Abstract

Ammonia (NH3) emission is an atmospheric pollutant that harms the environment and public health. Although the use of nitrogen (N) - based fertilizer to increase crop output is a significant source of NH3 emissions, it is unclear what factors speed up this process. A laboratory incubation study using the dynamic chamber method was performed to evaluate the impact of manure compost and N rates on NH3 emission at different temperatures (15, 25, and 35 °C). The ammonia emission from sandy loam soil treated with compost at 110 kg N ha−1 (CU0) and urea at 100, 200, and 400 kg N ha−1: CU1, CU2, and CU3, respectively, were monitored for 28 days. The result showed that cumulative NH3 emission increased with temperature and N application rates. At the three temperature regimes, N loss via NH3 emission ranged between 7.2 and 8.3, 8.04 and 12.78, and 13.79 and 44.78 percent of N applied to CU1, CU2, and CU3, respectively. The activation energy was highest in CU3 treatments in all the temperature regimes resulting in 36%–60% higher compared to others. The temperature quotient (Q10) of NH3 emission ranged between 0.28 and 8.06 and 0.18 and 14.91 at 15–25 °C and 25–35 °C, respectively. This study demonstrated that the application of compost (110 kg N ha−1) and urea (100 or 200 kg N ha−1) at low temperatures (< 25 °C) is a good strategy to reduce ammonia volatilization, improve N use efficiency and soil properties.

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