Nitrate leaching losses and pasture yields as affected by different rates of animal urine nitrogen returns and application of a nitrification inhibitor—a lysimeter study

Abstract

Nitrate (NO3−) leaching and water contamination is a major environmental issue around the globe. In grazed grassland, most of the nitrate leaching occurs under the animal urine patch areas because of high nitrogen (N) loading rates. The aim of this study was to determine NO3–-N leaching losses and pasture responses as affected by different animal urine-N loading rates and application of a nitrification inhibitor, dicyandiamide (DCD). Undisturbed monolith lysimeters (50 cm diameter by 70 cm deep) of a free-draining stony soil (Pallic orthic brown soil; Udic Haplustept loamy skeletal) with a mixture of perennial ryegrass (Lolium perenne) and white clover (Trifolium repens) were used for the study. Results showed that total NO3–-N leaching losses increased significantly (P < 0.01) from 22.8 to 59.7, 188.1 and 254.9 kg NO3−-N ha−1, when urine N was applied at 0 (Control), 300, 700 and 1,000 kg N ha−1, respectively, without DCD. The application of DCD to the corresponding treatments significantly (P < 0.01) reduced the total NO3−-N leaching losses to 12.4, 9.9, 75.3 and 139.0 kg N ha−1, respectively, resulting in an average reduction of 63%. Pasture yield increased linearly with increasing urine-N application rates and the application of DCD resulted in an average 25% increase in pasture dry matter production. The average N offtake was increased by 32% with the application of DCD, confirming the effectiveness of the inhibitor in improving the N cycle. These results indicate that the DCD nitrification inhibitor technology has the potential to be a valuable nitrogen management tool in different grazed pasture systems (e.g. sheep, beef cattle and dairy cattle) to mitigate NO3− leaching and improve sustainable production.