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Patterns and drivers of atmospheric inorganic nitrogen deposition in Northeast Asia.

Authors :
Mgelwa, Abubakari Said
Zhu, Feifei
Huang, Dan
Song, Linlin
Wang, Yingying
Gurmesa, Geshere Abdisa
Wang, Ang
Liu, Miao
Huang, Shaonan
Qiu, Qingyan
Sase, Hiroyuki
Zhu, Weixing
Fang, Yunting
Source :
Journal of Environmental Management. Jan2024, Vol. 349, pN.PAG-N.PAG. 1p.
Publication Year :
2024

Abstract

Elevated nitrogen (N) deposition due to intensified emissions of NH 3 and NO x is a global problem with profound consequences on living organisms and the environment. Although N emission rates are currently considered to be high in East Asia, reports on the current N deposition level and composition are still limited, especially in northeastern China, where official N deposition monitoring sites are unavailable. This limits our understanding of the spatio-temporal N deposition patterns and their influencing factors at regional to continental scales. Here, we used data collected mostly during 2019 at 38 sites, comprising 7 sites in northeastern China and 31 EANET (Acid Deposition Monitoring Network in East Asia) sites in middle and east Russia, Mongolia, central and southern China, South Korea and Japan to explore the spatial-seasonal variations and drivers of ammonium and nitrate deposition across the Northeast Asia. Total bulk inorganic N (TIN) deposition was 3.7–24.5 kg N ha−1 yr−1 and NH 4 +-N/NO 3 −-N ratio in the TIN was 0.8–2.8 in northeastern China. The bulk/wet TIN deposition averaged 7.5 kg N ha−1 yr−1 (predominantly in the form of ammonium-N: NH 4 +-N/NO 3 −-N = 1.4) over the Northeast Asia region, with the highest rates being observed in northeastern China (11.6), as well as central and southern China (10.7), followed by east Russia, South Korea and Japan (5.6), and the lowest in middle Russia and Mongolia (1.5). This regional bulk/wet TIN deposition level is about twice of the wet TIN deposition level in Europe and the United States. The TIN deposition in summer and spring was 45–467% higher than in autumn and winter. Out of the ten land uses considered, only agricultural and urban land uses significantly positively correlated with NH 4 +-N and NO 3 −-N deposition rates across all monitored sites. This study suggests that the ongoing agricultural and urban expansions are likely to enhance N deposition and its associated effects across global ecosystems. [Display omitted] • Total inorganic N deposition was 3.7–24.5 kg N ha−1 yr−1 in northeastern China. • TIN deposition ranged 0.4–24.5 and averaged 7.5 kg N ha−1 yr−1 over Northeast Asia. • NH 4 +-N dominated TIN deposition (NH 4 +-N/NO 3 −-N = 1.4) in Northeast Asia. • TIN deposition level in NE Asia is about twice that reported in Europe and the USA. • NH 4 +-N and NO 3 −-N deposition increased with increasing farmland and urban coverage. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
03014797
Volume :
349
Database :
Academic Search Index
Journal :
Journal of Environmental Management
Publication Type :
Academic Journal
Accession number :
173854514
Full Text :
https://doi.org/10.1016/j.jenvman.2023.119343