1. Nonlinear response of soil ammonia emissions to fertilizer nitrogen.
- Author
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Jiang, Yu, Deng, Aixing, Bloszies, Sean, Huang, Shan, and Zhang, Weijian
- Subjects
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AMMONIA , *POLLUTANTS , *META-analysis , *FERTILIZERS , *CLIMATE change - Abstract
Ammonia (NH) is an important atmospheric pollutant that threatens ecosystem and human health. Synthetic nitrogen (N) fertilizer applications are a major source of atmospheric NH. Most of current bottom-up estimates assume that the NH emission response to increasing N application rates is linear, and thus constant emission factors (EFs) are used. However, increasing evidence suggests that NH emissions increase exponentially with increasing N inputs. In the present study, we conducted a meta-analysis to generalize the relationship between N inputs and NH emissions. Overall, the change in EF per unit of additional N fertilizer input (ΔEF) was positive from 70 experiments with at least three N application rates, suggesting that NH emissions in response to increasing N additions grow at a rate higher than linear. Compared to our ΔEF model, the 10% EF model used by Intergovernmental Panel on Climate Change overestimated NH emissions when fertilizer N is applied at low levels, but underestimated NH emissions when N is applied in excess. Therefore, our results suggest that replacing the constant EF with the N-rate-dependent EF could improve the accuracy of NH emission estimates. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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