Enhanced nitrous oxide emissions caused by atmospheric nitrogen deposition in agroecosystems over China

Yang, Yuyu; Liu, Lei; Zhang, Feng; Zhang, Xiuying; Xu, Wen; Liu, Xuejun; Li, Yi; Wang, Zhen; Xie, Yaowen

Enhanced nitrous oxide emissions caused by atmospheric nitrogen deposition in agroecosystems over China

2021

Atmospheric nitrogen (N) deposition in China has been the largest worldwide. Yet the impacts of atmospheric N deposition on soil N₂O emissions were often ignored by previous studies. Thus, we investigated how N deposition affected N₂O emissions over China using the process-based model (DNDC, DeNitrification-DeComposition). Total soil N inputs were 194 kg N ha⁻¹ in agricultural systems over China in 2010, including chemical N fertilizer (78%), atmospheric N deposition (12%), and crop residues N (10%). Annual N₂O emissions induced by N deposition were estimated at 97 Gg N, occupying 43% of total soil N₂O emissions (228 Gg N) in agricultural systems over China. In particular, the largest N₂O emissions caused by atmospheric N deposition were found in South China, followed by North China Plain and Southwest China. The efficiency of N deposition generating N₂O emissions (3.0%) over China was 4 times than that of N fertilizer (0.7%). N₂O emissions induced by N deposition increased from 81 Gg in 2000 to 93 Gg in 2014 (by 1% yr⁻¹), which was consistent with the long-term trend of N deposition. This suggests N deposition accelerated soil N₂O emissions largely contributing to global warming. Our results also indicated that 62% and 10% of soil N₂O emissions were reduced by applying a nitrification inhibitor and N fertilizer with 20% decrease. We highlight the significance of considering N deposition in determining total soil N₂O emissions over China. The results provide an important scientific basis for the prediction of greenhouse effect caused by N deposition over China.

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