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Effect of the nitrification inhibitor 3,4-dimethylpyrazole phosphate (DMPP) on N-turnover, the N 2 O reductase-gene nosZ and N 2 O:N 2 partitioning from agricultural soils
Nitrification inhibitors (NIs) have been shown to reduce emissions of the greenhouse gas nitrous oxide (N O) from agricultural soils. However, their N O reduction efficacy varies widely across different agro-ecosystems, and underlying mechanisms remain poorly understood. To investigate effects of th...
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Published in: | Scientific reports 2020-02, Vol.10 (1), p.2399 |
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Main Authors: | , , , , , , , , |
Format: | Article |
Language: | English |
Online Access: | Get full text |
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Summary: | Nitrification inhibitors (NIs) have been shown to reduce emissions of the greenhouse gas nitrous oxide (N
O) from agricultural soils. However, their N
O reduction efficacy varies widely across different agro-ecosystems, and underlying mechanisms remain poorly understood. To investigate effects of the NI 3,4-dimethylpyrazole-phosphate (DMPP) on N-turnover from a pasture and a horticultural soil, we combined the quantification of N
and N
O emissions with
N tracing analysis and the quantification of the N
O-reductase gene (nosZ) in a soil microcosm study. Nitrogen fertilization suppressed nosZ abundance in both soils, showing that high nitrate availability and the preferential reduction of nitrate over N
O is responsible for large pulses of N
O after the fertilization of agricultural soils. DMPP attenuated this effect only in the horticultural soil, reducing nitrification while increasing nosZ abundance. DMPP reduced N
O emissions from the horticultural soil by >50% but did not affect overall N
+ N
O losses, demonstrating the shift in the N
O:N
ratio towards N
as a key mechanism of N
O mitigation by NIs. Under non-limiting NO
availability, the efficacy of NIs to mitigate N
O emissions therefore depends on their ability to reduce the suppression of the N
O reductase by high NO
concentrations in the soil, enabling complete denitrification to N
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ISSN: | 2045-2322 |