Unexpected response of nitrogen deposition to nitrogen oxide controls and implications for land carbon sink

Mingxu Liu; Fang Shang; Xingjie Lu; Xin Huang; Yu Song; Bing Liu; Qiang Zhang; Xuejun Liu; Junji Cao; Tingting Xu; Tiantian Wang; Zhenying Xu; Wen Xu; Wenling Liao; Ling Kang; Xuhui Cai; Hongsheng Zhang; Yongjiu Dai; Tong Zhu

doi:10.1038/s41467-022-30854-y

Unexpected response of nitrogen deposition to nitrogen oxide controls and implications for land carbon sink

Mingxu Liu
, Fang Shang
, Xingjie Lu
, Xin Huang
, Yu Song
, Bing Liu
, Qiang Zhang
, Xuejun Liu
, Junji Cao
, Tingting Xu
, Tiantian Wang
, Zhenying Xu
, Wen Xu
, Wenling Liao
, Ling Kang
, Xuhui Cai
, Hongsheng Zhang
, Yongjiu Dai
, Tong Zhu

School of Human Settlements and Civil Engineering

Research output: Contribution to journal › Article › peer-review

44 Scopus citations

Abstract

Terrestrial ecosystems in China receive the world’s largest amount of reactive nitrogen (N) deposition. Recent controls on nitrogen oxides (NO_x = NO + NO₂) emissions in China to tackle air pollution are expected to decrease N deposition, yet the observed N deposition fluxes remain almost stagnant. Here we show that the effectiveness of NO_x emission controls for reducing oxidized N (NO_y = NO_x + its oxidation products) deposition is unforeseen in Eastern China, with one-unit reduction in NO_x emission leading to only 55‒76% reductions in NO_y-N deposition, as opposed to the high effectiveness (around 100%) in both Southern China and the United States. Using an atmospheric chemical transport model, we demonstrate that this unexpected weakened response of N deposition is attributable to the enhanced atmospheric oxidizing capacity by NO_x emissions reductions. The decline in N deposition could bear a penalty on terrestrial carbon sinks and should be taken into account when developing pathways for China’s carbon neutrality.

Original language	English
Article number	3126
Journal	Nature Communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-30854-y
State	Published - Dec 2022

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Liu, M., Shang, F., Lu, X., Huang, X., Song, Y., Liu, B., Zhang, Q., Liu, X., Cao, J., Xu, T., Wang, T., Xu, Z., Xu, W., Liao, W., Kang, L., Cai, X., Zhang, H., Dai, Y., & Zhu, T. (2022). Unexpected response of nitrogen deposition to nitrogen oxide controls and implications for land carbon sink. Nature Communications, 13(1), Article 3126. https://doi.org/10.1038/s41467-022-30854-y

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title = "Unexpected response of nitrogen deposition to nitrogen oxide controls and implications for land carbon sink",

abstract = "Terrestrial ecosystems in China receive the world{\textquoteright}s largest amount of reactive nitrogen (N) deposition. Recent controls on nitrogen oxides (NOx = NO + NO2) emissions in China to tackle air pollution are expected to decrease N deposition, yet the observed N deposition fluxes remain almost stagnant. Here we show that the effectiveness of NOx emission controls for reducing oxidized N (NOy = NOx + its oxidation products) deposition is unforeseen in Eastern China, with one-unit reduction in NOx emission leading to only 55‒76\% reductions in NOy-N deposition, as opposed to the high effectiveness (around 100\%) in both Southern China and the United States. Using an atmospheric chemical transport model, we demonstrate that this unexpected weakened response of N deposition is attributable to the enhanced atmospheric oxidizing capacity by NOx emissions reductions. The decline in N deposition could bear a penalty on terrestrial carbon sinks and should be taken into account when developing pathways for China{\textquoteright}s carbon neutrality.",

author = "Mingxu Liu and Fang Shang and Xingjie Lu and Xin Huang and Yu Song and Bing Liu and Qiang Zhang and Xuejun Liu and Junji Cao and Tingting Xu and Tiantian Wang and Zhenying Xu and Wen Xu and Wenling Liao and Ling Kang and Xuhui Cai and Hongsheng Zhang and Yongjiu Dai and Tong Zhu",

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AU - Liu, Mingxu

AU - Shang, Fang

AU - Lu, Xingjie

AU - Huang, Xin

AU - Song, Yu

AU - Liu, Bing

AU - Zhang, Qiang

AU - Liu, Xuejun

AU - Cao, Junji

AU - Xu, Tingting

AU - Wang, Tiantian

AU - Xu, Zhenying

AU - Xu, Wen

AU - Liao, Wenling

AU - Kang, Ling

AU - Cai, Xuhui

AU - Zhang, Hongsheng

AU - Dai, Yongjiu

AU - Zhu, Tong

PY - 2022/12

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N2 - Terrestrial ecosystems in China receive the world’s largest amount of reactive nitrogen (N) deposition. Recent controls on nitrogen oxides (NOx = NO + NO2) emissions in China to tackle air pollution are expected to decrease N deposition, yet the observed N deposition fluxes remain almost stagnant. Here we show that the effectiveness of NOx emission controls for reducing oxidized N (NOy = NOx + its oxidation products) deposition is unforeseen in Eastern China, with one-unit reduction in NOx emission leading to only 55‒76% reductions in NOy-N deposition, as opposed to the high effectiveness (around 100%) in both Southern China and the United States. Using an atmospheric chemical transport model, we demonstrate that this unexpected weakened response of N deposition is attributable to the enhanced atmospheric oxidizing capacity by NOx emissions reductions. The decline in N deposition could bear a penalty on terrestrial carbon sinks and should be taken into account when developing pathways for China’s carbon neutrality.

AB - Terrestrial ecosystems in China receive the world’s largest amount of reactive nitrogen (N) deposition. Recent controls on nitrogen oxides (NOx = NO + NO2) emissions in China to tackle air pollution are expected to decrease N deposition, yet the observed N deposition fluxes remain almost stagnant. Here we show that the effectiveness of NOx emission controls for reducing oxidized N (NOy = NOx + its oxidation products) deposition is unforeseen in Eastern China, with one-unit reduction in NOx emission leading to only 55‒76% reductions in NOy-N deposition, as opposed to the high effectiveness (around 100%) in both Southern China and the United States. Using an atmospheric chemical transport model, we demonstrate that this unexpected weakened response of N deposition is attributable to the enhanced atmospheric oxidizing capacity by NOx emissions reductions. The decline in N deposition could bear a penalty on terrestrial carbon sinks and should be taken into account when developing pathways for China’s carbon neutrality.

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SN - 2041-1723

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JO - Nature Communications

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Unexpected response of nitrogen deposition to nitrogen oxide controls and implications for land carbon sink

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