Stabilization of atmospheric nitrogen deposition in China over the past decade

Stabilization of atmospheric nitrogen deposition in China over the past decade

Increasing atmospheric nitrogen deposition can influence food production, environmental quality and climate change from the regional to global scales. As the largest developing country, China is expected to experience a rapid increase in N deposition. However, the lack of information on dry N deposi...

Full description

Saved in:
Bibliographic Details
Published in:Nature geoscience Vol. 12; no. 6; pp. 424 - 429
Main Authors: Yu, Guirui, Jia, Yanlong, He, Nianpeng, Zhu, Jianxing, Chen, Zhi, Wang, Qiufeng, Piao, Shilong, Liu, Xuejun, He, Honglin, Guo, Xuebing, Wen, Zhang, Li, Pan, Ding, Guoan, Goulding, Keith
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 01-06-2019
Nature Publishing Group
Subjects:
704/106
704/158
704/172/169/824
Climate change
Components
Deposition
Developing countries
Dry deposition
Earth and Environmental Science
Earth Sciences
Earth System Sciences
Environmental quality
Food production
Food quality
Geochemistry
Geology
Geophysics/Geodesy
LDCs
Lichens
Nitrates
Nitrogen
Nitrogen deposition
Regional climates
Regional development
Wet deposition
China
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Increasing atmospheric nitrogen deposition can influence food production, environmental quality and climate change from the regional to global scales. As the largest developing country, China is expected to experience a rapid increase in N deposition. However, the lack of information on dry N deposition limits our understanding of the historical trend of the total N deposition, as well as the main drivers of this trend. Here, we use extensive datasets that include both wet and dry N deposition to evaluate the spatiotemporal variation of N deposition and the changes of its components in China during 1980–2015. Three significant transitions in N deposition in China were observed. First, the total N deposition began to stabilize in 2001–2005, mostly due to a decline in wet NH 4 + deposition. Subsequently, a shift to approximately equal wet and dry N deposition occurred in 2011–2015, accompanied by increasing dry deposition. Finally, the contribution of reduced N components in the deposition decreased due to increasing NO 3 − deposition. These transitions were jointly driven by changes in the socioeconomic structure in China and vigorous controls in N pollution. The three observed important transitions challenge the traditional views about the continuous increase in N deposition in China. Nitrogen deposition in China has been almost constant over the past decade, as decreasing wet deposition has balanced increasing dry deposition, according to analyses of extensive datasets on wet and dry nitrogen depositions in China.
ISSN:1752-0894
1752-0908
DOI:10.1038/s41561-019-0352-4