did not change significantly in the nontrampled soil. N₂O emissions from the trampled soil were about twice that from the nontrampled soil without urine (1.20 and 0.62 kg N₂O-N per ha, respectively) and about eight times greater (6.24 kg N₂O-N per ha) than from nontrampled soil (0.80 kg N₂O-N per ha) when urine was applied. These results strongly suggest that animal trampling during winter forage grazing can have a major impact on denitrifying communities in soil, which in turn stimulate greater denitrification with increased N₂O emissions.