Efficacy of four nitrification inhibitors for the mitigation of nitrous oxide emissions under different soil temperature and moisture

Background

Nitrification inhibitors (NI) may be used to inhibit nitrous oxide (N2O) emissions from agricultural soils, but their efficacy could be strongly affected by soil temperature and moisture.

Aims

This study investigated how different NI behave in a sandy soil under variable temperature and moisture levels, which currently remains unclear.

Methods

Efficacies of four NI [dicyandiamide (DCD), 3,4-dimethylpyrazole phosphate (DMPP), nitrogenous mineral fertilizers containing the DMPP ammonium stabilizer (ENTEC) and active ingredients: 3.00–3.25% 1,2,4-triazole and 1.50–1.65% 3-methylpyrazole (PIADIN)] were investigated in an incubation experiment under two soil temperatures (15 and 25°C) and two moisture levels [60% and 80% water-holding capacity (WH)] for 60 days in a sandy soil. The soil received 0.5 g NH4+-N kg−1 soil and the inhibitors were applied at 5% of applied N. Total N2O emissions were calculated based on gas samples collected throughout the incubation period.

Results

Increasing soil temperature from 15 to 25°C decreased N2O emissions by 73–191% while increasing soil moisture from 60% to 80% WHC caused a 109–251% increase in the emissions. ENTEC followed by DCD were the least effective inhibitors to reduce N2O emissions under all temperature and moisture combinations. Depending upon temperature and soil moisture, DMPP and PIADIN inhibited 85–100% of N2O emissions. At 15°C, both DMPP and PIADIN almost completely inhibited N2O emissions. At 25°C, the efficacy of PIADIN decreased to 88%, while that of DMPP ranged from 86% to 98%. Increased soil moisture content improved the efficacy of all the NI. Overall, DMPP and PIADIN were more effective than DCD in a sandy soil under both the soil moisture levels and temperatures. 

Rights

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